// stl.h supplemental header #ifndef _STL_H_ #define _STL_H_ #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std; // TEMPLATE CLASS Deque template class Deque : public deque<_Ty, allocator<_Ty> > { public: typedef Deque<_Ty> _Myt; typedef allocator<_Ty> _A; explicit Deque() : deque<_Ty, _A>() {} explicit Deque(size_type _N, const _Ty& _V = _Ty()) : deque<_Ty, _A>(_N, _V) {} typedef const_iterator _It; Deque(_It _F, _It _L) : deque<_Ty, _A>(_F, _L) {} void swap(_Myt& _X) {deque<_Ty, _A>::swap((deque<_Ty, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS List template class List : public list<_Ty, allocator<_Ty> > { public: typedef List<_Ty> _Myt; typedef allocator<_Ty> _A; explicit List() : list<_Ty, _A>() {} explicit List(size_type _N, const _Ty& _V = _Ty()) : list<_Ty, _A>(_N, _V) {} typedef const_iterator _It; List(_It _F, _It _L) : list<_Ty, _A>(_F, _L) {} void swap(_Myt& _X) {list<_Ty, _A>::swap((list<_Ty, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS Map template > class Map : public map<_K, _Ty, _Pr, allocator<_Ty> > { public: typedef Map<_K, _Ty, _Pr> _Myt; typedef allocator<_Ty> _A; explicit Map(const _Pr& _Pred = _Pr()) : map<_K, _Ty, _Pr, _A>(_Pred) {} typedef const_iterator _It; Map(_It _F, _It _L, const _Pr& _Pred = _Pr()) : map<_K, _Ty, _Pr, _A>(_F, _L, _Pred) {} void swap(_Myt& _X) {map<_K, _Ty, _Pr, _A>:: swap((map<_K, _Ty, _Pr, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS Multimap template > class Multimap : public multimap<_K, _Ty, _Pr, allocator<_Ty> > { public: typedef Multimap<_K, _Ty, _Pr> _Myt; typedef allocator<_Ty> _A; explicit Multimap(const _Pr& _Pred = _Pr()) : multimap<_K, _Ty, _Pr, _A>(_Pred) {} typedef const_iterator _It; Multimap(_It _F, _It _L, const _Pr& _Pred = _Pr()) : multimap<_K, _Ty, _Pr, _A>(_F, _L, _Pred) {} void swap(_Myt& _X) {multimap<_K, _Ty, _Pr, _A>:: swap((multimap<_K, _Ty, _Pr, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS Set template > class Set : public set<_K, _Pr, allocator<_K> > { public: typedef Set<_K, _Pr> _Myt; typedef allocator<_K> _A; explicit Set(const _Pr& _Pred = _Pr()) : set<_K, _Pr, _A>(_Pred) {} typedef const_iterator _It; Set(_It _F, _It _L, const _Pr& _Pred = _Pr()) : set<_K, _Pr, _A>(_F, _L, _Pred) {} void swap(_Myt& _X) {set<_K, _Pr, _A>::swap((set<_K, _Pr, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS Multiset template > class Multiset : public multiset<_K, _Pr, allocator<_K> > { public: typedef Multiset<_K, _Pr> _Myt; typedef allocator<_K> _A; explicit Multiset(const _Pr& _Pred = _Pr()) : multiset<_K, _Pr, _A>(_Pred) {} typedef const_iterator _It; Multiset(_It _F, _It _L, const _Pr& _Pred = _Pr()) : multiset<_K, _Pr, _A>(_F, _L, _Pred) {} void swap(_Myt& _X) {multiset<_K, _Pr, _A>:: swap((multiset<_K, _Pr, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS Vector template class Vector : public vector<_Ty, allocator<_Ty> > { public: typedef Vector<_Ty> _Myt; typedef allocator<_Ty> _A; explicit Vector() : vector<_Ty, _A>(_Al) {} explicit Vector(size_type _N, const _Ty& _V = _Ty()) : vector<_Ty, _A>(_N, _V) {} typedef const_iterator _It; Vector(_It _F, _It _L) : vector<_Ty, _A>(_F, _L) {} void swap(_Myt& _X) {vector<_Ty, _A>::swap((vector<_Ty, _A>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // CLASS bit_vector class bit_vector : public vector<_Bool, _Bool_allocator> { public: typedef _Bool _Ty; typedef _Bool_allocator _A; typedef bit_vector _Myt; explicit bit_vector() : vector<_Bool, _Bool_allocator>() {} explicit bit_vector(size_type _N, const _Ty& _V = _Ty()) : vector<_Bool, _Bool_allocator>(_N, _V) {} typedef const_iterator _It; bit_vector(_It _F, _It _L) : vector<_Bool, _Bool_allocator>(_F, _L) {} void swap(_Myt& _X) {vector<_Bool, _Bool_allocator>:: swap((vector<_Bool, _Bool_allocator>&)_X); } friend void swap(_Myt& _X, _Myt& _Y) {_X.swap(_Y); } }; // TEMPLATE CLASS priority_queue template, class _Pr = less<_C::value_type> > class Priority_queue : public priority_queue<_C::value_type, _C, _Pr, allocator<_C::value_type> > { public: typedef _C::value_type _Ty; typedef allocator<_C::value_type> _A; explicit Priority_queue(const _Pr& _X = _Pr()) : priority_queue<_Ty, _C, _Pr, _A>(_X) {} typedef const value_type *_It; Priority_queue(_It _F, _It _L, const _Pr& _X = _Pr()) : priority_queue<_Ty, _C, _Pr, _A>(_F, _L, _X) {} }; // TEMPLATE CLASS queue template > class Queue : public queue<_C::value_type, _C, allocator<_C::value_type> > { }; // TEMPLATE CLASS stack template > class Stack : public stack<_C::value_type, _C, allocator<_C::value_type> > { }; // MACRO DEFINITIONS #define deque Deque #define list List #define map Map #define multimap Multimap #define set Set #define multiset Multiset #define vector Vector #define priority_queue Priority_queue #define queue Queue #define stack Stack #endif /* _STL_H_ */ /* * Copyright (c) 1996 by P.J. Plauger. ALL RIGHTS RESERVED. * Consult your license regarding permissions and restrictions. */ /* * This file is derived from software bearing the following * restrictions: * * Copyright (c) 1994 * Hewlett-Packard Company * * Permission to use, copy, modify, distribute and sell this * software and its documentation for any purpose is hereby * granted without fee, provided that the above copyright notice * appear in all copies and that both that copyright notice and * this permission notice appear in supporting documentation. * Hewlett-Packard Company makes no representations about the * suitability of this software for any purpose. It is provided * "as is" without express or implied warranty. */