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[/] [openrisc/] [trunk/] [gnu-dev/] [or1k-gcc/] [gcc/] [testsuite/] [g++.dg/] [tm/] [20100727.C] - Rev 693
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// { dg-do compile }// { dg-options "-fgnu-tm" }typedef long int ptrdiff_t;typedef long unsigned int size_t;namespace std __attribute__ ((__visibility__ ("default"))){using::ptrdiff_t;using::size_t;}namespace std __attribute__ ((__visibility__ ("default"))){struct input_iterator_tag{};struct output_iterator_tag{};struct forward_iterator_tag:public input_iterator_tag{};struct bidirectional_iterator_tag:public forward_iterator_tag{};struct random_access_iterator_tag:public bidirectional_iterator_tag{};template < typename _Category, typename _Tp, typename _Distance =ptrdiff_t, typename _Pointer = _Tp *, typename _Reference =_Tp & >struct iterator{typedef _Category iterator_category;typedef _Tp value_type;typedef _Distance difference_type;typedef _Pointer pointer;typedef _Reference reference;};template < typename _Iterator > struct iterator_traits{typedef typename _Iterator::iterator_category iterator_category;typedef typename _Iterator::value_type value_type;typedef typename _Iterator::difference_type difference_type;typedef typename _Iterator::pointer pointer;typedef typename _Iterator::reference reference;};template < typename _Tp > struct iterator_traits <_Tp * >{typedef random_access_iterator_tag iterator_category;typedef _Tp value_type;typedef ptrdiff_t difference_type;typedef _Tp *pointer;typedef _Tp & reference;};template < typename _Tp > struct iterator_traits <const _Tp *>{typedef random_access_iterator_tag iterator_category;typedef _Tp value_type;typedef ptrdiff_t difference_type;typedef const _Tp *pointer;typedef const _Tp & reference;};template < typename _Iter > inline typename iterator_traits <_Iter >::iterator_category __iterator_category (const _Iter &){return typename iterator_traits < _Iter >::iterator_category ();}}namespace std __attribute__ ((__visibility__ ("default"))){template < typename _Iterator > class reverse_iterator:public iterator < typename iterator_traits < _Iterator >::iterator_category,typename iterator_traits < _Iterator >::value_type,typename iterator_traits < _Iterator >::difference_type,typename iterator_traits < _Iterator >::pointer,typename iterator_traits < _Iterator >::reference >{protected:_Iterator current;typedef iterator_traits < _Iterator > __traits_type;public:typedef _Iterator iterator_type;typedef typename __traits_type::difference_type difference_type;typedef typename __traits_type::pointer pointer;typedef typename __traits_type::reference reference;reverse_iterator ():current (){} explicit reverse_iterator (iterator_type __x):current (__x){} reverse_iterator (const reverse_iterator & __x):current (__x.current){} template < typename _Iter > reverse_iterator (const reverse_iterator <_Iter >&__x):current (__x.base ()){} iterator_type base () const{return current;}reference operator* () const{_Iterator __tmp = current;return *--__tmp;}pointer operator-> () const{return &(operator* ());}reverse_iterator & operator++ (){--current;return *this;}reverse_iterator operator++ (int){reverse_iterator __tmp = *this;--current;return __tmp;}reverse_iterator & operator-- (){++current;return *this;}reverse_iterator operator-- (int){reverse_iterator __tmp = *this;++current;return __tmp;}reverse_iterator operator+ (difference_type __n) const{return reverse_iterator (current - __n);}reverse_iterator & operator+= (difference_type __n){current -= __n;return *this;}reverse_iterator operator- (difference_type __n) const{return reverse_iterator (current + __n);}reverse_iterator & operator-= (difference_type __n){current += __n;return *this;}reference operator[] (difference_type __n) const{return *(*this + __n);}};template < typename _Iterator >inline bool operator== (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return __x.base () == __y.base ();}template < typename _Iterator >inline bool operator< (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return __y.base () < __x.base ();}template < typename _Iterator >inline bool operator!= (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return !(__x == __y);}template < typename _Iterator >inline bool operator> (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return __y < __x;}template < typename _Iterator >inline bool operator<= (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return !(__y < __x);}template < typename _Iterator >inline bool operator>= (const reverse_iterator < _Iterator > &__x,const reverse_iterator < _Iterator > &__y){return !(__x < __y);}template < typename _Iterator > inline typename reverse_iterator <_Iterator >::difference_type operator- (const reverse_iterator <_Iterator > &__x,const reverse_iterator <_Iterator > &__y){return __y.base () - __x.base ();}template < typename _Iterator > inline reverse_iterator < _Iterator >operator+ (typename reverse_iterator < _Iterator >::difference_type __n,const reverse_iterator < _Iterator > &__x){return reverse_iterator < _Iterator > (__x.base () - __n);}template < typename _IteratorL,typename _IteratorR > inline bool operator== (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return __x.base () == __y.base ();}template < typename _IteratorL,typename _IteratorR > inline bool operator< (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return __y.base () < __x.base ();}template < typename _IteratorL,typename _IteratorR > inline bool operator!= (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return !(__x == __y);}template < typename _IteratorL,typename _IteratorR > inline bool operator> (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return __y < __x;}template < typename _IteratorL,typename _IteratorR > inline bool operator<= (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return !(__y < __x);}template < typename _IteratorL,typename _IteratorR > inline bool operator>= (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return !(__x < __y);}template < typename _IteratorL,typename _IteratorR > inline typename reverse_iterator <_IteratorL >::difference_type operator- (const reverse_iterator <_IteratorL > &__x,const reverse_iterator <_IteratorR > &__y){return __y.base () - __x.base ();}template < typename _Container > class back_insert_iterator:public iterator < output_iterator_tag, void, void, void,void >{protected:_Container * container;public:typedef _Container container_type;explicit back_insert_iterator (_Container & __x):container (&__x){} back_insert_iterator & operator= (typename _Container::const_reference __value){container->push_back (__value);return *this;}back_insert_iterator & operator* (){return *this;}back_insert_iterator & operator++ (){return *this;}back_insert_iterator operator++ (int){return *this;}};template < typename _Container > inline back_insert_iterator < _Container >back_inserter (_Container & __x){return back_insert_iterator < _Container > (__x);}template < typename _Container > class front_insert_iterator:public iterator < output_iterator_tag, void, void, void,void >{protected:_Container * container;public:typedef _Container container_type;explicit front_insert_iterator (_Container & __x):container (&__x){} front_insert_iterator & operator= (typename _Container::const_reference __value){container->push_front (__value);return *this;}front_insert_iterator & operator* (){return *this;}front_insert_iterator & operator++ (){return *this;}front_insert_iterator operator++ (int){return *this;}};template < typename _Container > inline front_insert_iterator < _Container >front_inserter (_Container & __x){return front_insert_iterator < _Container > (__x);}template < typename _Container > class insert_iterator:public iterator < output_iterator_tag, void, void, void,void >{protected:_Container * container;typename _Container::iterator iter;public:typedef _Container container_type;insert_iterator (_Container & __x,typename _Container::iterator __i):container (&__x),iter (__i){} insert_iterator & operator= (typename _Container::const_reference __value){iter = container->insert (iter, __value);++iter;return *this;}insert_iterator & operator* (){return *this;}insert_iterator & operator++ (){return *this;}insert_iterator & operator++ (int){return *this;}};template < typename _Container,typename _Iterator > inline insert_iterator < _Container >inserter (_Container & __x, _Iterator __i){return insert_iterator < _Container > (__x,typename _Container::iterator (__i));}}namespace __gnu_cxx __attribute__ ((__visibility__ ("default"))){using std::size_t;using std::ptrdiff_t;template < typename _Tp > class new_allocator{public:typedef size_t size_type;typedef ptrdiff_t difference_type;typedef _Tp *pointer;typedef const _Tp *const_pointer;typedef _Tp & reference;typedef const _Tp & const_reference;typedef _Tp value_type;template < typename _Tp1 > struct rebind{typedef new_allocator < _Tp1 > other;};new_allocator ()throw (){} new_allocator (const new_allocator &) throw (){} template < typename _Tp1 > new_allocator (const new_allocator < _Tp1 >&) throw (){} ~new_allocator ()throw (){} pointer address (reference __x) const{return &__x;}const_pointer address (const_reference __x) const{return &__x;}pointer allocate (size_type __n, const void * = 0){return static_cast < _Tp * >(::operator new (__n * sizeof (_Tp)));}void deallocate (pointer __p, size_type){::operator delete (__p);} size_type max_size () const throw (){return size_t (-1) / sizeof (_Tp);}void construct (pointer __p, const _Tp & __val){::new ((void *) __p) _Tp (__val);} void destroy (pointer __p){__p->~_Tp ();}};template < typename _Tp > inline bool operator== (const new_allocator <_Tp > &,const new_allocator <_Tp > &){return true;}template < typename _Tp > inline bool operator!= (const new_allocator <_Tp > &,const new_allocator <_Tp > &){return false;}}namespace std __attribute__ ((__visibility__ ("default"))){template < typename _Tp > class allocator;template <> class allocator < void >{public:typedef size_t size_type;typedef ptrdiff_t difference_type;typedef void *pointer;typedef const void *const_pointer;typedef void value_type;template < typename _Tp1 > struct rebind{typedef allocator < _Tp1 > other;};};template < typename _Tp > class allocator:public __gnu_cxx::new_allocator <_Tp >{public:typedef size_t size_type;typedef ptrdiff_t difference_type;typedef _Tp *pointer;typedef const _Tp *const_pointer;typedef _Tp & reference;typedef const _Tp & const_reference;typedef _Tp value_type;template < typename _Tp1 > struct rebind{typedef allocator < _Tp1 > other;};allocator ()throw (){} allocator (const allocator & __a) throw ():__gnu_cxx::new_allocator <_Tp > (__a){} template < typename _Tp1 > allocator (const allocator < _Tp1 >&) throw (){} ~allocator ()throw (){}};template < typename _T1,typename _T2 > inline bool operator== (const allocator < _T1 > &,const allocator < _T2 > &){return true;}template < typename _Tp > inline bool operator== (const allocator < _Tp > &,const allocator < _Tp > &){return true;}template < typename _T1,typename _T2 > inline bool operator!= (const allocator < _T1 > &,const allocator < _T2 > &){return false;}template < typename _Tp > inline bool operator!= (const allocator < _Tp > &,const allocator < _Tp > &){return false;}template < typename _Alloc, bool = __is_empty (_Alloc) > struct __alloc_swap{static void _S_do_it (_Alloc &, _Alloc &){}};template < typename _Alloc > struct __alloc_swap <_Alloc, false >{static void _S_do_it (_Alloc & __one, _Alloc & __two){if (__one != __two)swap (__one, __two);}};template < typename _Alloc, bool = __is_empty (_Alloc) > struct __alloc_neq{static bool _S_do_it (const _Alloc &, const _Alloc &){return false;}};template < typename _Alloc > struct __alloc_neq <_Alloc, false >{static bool _S_do_it (const _Alloc & __one, const _Alloc & __two){return __one != __two;}};}namespace std __attribute__ ((__visibility__ ("default"))){struct _List_node_base{_List_node_base *_M_next;_List_node_base *_M_prev;static void swap (_List_node_base & __x, _List_node_base & __y) throw ();void _M_transfer (_List_node_base * const __first,_List_node_base * const __last) throw ();void _M_reverse () throw ();void _M_hook (_List_node_base * const __position) throw ();void _M_unhook () throw ();};template < typename _Tp > struct _List_node:public _List_node_base{_Tp _M_data;};template < typename _Tp > struct _List_iterator{typedef _List_iterator < _Tp > _Self;typedef _List_node < _Tp > _Node;typedef ptrdiff_t difference_type;typedef std::bidirectional_iterator_tag iterator_category;typedef _Tp value_type;typedef _Tp *pointer;typedef _Tp & reference;_List_iterator ():_M_node (){} explicit _List_iterator (_List_node_base * __x):_M_node (__x){} reference operator* () const{return static_cast < _Node * >(_M_node)->_M_data;}pointer operator-> () const{return &static_cast < _Node * >(_M_node)->_M_data;}_Self & operator++ (){_M_node = _M_node->_M_next;return *this;}_Self operator++ (int){_Self __tmp = *this;_M_node = _M_node->_M_next;return __tmp;}_Self & operator-- (){_M_node = _M_node->_M_prev;return *this;}_Self operator-- (int){_Self __tmp = *this;_M_node = _M_node->_M_prev;return __tmp;}bool operator== (const _Self & __x) const{return _M_node == __x._M_node;}bool operator!= (const _Self & __x) const{return _M_node != __x._M_node;}_List_node_base *_M_node;};template < typename _Tp > struct _List_const_iterator{typedef _List_const_iterator < _Tp > _Self;typedef const _List_node < _Tp > _Node;typedef _List_iterator < _Tp > iterator;typedef ptrdiff_t difference_type;typedef std::bidirectional_iterator_tag iterator_category;typedef _Tp value_type;typedef const _Tp *pointer;typedef const _Tp & reference;_List_const_iterator ():_M_node (){} explicit _List_const_iterator (const _List_node_base *__x):_M_node (__x){} _List_const_iterator (const iterator & __x):_M_node (__x._M_node){} reference operator* () const{return static_cast < _Node * >(_M_node)->_M_data;}pointer operator-> () const{return &static_cast < _Node * >(_M_node)->_M_data;}_Self & operator++ (){_M_node = _M_node->_M_next;return *this;}_Self operator++ (int){_Self __tmp = *this;_M_node = _M_node->_M_next;return __tmp;}_Self & operator-- (){_M_node = _M_node->_M_prev;return *this;}_Self operator-- (int){_Self __tmp = *this;_M_node = _M_node->_M_prev;return __tmp;}bool operator== (const _Self & __x) const{return _M_node == __x._M_node;}bool operator!= (const _Self & __x) const{return _M_node != __x._M_node;}const _List_node_base *_M_node;};template < typename _Tp, typename _Alloc > class _List_base{protected:typedef typename _Alloc::template rebind < _List_node < _Tp >>::other _Node_alloc_type;typedef typename _Alloc::template rebind < _Tp >::other _Tp_alloc_type;struct _List_impl:public _Node_alloc_type{_List_node_base _M_node;_List_impl ():_Node_alloc_type (), _M_node (){} _List_impl (const _Node_alloc_type & __a):_Node_alloc_type (__a),_M_node (){}};_List_impl _M_impl;_List_node < _Tp > *_M_get_node (){return _M_impl._Node_alloc_type::allocate (1);}void _M_put_node (_List_node < _Tp > *__p){_M_impl._Node_alloc_type::deallocate (__p, 1);} public:typedef _Alloc allocator_type;_Node_alloc_type & _M_get_Node_allocator (){return *static_cast < _Node_alloc_type * >(&this->_M_impl);}const _Node_alloc_type & _M_get_Node_allocator () const{return *static_cast < const _Node_alloc_type *>(&this->_M_impl);} _Tp_alloc_type _M_get_Tp_allocator () const{return _Tp_alloc_type (_M_get_Node_allocator ());}allocator_type get_allocator () const{return allocator_type (_M_get_Node_allocator ());}_List_base ():_M_impl (){_M_init ();}_List_base (const allocator_type & __a):_M_impl (__a){_M_init ();} ~_List_base (){_M_clear ();} void _M_clear ();void _M_init (){this->_M_impl._M_node._M_next = &this->_M_impl._M_node;this->_M_impl._M_node._M_prev = &this->_M_impl._M_node;}};template < typename _Tp, typename _Alloc = std::allocator < _Tp > >class list:protected _List_base < _Tp,_Alloc>{typedef typename _Alloc::value_type _Alloc_value_type;typedef _List_base < _Tp, _Alloc > _Base;typedef typename _Base::_Tp_alloc_type _Tp_alloc_type;public:typedef _Tp value_type;typedef typename _Tp_alloc_type::pointer pointer;typedef typename _Tp_alloc_type::const_pointer const_pointer;typedef typename _Tp_alloc_type::reference reference;typedef typename _Tp_alloc_type::const_reference const_reference;typedef _List_iterator < _Tp > iterator;typedef _List_const_iterator < _Tp > const_iterator;typedef std::reverse_iterator < const_iterator > const_reverse_iterator;typedef std::reverse_iterator < iterator > reverse_iterator;typedef size_t size_type;typedef ptrdiff_t difference_type;typedef _Alloc allocator_type;protected:typedef _List_node < _Tp > _Node;using _Base::_M_impl;using _Base::_M_put_node;using _Base::_M_get_node;using _Base::_M_get_Tp_allocator;using _Base::_M_get_Node_allocator;public:iterator begin (){return iterator (this->_M_impl._M_node._M_next);}const_iterator begin () const{return const_iterator (this->_M_impl._M_node._M_next);}iterator end (){return iterator (&this->_M_impl._M_node);}void remove (const _Tp & __value);template < typename _Predicate > void remove_if (_Predicate);void _M_erase (iterator __position){__position._M_node->_M_unhook ();_Node *__n = static_cast < _Node * >(__position._M_node);_M_get_Tp_allocator ().destroy (&__n->_M_data);_M_put_node (__n);} void _M_check_equal_allocators (list & __x){if (std::__alloc_neq <typename _Base::_Node_alloc_type >::_S_do_it (_M_get_Node_allocator (), __x._M_get_Node_allocator ()));}};}namespace std __attribute__ ((__visibility__ ("default"))){template < typename _Tp, typename _Alloc > void list < _Tp,_Alloc >::remove (const value_type & __value){iterator __first = begin ();iterator __last = end ();iterator __extra = __last;while (__first != __last){iterator __next = __first;++__next;if (*__first == __value){if (&*__first != &__value)_M_erase (__first);else__extra = __first;}__first = __next;}if (__extra != __last)_M_erase (__extra);}}class Unit{public:int dummy;};class Building{public:__attribute__ ((transaction_callable)) void removeUnitFromInside (Unit *unit);std::list < Unit * >unitsInside;};voidBuilding::removeUnitFromInside (Unit * unit){unitsInside.remove (unit);}