#include<iostream>

using namespace std;

template <typename T>

class Queue

{

public:

	Queue()

	{

		Node<T> *node=new Node<T>();

		node->data=NULL;

		node->next=NULL;

		qfront=qrear=node;

	}

	template <typename T>

	struct Node

	{

		Node<T> *next;

		T data;

	};

	bool empty() const;

	void pop();

	T & front();

	T & back();

	void push(const T &);

	int size() const;

private:

	Node<T> *qfront,*qrear;

};

template <typename T>

T &Queue<T>::back()

{

	if(!empty())

		return qrear->data;

}

template <typename T>

T &Queue<T>::front()

{

	if(!empty())

	{

		Node<T> *p=qfront->next;

		return p->data;

	}

}

template <typename T>

bool Queue<T>::empty() const

{

	if(qfront==qrear)

		return true;

	else

		return false;

}

template <typename T>

void Queue<T>::pop()

{

	if(!empty())

	{

		Node<T> *p=qfront->next;

		qfront->next=p->next;

		if(p==qrear)

			qrear=qfront;

		delete p;

		p=NULL;

	}

}

template<typename T>

void Queue<T>::push(const T & t)

{

	Node<T> *node=new Node<T>;

	node->data=t;

	node->next=NULL;

	qrear->next=node;

	qrear=node;

}

template<typename T>

int Queue<T>::size() const

{

	Node<T> *p=qfront;

	if(empty())

		return 0;

	else

	{

		int i=1;

		while(p->next!=qrear)

		{

			p=p->next;

			i++;

		}

		return i;

	}

}

int main()

{

	Queue<int> q;

	q.push(1);

	q.push(2);

	q.pop();

	q.pop();

	q.pop();

	cout<<q.size()<<endl;

	getchar();

	return 0;

}