gcc/testsuite/g++.dg/cpp0x/pr57101.C - gcc - Git at Google

 // { dg-do compile { target c++11 } }
 // { dg-options "-fcompare-debug" }

 typedef __SIZE_TYPE__ size_t;
 namespace
 {
   template < typename _Tp, _Tp __v > struct integral_constant
   {
     static const _Tp value = __v;
   };
   typedef integral_constant < bool, false > false_type;
   template < typename > struct remove_cv;
   template < typename > struct __is_void_helper:false_type
   {
   };
   template
     <
     typename
     _Tp
     >
     struct
     is_void:integral_constant
     < bool, (__is_void_helper < typename remove_cv < _Tp >::type >::value) >
   {
   };
   template < typename > struct is_function:false_type
   {
   };
   template < typename _Tp > struct remove_const
   {
     typedef _Tp type;
   };
   template < typename _Tp > struct remove_volatile
   {
     typedef _Tp type;
   };
   template < typename _Tp > struct remove_cv
   {
     typedef
       typename
       remove_const < typename remove_volatile < _Tp >::type >::type type;
   };
   template < typename > struct is_lvalue_reference:false_type
   {
   };
   template < typename _Tp, bool = is_void < _Tp >::value > struct __add_rvalue_reference_helper
   {
     typedef _Tp type;
   };
   template
     <
     typename
     _Tp > struct add_rvalue_reference:__add_rvalue_reference_helper < _Tp >
   {
   };
   template
     < typename _Tp > typename add_rvalue_reference < _Tp >::type declval ();
   template
     <
     typename,
     typename
     _To, bool = (is_function < _To >::value) > struct __is_convertible_helper;
   template
     <
     typename
     _From, typename _To > struct __is_convertible_helper <_From, _To, false >
   {
     static const bool __value = sizeof ((declval < _From > ()));
   };
   template
     <
     typename
     _From,
     typename
     _To
     >
     struct
     is_convertible:integral_constant
     < bool, __is_convertible_helper < _From, _To >::__value >
   {
   };
   template < bool, typename _Tp = void >struct enable_if
   {
     typedef _Tp type;
   };
   template < typename _Tp > struct identity
   {
     typedef _Tp type;
   };
   template
     <
     typename
     _Tp
     >
     typename
     enable_if
     <
     is_lvalue_reference
     < _Tp >::value, _Tp >::type forward (typename identity < _Tp >::type)
   {
     return 0;

   }
   template < class _T1, class > struct pair
   {
     _T1 first;
     template < class _U1, class = typename enable_if < is_convertible < _U1, _T1 >::value >::type > pair (_U1 __x):
     first
       (forward < _U1 > (__x))
     {
     }
   };
 }

 namespace __gnu_cxx
 {
   template < typename > class new_allocator
   {
   };
 }

 namespace std
 {
   template < typename _Tp > class allocator:__gnu_cxx::new_allocator < _Tp >
   {
   public:
     template < typename > struct rebind
     {
       typedef allocator other;
     };
   };
   template < typename, typename > struct unary_function;
   template < typename, typename, typename > struct binary_function
   {
   };
   template < typename _Tp > struct less:binary_function < _Tp, _Tp, bool >
   {
   };
   template
     <
     typename
     _Pair
     > struct _Select1st:unary_function < _Pair, typename _Pair::first_type >
   {
   };
   template < typename > struct _Rb_tree_node;
   template
     <
     typename,
     typename
     _Val,
     typename,
     typename _Compare, typename _Alloc = allocator < _Val > >class _Rb_tree
   {
     typedef
       typename
       _Alloc::template
       rebind < _Rb_tree_node < _Val > >::other _Node_allocator;
   public:
     typedef _Alloc allocator_type;
     template < typename _Key_compare > struct _Rb_tree_impl
     {
       _Rb_tree_impl (_Key_compare, _Node_allocator); // { dg-warning "used but never defined" }
     };
     _Rb_tree_impl < _Compare > _M_impl;
   _Rb_tree (_Compare __comp, allocator_type __a):
     _M_impl (__comp, __a)
     {
     }
   };
   template < class _E > class initializer_list
   {
     typedef size_t size_type;
     typedef _E *iterator;
     iterator _M_array;
     size_type _M_len;
   };
   template
     <
     typename
     _Key,
     typename
     _Tp,
     typename
     _Compare
     =
     less
     <
     _Key >, typename _Alloc = allocator < pair < _Key, _Tp > > >class multimap
   {
     typedef _Key key_type;
     typedef pair < _Key, _Tp > value_type;
     typedef _Compare key_compare;
     typedef _Alloc allocator_type;
     typedef
       _Rb_tree
       <
       key_type,
       value_type, _Select1st < value_type >, key_compare > _Rep_type;
     _Rep_type _M_t;
   public:
   multimap (initializer_list < value_type >, _Compare __comp = _Compare (), allocator_type __a = allocator_type ()):
     _M_t
       (__comp, __a)
     {
     }
   };
 }

 using namespace std;
 void
 test01 ()
 {
   typedef multimap < int, double >Container;
   Container (
 	      {
 	      {
 	      1}
 	      }
   );
 }
	// { dg-do compile { target c++11 } }
	// { dg-options "-fcompare-debug" }

	typedef __SIZE_TYPE__ size_t;
	namespace
	{
	template < typename _Tp, _Tp __v > struct integral_constant
	{
	static const _Tp value = __v;
	};
	typedef integral_constant < bool, false > false_type;
	template < typename > struct remove_cv;
	template < typename > struct __is_void_helper:false_type
	{
	};
	template
	<
	typename
	_Tp
	>
	struct
	is_void:integral_constant
	< bool, (__is_void_helper < typename remove_cv < _Tp >::type >::value) >
	{
	};
	template < typename > struct is_function:false_type
	{
	};
	template < typename _Tp > struct remove_const
	{
	typedef _Tp type;
	};
	template < typename _Tp > struct remove_volatile
	{
	typedef _Tp type;
	};
	template < typename _Tp > struct remove_cv
	{
	typedef
	typename
	remove_const < typename remove_volatile < _Tp >::type >::type type;
	};
	template < typename > struct is_lvalue_reference:false_type
	{
	};
	template < typename _Tp, bool = is_void < _Tp >::value > struct __add_rvalue_reference_helper
	{
	typedef _Tp type;
	};
	template
	<
	typename
	_Tp > struct add_rvalue_reference:__add_rvalue_reference_helper < _Tp >
	{
	};
	template
	< typename _Tp > typename add_rvalue_reference < _Tp >::type declval ();
	template
	<
	typename,
	typename
	_To, bool = (is_function < _To >::value) > struct __is_convertible_helper;
	template
	<
	typename
	_From, typename _To > struct __is_convertible_helper <_From, _To, false >
	{
	static const bool __value = sizeof ((declval < _From > ()));
	};
	template
	<
	typename
	_From,
	typename
	_To
	>
	struct
	is_convertible:integral_constant
	< bool, __is_convertible_helper < _From, _To >::__value >
	{
	};
	template < bool, typename _Tp = void >struct enable_if
	{
	typedef _Tp type;
	};
	template < typename _Tp > struct identity
	{
	typedef _Tp type;
	};
	template
	<
	typename
	_Tp
	>
	typename
	enable_if
	<
	is_lvalue_reference
	< _Tp >::value, _Tp >::type forward (typename identity < _Tp >::type)
	{
	return 0;

	}
	template < class _T1, class > struct pair
	{
	_T1 first;
	template < class _U1, class = typename enable_if < is_convertible < _U1, _T1 >::value >::type > pair (_U1 __x):
	first
	(forward < _U1 > (__x))
	{
	}
	};
	}

	namespace __gnu_cxx
	{
	template < typename > class new_allocator
	{
	};
	}

	namespace std
	{
	template < typename _Tp > class allocator:__gnu_cxx::new_allocator < _Tp >
	{
	public:
	template < typename > struct rebind
	{
	typedef allocator other;
	};
	};
	template < typename, typename > struct unary_function;
	template < typename, typename, typename > struct binary_function
	{
	};
	template < typename _Tp > struct less:binary_function < _Tp, _Tp, bool >
	{
	};
	template
	<
	typename
	_Pair
	> struct _Select1st:unary_function < _Pair, typename _Pair::first_type >
	{
	};
	template < typename > struct _Rb_tree_node;
	template
	<
	typename,
	typename
	_Val,
	typename,
	typename _Compare, typename _Alloc = allocator < _Val > >class _Rb_tree
	{
	typedef
	typename
	_Alloc::template
	rebind < _Rb_tree_node < _Val > >::other _Node_allocator;
	public:
	typedef _Alloc allocator_type;
	template < typename _Key_compare > struct _Rb_tree_impl
	{
	_Rb_tree_impl (_Key_compare, _Node_allocator); // { dg-warning "used but never defined" }
	};
	_Rb_tree_impl < _Compare > _M_impl;
	_Rb_tree (_Compare __comp, allocator_type __a):
	_M_impl (__comp, __a)
	{
	}
	};
	template < class _E > class initializer_list
	{
	typedef size_t size_type;
	typedef _E *iterator;
	iterator _M_array;
	size_type _M_len;
	};
	template
	<
	typename
	_Key,
	typename
	_Tp,
	typename
	_Compare
	=
	less
	<
	_Key >, typename _Alloc = allocator < pair < _Key, _Tp > > >class multimap
	{
	typedef _Key key_type;
	typedef pair < _Key, _Tp > value_type;
	typedef _Compare key_compare;
	typedef _Alloc allocator_type;
	typedef
	_Rb_tree
	<
	key_type,
	value_type, _Select1st < value_type >, key_compare > _Rep_type;
	_Rep_type _M_t;
	public:
	multimap (initializer_list < value_type >, _Compare __comp = _Compare (), allocator_type __a = allocator_type ()):
	_M_t
	(__comp, __a)
	{
	}
	};
	}

	using namespace std;
	void
	test01 ()
	{
	typedef multimap < int, double >Container;
	Container (
	{
	{
	1}
	}
	);
	}