C++ 构造双向链表的实现代码
C++ 构造双向链表的实现代码
发布时间:2016-12-28 来源:查字典编辑
摘要:构造双向链表,不足之处,还望指正!复制代码代码如下://DoubleLinkedList.cpp:定义控制台应用程序的入口点。//构造双向链...

构造双向链表,不足之处,还望指正!

复制代码 代码如下:

// DoubleLinkedList.cpp : 定义控制台应用程序的入口点。

//构造双向链表,实现从控制台输入,插入,删除,求大小size等操作

#include "stdafx.h"

#include <iostream>

using namespace std;

//定义双向链表的节点

template<class T>

struct NODE

{

NODE<T>* pre;

T data;

NODE<T>* next;

};

//定义双向链表容器

template<class T>

class DoubleLinkedList

{

public:

DoubleLinkedList()

{

NODE<T>* q = new NODE<T>;

if (q == NULL)

{

cout << "Fail to malloc the head node." << endl;

return;

}

phead = q;

phead->pre = NULL;

phead->data = NULL;

phead->next = NULL;

T i;

cout << "Please input several integer number, input ctrl+z to the end: " << endl;

while (cin >> i)

{

NODE<T>* p = new NODE<T>;

if (p == NULL)

{

cout << "Fail to malloc a new node." << endl;

return;

}

p->data = i;

q->next = p;

p->pre = q;

p->next = NULL;

q = q->next;

}

}

//容器大小方法

int size()

{

NODE<T>* p = phead->next;

int count(0);

while (p != NULL)

{

count++;

p = p->next;

}

return count;

}

//输出DoubleLinkedLIst中的元素

void print_elements()

{

NODE<T>* p = phead->next;

while (p != NULL)

{

cout << p->data << " ";

p = p->next;

}

cout << endl;

}

//插入一个元素到DoubleLinkedList中,任意合法位置插入

void insert_element(int i, T e)

{

if (i <= this->size())

{

NODE<T>* m = phead;

for (int j = 1; j < i; j ++)

{

m = m->next;

}

NODE<T>* n = m->next;

NODE<T>* p = new NODE<T>;

if (p == NULL)

{

cout << "Failed to malloc the node." << endl;

}

m->next = p;

p->pre = m;

p->data = e;

p->next = n;

n->pre = p;

}

else if (i == (this->size()+1))

{

NODE<T>* m = phead;

for (int j = 1; j < i; j++)

{

m = m->next;

}

NODE<T>* p = new NODE<T>;

if (p == NULL)

{

cout << "Failed to malloc the node." << endl;

}

m->next = p;

p->pre = m;

p->data = e;

p->next = NULL;

}

else

{

cout << "Please input the position number equals or smaller than " << size()+1 << endl;

}

}

//插入一个元素到DoubleLinkedList中,只在末尾插入

void insert_element(T e)

{

NODE<T>* m = phead;

for (int j = 1; j <= size(); j++)

{

m = m->next;

}

NODE<T>* p = new NODE<T>;

if (p == NULL)

{

cout << "Failed to malloc the node." << endl;

}

m->next = p;

p->pre = m;

p->data = e;

p->next = NULL;

}

//删除DoubleLinkedList中的一个元素

void delete_element(int i)

{

NODE<T>* p = phead;

for (int j = 0; j < i; j ++)

{

p = p->next;

if (p == NULL)

{//所要删除的元素超过list的范围

cout << "The size of the list is " << size() << " ,Please input the right number." << endl;

return;

}

}

if(p->next != NULL)

{//删除除最后一个以外的元素

NODE<T>* m = p->pre;

NODE<T>* n = p->next;

m->next = n;

n->pre = m;

delete p;

}

else

{//删除元素为最后一个

NODE<T>* m = p->pre;

m->next = NULL;

delete p;

}

}

private:

NODE<T>* phead;

};

int _tmain(int argc, _TCHAR* argv[])

{

//测试代码

DoubleLinkedList<int> mylist;

mylist.print_elements();

cout << "The size of the double linked list is : " << mylist.size() << endl;

mylist.insert_element(1, 50);

mylist.print_elements();

mylist.insert_element(6, 80);

mylist.print_elements();

mylist.insert_element(250);

mylist.print_elements();

mylist.delete_element(7);

mylist.print_elements();

return 0;

}

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