// RUN: %clang_cc1 -fsyntax-only -std=c++11 -verify %s // expected-no-diagnostics // Test default template arguments for function templates. template void f0(); template void f0(); void g0() { f0(); // okay! } template int &f1(T); float &f1(...); struct HasValue { static const int value = 17; }; void g1() { float &fr = f1(15); int &ir = f1(HasValue()); } namespace PR16689 { template class tuple { public: template constexpr tuple() {} }; template struct a : public X { using X::X; }; auto x = a >(); } namespace PR16975 { template struct is { constexpr operator bool() const { return false; } }; template struct bar { template ()> bar(T); }; struct baz : public bar<> { using bar::bar; }; baz data{0}; } // rdar://23810407 // An IRGen failure due to a symbol collision due to a default argument // being instantiated twice. Credit goes to Richard Smith for this // reduction to a -fsyntax-only failure. namespace rdar23810407 { // Instantiating the default argument multiple times will produce two // different lambda types and thus instantiate this function multiple // times, which will produce conflicting extern variable declarations. template int f(T t) { extern T rdar23810407_variable; return 0; } template int g(int a = f([] {})); void test() { g(); g(); } } // rdar://problem/24480205 namespace PR13986 { constexpr unsigned Dynamic = 0; template class A { template void m_fn1(); }; class Test { ~Test() {} A<1> m_target; }; }