int main() {
DoublyLinkedList<int> d;
d.append(7);
d.append(8);
d.append(9);
d.append(10);
d.insert(1,0);
d.insert(12,d.size());
d.insert(3,3);
d.print();
cout<<"Size = "<<d.size()<<"\n";
return 0;
}
int main()
{
if(runTests())
{
DoublyLinkedList<int> list;
unsigned int numberOfPeople;
unsigned int currentIndex;
list.clear();
for (unsigned int count = 0; count < numberOfPeople; ++count)
{
list.pushBack(count + 1);
}
while(numberOfPeople > 1)
{
for (unsigned int skip = 0; skip < 33; ++skip)
{
currentIndex++;
if( currentIndex > list.size() )
currentIndex = 1;
}
list.removeAt(currentIndex-1);
numberOfPeople--;
}
cout << "Person number: " << list.popBack() << "is left" << endl;
}
return 0;
}
int main()
{
DoublyLinkedList *ls = new DoublyLinkedList();
ls->push_back(*(new ListNode("100")));
ListNode *n1 = new ListNode("5");
ls->push_front(*n1);
ls->push_front(*(new ListNode("1")));
ls->push_front(*(new ListNode("3")));
ls->push_front(*(new ListNode("4")));
ls->push_front(*(new ListNode("0")));
ls->push_back(*(new ListNode("1sdsd")));
ls->print();
cout << "\n";
ls->print_bkw();
cout << "\nLink list size is equal to " << ls->size() << endl;
cout << "\n";
cout << "Lets delete first and last nodes from list\n";
ls->pop_back();
ls->pop_front();
ls->print();
cout << "\nNow lets erase 4, 1 and 100: \n";
ls->erase("4");
ls->erase("1");
ls->erase("100");
ls->print();
cout << "\nLets insert '6' after '3' and '7' after '5': \n";
ls->insert_after("3", *(new ListNode("6")));
ls->insert_after("5", *(new ListNode("7")));
ls->print();
cout << "\nLets clear linked list (check this with 'isEmpty' method): \n";
ls->clear();
if (ls->isEmpty())
cout << "Our list is empty! \n";
cout << "\nLets get new list: \n";
ls->push_front(*(new ListNode("6")));
ls->push_front(*(new ListNode("31")));
ls->push_front(*(new ListNode("55")));
ls->push_front(*(new ListNode("4")));
ls->push_front(*(new ListNode("1")));
ls->push_front(*(new ListNode("3")));
ls->push_front(*(new ListNode("4")));
ls->push_front(*(new ListNode("8")));
ls->push_front(*(new ListNode("5")));
ls->push_front(*(new ListNode("0")));
ls->print();
cout << "\nOur new sorted list: \n";
ls->sort();
ls->print();
cout << "\nLets delete unique elements: \n";
ls->unique();
ls->print();
cout << "\nLets insert '0', '2', '7' and '9' preserving list ordering: \n";
ls->insert_ord(*(new ListNode("0")));
ls->insert_ord(*(new ListNode("2")));
ls->insert_ord(*(new ListNode("7")));
ls->insert_ord(*(new ListNode("9")));
ls->print();
cout << "\nLets get new list 'temp_ls': \n";
DoublyLinkedList *temp_ls = new DoublyLinkedList();
temp_ls->push_front(*(new ListNode("b")));
temp_ls->push_front(*(new ListNode("v")));
temp_ls->push_front(*(new ListNode("a")));
temp_ls->push_front(*(new ListNode("d")));
temp_ls->print();
cout << "\nLets 'merge' our lists (temp_ls in ls): \n";
ls->merge(*temp_ls);
ls->print();
if (temp_ls->isEmpty())
cout << "Our 'temp_ls' list is empty! \n";
cout << "\nLets get new lists: \n";
ls->clear();
ls->push_front(*(new ListNode("6")));
ls->push_front(*(new ListNode("3")));
ls->push_front(*(new ListNode("5")));
ls->push_front(*(new ListNode("4")));
ls->push_front(*(new ListNode("1")));
cout << "New 'ls': ";
ls->print();
temp_ls->push_front(*(new ListNode("b")));
temp_ls->push_front(*(new ListNode("v")));
temp_ls->push_front(*(new ListNode("a")));
temp_ls->push_front(*(new ListNode("d")));
cout << "New 'temp_ls': ";
temp_ls->print();
cout << "\nLets assign 'ls' to 'temp_ls' from 1 to 3: \n";
ls->assign(*temp_ls, 1, 3);
cout << "New 'ls': ";
ls->print();
cout << "New 'temp_ls': ";
temp_ls->print();
cout << "\nLets splice 'temp_ls' in 'ls' from index 3 with all list:\n ";
ls->splice(3, *temp_ls);
ls->print();
ls->clear();
temp_ls->clear();
ls->push_front(*(new ListNode("6")));
ls->push_front(*(new ListNode("3")));
ls->push_front(*(new ListNode("5")));
ls->push_front(*(new ListNode("4")));
ls->push_front(*(new ListNode("1")));
cout << "\nlets get new lists: \nNew 'ls': ";
ls->print();
temp_ls->push_front(*(new ListNode("b")));
temp_ls->push_front(*(new ListNode("v")));
temp_ls->push_front(*(new ListNode("b")));
temp_ls->push_front(*(new ListNode("d")));
cout << "New 'temp_ls': ";
temp_ls->print();
cout << "\nLets splice 'temp_ls' in 'ls' from index 2 from 1 to 2: ";
ls->splice(2, *temp_ls, 1, 2);
ls->print();
return 0;
}