题目:
Given a linked list, determine if it has a cycle in it.
Follow up:
Can you solve it without using extra space?
解题思路:
判断链表有无环,可用快慢指针进行,快指针每次走两步,慢指针每次走一步,如果快指针追上了慢指针,则存在环,否则,快指针走到链表末尾即为NULL是也没追上,则无环。
为什么快慢指针可以判断有无环?
因为快指针先进入环,在慢指针进入之后,如果把慢指针看作在前面,快指针在后面每次循环都向慢指针靠近1,所以一定会相遇,而不会出现快指针直接跳过慢指针的情况。
实现代码:
#include <iostream>
using namespace std; /**
Linked List Cycle
*/ struct ListNode {
int val;
ListNode *next;
ListNode(int x) : val(x), next(NULL) {}
};
void addNode(ListNode* &head, int val)
{
ListNode *node = new ListNode(val);
if(head == NULL)
{
head = node;
}
else
{
node->next = head;
head = node;
}
}
void printList(ListNode *head)
{
while(head)
{
cout<<head->val<<" ";
head = head->next;
}
} class Solution {
public:
bool hasCycle(ListNode *head) {
if(head == NULL || head->next == NULL)
return NULL;
ListNode *quick = head;
ListNode *slow = head;
while(quick && quick->next)//利用快慢指针判断有无环
{
quick = quick->next->next;
slow = slow->next;
if(quick == slow)
return true;
}
return NULL; }
};
int main(void)
{
ListNode *head = new ListNode();
ListNode *node1 = new ListNode();
ListNode *node2 = new ListNode();
ListNode *node3 = new ListNode();
head->next = node1;
node1->next = node2;
node2->next = node3;
node3->next = node1; Solution solution;
bool ret = solution.hasCycle(head);
if(ret)
cout<<"has cycle"<<endl; return ;
}