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Under MSVC2010 the definition of move constructor for vector class is the following :

vector(_Myt&& _Right)
    : _Mybase(_Right._Alval)
    {   // construct by moving _Right
    _Assign_rv(_STD forward<_Myt>(_Right));

As there is also a definition of a copy constructor, I guess we never call vector(_Myt&& _Right) with a lvalue reference as argument.

So I'm wondering if here, this line :

_Assign_rv(_STD forward<_Myt>(_Right));

could be replace by :

_Assign_rv(_STD move<_Myt>(_Right));

with no side effect

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+1 for exploring your STL. It's hard work, but understanding comes at a price. – Matthieu M. May 30 '12 at 12:08
up vote 4 down vote accepted

Yes, for a type without reference qualifiers T, both std::forward<T> and std::forward<T&&> are just fancy ways of saying std::move.

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This is the first time I see this assertion and, if true it may clarify many use cases. So for example in this expression template<class T> fun(T&& t){ ... }, is T guaranteed to be "without reference qualifiers"? if so why then usually std::forward<T>(t) appears in the body of these type of functions (instead of a simpler std::move(t))? – alfC Oct 24 '13 at 5:43
@alfC No, it isn't guaranteed to be "without reference qualifiers". If so, then an rvalue was passed in. If an lvalue was passed in, T will be U& and reference collapsing turns U& && into U&. You can read more about this if you search for "universal references c++" – R. Martinho Fernandes Oct 24 '13 at 8:54
So that is why, when forwarding a "universal reference" (to do perfect forward) it is necessary to do it with std::forward<T>(t), (in case the lvalue is passed.) – alfC Oct 24 '13 at 19:42

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