Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm new to move semantics in C++11 and I don't know very well how to handle unique_ptr parameters in constructors or functions. Consider this class referencing itself:

#include <memory>

class Base

    typedef unique_ptr<Base> UPtr;

    Base(Base::UPtr n):next(std::move(n)){}

    virtual ~Base(){}

    void setNext(Base::UPtr n)
      next = std::move(n);

  protected :

    Base::UPtr next;


Is this how I should write functions taking unique_ptr arguments?

And do I need to use std::move in the calling code?

Base::UPtr b1;
Base::UPtr b2(new Base());

b1->setNext(b2); //should I write b1->setNext(std::move(b2)); instead?
share|improve this question
Isn't it a segmentation fault as you are calling b1->setNext on a empty pointer? –  balki Jan 9 '13 at 13:04
add comment

4 Answers

up vote 202 down vote accepted

Here are the possible ways to take a unique pointer as an argument, as well as their associated meaning.

By Value

Base(std::unique_ptr<Base> n)
  : next(std::move(n)) {}

In order for the user to call this, they must do one of the following:

Base newBase(std::move(nextBase));
Base fromTemp(std::unique_ptr<Base>(new Base(...));

To take a unique pointer by value means that you are transferring ownership of the pointer to the function/object/etc in question. After newBase is constructed, nextBase is guaranteed to be empty. You don't own the object, and you don't even have a pointer to it anymore. It's gone.

This is ensured because we take the parameter by value. std::move doesn't actually move anything; it's just a fancy cast. std::move(nextBase) returns a Base&& that is an r-value reference to nextBase. That's all it does.

Because Base::Base(std::unique_ptr<Base> n) takes its argument by value rather than by r-value reference, C++ will automatically construct a temporary for us. It creates a std::unique_ptr<Base> from the Base&& that we gave the function via std::move(nextBase). It is the construction of this temporary that actually moves the value from nextBase into the function argument n.

By non-const l-value reference

Base(std::unique_ptr<Base> &n)
  : next(std::move(n)) {}

This has to be called on an actual l-value (a named variable). It cannot be called with a temporary like this:

Base newBase(std::unique_ptr<Base>(new Base)); //Illegal in this case.

The meaning of this is the same as the meaning of any other use of non-const references: the function may or may not claim ownership of the pointer. Given this code:

Base newBase(nextBase);

There is no guarantee that nextBase is empty. It may be empty; it may not. It really depends on what Base::Base(std::unique_ptr<Base> &n) wants to do. Because of that, it's not very evident just from the function signature what's going to happen; you have to read the implementation (or associated documentation).

Because of that, I wouldn't suggest this as an interface.

By const l-value reference

Base(std::unique_ptr<Base> const &n);

I don't show an implementation, because you cannot move from a const&. By passing a const&, you are saying that the function can access the Base via the pointer, but it cannot store it anywhere. It cannot claim ownership of it.

This can be useful. Not necessarily for your specific case, but it's always good to be able to hand someone a pointer and know that they cannot (without breaking rules of C++, like no casting away const) claim ownership of it. They can't store it. They can pass it to others, but those others have to abide by the same rules.

By r-value reference

Base(std::unique_ptr<Base> &&n)
  : next(std::move(n)) {}

This is more or less identical to the "by non-const l-value reference" case. The differences are two things.

  1. You can pass a temporary:

    Base newBase(std::unique_ptr<Base>(new Base)); //legal now..
  2. You must use std::move when passing non-temporary arguments.

The latter is really the problem. If you see this line:

Base newBase(std::move(nextBase));

You have a reasonable expectation that, after this line completes, nextBase should be empty. It should have been moved from. After all, you have that std::move sitting there, telling you that movement has occurred.

The problem is that it hasn't. It is not guaranteed to have been moved from. It may have been moved from, but you will only know by looking at the source code. You cannot tell just from the function signature.

Therefore, my recommendation is this:

  • If you mean for a function to claim ownership of a unique_ptr, take it by value.
  • If you mean for a function to simply use the unique_ptr for the duration of that function's execution, take it by const&. Alternatively, pass a & or const& to the actual type pointed to, rather than using a unique_ptr.
  • If a function may or may not claim ownership (depending on internal code paths), then take it by &&. But I strongly advise against doing this whenever possible.

How to manipulate unique_ptr

You cannot copy a unique_ptr. You can only move it. The proper way to do this is with the std::move standard library function.

If you take a unique_ptr by value, you can move from it freely. But movement doesn't actually happen because of std::move. Take the following statement:

std::unique_ptr<Base> newPtr(std::move(oldPtr));

This is really two statements:

std::unique_ptr<Base> &&temporary = std::move(oldPtr);
std::unique_ptr<Base> newPtr(temporary);

(note: The above code does not technically compile, since non-temporary r-value references are not actually r-values. It is here for demo purposes only).

The temporary is just an r-value reference to oldPtr. It is in the constructor of newPtr where the movement happens. unique_ptr's move constructor (a constructor that takes a && to itself) is what does the actual movement.

If you have a unique_ptr value and you want to store it somewhere, you must use std::move to do the storage.

share|improve this answer
Best answer I've seen in a while. –  GManNickG Nov 13 '11 at 21:36
Needs. More. Upvotes. –  R. Martinho Fernandes Nov 13 '11 at 22:16
You should make it clear that he last two statements are not real compilable C++ (because of the named temporary). –  R. Martinho Fernandes Nov 13 '11 at 22:59
@R.MartinhoFernandes: I'm fairly sure that compiles. Just like with const&, you can use a && to extend the lifetime of a temporary. Plus, std::move doesn't create a temporary; it just returns a && of its argument. –  Nicol Bolas Nov 13 '11 at 23:34
@Nicol: but std::move doesn't name its return value. Remember that named rvalue references are lvalues. ideone.com/VlEM3 –  R. Martinho Fernandes Nov 14 '11 at 0:16
show 3 more comments

Yes you have to if you take the unique_ptr by value in the constructor. Explicity is a nice thing. Since unique_ptr is uncopyable (private copy ctor), what you wrote should give you a compiler error.

share|improve this answer
add comment

Edit: This answer is wrong, even though, strictly speaking, the code works. I'm only leaving it here because the discussion under it is too useful. This other answer is the best answer given at the time I last edited this: How passing a unique_ptr as argument of a constructor or a method?

The basic idea of ::std::move is that people who are passing you the unique_ptr should be using it to express the knowledge that they know the unique_ptr they're passing in will lose ownership.

This means you should be using an rvalue reference to a unique_ptr in your methods, not a unique_ptr itself. This won't work anyway because passing in a plain old unique_ptr would require making a copy, and that's explicitly forbidden in the interface for unique_ptr. Interestingly enough, using a named rvalue reference turns it back into an lvalue again, so you need to use ::std::move inside your methods as well.

This means your two methods should look like this:

Base(Base::UPtr &&n) : next(::std::move(n)) {} // Spaces for readability

void setNext(Base::UPtr &&n) { next = ::std::move(n); }

Then people using the methods would do this:

Base::UPtr objptr{ new Base; }
Base::UPtr objptr2{ new Base; }
Base fred(::std::move(objptr)); // objptr now loses ownership
fred.setNext(::std::move(objptr2)); // objptr2 now loses ownership

As you see, the ::std::move expresses that the pointer is going to lose ownership at the point where it's most relevant and helpful to know. If this happened invisibly, it would be very confusing for people using your class to have objptr suddenly lose ownership for no readily apparent reason.

share|improve this answer
Named rvalue references are lvalues. –  R. Martinho Fernandes Nov 13 '11 at 20:38
are you sure it's Base fred(::std::move(objptr)); and not Base::UPtr fred(::std::move(objptr)); ? –  codablank1 Nov 13 '11 at 20:41
To add to my previous comment: this code won't compile. You still need to use std::move in the implementation of both the constructor and the method. And even when you pass by value, the caller must still use std::move to pass lvalues. The main difference being that with pass-by-value that interface makes it clear ownership will be lost. See Nicol Bolas comment on another answer. –  R. Martinho Fernandes Nov 13 '11 at 20:45
@codablank1: Yes. I'm demonstrating how to use the constructor and methods in base that take rvalue references. –  Omnifarious Nov 13 '11 at 20:45
@R.MartinhoFernandes: Oh, interesting. I suppose that makes sense. I was expecting you to be wrong, but actual testing proved you correct. Fixed now. –  Omnifarious Nov 13 '11 at 20:52
show 7 more comments
Base(Base::UPtr n):next(std::move(n)) {}

should be much better as

Base(Base::UPtr&& n):next(std::forward<Base::UPtr>(n)) {}


void setNext(Base::UPtr n)

should be

void setNext(Base::UPtr&& n)

with same body.

And ... what is evt in handle() ??

share|improve this answer
There's no gain in using std::forward here: Base::UPtr&& is always an rvalue reference type, and std::move passes it as an rvalue. It's already forwarded correctly. –  R. Martinho Fernandes Nov 13 '11 at 20:17
I strongly disagree. If a function takes a unique_ptr by value, then you are guaranteed that a move constructor was called on the new value (or simply that you were given a temporary). This ensures that the unique_ptr variable the user has is now empty. If you take it by && instead, it will only be emptied if your code invokes a move operation. Your way, it is possible for the variable that the user has to not have been moved from. Which makes the user's use of std::move suspect and confusing. Using std::move should always ensure that something was moved. –  Nicol Bolas Nov 13 '11 at 20:19
@NicolBolas: You're right. I will delete my answer because while it works, your observation is absolutely correct. –  Omnifarious Nov 13 '11 at 20:57
add comment

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.