35.翻转链表
/**
* Definition of ListNode
*
* class ListNode {
* public:
* int val;
* ListNode *next;
*
* ListNode(int val) {
* this->val = val;
* this->next = NULL;
* }
* }
*/
class Solution {
public:
/*
* @param head: n
* @return: The new head of reversed linked list.
*/
ListNode * reverse(ListNode * head) {
// write your code here
ListNode* old, *newnode, * temp;
if (head ==NULL || head->next == NULL) {
// 链表空或只有一个元素,无需翻转
return head;
}
newnode = head;
old = head->next; //尚未翻转的链,初始化为第二个元素
while (old->next){
//old后仍有元素时,翻转
temp = old->next; //temp记忆下一个结点的地址
old->next = newnode; //指回
newnode = old; // 后移
old = temp;
}
old->next = newnode; // 最后一个结点的处理
head->next = NULL;
return old;
}
};
165. 合并两个排序链表
class Solution {
public:
/*
* @param l1: ListNode l1 is the head of the linked list
* @param l2: ListNode l2 is the head of the linked list
* @return: ListNode head of linked list
*/
ListNode * mergeTwoLists(ListNode * l1, ListNode * l2) {
// write your code here
ListNode *temp = new ListNode(0);
ListNode *p = temp;
while (l1 && l2){
if (l1->val < l2->val) {
p->next = l1;
l1 = l1->next;
p= p->next;
} else {
p->next = l2;
l2 = l2->next;
p = p->next;
}
}
if (l1) {
p->next = l1;
}
else {
p->next = l2;
}
return temp->next;
}
};
96. 链表划分
class Solution {
public:
/*
* @param head: The first node of linked list
* @param x: An integer
* @return: A ListNode
*/
ListNode * partition(ListNode * head, int x) {
// write your code here
ListNode * front,* rear;
ListNode * p1,* p2;
p1 = new ListNode(0);
p2 = new ListNode(0);
ListNode *current = head;
front = p1;
rear = p2;
while (current) {
if (current->val < x) {
p1->next = current;
p1 = p1->next;
}
else if (current->val >= x) {
p2->next = current;
p2 = p2->next;
}
current = current->next;
}
p1->next = rear->next;
p2->next = NULL;
return front->next;
}
};
166. 链表倒数第n个节点
java语言
一次循环定位倒数第n个结点的方法: 定义两个结点temp1
和temp2
,初始指向head
,temp2
先后移n位,而后temp1
与temp2
一起后移直到temp2
移出,此时temp1
就定位到了倒数第n个结点。
/**
* Definition for ListNode.
* public class ListNode {
* int val;
* ListNode next;
* ListNode(int val) {
* this.val = val;
* this.next = null;
* }
* }
*/
public class Solution {
/*
* @param head: The first node of linked list.
* @param n: An integer
* @return: Nth to last node of a singly linked list.
*/
public ListNode nthToLast(ListNode head, int n) {
// write your code here
ListNode temp1=head;
ListNode temp2=head;
while (n-->0) {
temp2=temp2.next; // temp2后移
}
while (temp2 != null){
temp2=temp2.next;
temp1=temp1.next;
}
return temp1;
}
}
174. 删除链表中倒数第n个结点
有更优的算法,同时取temp1
和temp2
两个结点挂到head
上,temp2
先向后移n次,此后temp1
和temp2
一起后移,当temp2
移出变空时,temp1
刚好就位于倒数第n个位置
class Solution {
public:
/*
* @param head: The first node of linked list.
* @param n: An integer
* @return: The head of linked list.
*/
ListNode * removeNthFromEnd(ListNode * head, int n) {
// write your code here
int ct = 0; // 记录结点个数
ListNode *current = head;
ListNode *temp = new ListNode;
while (current) {
// 一趟循环,统计结点个数
ct++;
current = current->next;
}
if (ct == n){
// 要删除的是倒数第n个,即第一个
temp =head;
head = temp->next;
delete temp;
return head;
}
current = head;
while (ct - n > 1) {
// 定位到要删除结点的前一个位置
ct--;
current = current->next;
}
temp = current->next; // temp为要删除结点
current->next = temp->next; //前一结点与下一结点挂接
delete temp;
return head;
}
};