移除链表元素
LeetCode-203 移除链表元素
203. 移除链表元素
给你一个链表的头节点 head 和一个整数 val ,请你删除链表中所有满足 Node.val == val 的节点,并返回 新的头节点 。
class Solution {
public ListNode removeElements(ListNode head, int val) {
//头插一个哨兵结点
ListNode newHead = new ListNode(-1);
newHead.next = head;
ListNode prev = newHead;
while (prev.next != null) {
if (prev.next.val == val) {
prev.next = prev.next.next;
} else {
prev = prev.next;
}
}
return newHead.next;
}
}
反转链表
LeetCode-206 反转链表
反转一个单链表。
示例:
输入: 1->2->3->4->5->NULL
输出: 5->4->3->2->1->NULL
class Solution {
public ListNode reverseList(ListNode head) {
ListNode prev = null;
ListNode cur = head;
while (cur != null) {
ListNode next = cur.next;
cur.next = prev;
prev = cur;
cur = next;
}
return prev;
}
}
链表的中间结点
LeetCode-876 链表的中间结点
链表的中间结点
给定一个头结点为 head 的非空单链表,返回链表的中间结点。
如果有两个中间结点,则返回第二个中间结点。
class Solution {
public ListNode middleNode(ListNode head) {
ListNode fast = head;
ListNode slow = head;
while (fast != null) {
fast = fast.next;
if (fast == null) {
break;
}
fast = fast.next;
slow = slow.next;
}
return slow;
}
}
链表中倒数第K个结点
nowcoder剑指offer链表中倒数第K个结点
题目描述
输入一个链表,输出该链表中倒数第k个结点。
class Solution {
public ListNode FindKthToTail(ListNode head, int k) {
ListNode fast = head;
ListNode slow = head;
for (int i = 0; i < k; i++) {
if (fast != null) {
fast = fast.next;
} else {
return null;
}
}
while (fast != null) {
fast = fast.next;
slow = slow.next;
}
return slow;
}
}
合并两个有序链表
LeetCode-21 合并两个有序链表
合并两个有序链表
将两个升序链表合并为一个新的 升序 链表并返回。新链表是通过拼接给定的两个链表的所有节点组成的。
class Solution {
public ListNode mergeTwoLists(ListNode l1, ListNode l2) {
ListNode newHead = new ListNode(-1);
ListNode p = newHead;
ListNode last1 = l1;
ListNode last2 = l2;
while (last1 != null && last2 != null) {
if (last1.val <= last2.val) {
p.next = last1;
p = p.next;
last1 = last1.next;
} else {
p.next = last2;
p = p.next;
last2 = last2.next;
}
}
if (last1 == null) {
p.next = last2;
} else {
p.next = last1;
}
return newHead.next;
}
}
链表分割
nowcoder程序员面试宝典 链表分割
题目描述
现有一链表的头指针 ListNode* pHead,给一定值x,编写一段代码将所有小于x的结点排在其余结点之前,且不能改变原来的数据顺序,返回重新排列后的链表的头指针。
class Partition {
public ListNode partition(ListNode pHead, int x) {
ListNode l1 = new ListNode(-1);
ListNode l2 = new ListNode(-1);
ListNode last1 = l1;
ListNode last2 = l2;
ListNode cur = pHead;
while (cur != null) {
if (cur.val < x) {
last1.next = cur;
last1 = last1.next;
cur = cur.next;
} else {
last2.next = cur;
last2 = last2.next;
cur = cur.next;
}
}
last2.next = null;
last1.next = l2.next;
return l1.next;
}
}
删除链表中重复结点
nowcoder剑指offer 删除链表中重复结点
在一个排序的链表中,存在重复的结点,请删除该链表中重复的结点,重复的结点不保留,返回链表头指针。 例如,链表1->2->3->3->4->4->5 处理后为 1->2->5
class Solution {
public ListNode deleteDuplication(ListNode pHead) {
if (pHead == null) {
return null;
}
ListNode newHead = new ListNode(-1);
newHead.next = pHead;
ListNode prev = newHead;
ListNode cur = pHead;
ListNode next = cur.next;
while (next != null) {
if (cur.val != next.val) {
prev = prev.next;
cur = cur.next;
next = next.next;
} else {
while (next != null && cur.val == next.val) {
next = next.next;
}
prev.next = next;
cur = next;
if (next != null) {
next = next.next;
}
}
}
return newHead.next;
}
}
相交链表
LeetCode_160相交链表
编写一个程序,找到两个单链表相交的起始节点。
思路:
首先判断是否为相交节点,然后从相同长度起往后走,判断指向的对象是否相同,找到相交节点。
class Solution {
public ListNode getIntersectionNode(ListNode headA, ListNode headB) {
if (headA == null || headB == null) {
return null;
}
ListNode cur1 = headA;
ListNode cur2 = headB;
int count1 = 0;
int count2 = 0;
while (cur1.next != null) {
count1++;
cur1 = cur1.next;
}
while (cur2.next != null) {
count2++;
cur2 = cur2.next;
}
if (cur1.equals(cur2)) {
int n = count1 - count2;
cur1 = headA;
cur2 = headB;
if (n > 0) {
for (int i = 0; i < n; i++) {
cur1 = cur1.next;
}
} else if (n < 0) {
for (int i = 0; i < -n; i++) {
cur2 = cur2.next;
}
}
while (cur1 != null && cur2 != null) {
if (cur1.equals(cur2)) {
return cur1;
} else {
cur1 = cur1.next;
cur2 = cur2.next;
}
}
return null;
} else {
return null;
}
}
}
链表的回文结构
nowcoder 链表的回文结构
题目描述
对于一个链表,请设计一个时间复杂度为O(n),额外空间复杂度为O(1)的算法,判断其是否为回文结构。
给定一个链表的头指针A,请返回一个bool值,代表其是否为回文结构。保证链表长度小于等于900。
思路:
首先找到中间节点,然后将后面的链表逆置,然后从头开始比较判断
(可能不是最优解,欢迎补充)
public class PalindromeList {
public boolean chkPalindrome(ListNode A) {
// write code here
ListNode fast=A;
ListNode slow=A;
while (fast!=null){
fast=fast.next;
if (fast==null){
break;
}
fast=fast.next;
slow=slow.next;
}
ListNode reverse = reverse(slow.next);
ListNode cur=A;
while (reverse!=null){
if (reverse.val==cur.val){
reverse=reverse.next;
cur=cur.next;
}else {
return false;
}
}
return true;
}
public ListNode reverse(ListNode head) {
ListNode prev = null;
ListNode cur = head;
while (cur != null) {
ListNode next = cur.next;
cur.next = prev;
prev = cur;
cur = next;
}
return prev;
}
}
环形链表
LeetCode-p141 环形链表
判断链表中是否有环:
class Solution {
public boolean hasCycle(ListNode head) {
if (head==null){
return false;
}
ListNode fast = head;
ListNode slow = head;
while (fast.next != null) {
fast = fast.next;
if (fast.next == null) {
return false;
}
fast = fast.next;
slow = slow.next;
if (fast.equals(slow)) {
return true;
}
}
return false;
}
}
环形链表2
LeetCode-p142 环形链表2
环形链表,并找到入环第一个点
/**
* Definition for singly-linked list.
* class ListNode {
* int val;
* ListNode next;
* ListNode(int x) {
* val = x;
* next = null;
* }
* }
*/
public class Solution {
public ListNode detectCycle(ListNode head) {
if (head == null || head.next == null) {
return null;
}
boolean flg = false;
ListNode fast = head;
ListNode slow = head;
while (fast.next != null) {
fast = fast.next;
if (fast.next == null) {
return null;
}
fast = fast.next;
slow = slow.next;
if (fast.equals(slow)) {
flg = true;
break;
}
}
if (flg) {
slow = head;
while (!slow.equals(fast) && fast != null) {
slow = slow.next;
fast = fast.next;
}
return slow;
}else {
return null;
}
}
}