Visual C++ 2010, rvalue reference bug?

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Is it a bug in Visual C++ 2010 or right behaviour?

template<class T>
T f(T const &r)
{
    return r;
}

template<class T>
T f(T &&r)
{
    static_assert(false, "no way"); //< line # 10
    return r;
}

int main()
{
    int y = 4;
    f(y); //< line # 17
}

I thought, the function f(T &&) should never be called but it's called with T = int &. The output:

    main.cpp(10): error C2338: no way
          main.cpp(17) : see reference to function template instantiation 'T f(T)' being compiled
          with
          [
              T=int &
          ]

Update 1 Do you know any C++x0 compiler as a reference? I've tried comeau online test-drive but could not compile r-value reference.

Update 2 Workaround (using SFINAE):

#include <boost/utility/enable_if.hpp>
#include <boost/type_traits/is_reference.hpp>

template<class T>
T f(T &r)
{
    return r;
}

template<class T>
typename ::boost::disable_if< ::boost::is_reference<T>, T>::type f(T &&r)
{
    static_assert(false, "no way");
    return r;
}

int main()
{
    int y = 4;
    f(y);
    // f(5); // generates "no way" error, as expected.
}

Update 3 Some of compilers trigger on static_assert(false, "no way") even if no function template instantiation. Workaround (thanks to @Johannes Schaub - litb)

template<class T> struct false_ { static bool const value = false; };
...
static_assert(false_<T>::value, "no way");

or

static_assert(sizeof(T) == sizeof(T), "no way");
2

There are 2 answers

2
Jan Hudec On BEST ANSWER

As I understand it (and I may not be completely right; the specification is a bit complicated), the template type deduction rules conspire against you.

The compiler first attempts to substitute all templates (it's not choosing at this point yet—just looking for options) and gets:

  • T const &r matches int lvalue with T = int, creating f(int const &)
  • T &&r matches int lvalue with T = int& and int & && reduces to int&, creating f(int &) (there are rules saying this in the spec).

Now it comes to selecting correct overload and the later is better match, because the first differs in cv-qualification and the later does not. That's also the reason why when you remove the const, you get ambiguous overload error—the overloads end up being exactly the same.

Ad Update1: gcc supports many of the C++0x features. You can get native windows build from mingw or use cygwin.

Ad Update2: If you really need separate overloads for rvalue and lvalue, that seems to be the only option. But most templates do the right thing with just any kind of reference, perhaps using std::forward to ensure proper resolution of functions they call depending on whether they got rvalue or lvalue).

1
Johannes Schaub - litb On

Your fix doesn't solve the problem with static_assert firing though. The static_assert(false, ...) will still trigger for compilers that parse templates at definition time (most do).

They will see that any function template instantiation will be ill-formed, and the Standard allows them to issue an error for the template itself then, and most will do so.

For making this work you need to make the expression dependent so that the compiler doesn't know when it parses the template that it will always evaluate to false. For example

template<class> struct false_ { static bool const value = false; };

template<class T>
T f(T &&r)
{
    static_assert(false_<T>::value, "no way"); //< line # 10
    return r;
}