While playing with universal references, I came across this instance where clang and gcc disagree on overload resolution.

#include <iostream>

struct foo {};

template<typename T>
void bar(T&) { std::cout << "void bar(T&)\n"; }

template<typename T>
void bar(T&&) { std::cout << "void bar(T&&)\n"; }

int main()
    foo f;
    bar(f);  // ambiguous on gcc, ok on clang

gcc reports the call above is ambiguous. However, clang selects the T& overload and compiles successfully.

Which compiler is wrong, and why?

Tested the same code on VS2013 Preview, and it agrees with clang; except Intellisense, which is on gcc's side :-)

  • 5
    This is GCC bug 54425. – Casey Jul 31 '13 at 19:49
  • Both intel(13.0.1) and pgi(13.4) compilers also yield an error about that. – Zulan Aug 3 '13 at 12:52

The "universal reference" deduces the parameter to foo&. The first template also deduces the parameter to foo&.

C++ has a partial ordering rule for function templates that makes T& be more specialized than T&&. Hence the first template must be chosen in your example code.

  • 4
    Found the standard reference - from N3691 section § – Praetorian Jul 31 '13 at 19:56

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