CS-Notes/docs/notes/Leetcode 题解 - 链表.md

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* [1. 找出两个链表的交点](#1-找出两个链表的交点)
* [2. 链表反转](#2-链表反转)
* [3. 归并两个有序的链表](#3-归并两个有序的链表)
* [4. 从有序链表中删除重复节点](#4-从有序链表中删除重复节点)
* [5. 删除链表的倒数第 n 个节点](#5-删除链表的倒数第-n-个节点)
* [6. 交换链表中的相邻结点](#6-交换链表中的相邻结点)
* [7. 链表求和](#7-链表求和)
* [8. 回文链表](#8-回文链表)
* [9. 分隔链表](#9-分隔链表)
* [10. 链表元素按奇偶聚集](#10-链表元素按奇偶聚集)
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链表是空节点或者有一个值和一个指向下一个链表的指针因此很多链表问题可以用递归来处理
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# 1. 找出两个链表的交点
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[160. Intersection of Two Linked Lists (Easy)](https://leetcode.com/problems/intersection-of-two-linked-lists/description/)
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例如以下示例中 A B 两个链表相交于 c1
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```html
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A: a1 a2
c1 c2 c3
B: b1 b2 b3
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```
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但是不会出现以下相交的情况因为每个节点只有一个 next 指针也就只能有一个后继节点而以下示例中节点 c 有两个后继节点
```html
A: a1 a2 d1 d2
c
B: b1 b2 b3 e1 e2
```
要求时间复杂度为 O(N)空间复杂度为 O(1)如果不存在交点则返回 null
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A 的长度为 a + cB 的长度为 b + c其中 c 为尾部公共部分长度可知 a + c + b = b + c + a
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当访问 A 链表的指针访问到链表尾部时令它从链表 B 的头部开始访问链表 B同样地当访问 B 链表的指针访问到链表尾部时令它从链表 A 的头部开始访问链表 A这样就能控制访问 A B 两个链表的指针能同时访问到交点
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如果不存在交点那么 a + b = b + a以下实现代码中 l1 l2 会同时为 null从而退出循环
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```java
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public ListNode getIntersectionNode(ListNode headA, ListNode headB) {
ListNode l1 = headA, l2 = headB;
while (l1 != l2) {
l1 = (l1 == null) ? headB : l1.next;
l2 = (l2 == null) ? headA : l2.next;
}
return l1;
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}
```
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如果只是判断是否存在交点那么就是另一个问题 [编程之美 3.6]() 的问题有两种解法
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- 把第一个链表的结尾连接到第二个链表的开头看第二个链表是否存在环
- 或者直接比较两个链表的最后一个节点是否相同
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# 2. 链表反转
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[206. Reverse Linked List (Easy)](https://leetcode.com/problems/reverse-linked-list/description/)
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递归
```java
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public ListNode reverseList(ListNode head) {
if (head == null || head.next == null) {
return head;
}
ListNode next = head.next;
ListNode newHead = reverseList(next);
next.next = head;
head.next = null;
return newHead;
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}
```
头插法
```java
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public ListNode reverseList(ListNode head) {
ListNode newHead = new ListNode(-1);
while (head != null) {
ListNode next = head.next;
head.next = newHead.next;
newHead.next = head;
head = next;
}
return newHead.next;
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}
```
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# 3. 归并两个有序的链表
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[21. Merge Two Sorted Lists (Easy)](https://leetcode.com/problems/merge-two-sorted-lists/description/)
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```java
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public ListNode mergeTwoLists(ListNode l1, ListNode l2) {
if (l1 == null) return l2;
if (l2 == null) return l1;
if (l1.val < l2.val) {
l1.next = mergeTwoLists(l1.next, l2);
return l1;
} else {
l2.next = mergeTwoLists(l1, l2.next);
return l2;
}
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}
```
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# 4. 从有序链表中删除重复节点
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[83. Remove Duplicates from Sorted List (Easy)](https://leetcode.com/problems/remove-duplicates-from-sorted-list/description/)
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```html
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Given 1->1->2, return 1->2.
Given 1->1->2->3->3, return 1->2->3.
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```
```java
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public ListNode deleteDuplicates(ListNode head) {
if (head == null || head.next == null) return head;
head.next = deleteDuplicates(head.next);
return head.val == head.next.val ? head.next : head;
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}
```
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# 5. 删除链表的倒数第 n 个节点
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[19. Remove Nth Node From End of List (Medium)](https://leetcode.com/problems/remove-nth-node-from-end-of-list/description/)
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```html
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Given linked list: 1->2->3->4->5, and n = 2.
After removing the second node from the end, the linked list becomes 1->2->3->5.
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```
```java
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public ListNode removeNthFromEnd(ListNode head, int n) {
ListNode fast = head;
while (n-- > 0) {
fast = fast.next;
}
if (fast == null) return head.next;
ListNode slow = head;
while (fast.next != null) {
fast = fast.next;
slow = slow.next;
}
slow.next = slow.next.next;
return head;
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}
```
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# 6. 交换链表中的相邻结点
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[24. Swap Nodes in Pairs (Medium)](https://leetcode.com/problems/swap-nodes-in-pairs/description/)
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```html
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Given 1->2->3->4, you should return the list as 2->1->4->3.
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```
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题目要求不能修改结点的 val O(1) 空间复杂度
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```java
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public ListNode swapPairs(ListNode head) {
ListNode node = new ListNode(-1);
node.next = head;
ListNode pre = node;
while (pre.next != null && pre.next.next != null) {
ListNode l1 = pre.next, l2 = pre.next.next;
ListNode next = l2.next;
l1.next = next;
l2.next = l1;
pre.next = l2;
pre = l1;
}
return node.next;
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}
```
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# 7. 链表求和
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[445. Add Two Numbers II (Medium)](https://leetcode.com/problems/add-two-numbers-ii/description/)
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```html
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Input: (7 -> 2 -> 4 -> 3) + (5 -> 6 -> 4)
Output: 7 -> 8 -> 0 -> 7
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```
题目要求不能修改原始链表
```java
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public ListNode addTwoNumbers(ListNode l1, ListNode l2) {
Stack<Integer> l1Stack = buildStack(l1);
Stack<Integer> l2Stack = buildStack(l2);
ListNode head = new ListNode(-1);
int carry = 0;
while (!l1Stack.isEmpty() || !l2Stack.isEmpty() || carry != 0) {
int x = l1Stack.isEmpty() ? 0 : l1Stack.pop();
int y = l2Stack.isEmpty() ? 0 : l2Stack.pop();
int sum = x + y + carry;
ListNode node = new ListNode(sum % 10);
node.next = head.next;
head.next = node;
carry = sum / 10;
}
return head.next;
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}
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private Stack<Integer> buildStack(ListNode l) {
Stack<Integer> stack = new Stack<>();
while (l != null) {
stack.push(l.val);
l = l.next;
}
return stack;
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}
```
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# 8. 回文链表
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[234. Palindrome Linked List (Easy)](https://leetcode.com/problems/palindrome-linked-list/description/)
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题目要求 O(1) 的空间复杂度来求解
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切成两半把后半段反转然后比较两半是否相等
```java
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public boolean isPalindrome(ListNode head) {
if (head == null || head.next == null) return true;
ListNode slow = head, fast = head.next;
while (fast != null && fast.next != null) {
slow = slow.next;
fast = fast.next.next;
}
if (fast != null) slow = slow.next; // 偶数节点,让 slow 指向下一个节点
cut(head, slow); // 切成两个链表
return isEqual(head, reverse(slow));
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}
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private void cut(ListNode head, ListNode cutNode) {
while (head.next != cutNode) {
head = head.next;
}
head.next = null;
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}
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private ListNode reverse(ListNode head) {
ListNode newHead = null;
while (head != null) {
ListNode nextNode = head.next;
head.next = newHead;
newHead = head;
head = nextNode;
}
return newHead;
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}
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private boolean isEqual(ListNode l1, ListNode l2) {
while (l1 != null && l2 != null) {
if (l1.val != l2.val) return false;
l1 = l1.next;
l2 = l2.next;
}
return true;
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}
```
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# 9. 分隔链表
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[725. Split Linked List in Parts(Medium)](https://leetcode.com/problems/split-linked-list-in-parts/description/)
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```html
Input:
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root = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10], k = 3
Output: [[1, 2, 3, 4], [5, 6, 7], [8, 9, 10]]
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Explanation:
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The input has been split into consecutive parts with size difference at most 1, and earlier parts are a larger size than the later parts.
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```
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题目描述把链表分隔成 k 部分每部分的长度都应该尽可能相同排在前面的长度应该大于等于后面的
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```java
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public ListNode[] splitListToParts(ListNode root, int k) {
int N = 0;
ListNode cur = root;
while (cur != null) {
N++;
cur = cur.next;
}
int mod = N % k;
int size = N / k;
ListNode[] ret = new ListNode[k];
cur = root;
for (int i = 0; cur != null && i < k; i++) {
ret[i] = cur;
int curSize = size + (mod-- > 0 ? 1 : 0);
for (int j = 0; j < curSize - 1; j++) {
cur = cur.next;
}
ListNode next = cur.next;
cur.next = null;
cur = next;
}
return ret;
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}
```
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# 10. 链表元素按奇偶聚集
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[328. Odd Even Linked List (Medium)](https://leetcode.com/problems/odd-even-linked-list/description/)
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```html
Example:
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Given 1->2->3->4->5->NULL,
return 1->3->5->2->4->NULL.
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```
```java
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public ListNode oddEvenList(ListNode head) {
if (head == null) {
return head;
}
ListNode odd = head, even = head.next, evenHead = even;
while (even != null && even.next != null) {
odd.next = odd.next.next;
odd = odd.next;
even.next = even.next.next;
even = even.next;
}
odd.next = evenHead;
return head;
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}
```
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