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  1. What is it?
  2. What does it do?
  3. When should it be used?

Good links are appreciated.

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Bjarne Stroustrup explains move in A Brief Introduction to Rvalue References – DumbCoder Aug 5 '10 at 9:49
Move semantics – Basilevs Sep 11 '14 at 4:12

4 Answers 4

up vote 77 down vote accepted

  1. std::move() is the C++11 way to use move semantics
  2. It converts its argument to a type of rvalue (Type&&)
  3. To move objects

It's a new C++ way to avoid copies. For example, using a move constructor, a std::vector could just copy its internal pointer to data to the new object, leaving the moved object in an incorrect state, avoiding to copy all data. This would be C++-valid.

Try googling for move semantics, rvalue, perfect forwarding.

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Move-semantics require the moved object remain valid, which is not an incorrect state. (Rationale: It still has to destruct, make it work.) – GManNickG Aug 5 '10 at 16:37
@GMan: well, it has to be in a state that is safe to destruct, but, AFAIK, it does not have to be usable for anything else. – Zan Lynx Oct 4 '11 at 19:15
@ZanLynx: Right. Note that the standard library additionally requires moved objects be assignable, but this is only for objects used in the stdlib, not a general requirement. – GManNickG Oct 4 '11 at 19:44
It would swap its pointer, not copy it, I guess. – phresnel Feb 6 '12 at 16:07
-1 "std::move() is the C++11 way to use move semantics" Please fix that. std::move() is not the way to use move semantics, move semantics are performed transparently to the programmer. move its only a cast to pass a value from one point to another where the original lvalue will no longer be used. – Manu343726 Jul 3 '14 at 19:35

You can use move when you need to "transfer" the content of an object somewhere else, without doing a copy (e.g the content is not duplicated, that's why it could be use on some non-copyable objects, like an unique_ptr). It's also possible for an object to take the content of a temporary object without doing a copy (and save a lot of time), with std::move.

This link really helped me out :

I'm sorry if my answer is coming to late, but I was also looking for a good link for the std::move, and I found the links above a little bit "austere".

This put the emphasis on r-value reference, in which context you should use them, and I think it's more detailed, that's why I wanted to share this link here.

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Nice link. I always found the wikipedia article, and other links that I stumbled across rather confusing since they just throw facts at you, leaving it to you to figure out what the actual meaning/rationale is. While "move semantics" in a constructor is rather obvious, all those details about passing &&-values around are not... so the tutorial-style description was very nice. – Christian Stieber Jul 15 '12 at 12:12
+1 for the fantastic link. – OmarOthman May 20 '13 at 14:59

std::move itself doesn't really do much. I thought that it called the moved constructor for an object, but it really just performs a type cast (casting an lvalue variable to an rvalue so that the said variable can be passed as an argument to a move constructor or assignment operator).

So std::move is just used as a precursor to using move semantics. Move semantics is essentially an efficient way for dealing with temporary objects.

Consider Object A = B + C + D + E + F;

This is nice looking code, but E + F produces a temporary object. Then D + temp produces another temporary object and so on. In each normal "+" operator of a class, deep copies occur.

For example

object object::operator + (const object & rhs){
    object temp (*this);
    // logic for adding
return temp;

The creation of the temporary object in this function is useless - these temporary objects will be deleted at the end of the line anyway as they go out of scope.

We can rather use move semantics to "plunder" the temporary objects and do something like

 object & object::operator + (object && rhs){
     // logic to modify rhs directly
 return rhs;

This avoid needless deep copies being made. With reference to the example, the only part where deep copying occurs is now E + F. The rest uses move semantics. The move constructor or assignment operator also needs to be implemented to assign the result to A.

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you spoke about move semantics . you should add to your answer as how std::move can be used because the question asks about that. – Koushik Shetty Jun 5 '13 at 8:01
@Koushik std::move doesnt do much - but is used to implement move semantics. If you don't know about std::move, you probably dont know move semantics either – user929404 Jun 5 '13 at 8:56
"doesnt do much"(yes just a static_cast to to a rvalue reference). what actually does it do and y it does is what the OP asked. you need not know how std::move works but you got to know what move semantics does. furthermore, "but is used to implement move semantics" its the otherway around. know move semantics and you'l understand std::move otherwise no. move just helps in movement and itself uses move semantics. std::move does nothing but convert its argument to rvalue reference, which is what move semantics require. – Koushik Shetty Jun 5 '13 at 9:08
@Koushik feel free to edit my answer – user929404 Jun 5 '13 at 21:41
"but E + F produces a temporary object" - Operator + goes left to right, not right to left. Hence B+C would be first! – Ajay Oct 15 at 7:20

"What is it?"

It "looks like" a function - but I would say it isn't really a function. It's sort of a converter between ways the compiler considers an expression's value.

2. "What does it do?"

The first thing to note is that it doesn't actually move anything.

If you've ever watched Bleach - it does the equivalent of Quincy Seele Schneider's Reishi softening (see also its use in this scene).

Seriously, though, it converts an expression from being an lvalue or pure rvalue (such as a variable you might be using for a long time yet, or a temporary you're passing around for a while, respectively) to being an xvalue. An xvalue tells the compiler:

You can plunder me, move anything I'm holding and use it elsewhere (since I'm going to be destroyed soon anyway)".

in other words, when you use std::move(x), you're allowing yourself (or the compiler) to cannibalize x. So if x has, say, some buffer in memory - after std::move()ing you can use that buffer for whatever else you like.

3. "When should it be used?"

Another way to ask this question is "what would I use/cannibalize an object's resources for?" well, if you're writing application code, you would probably not be messing around a lot with temporary objects created by the compiler. So mainly you would do this in places like constructors, operator methods, STL-algorithm-like functions etc. where objects get created and destroyed automagically alot. Of course, that's just a rule of thumb.

A typical use is 'moving' resources from one object to another instead of copying. @Guillaume links to this page which has a straightforward short example: swapping two objects with less copying.

template <class T>
swap(T& a, T& b) {
    T tmp(a);   // now we have two copies of a
    a = b;      // now we have two copies of b (+ discarded a copy of a)
    b = tmp;    // now we have two copies of tmp (+ discarded a copy of b)

using move allows you to swap the resources instead of copying them around:

template <class T>
swap(T& a, T& b) {
    T tmp(std::move(a));
    a = std::move(b);   
    b = std::move(tmp);

Think of what happens when T is, say, vector<int> of size n. In the first version you read and write 3*n elements, in the second version you basically read and write just the 3 pointers to the vectors' buffers. Of course, class T needs to know how to do the moving; you should have a move-assignment operator and a move-constructor for class T for this to work.

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Bleach, Asian smiley? Please, this is SO, not a blog. – user846250 Nov 27 '14 at 9:06
@user846250: I'll give up the smiley, but the Bleach analogy does hit the spot actually. – einpoklum Nov 28 '14 at 20:03

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