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Suppose I have two structs:

struct X {};
struct Y { X x; }

I have functions:

void f(X&);
void f(X&&);

How do I write a function g() that takes Y& or Y&& but perfect forwarding X& or X&& to f(), respectively:

template <typename T>
void g(T&& t) {
  if (is_lvalue_reference<T>::value) {
  } else {

The above code illustrate my intention but is not very scalable as the number of parameters grows. Is there a way make it work for perfect forwarding and make it scalable?

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I think changing is_lvalue_reference<T>::value to is_lvalue_reference<decltype(std::forward<T>(t))>::value will have the semantics you want, but I think your desired semantics are questionable... – ildjarn Dec 20 '11 at 4:08
(Sorry for the botched answer.) I'd say the reason that it doesn't scale is because the design is questionable to begin with. What does it mean to "move" a subobject? In what state does this leave the main object? Even if there were an easy way to write this, it looks like poorly structured code... – Kerrek SB Dec 20 '11 at 4:12

2 Answers 2

up vote 15 down vote accepted
template <typename T>
void g(T&& t) {
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looks good to me – Mooing Duck Dec 22 '11 at 20:40
Much nicer solution, but why exactly does it work? – Pubby Dec 22 '11 at 20:50
@Pubby because is an rvalue. I can think of why it may make sense (if the container has a short lifetime and is an rvalue, the contained object too shares that property), but I'm not familiar with the philosophies and don't know the rationale, so I can't say anything about it. – ᐅ Johannes Schaub - litb ᐊ Dec 22 '11 at 20:58 should be a xvalue actauly. – curiousguy Dec 23 '11 at 2:26
@curi some committe member said so. But then what would he the reason for "rvalue" (the object expression) sometimes staying a prvalue? Against making the member selection an xvalue is the fact that its dynamic type cannot diffe from the static type of the expression. – ᐅ Johannes Schaub - litb ᐊ Dec 23 '11 at 8:35

I think this will work, although I'm not sure:

template<class T, class M>
struct mforward {
  using type = M&&; 
template<class T, class M>
struct mforward<T&, M> {
  using type = M&; 

template <typename T>
void g(T&& t) {
  f(std::forward<typename mforward<T, decltype(t.x)>::type>(t.x));
share|improve this answer
+1 I had to solve nearly this exact problem in libc++. The solution I came up with looked very similar to Pubby's. Not only did I want to "apply" the l/r-valueness of T to M, I also wanted to apply the cv-qualifications of T to M. And I found applications for it beyond data members. For the curious, I called it __apply_cv and it is open source code at: – Howard Hinnant Dec 20 '11 at 14:25
@Howard see my answer for an alternative. Or do I miss something? – ᐅ Johannes Schaub - litb ᐊ Dec 22 '11 at 20:15
Also @Howard talking about cv qualification makes me think about a flaw of this answer. decltype(t.x) only gives you the declared type of x. If T is const, but x was declared as int a then your forward will try to forward things as int& / int&&. You would need to say something like typename remove_reference<decltype((t.x))>::type to take into account the constness of t too. This also takes into account mutable members, but I don't know what move means philosophically to a mutable member of an otherwise const object. – ᐅ Johannes Schaub - litb ᐊ Dec 22 '11 at 20:30
@Johannes: I agree, your solution looks better for this use case. – Howard Hinnant Dec 22 '11 at 23:02
@Howard: What would a case look like where Johannes' solution would not work, but the __apply_cv one would? – Xeo Dec 23 '11 at 4:30

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