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358 lines
8.6 KiB
358 lines
8.6 KiB
// stl.h supplemental header
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#pragma once
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#ifndef _STL_H_
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#define _STL_H_
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#include <algorithm>
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#include <deque>
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#include <functional>
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#include <iterator>
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#include <list>
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#include <map>
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#include <memory>
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#include <numeric>
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#include <queue>
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#include <set>
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#include <stack>
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#include <utility>
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#include <vector>
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using namespace std;
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// TEMPLATE CLASS Deque
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template<class _Ty>
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class Deque
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: public deque<_Ty, allocator<_Ty> >
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{ // wrap new deque as old
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public:
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typedef Deque<_Ty> _Myt;
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typedef allocator<_Ty> _Alloc;
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Deque()
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: deque<_Ty, _Alloc>()
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{ // construct empty deque
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}
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explicit Deque(size_type _Count)
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: deque<_Ty, _Alloc>(_Count, _Ty())
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{ // construct deque from _Count * _Ty()
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}
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Deque(size_type _Count, const _Ty& _Val)
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: deque<_Ty, _Alloc>(_Count, _Val)
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{ // construct deque from _Count * _Val
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}
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typedef const_iterator _Iter;
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Deque(_Iter _First, _Iter _Last)
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: deque<_Ty, _Alloc>(_First, _Last)
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{ // construct deque from [_First, _Last)
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}
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};
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// TEMPLATE CLASS List
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template<class _Ty>
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class List
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: public list<_Ty, allocator<_Ty> >
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{ // wrap new list as old
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public:
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typedef List<_Ty> _Myt;
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typedef allocator<_Ty> _Alloc;
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List()
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: list<_Ty, _Alloc>()
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{ // construct empty list
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}
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explicit List(size_type _Count)
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: list<_Ty, _Alloc>(_Count, _Ty())
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{ // construct list from _Count * _Ty()
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}
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List(size_type _Count, const _Ty& _Val)
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: list<_Ty, _Alloc>(_Count, _Val)
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{ // construct list from _Count * _Val
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}
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typedef const_iterator _Iter;
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List(_Iter _First, _Iter _Last)
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: list<_Ty, _Alloc>(_First, _Last)
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{ // construct list from [_First, _Last)
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}
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};
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// TEMPLATE CLASS Map
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template<class _Kty,
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class _Ty,
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class _Pr = less<_Kty> >
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class Map
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: public map<_Kty, _Ty, _Pr, allocator<_Ty> >
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{ // wrap new map as old
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public:
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typedef Map<_Kty, _Ty, _Pr> _Myt;
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typedef allocator<_Ty> _Alloc;
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Map()
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: map<_Kty, _Ty, _Pr, _Alloc>(_Pr())
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{ // construct empty map from defaults
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}
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explicit Map(const _Pr& _Pred)
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: map<_Kty, _Ty, _Pr, _Alloc>(_Pred)
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{ // construct empty map from comparator
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}
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typedef const_iterator _Iter;
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Map(_Iter _First, _Iter _Last)
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: map<_Kty, _Ty, _Pr, _Alloc>(_First, _Last, _Pr())
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{ // construct map from [_First, _Last)
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}
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Map(_Iter _First, _Iter _Last, const _Pr& _Pred)
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: map<_Kty, _Ty, _Pr, _Alloc>(_First, _Last, _Pred)
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{ // construct map from [_First, _Last), comparator
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}
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};
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// TEMPLATE CLASS Multimap
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template<class _Kty,
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class _Ty,
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class _Pr = less<_Kty> >
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class Multimap
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: public multimap<_Kty, _Ty, _Pr, allocator<_Ty> >
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{ // wrap new multimap as old
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public:
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typedef Multimap<_Kty, _Ty, _Pr> _Myt;
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typedef allocator<_Ty> _Alloc;
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Multimap()
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: multimap<_Kty, _Ty, _Pr, _Alloc>(_Pr())
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{ // construct empty map from defaults
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}
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explicit Multimap(const _Pr& _Pred)
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: multimap<_Kty, _Ty, _Pr, _Alloc>(_Pred)
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{ // construct empty map from comparator
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}
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typedef const_iterator _Iter;
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Multimap(_Iter _First, _Iter _Last)
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: multimap<_Kty, _Ty, _Pr, _Alloc>(_First, _Last, _Pr())
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{ // construct map from [_First, _Last)
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}
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Multimap(_Iter _First, _Iter _Last, const _Pr& _Pred)
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: multimap<_Kty, _Ty, _Pr, _Alloc>(_First, _Last, _Pred)
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{ // construct map from [_First, _Last), comparator
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}
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};
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// TEMPLATE CLASS Set
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template<class _Kty,
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class _Pr = less<_Kty> >
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class Set
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: public set<_Kty, _Pr, allocator<_Kty> >
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{ // wrap new set as old
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public:
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typedef Set<_Kty, _Pr> _Myt;
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typedef allocator<_Kty> _Alloc;
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Set()
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: set<_Kty, _Pr, _Alloc>(_Pr())
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{ // construct empty set from defaults
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}
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explicit Set(const _Pr& _Pred)
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: set<_Kty, _Pr, _Alloc>(_Pred)
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{ // construct empty set from comparator
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}
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typedef const_iterator _Iter;
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Set(_Iter _First, _Iter _Last)
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: set<_Kty, _Pr, _Alloc>(_First, _Last, _Pr())
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{ // construct set from [_First, _Last)
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}
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Set(_Iter _First, _Iter _Last, const _Pr& _Pred)
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: set<_Kty, _Pr, _Alloc>(_First, _Last, _Pred)
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{ // construct set from [_First, _Last), comparator
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}
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};
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// TEMPLATE CLASS Multiset
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template<class _Kty,
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class _Pr = less<_Kty> >
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class Multiset
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: public multiset<_Kty, _Pr, allocator<_Kty> >
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{ // wrap new multiset as old
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public:
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typedef Multiset<_Kty, _Pr> _Myt;
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typedef allocator<_Kty> _Alloc;
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Multiset()
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: multiset<_Kty, _Pr, _Alloc>(_Pr())
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{ // construct empty set from defaults
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}
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explicit Multiset(const _Pr& _Pred)
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: multiset<_Kty, _Pr, _Alloc>(_Pred)
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{ // construct empty set from comparator
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}
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typedef const_iterator _Iter;
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Multiset(_Iter _First, _Iter _Last)
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: multiset<_Kty, _Pr, _Alloc>(_First, _Last, _Pr())
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{ // construct set from [_First, _Last)
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}
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Multiset(_Iter _First, _Iter _Last, const _Pr& _Pred)
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: multiset<_Kty, _Pr, _Alloc>(_First, _Last, _Pred)
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{ // construct set from [_First, _Last), comparator
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}
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};
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// TEMPLATE CLASS Vector
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template<class _Ty>
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class Vector
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: public vector<_Ty, allocator<_Ty> >
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{ // wrap new vector as old
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public:
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typedef Vector<_Ty> _Myt;
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typedef allocator<_Ty> _Alloc;
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Vector()
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: vector<_Ty, _Alloc>()
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{ // construct empty vector
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}
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explicit Vector(size_type _Count)
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: vector<_Ty, _Alloc>(_Count, _Ty())
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{ // construct vector from _Count * _Ty()
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}
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Vector(size_type _Count, const _Ty& _Val)
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: vector<_Ty, _Alloc>(_Count, _Val)
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{ // construct vector from _Count * _Val
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}
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typedef const_iterator _Iter;
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Vector(_Iter _First, _Iter _Last)
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: vector<_Ty, _Alloc>(_First, _Last)
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{ // construct vector from [_First, _Last)
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}
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};
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// CLASS bit_vector
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class bit_vector
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: public vector<_Bool, _Bool_allocator>
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{ // wrap new vector<bool> as old
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public:
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typedef _Bool _Ty;
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typedef _Bool_allocator _Alloc;
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typedef bit_vector _Myt;
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bit_vector()
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: vector<_Bool, _Bool_allocator>()
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{ // construct empty vector
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}
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explicit bit_vector(size_type _Count, const _Ty& _Val = _Ty())
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: vector<_Bool, _Bool_allocator>(_Count, _Val)
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{ // construct vector from _Count * _Val
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}
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typedef const_iterator _Iter;
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bit_vector(_Iter _First, _Iter _Last)
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: vector<_Bool, _Bool_allocator>(_First, _Last)
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{ // construct vector from [_First, _Last)
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}
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};
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// TEMPLATE CLASS priority_queue
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template<class _Container,
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class _Pr = less<_Container::value_type> >
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class Priority_queue
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: public priority_queue<_Container::value_type, _Container, _Pr>
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{ // wrap new priority_queue as old
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public:
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typedef typename _Container::value_type _Ty;
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Priority_queue()
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: priority_queue<_Ty, _Container, _Pr>(_Pr())
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{ // construct empty queue from defaults
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}
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explicit Priority_queue(const _Pr& _Pred)
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: priority_queue<_Ty, _Container, _Pr>(_Pred)
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{ // construct empty queue from comparator
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}
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typedef const _Ty *_Iter;
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Priority_queue(_Iter _First, _Iter _Last)
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: priority_queue<_Ty, _Container, _Pr>(_First, _Last, _Pr())
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{ // construct queue from [_First, _Last)
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}
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Priority_queue(_Iter _First, _Iter _Last, const _Pr& _Pred)
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: priority_queue<_Ty, _Container, _Pr>(_First, _Last, _Pred)
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{ // construct map from [_First, _Last), comparator
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}
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};
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// TEMPLATE CLASS queue
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template<class _Container>
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class Queue
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: public queue<_Container::value_type, _Container>
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{ // wrap new queue as old
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};
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// TEMPLATE CLASS stack
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template<class _Container>
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class Stack
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: public stack<_Container::value_type, _Container>
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{ // wrap new stack as old
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};
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// MACRO DEFINITIONS
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#define deque Deque
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#define list List
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#define map Map
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#define multimap Multimap
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#define set Set
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#define multiset Multiset
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#define vector Vector
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#define priority_queue Priority_queue
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#define queue Queue
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#define stack Stack
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#endif /* _STL_H_ */
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/*
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* Copyright (c) 1992-2001 by P.J. Plauger. ALL RIGHTS RESERVED.
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* Consult your license regarding permissions and restrictions.
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*/
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/*
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* This file is derived from software bearing the following
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* restrictions:
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*
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* Copyright (c) 1994
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* Hewlett-Packard Company
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*
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* Permission to use, copy, modify, distribute and sell this
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* software and its documentation for any purpose is hereby
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* granted without fee, provided that the above copyright notice
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* appear in all copies and that both that copyright notice and
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* this permission notice appear in supporting documentation.
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* Hewlett-Packard Company makes no representations about the
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* suitability of this software for any purpose. It is provided
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* "as is" without express or implied warranty.
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V3.10:0009 */
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