Iterative Approach: This approach involves using a loop to traverse the linked list and reverse the direction of the next pointers at each step. Start with three pointers: prev as null, curr as the head of the list, and nxt to temporarily store the next node. In each iteration, change the curr.next to prev, move prev to curr, and curr to nxt. The loop ends when curr becomes null, with prev being the new head.
Time Complexity: O(n), where n is the number of nodes in the linked list because each node is processed once.
Space Complexity: O(1) as it uses only a constant amount of space.
1class ListNode:
2 def __init__(self, val=0, next=None):
3 self.val = val
4 self.next = next
5
6class Solution:
7 def reverseList(self, head: ListNode) -> ListNode:
8 prev = None
9 curr = head
10 while curr:
11 nxt = curr.next
12 curr.next = prev
13 prev = curr
14 curr = nxt
15 return prevIn the Python implementation, prev, curr, and nxt pointers again maintain the structure necessary for iterative reversal. After resetting pointers, the head is reassigned to prev, which is the new head of the reversed list.
Recursive Approach: In this method, you move to the end of the list via recursive calls while reversing the next pointers on the way back. The base case for the recursion is when the list is empty or when it contains only one node. In each call, move to the next node, reverse the rest of the list, use the next pointer's next field to point to the current node, and finally return the head of the reversed list.
Time Complexity: O(n), due to n recursive calls.
Space Complexity: O(n), for stack space in recursion.
1#include <stdio.h>
2#include <stdlib.h>
3
4struct ListNode {
5 int val;
6 struct ListNode* next;
7};
8
9struct ListNode* reverseList(struct ListNode* head) {
10 if (head == NULL || head->next == NULL) return head;
11 struct ListNode* p = reverseList(head->next);
12 head->next->next = head;
13 head->next = NULL;
14 return p;
15}In the recursive C implementation, the function calls itself with the next node as an argument until it reaches the end of the list. Once there, it starts reversing the pointers. Each function returns the head of the reversed part of the list, making the whole list reversed when it unwinds.