//deque
/*
what is a deque?
In Chinese, it's called "双端队列".
It's different from a queue.
Its elements can be added to or removed from either the front(head) or back(tail) ,called a head-tail linked list.
输入限制deque
An input-restricted deque is one where deletion can be made from both ends, but insertion can be made at one end only.
输出限制deque
An output-restricted deque is one where insertion can be made at both ends, but deletion can be made from one end only
Queue and stack can be considered spectalizations of deques.
There are at least two common ways to efficiently implement a deque: with a modified dynamic arry or with a doubly linked list
C++
dq1.push_back(x) insert element at back
dq1.push_front(x) insert element at front
dq1.pop_back(x) remove last element
dq1.pop_front(x) remove first element
dq1.back() return last element
dq1.front() return first element
*/
//自己写deque
//double linked list版
template<typename Object>
class Dequeue
{
private:
struct Node
{
Object data;
Node* next;
Node* prev;
Node(const Object& d = Object(), Node *p = NULL, Node *n = NULL)
:data(d), next(n), prev(p){}
};
public:
Dequeue()
{
init();
}
Dequeue(const Dequeue& q)
{
init();
*this = q;
}
const Dequeue& operator=(const Dequeue& q)
{
if (this == &q)
return *this;
clear();
Node *p = q.head->next;
while (p->next != q.tail)
{
this.push_back(p->data);
p = p->next;
}
return *this;
}
~Dequeue()
{
clear();
delete head;
delete tail;
}
//判空
bool isEmpty()
{
return size == 0;
}
//push_back
void push_back(Object item)
{
size++;
Node* p = new Node;
p->data = item;
Node* q = tail->prev;
p->next = tail;
p->prev = q;
q->next = p;
tail->prev = p;
}
//push_front
void push_front(Object item)
{
size++;
Node* p = new Node;
p->data = item;
Node* q = head->next;
p->next = q;
p->prev = head;
head->next = p;
q->prev = p;
}
//pop_back
void pop_back()
{
size--;
Node*p = tail->prev;
Node*q = p->prev;
q->next = tail;
tail->prev = q;
delete p;
}
//pop_front
void pop_front()
{
size--;
Node *p = head->next;
Node *q = p->next;
head->next = q;
q->prev = head;
delete p;
}
//back
Object back()
{
return tail->prev->data;
}
//front
Object front()
{
return head->next->data;
}
//clear
void clear()
{
while (!isEmpty())
{
pop_back();
}
}
//getsize
int getSize()
{
return size;
}
private:
Node* head;
Node* tail;
int size;
void init()
{
head = new Node;
tail = new Node;
size = 0;
head->next = tail;
tail->prev = head;
}
};