// Header for PCH test cxx-templates.cpp template <typename T1, typename T2> struct S; template <typename T1, typename T2> struct S { S() { } static void templ(); }; template <typename T> struct S<int, T> { static void partial(); }; template <> struct S<int, float> { static void explicit_special(); }; template <int x> int tmpl_f2() { return x; } template <typename T, int y> T templ_f(T x) { int z = templ_f<int, 5>(3); z = tmpl_f2<y+2>(); T data[y]; return x+y; } void govl(int); void govl(char); template <typename T> struct Unresolv { void f() { govl(T()); } }; template <typename T> struct Dep { typedef typename T::type Ty; void f() { Ty x = Ty(); T::my_f(); int y = T::template my_templf<int>(0); ovl(y); } void ovl(int); void ovl(float); }; template<typename T, typename A1> inline T make_a(const A1& a1) { T::depend_declref(); return T(a1); } template <class T> class UseBase { void foo(); typedef int bar; }; template <class T> class UseA : public UseBase<T> { using UseBase<T>::foo; using typename UseBase<T>::bar; }; template <class T> class Sub : public UseBase<int> { }; template <class _Ret, class _Tp> class mem_fun_t { public: explicit mem_fun_t(_Ret (_Tp::*__pf)()) {} private: _Ret (_Tp::*_M_f)(); }; template<unsigned N> bool isInt(int x); template<> bool isInt<8>(int x) { try { ++x; } catch(...) { --x; } return true; } template<typename _CharT> int __copy_streambufs_eof(_CharT); class basic_streambuf { void m() { } friend int __copy_streambufs_eof<>(int); }; // PR 7660 template<typename T> struct S_PR7660 { void g(void (*)(T)); }; template<> void S_PR7660<int>::g(void(*)(int)) {} // PR 7670 template<typename> class C_PR7670; template<> class C_PR7670<int>; template<> class C_PR7670<int>; template <bool B> struct S2 { static bool V; }; extern template class S2<true>; template <typename T> struct S3 { void m(); }; template <typename T> inline void S3<T>::m() { } template <typename T> struct S4 { void m() { } }; extern template struct S4<int>; void S4ImplicitInst() { S4<int> s; s.m(); } struct S5 { S5(int x); }; struct TS5 { S5 s; template <typename T> TS5(T y) : s(y) {} }; // PR 8134 template<class T> void f_PR8134(T); template<class T> void f_PR8134(T); void g_PR8134() { f_PR8134(0); f_PR8134('x'); } // rdar8580149 template <typename T> struct S6; template <typename T, unsigned N> struct S6<const T [N]> { private: typedef const T t1[N]; public: typedef t1& t2; }; template<typename T> struct S7; template<unsigned N> struct S7<int[N]> : S6<const int[N]> { }; // Zero-length template argument lists namespace ZeroLengthExplicitTemplateArgs { template<typename T> void h(); struct Y { template<typename T> void f(); }; template<typename T> void f(T *ptr) { T::template g<>(17); ptr->template g2<>(17); h<T>(); h<int>(); Y y; y.f<int>(); } struct X { template<typename T> static void g(T); template<typename T> void g2(T); }; } namespace NonTypeTemplateParmContext { template<typename T, int inlineCapacity = 0> class Vector { }; struct String { template<int inlineCapacity> static String adopt(Vector<char, inlineCapacity>&); }; template<int inlineCapacity> inline bool equalIgnoringNullity(const Vector<char, inlineCapacity>& a, const String& b) { return false; } } // <rdar://problem/11112464> template< typename > class Foo; template< typename T > class Foo : protected T { public: Foo& operator=( const Foo& other ); }; template<typename...A> struct NestedExpansion { template<typename...B> auto f(A...a, B...b) -> decltype(g(a + b...)); }; template struct NestedExpansion<char, char, char>; namespace rdar13135282 { template < typename _Alloc > void foo(_Alloc = _Alloc()); template < bool > class __pool; template < template < bool > class _PoolTp > struct __common_pool { typedef _PoolTp < 0 > pool_type; }; template < template < bool > class _PoolTp > struct __common_pool_base : __common_pool < _PoolTp > {}; template < template < bool > class _PoolTp > struct A : __common_pool_base < _PoolTp > {}; template < typename _Poolp = A < __pool > > struct __mt_alloc { typedef typename _Poolp::pool_type __pool_type; __mt_alloc() { foo<__mt_alloc<> >(); } }; } namespace PR13020 { template<typename T> void f() { enum E { enumerator }; T t = enumerator; } template void f<int>(); } template<typename T> void doNotDeserialize() {} template<typename T> struct ContainsDoNotDeserialize { static int doNotDeserialize; }; template<typename T> struct ContainsDoNotDeserialize2 { static void doNotDeserialize(); }; template<typename T> int ContainsDoNotDeserialize<T>::doNotDeserialize = 0; template<typename T> void ContainsDoNotDeserialize2<T>::doNotDeserialize() {} template<typename T> void DependentSpecializedFunc(T x) { x.foo(); } template<typename T> class DependentSpecializedFuncClass { void foo() {} friend void DependentSpecializedFunc<>(DependentSpecializedFuncClass); }; namespace cyclic_module_load { // Reduced from a libc++ modules crasher. namespace std { template<class> class mask_array; template<class> class valarray { public: valarray(const valarray &v); }; class gslice { valarray<int> x; valarray<int> stride() const { return x; } }; template<class> class mask_array { template<class> friend class valarray; }; } }