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I have a code which have to deal with rvalued stl containers. My question is: why member functions which return an element from rvalued-stl-container, like in:

vector<int>{1}.front()

returns lvalue and not rvalue? Standard specifies that member of rvalue object is rvalue. I know that I can explicitly move returned element with std::move. But what is a logic of having lvalue return type when returned value is clearly rvalue?

If you would use such an expression as an argument of some valuness-overloaded function, wrong overload will be selected and called function would get a lvalue reference (soon to become dangling).

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Simply because there are no rvalue overloads for the memberfunctions, like T&& front() &&{ return move(front()); } –  Xeo Feb 1 '13 at 9:56
    
So, than this is STD defect waiting for rvalue-for-this feature to be implemented? –  Leonid Volnitsky Feb 1 '13 at 10:02
    
I dunno if this really counts as a defect in the standard, but you may aswell try a report in the isocpp.org mailing lists. –  Xeo Feb 1 '13 at 10:05
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2 Answers 2

Maybe the addition of outplace_front() and outplace_back() for outbound rvalues would be better names in the spirit of emplace_front() and emplace_back() for inbound rvalues.

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Huh? front() && would move the element, it wouldn't remove it. –  ecatmur Feb 1 '13 at 10:21
    
@ecatmur and the element count of vector would have to be decreased, right? –  TemplateRex Feb 1 '13 at 10:22
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@rhalbersma: No? –  Puppy Feb 1 '13 at 10:22
    
@DeadMG what semantics would outbound rvalue moves have on containers? –  TemplateRex Feb 1 '13 at 10:23
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@rhalbersma sure it can; the moved out element is in an unspecified but valid state. –  ecatmur Feb 1 '13 at 10:43
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Once the compiler has decided to call a particular member function (int &std::vector<int>::front(), say) the type system only knows that an int & is returned, so it has to treat that as an lvalue even though its lifetime is limited to that of the owner temporary.

Before C++11 it was not possible for a member function to be overloaded according to the value category of the object it is being called on (see What is "rvalue reference for *this"?), only on cv-qualification of the object; and a non-const temporary is clearly not const so the non-const overloads must be available.

As well as the potentially dangling lvalue references you've identified, this led in C++03 to the situation where operator<< on a temporary ostream could be called with a char (member function operator) but not with a string (free operator); C++11 fixes this with free operator overloads for rvalue references and rvalue *this overload for member functions.

Rvalue *this allows three overloads for front:

T &front() & { return data_[0]; }
const T &front() const & { return data_[0]; }
T &&front() && { return std::move(data_[0]); }

The different function body for the rvalue overload is a bit of a wart; this is because the ref-qualifier has no effect on member of *this access within the body of a member function.

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That proposal was accepted and is a part of C++11. Clang supports it now, most of the other compilers do not. –  Puppy Feb 1 '13 at 10:21
    
@DeadMG oops, thanks. –  ecatmur Feb 1 '13 at 10:34
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