I was surprised by the fact that GCC does not consider the call to foo() in the following program ambiguous:

#include <iostream>

struct B1 { bool foo(bool) { return true; } };
struct B2 { bool foo(bool) { return false; } };

struct C : public B1, public B2
    using B1::foo;
    using B2::foo;

int main()
    C c;

    // Compiles and prints `true` on GCC 4.7.2 and GCC 4.8.0 (beta);
    // does not compile on Clang 3.2 and ICC 13.0.1;
    std::cout << std::boolalpha << c.foo(true);

The above function call compiles and returns true on GCC 4.7.2 and GCC 4.8.0 (beta), while it won't compile (as I would expect) on Clang 3.2 and ICC 13.0.1.

Is this a case of "no diagnostic required", or is it a bug in GCC? References to the C++11 Standard are encouraged.

  • Build failed on VC11. Ambiguous call error. Feb 26, 2013 at 1:51
  • @MarkGarcia: Yes, it seems only GCC accepts it. The question is whether this is due to a bug or no diagnostic is required for this kind of error.
    – Andy Prowl
    Feb 26, 2013 at 1:51
  • FWIW, g++ 4.4.3 gives an error, but not when using foo in main, but on the usings in C already: ambig.cc:9: error: using declaration 'using B2::foo' conflicts with a previous using declaration
    – us2012
    Feb 26, 2013 at 2:14
  • @us2012: That is indeed what I would expect from any compiler, but it's interesting to see that this behavior changes between versions of the same compiler.
    – Andy Prowl
    Feb 26, 2013 at 2:17
  • @Andy Yeah, I thought it was strange that all of g++4.6, g++4.8, clang3.2, icc13 locate the error in line 18 when trying to call foo rather than in line 9 when the ambiguous using declaration is made.
    – us2012
    Feb 26, 2013 at 2:19

2 Answers 2



In a using-declaration used as a member-declaration, the nested-name-specifier shall name a base class of the class being defined. If such a using-declaration names a constructor, the nested-name-specifier shall name a direct base class of the class being defined; otherwise it introduces the set of declarations found by member name lookup (10.2,


… [ Note: Two using-declarations may introduce functions with the same name and the same parameter types. If, for a call to an unqualified function name, function overload resolution selects the functions introduced by such using-declarations, the function call is ill-formed.


For the purpose of overload resolution, the functions which are introduced by a using-declaration into a derived class will be treated as though they were members of the derived class.

So, the using declarations are legal, but the functions are peers in the same overload set, as you said, and the program is ill-formed.


The call to foo(true) in your program is, as you say, clearly ambiguous; furthermore, it is ambiguous according to the algorithm presented in §10.2 and consequently, it should be flagged on use. (Flagging the using declaration would be incorrect; 10.2(1) clearly states that ambiguous uses of names are flagged on lookup, not on declaration.)

It's interesting to contrast this program with a similar one, which is the subject of a a recognized gcc bug (slightly modified from that bug report to make the parallel clearer):

#include <iostream>

struct A {
   static int foo() {return 1;}
   static int foo(char) { return 2;}

struct B1 : A {
//   using A::foo;
struct B2 : A {
//   using A::foo;

struct C : B1, B2 {
//   using B1::foo;
//   using B2::foo;

int main()
    std::cout << C::foo();

The above program is correct; despite the diamond inheritance, foo is a static member of A, so it is not ambiguous. In fact, gcc compiles it without trouble. However, uncommenting the two instances of using A::foo, which does not change anything about either foo, causes gcc to produce the oddly reduplicated error noted in the bug report. Uncommenting the two using declarations inside C, which presumably triggers the other bug which is the subject of this question, then masks the static function bug and causes the program to compile again.

clang seems to handle all possible variants of this program, for what it's worth.

Finally, note that an explicitly declared foo(bool) within C (in the original program) will win out over any foo(bool) brought into C's scope by using declarations. I suspect that both of these bugs are the result of bad bookkeeping while trying to keep track of the various function declarations in each class's scope and their individual provenance (as a sequence of using declarations and function declarations).

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