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655 lines
29 KiB
655 lines
29 KiB
// tree internal header
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#ifndef _TREE_
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#define _TREE_
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#include <cstddef>
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#include <iterator>
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#include <memory>
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#include <xutility>
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#ifdef _MSC_VER
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#pragma pack(push,8)
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#endif /* _MSC_VER */
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_STD_BEGIN
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// TEMPLATE CLASS _Tree
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template<class _K, class _Ty, class _Kfn, class _Pr, class _A>
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class _Tree {
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protected:
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typedef _POINTER_X(void, _A) _Genptr;
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enum _Redbl {_Red, _Black};
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struct _Node;
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friend struct _Node;
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struct _Node {
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_Genptr _Left, _Parent, _Right;
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_Ty _Value;
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_Redbl _Color;
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};
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typedef _POINTER_X(_Node, _A) _Nodeptr;
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typedef _REFERENCE_X(_Nodeptr, _A) _Nodepref;
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typedef _REFERENCE_X(const _K, _A) _Keyref;
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typedef _REFERENCE_X(_Redbl, _A) _Rbref;
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typedef _REFERENCE_X(_Ty, _A) _Vref;
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static _Rbref _Color(_Nodeptr _P)
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{return ((_Rbref)(*_P)._Color); }
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static _Keyref _Key(_Nodeptr _P)
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{return (_Kfn()(_Value(_P))); }
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static _Nodepref _Left(_Nodeptr _P)
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{return ((_Nodepref)(*_P)._Left); }
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static _Nodepref _Parent(_Nodeptr _P)
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{return ((_Nodepref)(*_P)._Parent); }
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static _Nodepref _Right(_Nodeptr _P)
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{return ((_Nodepref)(*_P)._Right); }
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static _Vref _Value(_Nodeptr _P)
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{return ((_Vref)(*_P)._Value); }
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public:
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typedef _Tree<_K, _Ty, _Kfn, _Pr, _A> _Myt;
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typedef _K key_type;
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typedef _Ty value_type;
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typedef _A::size_type size_type;
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typedef _A::difference_type difference_type;
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typedef _POINTER_X(_Ty, _A) _Tptr;
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typedef _POINTER_X(const _Ty, _A) _Ctptr;
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typedef _REFERENCE_X(_Ty, _A) reference;
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typedef _REFERENCE_X(const _Ty, _A) const_reference;
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// CLASS iterator
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class iterator;
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friend class iterator;
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class iterator : public _Bidit<_Ty, difference_type> {
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public:
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iterator()
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{}
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iterator(_Nodeptr _P)
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: _Ptr(_P) {}
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reference operator*() const
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{return (_Value(_Ptr)); }
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_Tptr operator->() const
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{return (&**this); }
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iterator& operator++()
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{_Inc();
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return (*this); }
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iterator operator++(int)
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{iterator _Tmp = *this;
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++*this;
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return (_Tmp); }
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iterator& operator--()
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{_Dec();
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return (*this); }
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iterator operator--(int)
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{iterator _Tmp = *this;
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--*this;
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return (_Tmp); }
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bool operator==(const iterator& _X) const
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{return (_Ptr == _X._Ptr); }
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bool operator!=(const iterator& _X) const
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{return (!(*this == _X)); }
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void _Dec()
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{if (_Color(_Ptr) == _Red
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&& _Parent(_Parent(_Ptr)) == _Ptr)
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_Ptr = _Right(_Ptr);
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else if (_Left(_Ptr) != _Nil)
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_Ptr = _Max(_Left(_Ptr));
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else
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{_Nodeptr _P;
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while (_Ptr == _Left(_P = _Parent(_Ptr)))
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_Ptr = _P;
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_Ptr = _P; }}
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void _Inc()
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{if (_Right(_Ptr) != _Nil)
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_Ptr = _Min(_Right(_Ptr));
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else
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{_Nodeptr _P;
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while (_Ptr == _Right(_P = _Parent(_Ptr)))
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_Ptr = _P;
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if (_Right(_Ptr) != _P)
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_Ptr = _P; }}
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_Nodeptr _Mynode() const
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{return (_Ptr); }
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protected:
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_Nodeptr _Ptr;
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};
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// CLASS const_iterator
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class const_iterator;
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friend class const_iterator;
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class const_iterator : public iterator {
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public:
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const_iterator()
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{}
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const_iterator(_Nodeptr _P)
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: iterator(_P) {}
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const_iterator(const iterator& _X)
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: iterator(_X) {}
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const_reference operator*() const
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{return (_Value(_Ptr)); }
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_Ctptr operator->() const
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{return (&**this); }
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const_iterator& operator++()
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{_Inc();
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return (*this); }
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const_iterator operator++(int)
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{iterator _Tmp = *this;
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++*this;
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return (_Tmp); }
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const_iterator& operator--()
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{_Dec();
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return (*this); }
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const_iterator operator--(int)
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{iterator _Tmp = *this;
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--*this;
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return (_Tmp); }
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bool operator==(const const_iterator& _X) const
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{return (_Ptr == _X._Ptr); }
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bool operator!=(const const_iterator& _X) const
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{return (!(*this == _X)); }
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};
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typedef reverse_bidirectional_iterator<iterator,
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value_type, reference, _Tptr, difference_type>
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reverse_iterator;
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typedef reverse_bidirectional_iterator<const_iterator,
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value_type, const_reference, _Ctptr, difference_type>
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const_reverse_iterator;
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typedef pair<iterator, bool> _Pairib;
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typedef pair<iterator, iterator> _Pairii;
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typedef pair<const_iterator, const_iterator> _Paircc;
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explicit _Tree(const _Pr& _Parg, bool _Marg = true,
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const _A& _Al = _A())
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: allocator(_Al),
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key_compare(_Parg), _Multi(_Marg)
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{_Init(); }
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_Tree(const _Ty *_F, const _Ty *_L,
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const _Pr& _Parg, bool _Marg = true,
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const _A& _Al = _A())
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: allocator(_Al),
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key_compare(_Parg), _Multi(_Marg)
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{_Init();
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insert(_F, _L); }
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_Tree(const _Myt& _X)
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: allocator(_X.allocator),
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key_compare(_X.key_compare), _Multi(_X._Multi)
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{_Init();
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_Copy(_X); }
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~_Tree()
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{erase(begin(), end());
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_Freenode(_Head);
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_Head = 0, _Size = 0;
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_Nodeptr _Tmp = 0;
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{_Lockit _Lk;
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if (--_Nilrefs == 0)
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{_Tmp = _Nil;
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_Nil = 0; }}
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if (_Tmp != 0)
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_Freenode(_Tmp); }
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_Myt& operator=(const _Myt& _X)
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{if (this != &_X)
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{erase(begin(), end());
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key_compare = _X.key_compare;
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_Copy(_X); }
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return (*this); }
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iterator begin()
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{return (iterator(_Lmost())); }
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const_iterator begin() const
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{return (const_iterator(_Lmost())); }
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iterator end()
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{return (iterator(_Head)); }
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const_iterator end() const
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{return (const_iterator(_Head)); }
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reverse_iterator rbegin()
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{return (reverse_iterator(end())); }
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const_reverse_iterator rbegin() const
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{return (const_reverse_iterator(end())); }
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reverse_iterator rend()
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{return (reverse_iterator(begin())); }
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const_reverse_iterator rend() const
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{return (const_reverse_iterator(begin())); }
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size_type size() const
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{return (_Size); }
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size_type max_size() const
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{return (allocator.max_size()); }
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bool empty() const
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{return (size() == 0); }
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_A get_allocator() const
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{return (allocator); }
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_Pr key_comp() const
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{return (key_compare); }
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_Pairib insert(const value_type& _V)
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{_Nodeptr _X = _Root();
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_Nodeptr _Y = _Head;
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bool _Ans = true;
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while (_X != _Nil)
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{_Y = _X;
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_Ans = key_compare(_Kfn()(_V), _Key(_X));
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_X = _Ans ? _Left(_X) : _Right(_X); }
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if (_Multi)
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return (_Pairib(_Insert(_X, _Y, _V), true));
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iterator _P = iterator(_Y);
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if (!_Ans)
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;
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else if (_P == begin())
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return (_Pairib(_Insert(_X, _Y, _V), true));
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else
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--_P;
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if (key_compare(_Key(_P._Mynode()), _Kfn()(_V)))
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return (_Pairib(_Insert(_X, _Y, _V), true));
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return (_Pairib(_P, false)); }
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iterator insert(iterator _P, const value_type& _V)
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{if (size() == 0)
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;
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else if (_P == begin())
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{if (key_compare(_Kfn()(_V), _Key(_P._Mynode())))
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return (_Insert(_Head, _P._Mynode(), _V)); }
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else if (_P == end())
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{if (key_compare(_Key(_Rmost()), _Kfn()(_V)))
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return (_Insert(_Nil, _Rmost(), _V)); }
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else
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{iterator _Pb = _P;
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if (key_compare(_Key((--_Pb)._Mynode()), _Kfn()(_V))
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&& key_compare(_Kfn()(_V), _Key(_P._Mynode())))
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{if (_Right(_Pb._Mynode()) == _Nil)
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return (_Insert(_Nil, _Pb._Mynode(), _V));
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else
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return (_Insert(_Head, _P._Mynode(), _V)); }}
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return (insert(_V).first); }
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void insert(iterator _F, iterator _L)
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{for (; _F != _L; ++_F)
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insert(*_F); }
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void insert(const value_type *_F, const value_type *_L)
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{for (; _F != _L; ++_F)
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insert(*_F); }
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iterator erase(iterator _P)
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{_Nodeptr _X;
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_Nodeptr _Y = (_P++)._Mynode();
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_Nodeptr _Z = _Y;
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if (_Left(_Y) == _Nil)
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_X = _Right(_Y);
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else if (_Right(_Y) == _Nil)
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_X = _Left(_Y);
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else
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_Y = _Min(_Right(_Y)), _X = _Right(_Y);
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{ _Lockit _Lk;
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if (_Y != _Z)
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{_Parent(_Left(_Z)) = _Y;
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_Left(_Y) = _Left(_Z);
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if (_Y == _Right(_Z))
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_Parent(_X) = _Y;
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else
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{_Parent(_X) = _Parent(_Y);
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_Left(_Parent(_Y)) = _X;
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_Right(_Y) = _Right(_Z);
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_Parent(_Right(_Z)) = _Y; }
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if (_Root() == _Z)
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_Root() = _Y;
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else if (_Left(_Parent(_Z)) == _Z)
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_Left(_Parent(_Z)) = _Y;
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else
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_Right(_Parent(_Z)) = _Y;
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_Parent(_Y) = _Parent(_Z);
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std::swap(_Color(_Y), _Color(_Z));
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_Y = _Z; }
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else
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{_Parent(_X) = _Parent(_Y);
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if (_Root() == _Z)
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_Root() = _X;
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else if (_Left(_Parent(_Z)) == _Z)
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_Left(_Parent(_Z)) = _X;
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else
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_Right(_Parent(_Z)) = _X;
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if (_Lmost() != _Z)
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;
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else if (_Right(_Z) == _Nil)
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_Lmost() = _Parent(_Z);
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else
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_Lmost() = _Min(_X);
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if (_Rmost() != _Z)
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;
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else if (_Left(_Z) == _Nil)
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_Rmost() = _Parent(_Z);
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else
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_Rmost() = _Max(_X); }
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if (_Color(_Y) == _Black)
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{while (_X != _Root() && _Color(_X) == _Black)
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if (_X == _Left(_Parent(_X)))
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{_Nodeptr _W = _Right(_Parent(_X));
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if (_Color(_W) == _Red)
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{_Color(_W) = _Black;
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_Color(_Parent(_X)) = _Red;
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_Lrotate(_Parent(_X));
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_W = _Right(_Parent(_X)); }
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if (_Color(_Left(_W)) == _Black
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&& _Color(_Right(_W)) == _Black)
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{_Color(_W) = _Red;
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_X = _Parent(_X); }
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else
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{if (_Color(_Right(_W)) == _Black)
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{_Color(_Left(_W)) = _Black;
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_Color(_W) = _Red;
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_Rrotate(_W);
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_W = _Right(_Parent(_X)); }
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_Color(_W) = _Color(_Parent(_X));
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_Color(_Parent(_X)) = _Black;
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_Color(_Right(_W)) = _Black;
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_Lrotate(_Parent(_X));
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break; }}
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else
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{_Nodeptr _W = _Left(_Parent(_X));
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if (_Color(_W) == _Red)
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{_Color(_W) = _Black;
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_Color(_Parent(_X)) = _Red;
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_Rrotate(_Parent(_X));
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_W = _Left(_Parent(_X)); }
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if (_Color(_Right(_W)) == _Black
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&& _Color(_Left(_W)) == _Black)
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{_Color(_W) = _Red;
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_X = _Parent(_X); }
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else
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{if (_Color(_Left(_W)) == _Black)
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{_Color(_Right(_W)) = _Black;
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_Color(_W) = _Red;
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_Lrotate(_W);
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_W = _Left(_Parent(_X)); }
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_Color(_W) = _Color(_Parent(_X));
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_Color(_Parent(_X)) = _Black;
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_Color(_Left(_W)) = _Black;
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_Rrotate(_Parent(_X));
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break; }}
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_Color(_X) = _Black; }
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}
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_Destval(&_Value(_Y));
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_Freenode(_Y);
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--_Size;
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return (_P); }
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iterator erase(iterator _F, iterator _L)
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{if (size() == 0 || _F != begin() || _L != end())
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{while (_F != _L)
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erase(_F++);
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return (_F); }
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else
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{_Erase(_Root());
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_Root() = _Nil, _Size = 0;
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_Lmost() = _Head, _Rmost() = _Head;
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return (begin()); }}
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size_type erase(const _K& _X)
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{_Pairii _P = equal_range(_X);
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size_type _N = 0;
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_Distance(_P.first, _P.second, _N);
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erase(_P.first, _P.second);
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return (_N); }
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void erase(const _K *_F, const _K *_L)
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{for (; _F != _L; ++_F)
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erase(*_F); }
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void clear()
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{erase(begin(), end()); }
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iterator find(const _K& _Kv)
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{iterator _P = lower_bound(_Kv);
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return (_P == end()
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|| key_compare(_Kv, _Key(_P._Mynode()))
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? end() : _P); }
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const_iterator find(const _K& _Kv) const
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{const_iterator _P = lower_bound(_Kv);
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return (_P == end()
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|| key_compare(_Kv, _Key(_P._Mynode()))
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? end() : _P); }
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size_type count(const _K& _Kv) const
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{_Paircc _Ans = equal_range(_Kv);
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size_type _N = 0;
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_Distance(_Ans.first, _Ans.second, _N);
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return (_N); }
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iterator lower_bound(const _K& _Kv)
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{return (iterator(_Lbound(_Kv))); }
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const_iterator lower_bound(const _K& _Kv) const
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{return (const_iterator(_Lbound(_Kv))); }
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iterator upper_bound(const _K& _Kv)
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{return (iterator(_Ubound(_Kv))); }
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const_iterator upper_bound(const _K& _Kv) const
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{return (iterator(_Ubound(_Kv))); }
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_Pairii equal_range(const _K& _Kv)
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{return (_Pairii(lower_bound(_Kv), upper_bound(_Kv))); }
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_Paircc equal_range(const _K& _Kv) const
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{return (_Paircc(lower_bound(_Kv), upper_bound(_Kv))); }
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void swap(_Myt& _X)
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{std::swap(key_compare, _X.key_compare);
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if (allocator == _X.allocator)
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{std::swap(_Head, _X._Head);
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std::swap(_Multi, _X._Multi);
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std::swap(_Size, _X._Size); }
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else
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{_Myt _Ts = *this; *this = _X, _X = _Ts; }}
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friend void swap(_Myt& _X, _Myt& _Y)
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{_X.swap(_Y); }
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protected:
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static _Nodeptr _Nil;
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static size_t _Nilrefs;
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void _Copy(const _Myt& _X)
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{_Root() = _Copy(_X._Root(), _Head);
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_Size = _X.size();
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if (_Root() != _Nil)
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{_Lmost() = _Min(_Root());
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_Rmost() = _Max(_Root()); }
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else
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_Lmost() = _Head, _Rmost() = _Head; }
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_Nodeptr _Copy(_Nodeptr _X, _Nodeptr _P)
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{_Nodeptr _R = _X;
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for (; _X != _Nil; _X = _Left(_X))
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{_Nodeptr _Y = _Buynode(_P, _Color(_X));
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if (_R == _X)
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_R = _Y;
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_Right(_Y) = _Copy(_Right(_X), _Y);
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_Consval(&_Value(_Y), _Value(_X));
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_Left(_P) = _Y;
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_P = _Y; }
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_Left(_P) = _Nil;
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return (_R); }
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void _Erase(_Nodeptr _X)
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{for (_Nodeptr _Y = _X; _Y != _Nil; _X = _Y)
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{_Erase(_Right(_Y));
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_Y = _Left(_Y);
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_Destval(&_Value(_X));
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_Freenode(_X); }}
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void _Init()
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{_Nodeptr _Tmp = _Buynode(0, _Black);
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{_Lockit _Lk;
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if (_Nil == 0)
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{_Nil = _Tmp;
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_Tmp = 0;
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_Left(_Nil) = 0, _Right(_Nil) = 0; }
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++_Nilrefs; }
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if (_Tmp != 0)
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_Freenode(_Tmp);
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_Head = _Buynode(_Nil, _Red), _Size = 0;
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_Lmost() = _Head, _Rmost() = _Head; }
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iterator _Insert(_Nodeptr _X, _Nodeptr _Y, const _Ty& _V)
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{_Nodeptr _Z = _Buynode(_Y, _Red);
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_Left(_Z) = _Nil, _Right(_Z) = _Nil;
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_Consval(&_Value(_Z), _V);
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++_Size;
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if (_Y == _Head || _X != _Nil
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|| key_compare(_Kfn()(_V), _Key(_Y)))
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{_Left(_Y) = _Z;
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if (_Y == _Head)
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{_Root() = _Z;
|
|
_Rmost() = _Z; }
|
|
else if (_Y == _Lmost())
|
|
_Lmost() = _Z; }
|
|
else
|
|
{_Right(_Y) = _Z;
|
|
if (_Y == _Rmost())
|
|
_Rmost() = _Z; }
|
|
for (_X = _Z; _X != _Root()
|
|
&& _Color(_Parent(_X)) == _Red; )
|
|
if (_Parent(_X) == _Left(_Parent(_Parent(_X))))
|
|
{_Y = _Right(_Parent(_Parent(_X)));
|
|
if (_Color(_Y) == _Red)
|
|
{_Color(_Parent(_X)) = _Black;
|
|
_Color(_Y) = _Black;
|
|
_Color(_Parent(_Parent(_X))) = _Red;
|
|
_X = _Parent(_Parent(_X)); }
|
|
else
|
|
{if (_X == _Right(_Parent(_X)))
|
|
{_X = _Parent(_X);
|
|
_Lrotate(_X); }
|
|
_Color(_Parent(_X)) = _Black;
|
|
_Color(_Parent(_Parent(_X))) = _Red;
|
|
_Rrotate(_Parent(_Parent(_X))); }}
|
|
else
|
|
{_Y = _Left(_Parent(_Parent(_X)));
|
|
if (_Color(_Y) == _Red)
|
|
{_Color(_Parent(_X)) = _Black;
|
|
_Color(_Y) = _Black;
|
|
_Color(_Parent(_Parent(_X))) = _Red;
|
|
_X = _Parent(_Parent(_X)); }
|
|
else
|
|
{if (_X == _Left(_Parent(_X)))
|
|
{_X = _Parent(_X);
|
|
_Rrotate(_X); }
|
|
_Color(_Parent(_X)) = _Black;
|
|
_Color(_Parent(_Parent(_X))) = _Red;
|
|
_Lrotate(_Parent(_Parent(_X))); }}
|
|
_Color(_Root()) = _Black;
|
|
return (iterator(_Z)); }
|
|
_Nodeptr _Lbound(const _K& _Kv) const
|
|
{_Nodeptr _X = _Root();
|
|
_Nodeptr _Y = _Head;
|
|
while (_X != _Nil)
|
|
if (key_compare(_Key(_X), _Kv))
|
|
_X = _Right(_X);
|
|
else
|
|
_Y = _X, _X = _Left(_X);
|
|
return (_Y); }
|
|
_Nodeptr& _Lmost()
|
|
{return (_Left(_Head)); }
|
|
_Nodeptr& _Lmost() const
|
|
{return (_Left(_Head)); }
|
|
void _Lrotate(_Nodeptr _X)
|
|
{_Nodeptr _Y = _Right(_X);
|
|
_Right(_X) = _Left(_Y);
|
|
if (_Left(_Y) != _Nil)
|
|
_Parent(_Left(_Y)) = _X;
|
|
_Parent(_Y) = _Parent(_X);
|
|
if (_X == _Root())
|
|
_Root() = _Y;
|
|
else if (_X == _Left(_Parent(_X)))
|
|
_Left(_Parent(_X)) = _Y;
|
|
else
|
|
_Right(_Parent(_X)) = _Y;
|
|
_Left(_Y) = _X;
|
|
_Parent(_X) = _Y; }
|
|
static _Nodeptr _Max(_Nodeptr _P)
|
|
{while (_Right(_P) != _Nil)
|
|
_P = _Right(_P);
|
|
return (_P); }
|
|
static _Nodeptr _Min(_Nodeptr _P)
|
|
{while (_Left(_P) != _Nil)
|
|
_P = _Left(_P);
|
|
return (_P); }
|
|
_Nodeptr& _Rmost()
|
|
{return (_Right(_Head)); }
|
|
_Nodeptr& _Rmost() const
|
|
{return (_Right(_Head)); }
|
|
_Nodeptr& _Root()
|
|
{return (_Parent(_Head)); }
|
|
_Nodeptr& _Root() const
|
|
{return (_Parent(_Head)); }
|
|
void _Rrotate(_Nodeptr _X)
|
|
{_Nodeptr _Y = _Left(_X);
|
|
_Left(_X) = _Right(_Y);
|
|
if (_Right(_Y) != _Nil)
|
|
_Parent(_Right(_Y)) = _X;
|
|
_Parent(_Y) = _Parent(_X);
|
|
if (_X == _Root())
|
|
_Root() = _Y;
|
|
else if (_X == _Right(_Parent(_X)))
|
|
_Right(_Parent(_X)) = _Y;
|
|
else
|
|
_Left(_Parent(_X)) = _Y;
|
|
_Right(_Y) = _X;
|
|
_Parent(_X) = _Y; }
|
|
_Nodeptr _Ubound(const _K& _Kv) const
|
|
{_Nodeptr _X = _Root();
|
|
_Nodeptr _Y = _Head;
|
|
while (_X != _Nil)
|
|
if (key_compare(_Kv, _Key(_X)))
|
|
_Y = _X, _X = _Left(_X);
|
|
else
|
|
_X = _Right(_X);
|
|
return (_Y); }
|
|
_Nodeptr _Buynode(_Nodeptr _Parg, _Redbl _Carg)
|
|
{_Nodeptr _S = (_Nodeptr)allocator._Charalloc(
|
|
1 * sizeof (_Node));
|
|
_Parent(_S) = _Parg;
|
|
_Color(_S) = _Carg;
|
|
return (_S); }
|
|
void _Consval(_Tptr _P, const _Ty& _V)
|
|
{_Construct(&*_P, _V); }
|
|
void _Destval(_Tptr _P)
|
|
{_Destroy(&*_P); }
|
|
void _Freenode(_Nodeptr _S)
|
|
{allocator.deallocate(_S, 1); }
|
|
_A allocator;
|
|
_Pr key_compare;
|
|
_Nodeptr _Head;
|
|
bool _Multi;
|
|
size_type _Size;
|
|
};
|
|
template<class _K, class _Ty, class _Kfn, class _Pr, class _A>
|
|
_Tree<_K, _Ty, _Kfn, _Pr, _A>::_Nodeptr
|
|
_Tree<_K, _Ty, _Kfn, _Pr, _A>::_Nil = 0;
|
|
template<class _K, class _Ty, class _Kfn, class _Pr, class _A>
|
|
size_t _Tree<_K, _Ty, _Kfn, _Pr, _A>::_Nilrefs = 0;
|
|
// tree TEMPLATE OPERATORS
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator==(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (_X.size() == _Y.size()
|
|
&& equal(_X.begin(), _X.end(), _Y.begin())); }
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator!=(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (!(_X == _Y)); }
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator<(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (lexicographical_compare(_X.begin(), _X.end(),
|
|
_Y.begin(), _Y.end())); }
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator>(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (_Y < _X); }
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator<=(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (!(_Y < _X)); }
|
|
template<class _K, class _Ty, class _Kfn,
|
|
class _Pr, class _A> inline
|
|
bool operator>=(const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _X,
|
|
const _Tree<_K, _Ty, _Kfn, _Pr, _A>& _Y)
|
|
{return (!(_X < _Y)); }
|
|
_STD_END
|
|
#ifdef _MSC_VER
|
|
#pragma pack(pop)
|
|
#endif /* _MSC_VER */
|
|
|
|
#endif /* _TREE_ */
|
|
|
|
/*
|
|
* Copyright (c) 1995 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.
|
|
*/
|