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Here is some C++ code:

namespace A {

int f(int x) { return 0; }
int f(long x) { return 1; }

template<class T> int g(T x) {
  return f(x);
}

}

namespace B {
struct C {};
}

namespace A {
int f(B::C x) { return 2; }
}

void h() {
  A::g(B::C());
}

In namespace A, the code declares a few overloads of a function f, and a templated function g which calls f. Then we declare a new type in namespace B and overload f for the new type in namespace A. Compiling with g++ 4.2 gives

order.cpp: In function ‘int A::g(T) [with T = B::C]’:
order.cpp:21:   instantiated from here
order.cpp:7: error: no matching function for call to ‘f(B::C&)’
order.cpp:3: note: candidates are: int A::f(int)
order.cpp:4: note:                 int A::f(long int)

The code works if I do any of the following:

  1. Remove the namespaces.
  2. Move the overload of f for B::C into namespace B (thanks to Koenig lookup).
  3. Move the declaration of B::C and its f overload above the definition of g().

I'm particularly puzzled by (3), since I was under the impression that overload resolution should be independent of the order of declarations. Is this expected C++ behavior?

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2  
It's a great question, and here are three simplified examples of the same: 1) fails: ideone.com/MSQHk 2) remove int f(int); and it compiles: ideone.com/W1jZA 3) move template to the top and it compiles again: ideone.com/zbedP –  Gene Bushuyev Dec 3 '11 at 0:29
1  
It's getting even more interesting. Looks like gcc 4.5.1 is not without bugs either. Comeau rejects both 2) and 3) examples, as well as when put in global namespace, but it does find f in B with ADL. –  Gene Bushuyev Dec 3 '11 at 0:52
    
Interestingly, the code compiles and runs fine in MSVS 2010. –  James Leonis Dec 7 '11 at 18:24

2 Answers 2

up vote 3 down vote accepted

Clang gives the following error message, which gives some clues to the problem:

$ clang -fsyntax-only test.cc -Wall
test.cc:7:10: error: call to function 'f' that is neither visible in the
      template definition nor found by argument-dependent lookup
  return f(x);
         ^
test.cc:21:3: note: in instantiation of function template specialization
      'A::g<B::C>' requested here
  A::g(B::C());
  ^
test.cc:17:5: note: 'f' should be declared prior to the call site or in
      namespace 'B'
int f(B::C x) { return 2; }
    ^
1 error generated.

Specifically, you've run into a detail of two-phase lookup of dependent names in template definitions. In C++98, [temp.dep.candidate] says:

For a function call that depends on a template parameter, if the function name is an unqualified-id but not a template-id, the candidate functions are found using the usual lookup rules (3.4.1, 3.4.2) except that:

  • For the part of the lookup using unqualified name lookup (3.4.1), only function declarations with external linkage from the template definition context are found.
  • For the part of the lookup using associated namespaces (3.4.2), only function declarations with external linkage found in either the template definition context or the template instantiation context are found.

Since A::f(B::C x) isn't found using associated namespaces (i.e. argument-dependent lookup), it has to be visible at the template definition site, not just at the point of instantiation.

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For instance

int f(int x) { return 0; }
int f(long x) { return 1; }

functions are not template functions (i.e. they don't have a template <class T> before them. T is a template parameter.) Therefore they can be compiled on the fly when the templated code is reached.

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This is irrelevant. They will be compiled anyway. The question is, how is the compiler supposed to resolve the call in g. –  UncleBens Dec 3 '11 at 0:09
    
@UncleBens: (Commenting here because my answer is deleted): You're right, I was overly simplistic in my understanding. I've deleted my answer because it's wrong, but I don't have time for the rest of the day to fix it up, so please feel free to hi-jack & correct it as your own. :) –  GManNickG Dec 3 '11 at 1:08
    
@UncleBens: Somebody was asking for clarification on "everything that is not a template". So that's why I added this answer, though the comment seems to be deleted now. –  Furkan Kıraç Dec 3 '11 at 12:24

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