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184 lines
4.5 KiB
Java
184 lines
4.5 KiB
Java
今天咱们说一道非常简单但是很经典的面试题,思路很容易,但是里面细节挺多,所以我们还是需要注意。
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我们先来看一下题目描述
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#### [206. 反转链表](https://leetcode-cn.com/problems/reverse-linked-list/)
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反转一个单链表。
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**示例:**
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> 输入: 1->2->3->4->5->NULL
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> 输出: 5->4->3->2->1->NULL
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该题目我们刚开始刷题的同学可能会想到先保存到数组中,然后从后往前遍历数组,重新组成链表,这样做是可以 AC 的,但是我们机试时往往不允许我们修改节点的值,仅仅是修改节点的指向。所以我们应该用什么方法来解决呢?
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我们先来看动图,看看我们能不能理解。然后再对动图进行解析。
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![](https://img-blog.csdnimg.cn/20210323191331552.gif)
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原理很容易理解,我们首先将 low 指针指向空节点, pro 节点指向 head 节点,
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然后我们定义一个临时节点指向 pro 节点,
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此时我们就记住了 pro 节点的位置,然后 pro = pro.next.这样我们三个指针指向三个不同的节点。
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则我们将 temp 指针指向 low 节点,此时则完成了反转。
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反转之后我们继续反转下一节点,则
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low = temp 即可。然后重复执行上诉操作直至最后,这样则完成了反转链表。
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我们下面看代码吧
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我会对每个关键点进行注释,大家可以参考动图理解。
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**题目代码**
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Java Code:
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```java
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class Solution {
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public ListNode reverseList(ListNode head) {
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//特殊情况
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if (head == null || head.next == null) {
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return head;
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}
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//反转
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return reverse(head);
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}
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public ListNode reverse (ListNode head) {
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ListNode low = null;
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ListNode pro = head;
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while (pro != null) {
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//代表橙色指针
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ListNode temp = pro;
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//移动绿色指针
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pro = pro.next;
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//反转节点
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temp.next = low;
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//移动黄色指针
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low = temp;
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}
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return low;
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}
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}
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```
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JS Code:
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```javascript
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var reverseList = function(head) {
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if(!head || !head.next) {
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return head;
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}
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let low = null;
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let pro = head;
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while (pro) {
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let temp = pro;
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pro = pro.next;
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temp.next = low;
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low = temp;
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}
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return low;
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};
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```
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C++代码
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```cpp
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class Solution {
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public:
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ListNode* reverseList(ListNode* head) {
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//特殊情况
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if (head == nullptr || head->next == nullptr) {
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return head;
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}
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//反转
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return reverse(head);
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}
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ListNode * reverse (ListNode * head) {
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ListNode * low = nullptr;
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ListNode * pro = head;
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while (pro != nullptr) {
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//代表橙色指针
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ListNode * temp = pro;
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//移动绿色指针
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pro = pro->next;
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//反转节点
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temp->next = low;
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//移动黄色指针
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low = temp;
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}
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return low;
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}
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};
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```
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上面的迭代写法是不是搞懂啦,现在还有一种递归写法,不是特别容易理解,刚开始刷题的同学,可以只看迭代解法。
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**题目代码**
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Java Code:
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```java
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class Solution {
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public ListNode reverseList(ListNode head) {
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//结束条件
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if (head == null || head.next == null) {
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return head;
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}
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//保存最后一个节点
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ListNode pro = reverseList(head.next);
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//将节点进行反转。我们可以这样理解 4.next.next = 4;
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//4.next = 5;
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//则 5.next = 4 则实现了反转
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head.next.next = head;
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//防止循环
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head.next = null;
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return pro;
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}
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}
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```
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JS Code:
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```javascript
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var reverseList = function(head) {
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if (!head || !head.next) {
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return head;
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}
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let pro = reverseList(head.next);
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head.next.next = head;
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head.next = null;
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return pro;
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};
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```
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C++代码:
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```cpp
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class Solution {
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public:
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ListNode * reverseList(ListNode * head) {
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//结束条件
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if (head == nullptr || head->next == nullptr) {
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return head;
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}
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//保存最后一个节点
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ListNode * pro = reverseList(head->next);
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//将节点进行反转。我们可以这样理解 4->next->next = 4;
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//4->next = 5;
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//则 5->next = 4 则实现了反转
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head->next->next = head;
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//防止循环
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head->next = nullptr;
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return pro;
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}
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};
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```
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