kolibrios-gitea/contrib/media/updf/include/list

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#ifndef _LIST_INCLUDED
#define _LIST_INCLUDED
#include <stdlib.h>
namespace std
{
struct __list_node_base
{
__list_node_base* prev;
__list_node_base* next;
};
template <class T> struct __list_node : __list_node_base
{
T data;
__list_node(const T& d):data(d){}
};
template <class T> class list
{
__list_node_base head; // head.prev = end, head.next = start
unsigned _size;
public:
list():_size(0) {head.prev=head.next=&head;}
~list() {clear();}
void clear()
{
__list_node<T>* a =
static_cast<__list_node<T>*>(head.next);
while (a!=&head)
{
__list_node<T>* b =
static_cast<__list_node<T>*>(a->next);
delete a;
a = b;
}
head.prev = head.next = &head;
_size = 0;
}
class iterator
{
public:
__list_node_base* cur;
friend class list;
iterator(){}
iterator(__list_node_base*c):cur(c){}
iterator(const iterator& it):cur(it.cur){}
iterator& operator++()
{cur=cur->next;return *this;}
iterator operator++(int)
{iterator tmp(*this);cur=cur->next;return tmp;}
iterator& operator--()
{cur=cur->prev;return *this;}
iterator operator--(int)
{iterator tmp(*this);cur=cur->prev;return tmp;}
bool operator!=(const iterator& it)
{return cur!=it.cur;}
bool operator==(const iterator& it)
{return cur==it.cur;}
T& operator*()
{return static_cast<__list_node<T>*>(cur)->data;}
T* operator->() {return &**this;}
};
class const_iterator
{
const __list_node_base* cur;
friend class list;
public:
const_iterator(){}
const_iterator(const __list_node_base*c):cur(c){}
const_iterator(const const_iterator& it):cur(it.cur){}
const_iterator(const iterator& it):cur(it.cur){}
const_iterator& operator++()
{cur=cur->next;return *this;}
const_iterator operator++(int)
{const_iterator tmp(*this);cur=cur->next;return tmp;}
const_iterator& operator--()
{cur=cur->prev;return *this;}
const_iterator operator--(int)
{const_iterator tmp(*this);cur=cur->prev;return tmp;}
bool operator!=(const const_iterator& it)
{return cur!=it.cur;}
bool operator==(const const_iterator& it)
{return cur==it.cur;}
const T& operator*()
{return static_cast<const __list_node<T>*>(cur)->data;}
const T* operator->() {return &**this;}
};
iterator erase(iterator it)
{
if (it==end()) return it;
it.cur->prev->next = it.cur->next;
it.cur->next->prev = it.cur->prev;
iterator res(it.cur->next);
delete static_cast<__list_node<T>*>(it.cur);
--_size;
return res;
}
iterator erase(iterator first, iterator last)
{
while (first!=last)
first=erase(first);
return first;
}
void pop_front(void) {erase(begin());}
class reverse_iterator
{
__list_node_base* cur;
friend class list;
public:
reverse_iterator(){}
reverse_iterator(__list_node_base*c):cur(c){}
reverse_iterator(const reverse_iterator& it):
cur(it.cur){}
reverse_iterator& operator++()
{cur=cur->prev;return *this;}
reverse_iterator operator++(int)
{reverse_iterator tmp(*this);
cur=cur->prev;return tmp;}
bool operator!=(const reverse_iterator& it)
{return cur!=it.cur;}
bool operator==(const reverse_iterator& it)
{return cur==it.cur;}
T& operator*()
{return static_cast<__list_node<T>*>(cur)->data;}
};
class const_reverse_iterator
{
const __list_node_base* cur;
friend class list;
public:
const_reverse_iterator(){}
const_reverse_iterator(const __list_node_base*c):cur(c){}
const_reverse_iterator(const const_reverse_iterator& it):
cur(it.cur){}
const_reverse_iterator& operator++()
{cur=cur->prev;return *this;}
const_reverse_iterator operator++(int)
{const_reverse_iterator tmp(*this);
cur=cur->prev;return tmp;}
bool operator!=(const const_reverse_iterator& it)
{return cur!=it.cur;}
bool operator==(const const_reverse_iterator& it)
{return cur==it.cur;}
const T& operator*()
{return static_cast<__list_node<T>*>(cur)->data;}
};
void push_front(const T& x)
{
__list_node<T>* a = new __list_node<T>(x);
a->next = head.next;
a->prev = &head;
head.next = a;
a->next->prev = a;
++_size;
}
void push_back(const T& x)
{
__list_node<T>* a = new __list_node<T>(x);
a->next = &head;
a->prev = head.prev;
head.prev = a;
a->prev->next = a;
++_size;
}
iterator begin() {return iterator(head.next);}
const_iterator begin() const {return const_iterator(head.next);}
iterator end() {return iterator(&head);}
const_iterator end() const {return const_iterator(&head);}
reverse_iterator rbegin()
{return reverse_iterator(head.prev);}
reverse_iterator rend() {return reverse_iterator(&head);}
void remove(const T& x)
{
__list_node<T>* a =
static_cast<__list_node<T>*>(head.next);
while (a!=&head)
{
__list_node<T>* b =
static_cast<__list_node<T>*>(a->next);
if (a->data==x)
{
a->prev->next = a->next;
a->next->prev = a->prev;
delete a;
--_size;
}
a=b;
}
}
unsigned size() const {return _size;}
bool empty() const {return _size==0;}
};
}
#endif