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findIntersectionPointOfLists.cpp
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findIntersectionPointOfLists.cpp
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/**
* Given two linked lists, they both merge at some point.
* Find out the merging point
*/
#include <iostream>
#include <cmath>
struct Node {
int data;
Node * next;
Node( int d ) : data{ d }, next{ nullptr } { }
};
void printList( Node * head )
{
while( head ) {
std::cout << head->data << "-->";
head = head->next;
}
std::cout << "NULL" << std::endl;
}
int listLen( Node * head )
{
int count = 0;
while( head ) {
head = head->next;
count++;
}
return count;
}
Node * mergePoint( Node * head1, Node * head2 )
{
int len1 = listLen(head1);
int len2 = listLen(head2);
//figure out the bigger list ( and smaller )
//ptr points to bigger list, let us move the difference
//between the two.
Node * ptr1 = ( len1 > len2 ) ? head1 : head2;
Node * ptr2 = ( len1 > len2 ) ? head2 : head1;
int i = 0;
while ( i < std::abs(len1 - len2) && ptr1 ) {
ptr1 = ptr1->next;
++i;
}
//Now we have equal nodes to travel on both the nodes
// traversing and comparing the pointers.
while( ptr1 && ptr2 ) {
if ( ptr1 == ptr2 ) {
return ptr1;
}
ptr1 = ptr1->next;
ptr2 = ptr2->next;
}
return nullptr;
}
int main()
{
Node * list1 = new Node(3);
list1->next = new Node(6);
list1->next->next = new Node(9);
list1->next->next->next = new Node(12);
list1->next->next->next->next = new Node(15);
list1->next->next->next->next->next = new Node(18);
Node * list2 = new Node(7);
list2->next = new Node(10);
list2->next->next = list1->next->next->next;
printList(list1);
printList(list2);
Node * mergeNode = mergePoint( list1 , list2 );
std::cout << "Merge Node of lists is :" << mergeNode->data << std::endl;
return 0;
}