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I have code with the following basic structure

namespace my {
  template<typename> class A;              // forward declaration
  namespace details {
    template<typename T> class B
      const T*const t;
      B(const T*x) : t(x) {}               // non-public constructor
      template<typename> friend class A;   // friend declaration
  template<typename T> class A
    T*const t;
    A(T*x) : t(x) {}
    details::B<T> makeb() const            // offending method:
    { return details::B<T>(t); }           //   calls non-public constructor

which compiled fine under gcc (4.7 & 4.8, using -std=c++11) and icpc (13.1), but not clang (using -std=c++11 -stdlib=libc++), which complains about usage of a non-public constructor (when instantinating the offending method). It turns out that clang is happy if the friend declaration gives the full qualified name, as in

template<typename> friend class my::A;

Is this a bug of clang? I would have thought that any visible symbol in the enclosing namespace my is available without further qualification in the inner namespace my::details. What does the 2011 standard say?

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1 Answer 1

up vote 4 down vote accepted

I think Clang is right: Namespace member definitions [namespace.memdef]

3 Every name first declared in a namespace is a member of that namespace. If a friend declaration in a non-local class first declares a class, function, class template or function template the friend is a member of the innermost enclosing namespace. The name of the friend is not found by unqualified lookup (3.4.1) or by qualified lookup (3.4.3) until a matching declaration is provided in that namespace scope (either before or after the class definition granting friendship). If a friend function or function template is called, its name may be found by the name lookup that considers functions from namespaces and classes associated with the types of the function arguments (3.4.2). If the name in a friend declaration is neither qualified nor a template-id and the declaration is a function or an elaborated-type-specifier, the lookup to determine whether the entity has been previously declared shall not consider any scopes outside the innermost enclosing namespace. [ Note: The other forms of friend declarations cannot declare a new member of the innermost enclosing namespace and thus follow the usual lookup rules. — end note ] [ Example:

// Assume f and g have not yet been declared.
void h(int);
template <class T> void f2(T);
namespace A {
  class X {
    friend void f(X);         // A::f(X) is a friend
    class Y {
      friend void g();        // A::g is a friend
      friend void h(int);     // A::h is a friend
                              // ::h not considered
      friend void f2<>(int);  // ::f2<>(int) is a friend

  // A::f, A::g and A::h are not visible here
  X x;
  void g() { f(x); }          // definition of A::g 
  void f(X) { /* ...  */}     // definition of A::f 
  void h(int) { /* ...  */ }  // definition of A::h
  // A::f, A::g and A::h are visible here and known to be friends

using A::x;

void h() {
  A::X::f(x);      // error: f is not a member of A::X
  A::X::Y::g();    // error: g is not a member of A::X::Y

end example ]

Note the // ::h not considered.

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Hmm. the // ::h not considered is not relevant to my case, as this is a simple non-template stand-alone method, not a template class. What exactly is a template-id and what an elaborated-type-specifier ?? –  Walter Apr 2 '13 at 18:23
A template-id is the f2<> in the example, it always has angle brackets. An elaborated-type-specifier is the case of your example, where the above says "function or elaborated-type-specifier", it is defined in § –  Daniel Frey Apr 2 '13 at 18:37
okay thanks. I filed a bug report with gcc at gcc.gnu.org/bugzilla/show_bug.cgi?id=56820 –  Walter Apr 2 '13 at 21:19

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