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Can someone please explain move semantics to me?

I recently attended a C++11 seminar and the following tidbit of advice was given.

when you have && and you are unsure, you will almost always use std::move

Could any one explain to me why you should use std::move as opposed to some alternatives and some cases when you should not use std::move?

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marked as duplicate by fredoverflow, Mark B, Ali, Nicol Bolas, 0x499602D2 Jan 23 '13 at 20:41

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

@XavierHolt Just hit me: not a logical operator. –  Michael Todd Jan 23 '13 at 18:10
You definitely want to watch Scott Meyers - Universal References in C++11. –  fredoverflow Jan 23 '13 at 18:34

4 Answers 4

up vote 42 down vote accepted

First, there's probably a misconception in the question I'll address:
Whenever you see T&& t in code (And T is an actual type, not a template type), keep in mind the value category of t is an lvalue(reference), not an rvalue(temporary) anymore. It's very confusing. The T&& merely means that t can be constructed from a an object that was an rvalue 1, but t itself is an lvalue, not an rvalue. If it has a name (in this case, t) then it's an lvalue and won't automatically move, but if it has no name (the result of 3+4) then it is an rvalue and will automatically move into it's result if it can. The type (in this case T&&) has almost nothing to do with the value category of the variable (in this case, an lvalue).

That being said, if you have T&& t written in your code, that means you have a reference to a variable that was a temporary, and it is ok to destroy if you want to. If you need to access the variable multiple times, you do not want to std::move from it, or else it would lose it's value. But the last time you acccess t it is safe to std::move it's value to another T if you wish. (And 95% of the time, that's what you want to do)

1. if T is a template type, T&& is a universal reference instead, in which case you use std::forward<T>(t) instead of std::move(t) the last time. See this question

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ah ha! thats what i was looking for the universal reference case! –  pyCthon Jan 23 '13 at 18:31
@pyCthon: for universal references you want to use std::forward<T>(t) instead of std::move(t) the last time. –  Mooing Duck Jan 23 '13 at 18:34
One thing to keep in mind that if you see a named variable then it doesn't matter if it is declared as && ("rvalue") & (reference) or `` (copy) - it is always considered an lvalue. You can think of true rvalue references as temporary stuff that can be only returned from a function (your own, or wrapped in std::move() which - in the nutshell - returns the argument). –  Red XIII Jan 23 '13 at 19:53
@Macke: With a universal reference you don't know if it's an rvalue or an lvalue, so you don't know if you need to std::move it or not. std::forward is the same as std::move if the input was an rvalue, and does nothing if the input was an lvalue, so you always get the correct mechanism. See this question. –  Mooing Duck Jan 30 '13 at 17:16
@G.Samaras: rvalues are the unnamed results of expressions (functions and math operations).For instance, the result of myintx + myinty is itself an int,but has no name, so it would be an rvalue. You can pass this to a function expecting an rvalue (&&), but you could not pass it to a function expecing an lvalue reference (&). Likewise, you can't pass myintx to a function expecting an rvalue (&&) because it has a name. To "unname" an object, to tell the compiler it's safe to move that object, use the std::move function. –  Mooing Duck May 18 at 19:06

I found this article to be pretty enlightening on the subject of rvalue references in general. He mentions std::move towards the end. This is probably the most relevant quote:

We need to use std::move, from <utility> -- std::move is a way of saying, "ok, honest to God I know I have an lvalue, but I want it to be an rvalue." std::move does not, in and of itself, move anything; it just turns an lvalue into an rvalue, so that you can invoke the move constructor.

Say you have a move constructor that looks like this:

MyClass::MyClass(MyClass&& other): myMember(other.myMember)
    // Whatever else.

When you use the statement other.myMember, the value that's returned is an lvalue. Thus the code uses the copy constructor to initialize this->myMember. But since this is a move constructor, we know that other is a temporary object, and therefore so are its members. So we really want to use the more-efficient move constructor to initialize this->myMember. Using std::move makes sure that the compiler treats other.myMember like an rvalue reference and calls the move constructor, as you'd want it to:

MyClass::MyClass(MyClass&& other): myMember(std::move(other.myMember))
    // Whatever else.

Just don't use std::move on objects you need to keep around - move constructors are pretty much guaranteed to muck up any objects passed into them. That's why they're only used with temporaries.

Hope that helps!

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When you have an object of type T&&, a rvalue, it means that this object is safe to be moved, as no one else will depend on its internal state later.

As moving should never be more expensive than copying, you will almost always want to move it. And to move it, you have to use the std::move function.

When should you avoid std::move, even if it would be safe? I wouldn't use it in trivial examples, e.g.,:

 int x = 0;
 int y = std::move(x);

Beside that, I see no downsides. If it does not complicate the code, moving should be done whenever possible IMHO.

Another example, where you don't want to move are return values. The language guarantees that return values are (at least) moved, so you should not write

return std::move(x); // not recommended

(If you are lucky, return value optimization hits, which is even better than a move operation.)

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Scott Meyers argues that you should even move primitive types. –  fredoverflow Jan 23 '13 at 18:35
@FredOverflow Interesting. Does he explain that in his C++ and Beyond 2012 talk? I can only think of using it as some kind of documentation but I'm not quite convinced that it is a good idea. –  Philipp Claßen Jan 23 '13 at 18:39
He explains it in his talk I linked to as a comment to the question. He says "You should do this without even thinking about it". But just because Scott Meyers says it, doesn't mean it's the ultimate truth everybody has to adhere to without questioning it, of course. –  fredoverflow Jan 23 '13 at 18:54

You can use move when you need to "transfer" the content of an object somewhere else, without doing a copy. It's also possible for an object to take the content of a temporary object without doing a copy, with std::move.

Checkout this link

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"Checkout this link" is not a good label for a link. Can you improve it so that the label describes the thing being linked to? –  Lightness Races in Orbit Jan 11 at 16:42

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