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solution.py
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solution.py
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# !/bin/python3
import math
import os
import random
import re
import sys
class SinglyLinkedListNode:
def __init__(self, node_data):
self.data = node_data
self.next = None
class SinglyLinkedList:
def __init__(self):
self.head = None
self.tail = None
def insert_node(self, node_data):
node = SinglyLinkedListNode(node_data)
if not self.head:
self.head = node
else:
self.tail.next = node
self.tail = node
def print_singly_linked_list(node, sep, fptr):
while node:
fptr.write(str(node.data))
node = node.next
if node:
fptr.write(sep)
# Explanation
# Traverse the first linkedlist and make all the next field as null.
# Then traverse the second till you get a node whose next field is null.
# That node is the intersecting Node
def findMergeNode(head1, head2):
current1 = head1
current2 = head2
while current1.next:
temp = current1
current1 = current1.next
temp.next = None
while current2.next:
current2 = current2.next
return current2.data
if __name__ == '__main__':
fptr = open(os.environ['OUTPUT_PATH'], 'w')
tests = int(input())
for tests_itr in range(tests):
index = int(input())
llist1_count = int(input())
llist1 = SinglyLinkedList()
for _ in range(llist1_count):
llist1_item = int(input())
llist1.insert_node(llist1_item)
llist2_count = int(input())
llist2 = SinglyLinkedList()
for _ in range(llist2_count):
llist2_item = int(input())
llist2.insert_node(llist2_item)
ptr1 = llist1.head;
ptr2 = llist2.head;
for i in range(llist1_count):
if i < index:
ptr1 = ptr1.next
for i in range(llist2_count):
if i != llist2_count - 1:
ptr2 = ptr2.next
ptr2.next = ptr1
result = findMergeNode(llist1.head, llist2.head)
fptr.write(str(result) + '\n')
fptr.close()