Description
Given a linked list, remove the n-th node from the end of list and return its head.
Example:
Given linked list: 1->2->3->4->5, and n = 2. After removing the second node from the end, the linked list becomes 1->2->3->5.
Note:
Given n will always be valid.
Follow up:
Could you do this in one pass?
Explanation
We introduce a preDelete pointer first and place it at the beginning of the linked list.
- Move head pointer first so that the distance between preDelete and head pointer would be N nodes.
- Move head and preDelete pointer together until head is reaching to the end.
- Modify preDelete pointing node.next to the next node of the delete node.
Java Solution
/**
* Definition for singly-linked list.
* public class ListNode {
* int val;
* ListNode next;
* ListNode(int x) { val = x; }
* }
*/
class Solution {
public ListNode removeNthFromEnd(ListNode head, int n) {
if (n <= 0) {
return head;
}
ListNode dummy = new ListNode(0);
dummy.next = head;
ListNode preDelete = dummy;
for (int i = 0; i < n; i++) {
if (head == null) {
return null;
}
head = head.next;
}
while (head != null) {
preDelete = preDelete.next;
head = head.next;
}
preDelete.next = preDelete.next.next;
return dummy.next;
}
}
Python Solution
# Definition for singly-linked list.
# class ListNode:
# def __init__(self, x):
# self.val = x
# self.next = None
class Solution:
def removeNthFromEnd(self, head: ListNode, n: int) -> ListNode:
slow = head
fast = head
for i in range(0, n):
fast = fast.next
if fast == None:
head = head.next
return head
while fast.next != None:
fast = fast.next
slow = slow.next
slow.next = slow.next.next
return head- Time complexity: O(L). The algorithm makes one traversal of the list of L nodes.
- Space complexity: O(1). We only used constant extra space.
Please always provide Time Complexity and Space Complexity.
Hi Gaurav,
I think there’s a small mistake in java solution, while loop should be head.next!=null vs head!=null. Please correct me If I am wrong.