• 循环链表简单操作 C++


    带有头节点的循环链表。头节点的数据域为空,在查找某元素是否在链表中时,可用与存放该元素。头节点的next指针指向第一个元素。最后一个元素指向头节点。如图:

    //CircularList.h文件
    #pragma once
    template<class T>
    struct listNode{
        T element;
        listNode<T>* next;
        listNode(){}
        listNode(const T&theElement){ this->element = theElement; }
        listNode(const T&theElement, listNode<T>*theNext){ this->element = theElement; this->next = theNext; }
    };
    //有头节点的循环链表,头节点的指针域指向第一个元素
    template<class T>
    class CircularList
    {
    public:
        CircularList();
        CircularList(const CircularList<T>&);
        ~CircularList();
        void insertFirstNode(const T& element);
        void insertLastNode(const T&element);
        void listInsert(int index, const T&element);
        void listDelete(int index);
        void print();
        int listNodeFine(const T&);
    private:
        listNode<T>* ahead;
        int listSize;
    };
    //CircularList.cpp文件
    #include "CircularList.h"
    #include<iostream>
    using namespace std;
    #include "CircularList.h"
    #include<iostream>
    using namespace std;
    
    template<class T>   //构造函数
    CircularList<T>::CircularList()
    {
        ahead = new listNode<T>();
        ahead->next = ahead;
        listSize = 0;
    }
    
    template<class T>    //复制构造函数
    CircularList<T>::CircularList(const CircularList<T>& List)
    {
        ahead = new listNode<T>;
        ahead->next = ahead;                         //首先形成一个空的循环链表
        listNode<T>*current = ahead;
        listNode<T>*ListCurrent = List.ahead->next;
    
        if (List.ahead->next != List.ahead)             //被拷贝的链表不为空
        {
            while (ListCurrent->next != List.ahead)
            {
                listNode<T>*newNode = new listNode<T>(ListCurrent->element, current->next);
                current->next = newNode;
                current = current->next;
                ListCurrent = ListCurrent->next;
                listSize++;
            }
            if (ListCurrent->next == List.ahead)
            {
                listNode<T>*newNode = new listNode<T>(ListCurrent->element, current->next);
                current->next = newNode;
                listSize++;
            }
        }
    }
    
    template<class T>                //析构函数
    CircularList<T>::~CircularList()
    {
        while (ahead != NULL)
        {
            listNode<T>*current = ahead->next;
            delete ahead;
            ahead = current;
        }
        cout << "析构函数调用" << endl;
    }
    
    
    template<class T>   //在头部插入元素
    void CircularList<T>::insertFirstNode(const T& element)
    {
        listNode<T>*newNode = new listNode<T>(element,this->ahead->next);
        this->ahead->next = newNode;
        listSize++;
    }
    
    template<class T>   //在尾部插入元素
    void CircularList<T>::insertLastNode(const T&element)
    {
        listNode<T>*current = this->ahead;
        while (current->next != this->ahead)
            current = current->next;
        listNode<T>*newNode = new listNode<T>(element,current->next);
        current->next = newNode;
        listSize++;
    }
    
    template<class T>  
    void CircularList<T>::listInsert(int index, const T&element)
    {
        listNode<T>*current = this->ahead->next;
        for (int i = 0; i < index-1; i++)
            current = current->next;
        listNode<T>*newNode = new listNode<T>(element, current->next);
        current->next = newNode;
        listSize++;
    }
    
    template<class T>    
    void CircularList<T>::print()
    {
        listNode<T>*current = this->ahead->next;
        while (current != this->ahead)
        {
            cout << current->element << "  ";
            current = current->next;
        }
        cout << endl;
    }
    
    template<class T>
    void CircularList<T>::listDelete(int index)
    {
        if (index<0 || index>this->listSize)
        {
            cout << "删除范围有错误,请重新输入!" << endl;
            return;
        }
        
        if (index == 0)
        {
            listNode<T>*current = this->ahead->next;
            ahead->next = current->next;
            delete current;
        }
        else
        {
            listNode<T>*current = this->ahead->next;
            for (int i = 0; i < index - 1; i++)
                current = current->next;
            listNode<T>*temp = current->next;
            current->next = temp->next;
            delete temp;
        }
        listSize--;
    }
    
    template<class T>
    int CircularList<T>::listNodeFine(const T& A)
    {
        this->ahead->element = A;
        listNode<T>*current = this->ahead->next;
        int index = 0;
        while (current->element != A)
        {
            index++;
            current = current->next;
        }
        if (current == ahead)
            return -1;
        else
            return index;
    }

    测试代码:

    #include<iostream>
    #include<string>
    #include"CircularList.cpp"
    #include"CircularList.h"
    using namespace std;
    int main()
    {
        CircularList<int>y1;
        y1.insertFirstNode(1);
        y1.insertFirstNode(2);
        y1.insertLastNode(5);
        y1.insertLastNode(6);
        y1.listInsert(2, 10);
        y1.print();
        CircularList<int>y3(y1);
        y3.print();
        y1.listDelete(0);
        y1.print();
        y1.listDelete(1);
        y1.print();
        y1.listDelete(2);
        y1.print();
        int index = y1.listNodeFine(2);
        cout << index;
    
        cout << "hello world" << endl;
        system("pause");
        return 0;
    }
    View Code
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  • 原文地址:https://www.cnblogs.com/hello-gogo/p/6941284.html
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