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listPallindrome.cpp
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listPallindrome.cpp
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/**
* Given a linkedList, determine the data it has are in pallindrome
* a->b->c->c->b->a
* r->a->d->a->r
*/
#include <iostream>
struct Node {
char data;
Node * next;
Node( char c ) : data{ c }, next{ nullptr } { }
};
void insert( Node * & head, char c )
{
Node * newNode = new Node(c);
if ( head == nullptr ) {
head = newNode;
} else {
Node * temp = head;
while ( temp->next != nullptr ) {
temp = temp->next;
}
temp->next = newNode;
}
}
void printList( Node * head )
{
while( head ) {
std::cout << head->data << " --> ";
head = head->next;
}
std::cout << " NULL" << std::endl;
}
void reverseList( Node * & head )
{
if ( head == nullptr ||
(head && (head->next == nullptr))) {
return;
}
Node * nextNode = nullptr;
Node * newHead = nullptr;
while ( head ) {
nextNode = head->next;
head->next = newHead;
newHead = head;
head = nextNode;
}
head = newHead;
}
bool isPallindrome( Node * head )
{
if ( head == nullptr || (head && head->next == nullptr)) {
return true;
}
Node * slowPtr = head;
Node * fastPtr = head;
while ( slowPtr && fastPtr && fastPtr->next )
{
fastPtr = fastPtr->next->next;
slowPtr = slowPtr->next;
}
//case of odd number of data, we skip the middle node.
if ( fastPtr && fastPtr->next == nullptr ) {
slowPtr = slowPtr->next;
}
//reversing second half of list
reverseList( slowPtr );
Node * ptr1 = head;
Node * ptr2 = slowPtr;
while( ptr1 && ptr2 && ptr1->data == ptr2->data) {
ptr1 = ptr1->next;
ptr2 = ptr2->next;
}
//reversing second half back
reverseList( slowPtr );
if ( ptr2 == nullptr ) {
return true;
} else {
return false;
}
}
int main()
{
Node * head1 = nullptr;
insert( head1, 'a' );
insert( head1, 'b' );
insert( head1, 'c' );
insert( head1, 'c' );
insert( head1, 'b' );
insert( head1, 'a' );
std::cout << "List 1: ";
printList( head1 );
if ( isPallindrome( head1 ) ) {
std::cout << "List 1 is pallindrome list\n";
} else {
std::cout << "List 1 is not a pallindrome list\n";
}
std::cout << "List 1: ";
printList( head1 );
Node * head2 = nullptr;
insert( head2, 'r');
insert( head2, 'a');
insert( head2, 'd');
insert( head2, 'a');
insert( head2, 'r');
std::cout << "List 2: ";
printList( head2 );
if ( isPallindrome( head2 ) ) {
std::cout << "List 2 is pallindrome list\n";
} else {
std::cout << "List 2 is not a pallindrome list\n";
}
std::cout << "List 2: ";
printList( head2 );
Node * head = nullptr;
insert( head, 'a' );
insert( head, 'b' );
insert( head, 'c' );
insert( head, 'b' );
insert( head, 'd' );
std::cout << "List 3: ";
printList( head );
if ( isPallindrome( head ) ) {
std::cout << "List 3 is pallindrome list\n";
} else {
std::cout << "List 3 is not a pallindrome list\n";
}
std::cout << "List 3: ";
printList( head );
return 0;
}