C++实现LeetCode(24.成对交换节点)_C/C++

C++实现LeetCode(24.成对交换节点)

2021-11-25 15:19Grandyang C/C++

这篇文章主要介绍了C++实现LeetCode(24.成对交换节点),本篇文章通过简要的案例,讲解了该项技术的了解与使用,以下就是详细内容,需要的朋友可以参考下

[LeetCode] 24. Swap Nodes in Pairs 成对交换节点

Given a linked list, swap every two adjacent nodes and return its head.

You may not modify the values in the list's nodes, only nodes itself may be changed.

Example:

Given

1->2->3->4

, you should return the list as

2->1->4->3.

这道题不算难，是基本的链表操作题，我们可以分别用递归和迭代来实现。对于迭代实现，还是需要建立 dummy 节点，注意在连接节点的时候，最好画个图，以免把自己搞晕了，参见代码如下：

解法一：

				?

									class Solution {

									public:

									    ListNode* swapPairs(ListNode* head) {

									        ListNode *dummy = new ListNode(-1), *pre = dummy;

									        dummy->next = head;

									        while (pre->next && pre->next->next) {

									            ListNode *t = pre->next->next;

									            pre->next->next = t->next;

									            t->next = pre->next;

									            pre->next = t;

									            pre = t->next;

									        }

									        return dummy->next;

									    }

									};

递归的写法就更简洁了，实际上利用了回溯的思想，递归遍历到链表末尾，然后先交换末尾两个，然后依次往前交换：

解法二：

				?

									class Solution {

									public:

									    ListNode* swapPairs(ListNode* head) {

									        if (!head || !head->next) return head;

									        ListNode *t = head->next;

									        head->next = swapPairs(head->next->next);

									        t->next = head;

									        return t;

									    }

									};

解法三：

				?

									class Solution {

									    public ListNode swapPairs(ListNode head) {

									        if (head == null || head.next == null) {

									            return head;

									        }

									        ListNode newHead = head.next;

									        head.next = swapPairs(newHead.next);

									        newHead.next = head;

									        return newHead;

									    }

									}