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 know that a certain object is only ever created as a temporary object (it's a private member object within a library). Sometimes, that object is further initialized by chaining member functions together (TempObj().Init("param").Init("other param")). I would like to enable move construction for another object using that temporary instance, and so I was wondering if there was anything incorrect about return std::move(*this).

struct TempObj
    TempObj &&Member() { /* do stuff */ return std::move(*this); }

struct Foo
    Foo(TempObj &&obj);

// typical usage:
Foo foo(TempObj().Member());

Is it functionally equivalent to this?

struct TempObj
    TempObj(TempObj &&other);
    TempObj Member() { /* do stuff */ return *this; }

Foo foo(TempObj().Member());
share|improve this question

1 Answer 1

up vote 3 down vote accepted

With move semantics, you don't want (or need) to return r-value references from functions ... r-value references are there to "capture" unnamed values or memory addresses. When you return a r-value reference to an object that is in-fact an l-value from the standpoint of the caller, the semantics are all wrong, and you create the opportunity for needless surprises to arise when others are using your object's methods.

In other words, it would be better to orient your code to look like this:

Foo foo(std::move(TempObj().Member()));

and have TempObj::Member simply return a l-value reference. This makes the move explicit, and there are no suprises involved for someone using your object's methods.

Finally, no, it's not functionally or semantically equivalent to your last example. There you are actually making a temporary copy of the object, and that copy will be an r-value object (i.e., an unamed object in this scenario) ... since the assumption with r-value references is that the object is either an unamed value or object, and it can therefore be harmlessly modified by a function you pass it to that takes an r-value reference argument. On the other-hand, if you've passed a copy of an object to a function, then the function cannot modify the original. It will simply modify the referenced temporary r-value, and when the function exits, the temporary r-value copy of the object will be destroyed.

share|improve this answer
Regarding your last paragraph, what if TempObj has a move constructor? Does that change what you wrote? Edit: adding to question for complete clarity. –  moswald Oct 17 '12 at 19:48
Also, you're right. While it might not be illegal, it's certainly not "correct" from the caller's standpoint. Right now, my real-world TempObj equivalent is private to the library, but who knows what the future will bring. I'm just trying to avoid the work required to find all instances of TempObj().Member() and wrap them in a call to std::move by doing this, but I should just bite the bullet and start find-and-replacing. –  moswald Oct 17 '12 at 19:52
@moswald: "Does that change what you wrote?" No. *this is not a temporary or a variable going out of scope. Therefore, it cannot bind to an && parameter (such as in a constructor). That's why you need to use std::move there to explicitly move it. You can't implicitly move from *this or from *InserVariableName of any kind. –  Nicol Bolas Oct 17 '12 at 20:02
@NicolBolas Makes sense, thanks. –  moswald Oct 17 '12 at 20:07
The correct way would actually be to have an rvalue overload TempObj Member() &&{ ... return std::move(*this); aswell as an lvalue overload TempObj Member() const&( auto copy(*this); /* modify the copy */ return copy; } –  Xeo Oct 19 '12 at 15:30

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.