def sum_lists(list_one_head, list_two_head):
    pointer_one = list_one_head
    pointer_two = list_two_head
    sum_list_start = 0
    carry = 0
    sum_head = None
    pointer_sum = None
    while pointer_one is not None or pointer_two is not None:
        if pointer_one is not None and pointer_two is not None:
            digit_sum = pointer_one.value + pointer_two.value + carry
        elif pointer_one is not None:
            digit_sum = pointer_one.value + carry
        else:
            digit_sum = pointer_two.value + carry
        print("Digit Sum: ", digit_sum)
        carry, new_digit = divmod(digit_sum, 10)
        print("Carry: ", carry, "New digit: ", new_digit)
        # Add resulting digit to 'sum' linked list and move pointer to that digit
        if sum_list_start == 0:
            sum_head = LinkedListNode(new_digit)
            pointer_sum = sum_head
            sum_list_start = 1
        else:
            pointer_sum.next = LinkedListNode(new_digit)
            pointer_sum = pointer_sum.next
        # Move to the next digit in the lists
        if pointer_one is not None:
            pointer_one = pointer_one.next
        if pointer_two is not None:
            pointer_two = pointer_two.next
    return sum_head
def reverse_and_clone(node):
    prev = None
    while node is not None:
        current = LinkedListNode(node.value)
        current.next = prev
        prev = current
        node = node.next
    return prev
 def test_partition_short(self):
     a = LinkedListNode(9)
     b = LinkedListNode(7)
     c = LinkedListNode(2)
     d = LinkedListNode(1)
     a.next = b
     b.next = c
     c.next = d
     h = partition_linked_list(a, 5)
     print(h, h.next.value, h.next.next.value, h.next.next.next.value)
Exemplo n.º 4
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 def test_partition(self):
     a = LinkedListNode(9)
     b = LinkedListNode(7)
     c = LinkedListNode(6)
     d = LinkedListNode(5)
     e = LinkedListNode(4)
     f = LinkedListNode(3)
     g = LinkedListNode(2)
     # List 1: 679
     a.next = b
     b.next = c
     # List 2: 2345
     d.next = e
     e.next = f
     f.next = g
     # Sum:
     h = sum_lists(a, d)
     print(h.value, h.next.value, h.next.next.value, h.next.next.next.value)
 def test_partition(self):
     a = LinkedListNode(9)
     b = LinkedListNode(7)
     c = LinkedListNode(6)
     d = LinkedListNode(5)
     e = LinkedListNode(4)
     f = LinkedListNode(3)
     g = LinkedListNode(2)
     # List 1: 679
     a.next = b
     b.next = c
     # List 2: 2345
     d.next = e
     e.next = f
     f.next = g
     # Sum:
     h = sum_lists(a, d)
     print(h.value, h.next.value, h.next.next.value, h.next.next.next.value)
 def test_partition(self):
     a = LinkedListNode(9)
     b = LinkedListNode(7)
     c = LinkedListNode(6)
     d = LinkedListNode(5)
     e = LinkedListNode(4)
     f = LinkedListNode(3)
     g = LinkedListNode(2)
     a.next = b
     b.next = c
     c.next = d
     d.next = e
     e.next = f
     f.next = g
     h = partition_linked_list(a, 5)
     fourh = h.next.next.next
     print(h.value, h.next.value, h.next.next.value, fourh.value, fourh.next.value,
           fourh.next.next.value, fourh.next.next.next.value)
 def push(self, item):
     """Adds an item to the stack."""
     second = self.top
     self.top = LinkedListNode(item)
     self.top.next = second
 def test_sll_palindrome(self):
     a = LinkedListNode(9)
     b = LinkedListNode(7)
     c = LinkedListNode(6)
     d = LinkedListNode(5)
     e = LinkedListNode(6)
     f = LinkedListNode(7)
     g = LinkedListNode(9)
     # List 1: 679
     a.next = b
     b.next = c
     c.next = d
     d.next = e
     e.next = f
     f.next = g
     self.assertEqual(is_sll_palindrome_reverse(a), True)
Exemplo n.º 9
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 def test_solution(self):
     a = LinkedListNode(1)
     b = LinkedListNode(2)
     c = LinkedListNode(3)
     d = LinkedListNode(4)
     e = LinkedListNode(5)
     f = LinkedListNode(6)
     g = LinkedListNode(7)
     a.next = b
     b.next = c
     c.next = d
     d.next = e
     e.next = f
     f.next = g
     solution(e)
     self.assertEqual(d.next.value, 6)
     self.assertEqual(d.next.next, g)
     self.assertEqual(f.next, g)