题目链接
tag:
- Easy;
- Two Pointer;
question
Write a program to find the node at which the intersection of two singly linked lists begins.
For example, the following two linked lists:
begin to intersect at node c1.
Example 1:
Input: intersectVal = 8, listA = [4,1,8,4,5], listB = [5,0,1,8,4,5], skipA = 2, skipB = 3
Output: Reference of the node with value = 8
Input Explanation: The intersected node's value is 8 (note that this must not be 0 if the two lists intersect). From the head of A, it reads as [4,1,8,4,5]. From the head of B, it reads as [5,0,1,8,4,5]. There are 2 nodes before the intersected node in A; There are 3 nodes before the intersected node in B.
Example 2:
Input: intersectVal = 2, listA = [0,9,1,2,4], listB = [3,2,4], skipA = 3, skipB = 1
Output: Reference of the node with value = 2
Input Explanation: The intersected node's value is 2 (note that this must not be 0 if the two lists intersect). From the head of A, it reads as [0,9,1,2,4]. From the head of B, it reads as [3,2,4]. There are 3 nodes before the intersected node in A; There are 1 node before the intersected node in B.
Example 3:
Input: intersectVal = 0, listA = [2,6,4], listB = [1,5], skipA = 3, skipB = 2
Output: null
Input Explanation: From the head of A, it reads as [2,6,4]. From the head of B, it reads as [1,5]. Since the two lists do not intersect, intersectVal must be 0, while skipA and skipB can be arbitrary values.
Explanation: The two lists do not intersect, so return null.
Notes:
- If the two linked lists have no intersection at all, return
null. - The linked lists must retain their original structure after the function returns.
- You may assume there are no cycles anywhere in the entire linked structure.
- Your code should preferably run in O(n) time and use only O(1) memory.
解法一:
不难,分别遍历两个链表,得到分别对应的长度。然后求长度的差值,把较长的那个链表向后移动这个差值的个数,然后一一比较即可。代码如下:
/**
* Definition for singly-linked list.
* struct ListNode {
* int val;
* ListNode *next;
* ListNode(int x) : val(x), next(NULL) {}
* };
*/
class Solution {
public:
ListNode *getIntersectionNode(ListNode *headA, ListNode *headB) {
if (!headA || !headB) return NULL;
int lenA = getLength(headA), lenB = getLength(headB);
if (lenA < lenB) {
for (int i=0; i<lenB-lenA; ++i)
headB = headB->next;
}
else {
for (int i=0; i<lenA-lenB; ++i)
headA = headA->next;
}
while (headA && headB && headA != headB) {
headB = headB->next;
headA = headA->next;
}
return (headA || headB) ? headA : NULL;
}
int getLength(ListNode *head) {
int res = 0;
while (head) {
++res;
head = head->next;
}
return res;
}
};
解法二:双指针
这题还有一种特别巧妙的方法,虽然题目中强调了链表中不存在环,但是我们可以用环的思想来做,我们让两条链表分别从各自的开头开始往后遍历,当其中一条遍历到末尾时,我们跳到另一个条链表的开头继续遍历。两个指针最终会相等,而且只有两种情况,一种情况是在交点处相遇,另一种情况是在各自的末尾的空节点处相等。为什么一定会相等呢,因为两个指针走过的路程相同,是两个链表的长度之和,所以一定会相等。这个思路真的很巧妙,而且更重要的是代码写起来特别的简洁,代码如下:
/**
* Definition for singly-linked list.
* struct ListNode {
* int val;
* ListNode *next;
* ListNode(int x) : val(x), next(NULL) {}
* };
*/
class Solution {
public:
ListNode *getIntersectionNode(ListNode *headA, ListNode *headB) {
if (!headA || !headB) return NULL;
ListNode *a = headA, *b = headB;
while (a != b) {
a = a ? a->next : headB;
b = b ? b->next : headA;
}
return a;
}
};
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