--- 链表相关 --- [06. 从头到尾打印链表](https://leetcode-cn.com/problems/cong-wei-dao-tou-da-yin-lian-biao-lcof/) ```java class Solution { public int[s] reversePrint(ListNode head) { ListNode temp = head; int size = 0; while (temp != null) { temp = temp.next; size++; } int[] result = new int[size]; int index = size - 1; while (head != null) { result[index--] = head.val; head = head.next; } return result; } } ``` ```java class Solution { public int[] reversePrint(ListNode head) { Stack stack = new Stack(); ListNode temp = head; while (temp != null) { stack.push(temp); temp = temp.next; } int size = stack.size(); int[] print = new int[size]; for (int i = 0; i < size; i++) { print[i] = stack.pop().val; } return print; } } ``` [22. 链表中倒数第 k 个节点](https://leetcode-cn.com/problems/lian-biao-zhong-dao-shu-di-kge-jie-dian-lcof/) ```java class Solution { public ListNode getKthFromEnd(ListNode head, int k) { int length = 0; ListNode temp = head; while (temp != null) { temp = temp.next; length++; } for (int i = 0; i < length - k; i++) { head = head.next; } return head; } } ``` ```java class Solution { public ListNode getKthFromEnd(ListNode head, int k) { ListNode h0 = head; for (int i = 0; i < k; i++) { h0 = h0.next; } while (h0 != null) { h0 = h0.next; head = head.next; } return head; } } ``` [24. 反转链表](https://leetcode-cn.com/problems/fan-zhuan-lian-biao-lcof/) ```java class Solution { public ListNode reverseList(ListNode head) { if (head == null || head.next == null) { return head; } ListNode h1 = head; ListNode h2 = head.next; ListNode h3 = null; h1.next = null; while (h2 != null) { h3 = h2.next; h2.next = h1; h1 = h2; h2 = h3; } return h1; } } ``` ```java class Solution { public ListNode reverseList(ListNode head) { // 递归终止条件是当前为空,或者下一个节点为空 if (head == null || head.next == null) { return head; } // 这里的 h1 就是最后一个节点 ListNode h1 = reverseList(head.next); // 如果链表是 1->2->3->4->5,那么此时的 cur 就是 5 // 而 head 是4,head的 下一个是 5,下下一个是空 // 所以 head.next.next 就是 5->4 head.next.next = head; // 防止链表循环,需要将 head.next 设置为空 head.next = null; // 每层递归函数都返回 h1,也就是最后一个节点 return h1; } } ``` [25. 合并两个排序的链表](https://leetcode-cn.com/problems/he-bing-liang-ge-pai-xu-de-lian-biao-lcof/) ```java class Solution { public ListNode mergeTwoLists(ListNode l1, ListNode l2) { ListNode h0 = new ListNode(0); ListNode h = h0; while (l1 != null && l2 != null) { if (l1.val <= l2.val) { h0.next = l1; l1 = l1.next; } else { h0.next = l2; l2 = l2.next; } h0 = h0.next; } if (l1 == null) { h0.next = l2; } else { h0.next = l1; } return h.next; } } ``` ```java class Solution { 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; } } } ``` [35. 复杂链表的复制](https://leetcode-cn.com/problems/fu-za-lian-biao-de-fu-zhi-lcof/) ```java class Solution { public Node copyRandomList(Node head) { // 存原节点和拷贝节点的一个映射 Map map = new HashMap<>(); Node temp = head; while (temp != null) { map.put(temp, new Node(temp.val)); temp = temp.next; } temp = head; while (temp != null) { // 将拷贝节点组织成一个链表 map.get(temp).random = map.get(temp.random); map.get(temp).next = map.get(temp.next); temp = temp.next; } return map.get(head); } } ``` ```java class Solution { public Node copyRandomList(Node head) { // 将拷贝节点放在原节点后面,比如 1->2 变成 1->1'->2->2' for (Node node = head, copy = null; node != null; node = node.next.next) { copy = new Node(node.val); copy.next = node.next; node.next = copy; } // 把拷贝节点的 random 指针安排上 for (Node node = head; node != null; node = node.next.next) { if (node.random != null) { node.next.random = node.random.next; } } Node newHead = head.next; Node node = head; Node temp = null; // 分离原节点和拷贝节点 while (node != null && node.next != null) { temp = node.next; node.next = temp.next; node = temp; } return newHead; } } ``` [52. 两个链表的第一个公共节点](https://leetcode-cn.com/problems/liang-ge-lian-biao-de-di-yi-ge-gong-gong-jie-dian-lcof/) ```java public class Solution { public ListNode getIntersectionNode(ListNode headA, ListNode headB) { ListNode h1 = headA; ListNode h2 = headB; while (h1 != null && h2 != null) { if (h1 == h2) { return h1; } h1 = h1.next; h2 = h2.next; if (h1 == null && h2 == null) { return null; } if (h1 == null) { h1 = headB; } if (h2 == null) { h2 = headA; } } return null; } } ``` ```java public class Solution { public ListNode getIntersectionNode(ListNode headA, ListNode headB) { ListNode h1 = headA; ListNode h2 = headB; while (h1 != h2) { h1 = h1 == null ? headB : h1.next; h2 = h2 == null ? headA : h2.next; } return h1; } } ```