Given a linked list and two positions ‘m’ and ‘n’. The task is to rotate the sublist from position m to n, to the right by k places. Examples:
Input: list = 1->2->3->4->5->6, m = 2, n = 5, k = 2 Output: 1->4->5->2->3->6 Rotate the sublist 2 3 4 5 towards right 2 times then the modified list are: 1 4 5 2 3 6 Input: list = 20->45->32->34->22->28, m = 3, n = 6, k = 3 Output: 20->45->34->22->28->32 Rotate the sublist 32 34 22 28 towards right 3 times then the modified list are: 20 45 34 22 28 32
Approach: For rotating the given sublist that extends from m to n element, move the list from (n-k+1)th to nth node to starting of sub-list to finish the rotation. If k is greater than size of sublist then we will take its modulo with size of sublist. So traverse through list using a pointer and a counter and we will save (m-1)th node and later make it point to (n-k+1)th node and hence bring (n-k+1)th node to the start(front) of sublist. Similarly we will save mth node and later make nth node point to it. And for keeping rest of list intact we will make (n-k)th node point to next node of n (maybe NULL). And finally we will get the k times right rotated sublist. Below is the implementation of the above approach:
# Python3 implementation of the above approach import math
# Definition of node of linkedlist class Node:
def __init__( self , data):
self .data = data
self . next = None
# This function take head pointer of list, # start and end points of sublist that is # to be rotated and the number k and # rotate the sublist to right by k places. def rotateSubList(A, m, n, k):
size = n - m + 1
# If k is greater than size of sublist then
# we will take its modulo with size of sublist
if (k > size):
k = k % size
# If k is zero or k is equal to size or k is
# a multiple of size of sublist then list
# remains intact
if (k = = 0 or k = = size):
head = A
while (head ! = None ):
print (head.data)
head = head. next
return
link = None # m-th node
if (m = = 1 ) :
link = A
# This loop will traverse all node till
# end node of sublist.
c = A # Current traversed node
count = 0 # Count of traversed nodes
end = None
pre = None # Previous of m-th node
while (c ! = None ) :
count = count + 1
# We will save (m-1)th node and later
# make it point to (n-k+1)th node
if (count = = m - 1 ) :
pre = c
link = c. next
if (count = = n - k) :
if (m = = 1 ) :
end = c
A = c. next
else :
end = c
# That is how we bring (n-k+1)th
# node to front of sublist.
pre. next = c. next
# This keeps rest part of list intact.
if (count = = n) :
d = c. next
c. next = link
end. next = d
head = A
while (head ! = None ) :
print (head.data, end = " " )
head = head. next
return
c = c. next
# Function for creating and linking new nodes def push(head, val):
new_node = Node(val)
new_node.data = val
new_node. next = head
head = new_node
return head
# Driver code if __name__ = = '__main__' :
head = None
head = push(head, 70 )
head = push(head, 60 )
head = push(head, 50 )
head = push(head, 40 )
head = push(head, 30 )
head = push(head, 20 )
head = push(head, 10 )
tmp = head
print ( "Given List: " , end = "")
while (tmp ! = None ) :
print (tmp.data, end = " " )
tmp = tmp. next
print ()
m = 3
n = 6
k = 2
print ( "After rotation of sublist: " , end = "")
rotateSubList(head, m, n, k)
# This code is contributed by Srathore |
Given List: 10 20 30 40 50 60 70 After rotation of sublist: 10 20 50 60 30 40 70
Time complexity: O(N) where N is the size of the given linked list
Auxiliary space: O(1) because it is using constant space
Please refer complete article on Rotate the sub-list of a linked list from position M to N to the right by K places for more details!