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  • 双向链表(DoubleLinkList)

    双向链表

    有关链表的知识可以点击我上篇文章这里就不再赘述LinkedList

    在这里插入图片描述
    在这里插入图片描述

    • 双向链表也叫双链表,是链表的一种,它的每个数据结点中都有两个指针,分别指向直接后继和直接前驱。所以,从双向链表中的任意一个结点开始,都可以很方便地访问它的前驱结点和后继结点。一般我们都构造双向循环链表

    双向循环链表的可以点击我这篇文章这里就不再赘述DoubleLoopLinkList

    添加

    在这里插入图片描述

    头添加

    void addFirst(const T &e) {
    	//新建一个节点让它前驱指向头,后继指向头的后继然后再让头的后继指向新建的节点,
            head->next = new Node<T>(e, head, head->next);
            //把新节点的后继节点的前驱指向新节点
            head->next->next->prev = head->next;
            ++size;
    }
    

    指定节点添加

    void add(const int index, const T &e) {
            assert(index >= 0 && index <= size);
            Node<T> *prevNode = head;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            prevNode->next = new Node<T>(e, prevNode, prevNode->next);
            prevNode->next->next->prev = prevNode->next;
            ++size;
        }
    

    尾添加

    void addLast(const T &e) {
    		//
            tail->prev = new Node<T>(e, tail->prev, tail);
            tail->prev->prev->next = tail->prev;
            ++size;
    }
    

    删除在这里插入图片描述

    头删除

     T removeFirst() {
            return remove(0);//调不调都是O(1),就这吧。
        }
    

    指定节点删除

    T remove(int index) {
            assert(index >= 0 && index < size);
            //找到待删除节点的前一节点
            Node<T> *prevNode = head;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            //暂存要删除的节点
            Node<T> *retNode = prevNode->next;
            T temp = retNode->e;
            //前一节点的后继指向待删除节点的后继
            prevNode->next = retNode->next;
            //后一节点的前驱指向待删除节点的前驱
            retNode->next->prev = retNode->prev;
            retNode->next = nullptr;
            retNode->prev = nullptr;
            --size;
            delete retNode;
            retNode = nullptr;
            return temp;
        }
    

    尾删除

    T removeLast() {
    	//先暂存要删除的节点
        Node<T> *retNode = tail->prev;
        T temp = retNode->e;
        //尾指针的前驱指向待删除的前驱
        tail->prev = retNode->prev;
        待删除节点前面一节点的后继指向尾指针
        retNode->prev->next = tail;
        retNode->next = nullptr;
        retNode->prev = nullptr;
        delete retNode;
        retNode = nullptr;
        --size;
        return temp;
    }
    

    头尾指针版

    //
    // Created by cheng on 2021/7/5.
    //
    
    #ifndef LINKEDLIST_TEST_H
    #define LINKEDLIST_TEST_H
    #include <assert.h>
    
    template<typename T>
    class Node {
    public:
        T e;
        Node *prev;
        Node *next;
    
        Node() : e(0), prev(nullptr), next(nullptr) {
    
        }
    
        Node(const T &E) : e(E), prev(nullptr), next(nullptr) {
    
        }
    
        Node(const T &E, Node<T> *Prev, Node<T> *Next) : e(E), prev(Prev), next(Next) {
    
        }
    };
    
    template<typename T>
    class DoubleLinkedList {
    public:
        DoubleLinkedList() : size(0) {
            head = new Node<T>(0, nullptr, head);
            tail = new Node<T>(0, tail, nullptr);
        }
    
        constexpr int getSize() const {
            return size;
        }
    
        constexpr bool isEmpty() const {
            return size == 0;
        }
    
        void add(const int index, const T &e) {
            assert(index >= 0 && index <= size);
            Node<T> *prevNode = head;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            prevNode->next = new Node<T>(e, prevNode, prevNode->next);
            prevNode->next->next->prev = prevNode->next;
            ++size;
        }
    
        void addFirst(const T &e) {
            head->next = new Node<T>(e, head, head->next);
            head->next->next->prev = head->next;
            ++size;
        }
    
        void addLast(const T &e) {
            tail->prev = new Node<T>(e, tail->prev, tail);
            tail->prev->prev->next = tail->prev;
            ++size;
        }
    
        void set(const int index, const T &e) {
            assert(index >= 0 && index < size);
            Node<T> *cur = head->next;
            for (int i = 0; i < index; ++i) {
                cur = cur->next;
            }
            cur->e = e;
        }
    
        void setFirst(const T &e) {
            head->next->e = e;
        }
    
        void setLast(const T &e) {
            tail->prev->e = e;
        }
    
        bool contains(const T &e) const {
            Node<T> *cur = head->next;
            while (cur != nullptr) {
                if (cur->e = e) {
                    return true;
                }
                cur = cur->next;
            }
            return false;
        }
    
        T get(const int index) const {
            assert(index >= 0 && index < size);
            Node<T> *cur = head->next;
            for (int i = 0; i < index; ++i) {
                cur = cur->next;
            }
            return cur->e;
        }
    
        T getFirst() const {
            return head->next->e;
        }
    
        T getLast() const {
            return tail->prev->e;
        }
    
        T remove(int index) {
            assert(index >= 0 && index < size);
            Node<T> *prevNode = head;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            Node<T> *retNode = prevNode->next;
            prevNode->next = retNode->next;
            retNode->next->prev = retNode->prev;
            retNode->next = nullptr;
            retNode->prev = nullptr;
            --size;
            T temp = retNode->e;
            delete retNode;
            retNode = nullptr;
            return temp;
        }
    
        T removeFirst() {
            return remove(0);
        }
    
        T removeLast() {
            Node<T> *retNode = tail->prev;
            T temp = retNode->e;
            tail->prev = retNode->prev;
            retNode->prev->next = tail;
            retNode->next = nullptr;
            retNode->prev = nullptr;
            delete retNode;
            retNode = nullptr;
            --size;
            return temp;
        }
    
        ~DoubleLinkedList() {
            Node<T> *cur = head->next;
            Node<T> *temp;
            while (cur != nullptr) {
                temp = cur->next;
                delete cur;
                cur = temp;
            }
            head->next = nullptr;
            head->prev = nullptr;
            tail->prev = nullptr;
            tail->next = nullptr;
            delete head;
            head = nullptr;
            delete tail;
            tail = nullptr;
        }
    
        void print() {
            Node<T> *prevNode = head;
            std::cout << "LinkedList: size = " << size << std::endl;
            std::cout << "[";
            for (int i = 0; i < size; ++i) {
                prevNode = prevNode->next;
                std::cout << prevNode->e;
                if (i < size - 1) {
                    std::cout << ", ";
                }
            }
            std::cout << "]" << std::endl;
        }
    
    private:
        Node<T> *head, *tail;
        int size;
    };
    #endif //LINKEDLIST_TEST_H
    
    

    虚拟头节点

    //
    // Created by cheng on 2021/7/5.
    //
    
    #ifndef LINKEDLIST_DOUBLELINKEDLIST_H
    #define LINKEDLIST_DOUBLELINKEDLIST_H
    
    #include <assert.h>
    
    template<typename T>
    class Node {
    public:
        T e;
        Node *prev;
        Node *next;
    
        Node() : e(0), prev(nullptr), next(nullptr) {}
    
        Node(const T &E) : e(E), prev(nullptr), next(nullptr) {}
    
        Node(const T &E, Node<T> *Prev, Node<T> *Next) : e(E), prev(Prev), next(Next) {}
    };
    
    template<typename T>
    class DoubleLinkedList {
    public:
        DoubleLinkedList() : size(0) {
            dummyHead = new Node<T>(0, nullptr, dummyHead);
        }
    
        constexpr int getSize() const {
            return size;
        }
    
        constexpr bool isEmpty() const {
            return size == 0;
        }
    
        void add(const int index, const T &e) {
            assert(index >= 0 && index <= size);
            Node<T> *prevNode = dummyHead;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            prevNode->next = new Node<T>(e, prevNode, prevNode->next);
            prevNode->next->next->prev = prevNode->next;
            ++size;
        }
    
        void addFirst(const T &e) {
            add(0, e);
        }
    
        void addLast(const T &e) {
            add(size, e);
        }
    
        void set(const int index, const T &e) {
            assert(index >= 0 && index < size);
            Node<T> *cur = dummyHead->next;
            for (int i = 0; i < index; ++i) {
                cur = cur->next;
            }
            cur->e = e;
        }
    
        void setFirst(const T &e) {
            set(0, e);
        }
    
        void setLast(const T &e) {
            set(size, e);
        }
    
        bool contains(const T &e) const {
            Node<T> *cur = dummyHead->next;
            while (cur != nullptr) {
                if (cur->e = e) {
                    return true;
                }
                cur = cur->next;
            }
            return false;
        }
    
        T get(const int index) const {
            assert(index >= 0 && index < size);
            Node<T> *cur = dummyHead->next;
            for (int i = 0; i < index; ++i) {
                cur = cur->next;
            }
            return cur->e;
        }
    
        T getFirst() const {
            return get(0);
        }
    
        T getLast() const {
            return get(size - 1);
        }
    
        T remove(int index) {
            assert(index >= 0 && index < size);
            Node<T> *prevNode = dummyHead;
            for (int i = 0; i < index; ++i) {
                prevNode = prevNode->next;
            }
            Node<T> *retNode = prevNode->next;
            prevNode->next = retNode->next;
            retNode->next->prev = retNode->prev;
            retNode->next = nullptr;
            retNode->prev = nullptr;
            --size;
            T temp = retNode->e;
            delete retNode;
            retNode = nullptr;
            return temp;
        }
    
        T removeFirst() {
            return remove(0);
        }
    
        T removeLast() {
            return remove(size - 1);
        }
    
        ~DoubleLinkedList() {
            Node<T> *cur = dummyHead->next;
            Node<T> *temp;
            while (cur != nullptr) {
                temp = cur->next;
                delete cur;
                cur = temp;
            }
            dummyHead->next = nullptr;
            dummyHead->prev = nullptr;
            delete dummyHead;
            dummyHead = nullptr;
        }
    
        void print() {
            Node<T> *prevNode = dummyHead;
            std::cout << "LinkedList: size = " << size << std::endl;
            std::cout << "[";
            for (int i = 0; i < size; ++i) {
                prevNode = prevNode->next;
                std::cout << prevNode->e;
                if (i < size - 1) {
                    std::cout << ", ";
                }
            }
            std::cout << "]" << std::endl;
        }
    
    private:
        Node<T> *dummyHead;
        int size;
    };
    
    
    #endif //LINKEDLIST_DOUBLELINKEDLIST_H
    
    
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  • 原文地址:https://www.cnblogs.com/chengmf/p/14977506.html
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