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I got next snippet from microsoft

template <typename T> struct RemoveReference {
     typedef T type;

template <typename T> struct RemoveReference<T&> {
     typedef T type;

template <typename T> struct RemoveReference<T&&> {
     typedef T type;

template <typename T> typename RemoveReference<T>::type&& Move(T&& t) {
    return t;


remote_integer x = frumple(5);
remote_integer&& x1 = Move(x);

and i get an error "error C2440: 'return' : cannot convert from 'remote_integer' to 'remote_integer &&'"

something changed in compilers? With std::move all goes right.

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Move only accepts a rvalue, x is an lvalue. You must use stdmove (lowercase) for it. –  RedX Sep 8 '11 at 13:58
social.msdn.microsoft.com/Forums/en-US/vs2010ctpcpp/thread/… - Jonathan Caves (Visual C++ Compiler Team) write realisation of std::move the same with my Move. And Move i grabbed from microsoft site, link in the question post? and there all right, but in VC10 it doesnt work. –  Yola Sep 8 '11 at 14:06
template <typename T> typename RemoveReference<T>::type&& Move(T&& t) { return (RemoveReference<T>::type&&)t; } - now all works fine, something with type casting here. –  Yola Sep 8 '11 at 14:10
Now i understand your problem, you copied it out of the site. You should use the std::move provided under the utilities header tho. It's implementation is (just like your fix) // TEMPLATE FUNCTION move template<class _Ty> inline typename tr1::_Remove_reference<_Ty>::_Type&& move(_Ty&& _Arg) { return ((typename tr1::_Remove_reference<_Ty>::_Type&&)_Arg); } –  RedX Sep 8 '11 at 14:23
@Red: Move accepts an lvalue and converts it to an xvalue. There is no point in passing an rvalue to move since an rvalue will bind to an rvalue reference without it. –  Potatoswatter Sep 8 '11 at 15:18

1 Answer 1

up vote 3 down vote accepted

The reason your Move doesn't work, is because t is always lvalue (even when T&& resolves to, say, int&&). Even though it might seem weird, named rvalue references are indeed lvalues.

When returning from your Move, you attempt to implicitly bind lvalue to rvalue reference, which is forbidden by standard (§8.5.3). As noted in the comments, you have to cast t explicitly to rvalue reference.

Relevant parts of standard are §5/4 and §5/5, but I'm going to quote note §5/6, which sums this nicely:

In general, the effect of this rule is that named rvalue references are treated as lvalues and unnamed rvalue references to objects are treated as xvalues; rvalue references to functions are treated as lvalues whether named or not.

Correct implementation is indeed:

template <typename T>
typename std::remove_reference<T>::type&& move(T&& t)
  return static_cast<typename std::remove_reference<T>::type&&>(t);

As far as I remember, this code used to be valid in earlier drafts. But since the rules have changed, you have to provide explicit cast now (same applies to std::forward).

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