2

Assume I have some templated class

template <typename T>
struct Dummy {
    // ...
};

And I want to overload a function 'foo' such that it accepts a lvalue or rvalue reference of it. I can do this using some IsDummy trait as follows:

template <typename A>
std::enable_if<IsDummy<A>::value, void>
foo(A &&dummy)
{
    // ....
}

IIRC in some C++11 draft it was legal that

template <typename A>
foo(Dummy<A> &&dummy)
{
    // ....
}

would accept both, lvalue- and value- references.

Now my questions:

  • a) Is it correct that it was allowed in some draft?

  • b) Why was this feature/bug removed? I think I read somewhere that it was due to a conflict with "concepts".

However, I can't find appropriate references for this any more. Does somebody have a better memory or bookmarks?

2
  • I dug through the mailing lists of the C++ committee, and found out that the two features were roughly added at the same time by the same authors, as they were considered tightly coupled problems. See N1377 and N1385. As such, I don't think a) is true.
    – Xeo
    Oct 3, 2012 at 0:09
  • Of course, I didn't mean to say "added" but "proposed", but oh well...
    – Xeo
    Oct 3, 2012 at 1:04

2 Answers 2

3

a) Is it correct that it was allowed in some draft?

Yes, it was allowed in what is known as "rvalue references 1.0" (see N2118).

b) Why was this feature/bug removed? I think I read somewhere that it was due to a conflict with "concepts".

It was removed because binding an rvalue reference to an lvalue could lead to a violation of the "Principle of Type-safe Overloading" in the presence of Concepts:

Every function must be type-safe in isolation, without regard to how it has been overloaded.

For example, if we define the following overloads:

template< CopyConstructible T > void f( T const & t ); // #1
template< MoveConstructible T > void f( T && t );      // #2

Then calling f with a copyable lvalue would select #1. However, if T is a non-copyable type (e.g. std::unique_ptr) then #1 is not a viable overload so the compiler must select #2, possibly stealing resources from an lvalue without warning.

See "rvalue references 2.0" (N2844) for more details.

0
0

Having the info from Andrew's answer I also found some very readable article on the subject (rvalue-/lvalue-references), which also gives references to how things evolved in this matter.

2
  • Just be aware that the article is based entirely on "rvalue references 1.0" and includes examples of binding rvalue references to lvalues. See here for a more up to date article by the same author. Oct 3, 2012 at 20:45
  • Sure, but finding information about the final standard is not the problem. Such "historical notes" about "value references 1.0" were exactly what I was looking (and asking) for. And it actually seems that most people have forgotten that they ever existed (as the deleted answers to my question would prove). In my opinion understanding the evolution process of the C++11 standard is important and interesting. Oct 3, 2012 at 20:57

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.