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The C++11 std::move(x) function doesn't really move anything at all. It is just a cast to r-value. Why was this done? Isn't this misleading?

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To make matters worse, the three-argument std::move actually moves.. –  Cubbi Jan 26 at 2:40
    
And don't forget about the C++98/03/11 std::char_traits::move :-) –  Howard Hinnant Jan 26 at 4:27
8  
My other favorite is std::remove() which doesn't remove the elements: You still have to call erase() to actually remove those elements from the container. So move doesn't move, remove doesn't remove. I would have picked the name mark_movable() for move. –  Ali Jan 26 at 11:59

2 Answers 2

up vote 50 down vote accepted

It is correct that std::move(x) is just a cast to rvalue - more specifically to an xvalue, as opposed to a prvalue. And it is also true that having a cast named move sometimes confuses people. However the intent of this naming is not to confuse, but rather to make your code more readable.

The history of move dates back to the original move proposal in 2002. This paper first introduces the rvalue reference, and then shows how to write a more efficient std::swap:

template <class T>
void
swap(T& a, T& b)
{
    T tmp(static_cast<T&&>(a));
    a = static_cast<T&&>(b);
    b = static_cast<T&&>(tmp);
}

One has to recall that at this point in history, the only thing that "&&" could possibly mean was logical and. No one was familiar with rvalue references, nor of the implications of casting an lvalue to an rvalue (while not making a copy as static_cast<T>(t) would do). So readers of this code would naturally think:

I know how swap is supposed to work (copy to temporary and then exchange the values), but what is the purpose of those ugly casts?!

Note also that swap is really just a stand-in for all kinds of permutation-modifying algorithms. This discussion is much, much bigger than swap.

Then the proposal introduces syntax sugar which replaces the static_cast<T&&> with something more readable that conveys not the precise what, but rather the why:

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

I.e. move is just syntax sugar for static_cast<T&&>, and now the code is quite suggestive as to why those casts are there: to enable move semantics!

One must understand that in the context of history, few people at this point really understood the intimate connection between rvalues and move semantics (though the paper tries to explain that as well):

Move semantics will automatically come into play when given rvalue arguments. This is perfectly safe because moving resources from an rvalue can not be noticed by the rest of the program (nobody else has a reference to the rvalue in order to detect a difference).

If at the time swap was instead presented like this:

template <class T>
void
swap(T& a, T& b)
{
    T tmp(cast_to_rvalue(a));
    a = cast_to_rvalue(b);
    b = cast_to_rvalue(tmp);
}

Then people would have looked at that and said:

But why are you casting to rvalue?

As it was, using move, no one ever asked:

But why are you moving?

As the years went on and the proposal was refined, the notions of lvalue and rvalue were refined into the value categories we have today:

Taxonomy

(image shamelessly stolen from dirkgently)

And so today, if we wanted swap to precisely say what it is doing, instead of why, it should look more like:

template <class T>
void
swap(T& a, T& b)
{
    T tmp(set_value_category_to_xvalue(a));
    a = set_value_category_to_xvalue(b);
    b = set_value_category_to_xvalue(tmp);
}

And the question everyone should be asking themselves is if the above code is more or less readable than:

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

Or even the original:

template <class T>
void
swap(T& a, T& b)
{
    T tmp(static_cast<T&&>(a));
    a = static_cast<T&&>(b);
    b = static_cast<T&&>(tmp);
}

In any event, the journeyman C++ programmer should know that under the hood of move, nothing more is going on than a cast. And the beginner C++ programmer, at least with move, will be informed that the intent is to move from the rhs, as opposed to copy from the rhs, even if they don't understand exactly how that is accomplished.

Additionally, if a programmer desires this functionality under another name, std::move possesses no monopoly on this functionality, and there is no non-portable language magic involved in its implementation. For example if one wanted to code set_value_category_to_xvalue, and use that instead, it is trivial to do so:

template <class T>
inline
constexpr
typename std::remove_reference<T>::type&&
set_value_category_to_xvalue(T&& t) noexcept
{
    return static_cast<typename std::remove_reference<T>::type&&>(t);
}

In C++14 it gets even more concise:

template <class T>
inline
constexpr
auto&&
set_value_category_to_xvalue(T&& t) noexcept
{
    return static_cast<std::remove_reference_t<T>&&>(t);
}

So if you are so inclined, decorate your static_cast<T&&> however you think best, and perhaps you will end up developing a new best practice (C++ is constantly evolving).

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1  
While it's nice that we can give it another name, the rest of the world won't recognize it. :/ –  Xeo Jan 26 at 1:31
4  
Here's a dot source for that graph: I recreated it digraph D { glvalue -> { lvalue; xvalue } rvalue -> { xvalue; prvalue } expression -> { glvalue; rvalue } } for the public good :) Download it here as SVG –  sehe Jan 26 at 1:41
3  
Is this still open to bikeshedding? I'd suggest allow_move ;) –  dyp Jan 26 at 2:07
2  
@dyp My favorite is still movable. –  Daniel Frey Jan 26 at 10:15
3  
Scott Meyers suggested renaming std::move to rvalue_cast: youtube.com/… –  nairware Jan 26 at 18:42

Let me just leave here a quote from the C++11 FAQ written by B. Stroustrup, which is a direct answer to OP's question:

move(x) means "you can treat x as an rvalue". Maybe it would have been better if move() had been called rval(), but by now move() has been used for years.

By the way, I really enjoyed the FAQ - it's worth reading.

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protected by lpapp Apr 27 at 13:03

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