With the following code g++ fails:

template <typename X = int, typename T, typename ...R>
    inline void func(const T&, R...) {}

template <typename T>
    struct S {};

template <typename X = int, typename T, typename ...R>
    inline void func(const S<T>&, R...) {}

int main() {
    func(S<int>()); // OK
    func(S<int>(), 1); // NOK
    func<int>(S<int>(), 1); // NOK


<source>: In function 'int main()':
<source>:13:21: error: call of overloaded 'func(S<int>, int)' is ambiguous
     func(S<int>(), 1); // NOK
<source>:13:21: note: candidates are:
<source>:2:17: note: void func(const T&, R ...) [with X = int; T = S<int>; R = {int}]
     inline void func(const T&, R...) {}
<source>:8:17: note: void func(const S<T>&, R ...) [with X = int; T = int; R = {int}]
     inline void func(const S<T>&, R...) {}
<source>:14:26: error: call of overloaded 'func(S<int>, int)' is ambiguous
     func<int>(S<int>(), 1); // NOK

Reproducible with gcc v4.8.1 and v9.1. Compiles with clang (v3.0.0 and v8.0.0), icc (v13.0.1 and v19.0.1), msvc (v19.14 and v19.20).
Is the code valid or is this a bug in gcc?

EDIT: Thanks everyone, your feedback was helpful for me. FYI, bug 90642 has been filed; looking forward for a definite answer.

  • 3
    There is no partial specialization of function templates in C++. Only full specialization and overloading. – StoryTeller May 25 at 8:53
  • 2
    You don't specialize the function, you overload it. And the compiler can't distinguish between the two overloads for the arguments you pass. – Some programmer dude May 25 at 8:55
  • Thanks, I meant gcc is failing to specialize. I understand what you mean, but then why func(S<int>()) is OK and func(S<int>(), 1) not? – oknenavin May 25 at 8:59
  • fti clang compiles gcc does not, live: godbolt.org/z/p1HsRC – Richard Critten May 25 at 9:04
  • 2
    Looks like a bug to me. If you remove the useless and inconsequential typename X = int, it compiles. There is no reason why one should be valid and the other should not. – n.m. May 25 at 9:08

Interesting question. I think what you run into here is overload resolution, more specifically partial ordering rules for template specialization

I quote:

Informally "A is more specialized than B" means "A accepts fewer types than B".

I think the clang is correct to compile that and the resulution should take the second candiate

template <typename X = int, typename T, typename ...R>
    inline void func(const S<T>& t, R... p) {}

Because in case the first argument is not of type S<T>, it is no longer viable and thus more specialized.

  • do you think it's worth filling a bug? – oknenavin May 25 at 9:14
  • I am not 100% sure either. I think its worth at least to get another opinion what the correct behavior is ;) – maow May 25 at 9:18
  • 1
    @oknenavin I think too that this is a bug. Maybe related to this one: gcc.gnu.org/bugzilla/show_bug.cgi?id=41958 but still a different one. The bug vanish without the defaulted template parameter. – Oliv May 25 at 13:31
  • @Oliv Thanks. I thought it's a bug from the beginning, but it's complex subject and I'm not sure. I found this while working on an evolution of existing code base (github.com/oknenavin/cxon), and unfortunately, this default template parameter is part of the interface. I'm going to fill a bug, but I still wait for account (gcc/bugzilla). – oknenavin May 25 at 17:52

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