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The beginning of of N3797 said:

If the nested-name-specifier of a qualified-id nominates a class, the name specified after the nested-name-specifier is looked up in the scope of the class (10.2), except for the cases listed below.

and one of this rules is:

the lookup for a name specified in a using-declaration (7.3.3) also finds class or enumeration names hidden within the same scope (3.3.10).

Can you get an example to demonstrate that rule?

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2 Answers 2

up vote 1 down vote accepted

I believe this is what the standard provides:

struct A {
  struct s {} s;
  enum e { e };
struct B: A {
  using A::s;
  using A::e;
struct B::s s2;
enum B::e e2;

The using-declarations in the scope of B bring into scope the class and enumeration names A::s and A::e, even though they are hidden by a member and enumerator respectively.

Note that the using-declarations also bring into scope the member and enumerator, so the class and enumeration are still hidden within the scope of B; this means that to use them within B or elsewhere we need to use the struct and enum tags.

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I don't think this is it, remove using A::{s,e} from within B and the snippet will still be legal, because of [class.member.lookup]p5 (stating that the Base is searched if a name isn't introduced in Derived). Or is that the point of the whole section, not making a using-declaration forget about the other names in the base? – Filip Roséen - refp Jun 9 '14 at 17:05
I guess that could be it.. – Filip Roséen - refp Jun 9 '14 at 17:06

In the following code B::m_s hides A::m_s in C. But it can be made directly accessible via using A::m_s.

To see the difference comment out the using-directive.

#include <iostream>
#include <string>

struct A {
    std::string m_s;
    A() :
        m_s("I am A::m_s")

struct B: A {
    std::string m_s;

    B() :
        m_s("I am B::m_s")

struct C: B {
    using A::m_s;


int main() {
    C c;
    std::cout << '\n' << c.C::m_s << '\n';

    Local Variables:
    compile-command: "g++ -g -o a.exe && ./a.exe"
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