《数据结构与算法分析:C语言描述》复习——第三章“线性表、栈和队列”——双向链表

时间:2024-04-16 20:17:55

2014.06.14 20:17

简介:

  双向链表是LRU Cache中要用到的基本结构,每个链表节点左右分别指向上一个和下一个节点,能够*地左右遍历。

图示:

  《数据结构与算法分析:C语言描述》复习——第三章“线性表、栈和队列”——双向链表

实现:

 // My implementation for doubly linked list.

 struct ListNode {

     int val;

     ListNode *prev;

     ListNode *next;

     ListNode(int _val = ): val(_val), next(nullptr), prev(nullptr) {};

 };

 class DoublyLinkedList {

 public:

     DoublyLinkedList() {

         m_size = ;

         m_head = nullptr;

         m_tail = nullptr;

     }

     void insertFront(int val) {

         if (m_size == ) {

             m_head = m_tail = new ListNode(val);

         } else {

             ListNode *ptr = new ListNode(val);

             ptr->next = m_head;

             m_head->prev = ptr;

             m_head = ptr;

         }

         ++m_size;

     }

     void insertBack(int val) {

         if (m_size == ) {

             m_head = m_tail = new ListNode(val);

         } else {

             m_tail->next = new ListNode(val);

             m_tail->next->prev = m_tail;

             m_tail = m_tail->next;

         }

         ++m_size;

     }

     void insertNode(int pos, int val) {

         int i;

         if (i <= ) {

             insertFront(val);

         } else if (i >= m_size) {

             insertBack(val);

         } else {

             ListNode *ptr1, *ptr2;

             ptr1 = m_head;

             for (i = ; i < pos - ; ++i) {

                 ptr1 = ptr1->next;

             }

             ptr2 = new ListNode(val);

             ptr2->next = ptr1->next;

             ptr1->next->prev = ptr2;

             ptr1->next = ptr2;

             ptr2->prev = ptr1;

             ++m_size;

         }

     }

     void deleteNode(int pos) {

         if (pos <  || pos > m_size - ) {

             return;

         }

         ListNode *ptr1, *ptr2;

         if (pos == ) {

             ptr1 = m_head;

             if (m_size == ) {

                 m_head = m_tail = nullptr;

             } else {

                 m_head = m_head->next;

                 m_head->prev = nullptr;

             }

             delete ptr1;

         } else {

             ptr1 = m_head;

             for (int i = ; i < pos - ; ++i) {

                 ptr1 = ptr1->next;

             }

             ptr2 = ptr1->next;

             ptr1->next = ptr2->next;

             if (ptr2->next == nullptr) {

                 m_tail = ptr1;

             } else {

                 ptr2->next->prev = ptr1;

             }

             delete ptr2;

         }

         --m_size;

     }

     void updateNode(int pos, int val) {

         if (pos <  || pos > m_size - ) {

             return;

         }

         ListNode *ptr = m_head;

         for (int i = ; i < pos; ++i) {

             ptr = ptr->next;

         }

         ptr->val = val;

     }

     ListNode *findNode(int val) {

         ListNode *ptr = m_head;

         while (ptr != nullptr) {

             if (ptr->val == val) {

                 return ptr;

             }

             ptr = ptr->next;

         }

         return nullptr;

     }

     ~DoublyLinkedList() {

         ListNode *ptr = m_head;

         while (m_head != nullptr) {

             m_head = m_head->next;

             delete ptr;

             ptr = m_head;

         }

         m_head = m_tail = nullptr;

     }

 private:

     int m_size;

     ListNode *m_head;

     ListNode *m_tail;

 };

 int main()

 {

     return ;

 }

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