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25.reverse-nodes-in-k-groups-cn.md

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题目地址

https://leetcode.com/problems/reverse-nodes-in-k-group/

题目描述

Given a linked list, reverse the nodes of a linked list k at a time and return its modified list.

k is a positive integer and is less than or equal to the length of the linked list. If the number of nodes is not a multiple of k then left-out nodes in the end should remain as it is.

Example:

Given this linked list: 1->2->3->4->5

For k = 2, you should return: 2->1->4->3->5

For k = 3, you should return: 3->2->1->4->5

Note:

Only constant extra memory is allowed.
You may not alter the values in the list's nodes, only nodes itself may be changed.

思路

题意是以 k 个nodes为一组进行翻转,返回翻转后的linked list.

从左往右扫描一遍linked list,扫描过程中,以k为单位把数组分成若干段,对每一段进行翻转。给定首尾nodes,如何对链表进行翻转。

链表的翻转过程,初始化一个为null previous node(prev),然后遍历链表的同时,当前node (curr)的下一个(next)指向前一个node(prev), 在改变当前node的指向之前,用一个临时变量记录当前node的下一个node(curr.next). 即

ListNode temp = curr.next;
curr.next = prev;
prev = curr;
curr = temp;

举例如图:翻转整个链表 1->2->3->4->null -> 4->3->2->1->null

reverse linked list

这里是对每一组(k个nodes)进行翻转,

  1. 先分组,用一个count变量记录当前节点的个数

  2. 用一个start 变量记录当前分组的起始节点位置的前一个节点

  3. 用一个end 变量记录要翻转的最后一个节点位置

  4. 翻转一组(k个nodes)即(start, end) - start and end exclusively

  5. 翻转后,start指向翻转后链表, 区间(start,end)中的最后一个节点, 返回start 节点。

  6. 如果不需要翻转,end 就往后移动一个(end=end.next),每一次移动,都要count+1.

如图所示 步骤4和5: 翻转区间链表区间(start, end)

reverse linked list range in (start, end)

举例如图,head=[1,2,3,4,5,6,7,8], k = 3

reverse k nodes in linked list

NOTE: 一般情况下对链表的操作,都有可能会引入一个新的dummy node,因为head有可能会改变。这里head 从1->3, dummy (List(0)) 保持不变。

复杂度分析

  • 时间复杂度: O(n) - n is number of Linked List
  • 空间复杂度: O(1)

关键点分析

  1. 创建一个dummy node
  2. 对链表以k为单位进行分组,记录每一组的起始和最后节点位置
  3. 对每一组进行翻转,更换起始和最后的位置
  4. 返回dummy.next.

代码 (Java/Python3/javascript)

Java Code

class ReverseKGroupsLinkedList {
  public ListNode reverseKGroup(ListNode head, int k) {
      if (head == null || k == 1) {
        return head;
      }
      ListNode dummy = new ListNode(0);
      dummy.next = head;

      ListNode start = dummy;
      ListNode end = head;
      int count = 0;
      while (end != null) {
        count++;
        // group
        if (count % k == 0) {
          // reverse linked list (start, end]
          start = reverse(start, end.next);
          end = start.next;
        } else {
          end = end.next;
        }
      }
      return dummy.next;
    }

    /**
     * reverse linked list from range (start, end), return last node.
     * for example:
     * 0->1->2->3->4->5->6->7->8
     * |           |
     * start       end
     *
     * After call start = reverse(start, end)
     *
     * 0->3->2->1->4->5->6->7->8
     *          |  |
     *       start end
     *       first
     *
     */
    private ListNode reverse(ListNode start, ListNode end) {
      ListNode curr = start.next;
      ListNode prev = start;
      ListNode first = curr;
      while (curr != end){
        ListNode temp = curr.next;
        curr.next = prev;
        prev = curr;
        curr = temp;
      }
      start.next = prev;
      first.next = curr;
      return first;
    }
}

Python3 Cose

class Solution:
    def reverseKGroup(self, head: ListNode, k: int) -> ListNode:
        if head is None or k < 2:
            return head
        dummy = ListNode(0)
        dummy.next = head
        start = dummy
        end = head
        count = 0
        while end:
            count += 1
            if count % k == 0:
                start = self.reverse(start, end.next)
                end = start.next
            else:
                end = end.next
        return dummy.next

    def reverse(self, start, end):
        prev, curr = start, start.next
        first = curr
        while curr != end:
            temp = curr.next
            curr.next = prev
            prev = curr
            curr = temp
        start.next = prev
        first.next = curr
        return first

javascript code

/**
 * @param {ListNode} head
 * @param {number} k
 * @return {ListNode}
 */
var reverseKGroup = function(head, k) {
  // 标兵
  let dummy = new ListNode()
  dummy.next = head
  let [start, end] = [dummy, dummy.next]
  let count = 0
  while(end) {
    count++
    if (count % k === 0) {
      start = reverseList(start, end.next)
      end = start.next
    } else {
      end = end.next
    }
  }
  return dummy.next

  // 翻转stat -> end的链表
  function reverseList(start, end) {
    let [pre, cur] = [start, start.next]
    const first = cur
    while(cur !== end) {
      let next = cur.next
      cur.next = pre
      pre = cur
      cur = next
    }
    start.next = pre
    first.next = cur
    return first
  }
};

参考(References)

扩展

  • 要求从后往前以k个为一组进行翻转。(字节跳动(ByteDance)面试题)

    例子,1->2->3->4->5->6->7->8, k = 3,

    从后往前以k=3为一组,

    • 6->7->8 为一组翻转为8->7->6
    • 3->4->5为一组翻转为5->4->3.
    • 1->2只有2个nodes少于k=3个,不翻转。

    最后返回: 1->2->5->4->3->8->7->6

这里的思路跟从前往后以k个为一组进行翻转类似,可以进行预处理:

  1. 翻转链表

  2. 对翻转后的链表进行从前往后以k为一组翻转。

  3. 翻转步骤2中得到的链表。

例子:1->2->3->4->5->6->7->8, k = 3

  1. 翻转链表得到:8->7->6->5->4->3->2->1

  2. 以k为一组翻转: 6->7->8->3->4->5->2->1

  3. 翻转步骤#2链表: 1->2->5->4->3->8->7->6

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