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rbt_iterator.hpp
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/* ************************************************************************** */
/* */
/* ::: :::::::: */
/* rbt_iterator.hpp :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: badam <[email protected]> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2021/07/13 13:12:54 by badam #+# #+# */
/* Updated: 2021/12/20 19:23:17 by badam ### ########.fr */
/* */
/* ************************************************************************** */
#ifndef RBT_ITERATOR_HPP
# define RBT_ITERATOR_HPP
# include "core_iterator.hpp"
# include "reverse_iterator.hpp"
# include "rbt.hpp"
namespace ft
{
template< class T, class Item >
class rbt_iterator: public ft::iterator< std::random_access_iterator_tag, T, Item >
{
typedef rbt_iterator< T, Item > _self;
typedef ft::iterator<std::random_access_iterator_tag, T, Item > _parent;
protected:
using typename _parent::_item;
using typename _parent::_size_type;
public:
using typename _parent::_core;
using typename _parent::_item_ptr;
using typename _parent::iterator_category;
using typename _parent::value_type;
using typename _parent::difference_type;
using typename _parent::pointer;
using typename _parent::reference;
rbt_iterator(void): _parent()
{};
rbt_iterator(const _core &src): _parent(src)
{};
rbt_iterator(_item_ptr front, _item_ptr back, _item_ptr elem): _parent(front, back, elem)
{};
virtual ~rbt_iterator(void)
{};
private:
bool _is_rightchild(Item *n)
{
if (!n->parent)
return (false);
return (n->parent->right_child == n);
}
bool _is_leftchild(Item *n)
{
if (!n->parent)
return (false);
return (n->parent->left_child == n);
}
Item *_get_leftmost(Item *n)
{
while (n->left_child)
n = n->left_child;
return (n);
}
Item *_get_rightmost(Item *n)
{
while (n->right_child)
n = n->right_child;
return (n);
}
public:
reference operator*(void) const
{
return *(_parent::_elem->data);
};
pointer operator->(void) const
{
return (_parent::_elem->data);
};
_self &operator++(void)
{
if (_parent::_elem == NULL)
_parent::_elem = _parent::_front;
else if (_parent::_elem == _parent::_back)
_parent::_elem = NULL;
else
{
if (_parent::_elem->right_child)
_parent::_elem = _get_leftmost(_parent::_elem->right_child);
else if (_is_rightchild(_parent::_elem))
{
while (_is_rightchild(_parent::_elem))
_parent::_elem = _parent::_elem->parent;
_parent::_elem = _parent::_elem->parent;
}
else
_parent::_elem = _parent::_elem->parent;
}
return (*this);
};
_self operator++(int)
{
_self tmp(*this);
++(*this);
return (tmp);
};
_self &operator--(void)
{
if (_parent::_elem == NULL)
_parent::_elem = _parent::_back;
else if (_parent::_elem == _parent::_front)
_parent::_elem = NULL;
else
{
if (_parent::_elem->left_child)
_parent::_elem = _get_rightmost(_parent::_elem->left_child);
else if (_is_leftchild(_parent::_elem))
{
while (_is_leftchild(_parent::_elem))
_parent::_elem = _parent::_elem->parent;
_parent::_elem = _parent::_elem->parent;
}
else
_parent::_elem = _parent::_elem->parent;
}
return (*this);
};
_self operator--(int)
{
_self tmp(*this);
--(*this);
return (tmp);
};
_self &operator+=(difference_type n)
{
if (n < 0)
(*this) -= -n;
else
{
while (n--)
++(*this);
}
return (*this);
};
_self &operator-=(difference_type n)
{
if (n < 0)
(*this) += -n;
else
{
while (n--)
--(*this);
}
return (*this);
};
_self operator+(difference_type n) const
{
_self tmp(*this);
return (tmp += n);
};
_self operator-(difference_type n) const
{
_self tmp(*this);
return (tmp -= n);
};
reference operator[](difference_type n) const
{
return (*(_parent::_front + n));
}
};
template< class L_T, class L_I, class R_T, class R_I >
bool operator<=(const rbt_iterator<L_T, L_I> &lhs, const rbt_iterator<R_T, R_I> &rhs)
{
if (lhs.getElem() == rhs.getElem())
return (true);
return (lhs < rhs);
};
template< class L_T, class L_I, class R_T, class R_I >
bool operator<(const rbt_iterator<L_T, L_I> &lhs, const rbt_iterator<R_T, R_I> &rhs)
{
if (!lhs.getElem())
return (false);
if (!rhs.getElem())
return (true);
return (lhs.getElem() < rhs.getElem());
};
template< class L_T, class L_I, class R_T, class R_I >
bool operator>=(const rbt_iterator<L_T, L_I> &lhs, const rbt_iterator<R_T, R_I> &rhs)
{
return (!(lhs < rhs));
};
template< class L_T, class L_I, class R_T, class R_I >
bool operator>(const rbt_iterator<L_T, L_I> &lhs, const rbt_iterator<R_T, R_I> &rhs)
{
return (!(lhs <= rhs));
};
template< class T, class I >
rbt_iterator<T, I> operator+(const int nb, const rbt_iterator<T, I> &ref)
{
return (ref + nb);
};
template< class L_T, class L_I, class R_T, class R_I >
typename rbt_iterator<L_T, L_I>::difference_type operator-(const rbt_iterator<L_T, L_I> &lit, const rbt_iterator<R_T, R_I> &rit)
{
if (rit.getElem() == lit.getElem())
return (0);
if (!rit.getElem())
return lit.getElem() - lit.getBack() - 1;
if (!lit.getElem())
return rit.getBack() + 1 - rit.getElem();
return lit.getElem() - rit.getElem();
}
}
#endif