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If we have the following:

template <class T>
struct B{
  T data;

struct A{
  int data_array[100];

int main()
  A x;
  const A x_const;

  auto y1 = f(A());
  auto y2 = f(x);
  auto y3 = f(x_const);
  auto y4 = f(std::move(x));

I want to know an f (preferably function, but macro is okay also) such that:

decltype(y1) == B<A>
decltype(y2) == B<A&>
decltype(y3) == B<const A&>
decltype(y4) == B<A&&>

That is, f perfectly forwards x into an object of B.

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What for? –  GManNickG Jun 9 '11 at 2:09
You can choose function overloading as the last resort. :) –  iammilind Jun 9 '11 at 2:21

3 Answers 3

This is impossible. For y1 and y4, then they both take rvalues of type A, but you want them to return different types. How should f know what to return?

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Well, decltype(A()) is A but decltype(std::move(A())) is A&&, so there is some difference. –  HighCommander4 Jun 9 '11 at 2:09
@HighCommander4: They're both rvalues. There's no reference or other language construct that can discriminate between A and an unnamed A&&- indeed, it's half the point that you can't. –  Puppy Jun 9 '11 at 4:07
@HighCommander4 The difference in question is that one is a prvalue and the other is an xvalue. Since argument passing allows discriminating between lvalues and rvalues only, it is indeed impossible to detect the difference inside a function (and this is by design). –  Luc Danton Jun 9 '11 at 4:44
template <typename T>
auto f(T&& t) -> B<decltype(std::forward<T>(t))>
    return B<decltype(std::forward<T>(t))>{std::forward<T>(t)};

This does almost what you want. The only difference is for the first one the type is B<A&&> rather than B<A>.

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auto y1 = f(A());
auto y4 = f(std::move(x));

Will not be distinguishable, as A() produce a temporary which will bind to A&&.

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