// RUN: %clang_cc1 -debug-info-kind=limited -triple %itanium_abi_triple -emit-llvm-only %s // Check that we don't crash. // PR12305, PR12315 # 1 "a.h" 3 template < typename T1 > struct Types1 { typedef T1 Head; }; template < typename > struct Types; template < template < typename > class Tmpl > struct TemplateSel { template < typename T > struct Bind { typedef Tmpl < T > type; }; }; template < typename > struct NoneT; template < template < typename > class T1, template < typename > class > struct Templates2 { typedef TemplateSel < T1 > Head; }; template < template < typename > class, template < typename > class = NoneT, template < typename > class = NoneT, template < typename > class = NoneT > struct Templates; template < template < typename > class T1, template < typename > class T2 > struct Templates { typedef Templates2 < T1, T2 > type; }; template < typename T > struct TypeList { typedef Types1 < T > type; }; template < template < typename > class, class TestSel, typename Types > class TypeParameterizedTest { public:static bool Register () { typedef typename Types::Head Type; typename TestSel::template Bind < Type >::type TestClass; }}; template < template < typename > class Fixture, typename Tests, typename Types > class TypeParameterizedTestCase { public:static bool Register (char *, char *, int *) { typedef typename Tests::Head Head; TypeParameterizedTest < Fixture, Head, Types >::Register; }}; template < typename > class TypedTestP1 { }; namespace gtest_case_TypedTestP1_ { template < typename gtest_TypeParam_ > class A:TypedTestP1 < gtest_TypeParam_ > { }; template < typename gtest_TypeParam_ > class B:TypedTestP1 < gtest_TypeParam_ > { }; typedef Templates < A >::type gtest_AllTests_; } template < typename > class TypedTestP2 { }; namespace gtest_case_TypedTestP2_ { template < typename gtest_TypeParam_ > class A:TypedTestP2 < gtest_TypeParam_ > { }; typedef Templates < A >::type gtest_AllTests_; } bool gtest_Int_TypedTestP1 = TypeParameterizedTestCase < TypedTestP1, gtest_case_TypedTestP1_::gtest_AllTests_, TypeList < int >::type >::Register ("Int", "TypedTestP1", 0); bool gtest_Int_TypedTestP2 = TypeParameterizedTestCase < TypedTestP2, gtest_case_TypedTestP2_::gtest_AllTests_, TypeList < Types < int > >::type >::Register ("Int", "TypedTestP2", 0); template < typename _Tp > struct new_allocator { typedef _Tp *pointer; template < typename > struct rebind { typedef new_allocator other; }; }; template < typename _Tp > struct allocator:new_allocator < _Tp > { }; template < typename _Tp, typename _Alloc > struct _Vector_base { typedef typename _Alloc::template rebind < _Tp >::other _Tp_alloc_type; struct _Vector_impl { typename _Tp_alloc_type::pointer _M_end_of_storage; }; _Vector_base () { foo((int *) this->_M_impl._M_end_of_storage); } void foo(int *); _Vector_impl _M_impl; }; template < typename _Tp, typename _Alloc = allocator < _Tp > >struct vector:_Vector_base < _Tp, _Alloc > { }; template < class T> struct HHH {}; struct DDD { int x_;}; struct Data; struct X1; struct CCC:DDD { virtual void xxx (HHH < X1 >); }; template < class SSS > struct EEE:vector < HHH < SSS > > { }; template < class SSS, class = EEE < SSS > >class FFF { }; template < class SSS, class GGG = EEE < SSS > >class AAA:FFF { }; class BBB:virtual CCC { void xxx (HHH < X1 >); vector < HHH < X1 > >aaa; }; class ZZZ:AAA < Data >, BBB { virtual ZZZ *ppp () ; }; ZZZ * ZZZ::ppp () { return new ZZZ; } namespace std { template < class, class > struct pair; } namespace __gnu_cxx { template < typename > class new_allocator; } namespace std { template < typename _Tp > class allocator:__gnu_cxx::new_allocator < _Tp > { }; template < typename, typename > struct _Vector_base { }; template < typename _Tp, typename _Alloc = std::allocator < _Tp > >class vector:_Vector_base < _Tp, _Alloc > { }; } namespace std { template < typename, typename > struct unary_function; template < typename, typename, typename > struct binary_function; template < typename _Tp > struct equal_to: binary_function < _Tp, _Tp, bool > { }; template < typename _Pair > struct _Select1st: unary_function < _Pair, typename _Pair::first_type > { }; } # 1 "f.h" 3 using std::pair; namespace __gnu_cxx { template < class > struct hash; template < class, class, class, class, class _EqualKey, class > class hashtable { public: typedef _EqualKey key_equal; typedef void key_type; }; using std::equal_to; using std::allocator; using std::_Select1st; template < class _Key, class _Tp, class _HashFn = hash < _Key >, class _EqualKey = equal_to < _Key >, class _Alloc = allocator < _Tp > >class hash_map { typedef hashtable < pair < _Key, _Tp >, _Key, _HashFn, _Select1st < pair < _Key, _Tp > >, _EqualKey, _Alloc > _Ht; public: typedef typename _Ht::key_type key_type; typedef typename _Ht::key_equal key_equal; }; } using __gnu_cxx::hash_map; class C2; template < class > class scoped_ptr { }; namespace { class AAA { virtual ~ AAA () { }}; } template < typename > class EEE; template < typename CCC, typename = typename CCC::key_equal, typename = EEE < CCC > >class III { }; namespace util { class EEE { }; } namespace { class C1: util::EEE { public: class C3: AAA { struct FFF; typedef III < hash_map < C2, FFF > > GGG; GGG aaa; friend C1; }; void HHH (C3::GGG &); }; } namespace n1 { class Test { }; template < typename > class C7 { }; class C4: n1::Test { vector < C1::C3 * > a1; }; enum C5 { }; class C6: C4, n1::C7 < C5 > { }; class C8: C6 { }; class C9: C8 { void TestBody (); }; void C9::TestBody () { scoped_ptr < C1::C3 > context; } }