def partition(sll, x):
upper = singly_linked_list()
lower = singly_linked_list()
node = sll.head
while node:
next_node = node.next_node
node.next_node = None
if node.data < x:
lower.append_node(node)
else:
upper.append_node(node)
node = next_node
lower.append_node(upper.head)
return lower
def partition(sll, x):
upper = singly_linked_list()
lower = singly_linked_list()
node = sll.head
while node:
next_node = node.next_node
node.next_node = None
if node.data < x:
lower.append_node(node)
else:
upper.append_node(node)
node = next_node
lower.append_node(upper.head)
sll.head = lower.head
return sll
def add_lists(l1, l2):
len1 = len(l1)
len2 = len(l2)
maxlen = max([len1, len2])
l1 = pad_with_zeros(l1, maxlen - len1)
l2 = pad_with_zeros(l2, maxlen - len2)
result_tail, carry = add_lists_same_length(l1.head, l2.head)
if carry > 0:
result_head = singly_linked_list_node(carry, result_tail)
else:
result_head = result_tail
result = singly_linked_list()
result.append_node(result_head)
return result
def add_lists(l1, l2):
len1 = len(l1)
len2 = len(l2)
maxlen = max([len1, len2])
l1 = pad_with_zeros(l1, maxlen - len1)
l2 = pad_with_zeros(l2, maxlen - len2)
result_tail, carry = add_lists_same_length(l1.head, l2.head)
if carry > 0:
result_head = singly_linked_list_node(carry, result_tail)
else:
result_head = result_tail
result = singly_linked_list()
result.append_node(result_head)
return result
def is_palindrome(l):
list_len = len(l)
first_half_reversed = singly_linked_list()
node = l.head
for i in xrange(list_len / 2):
first_half_reversed.insert(0, node.data)
node = node.next_node
if list_len % 2 > 0:
node = node.next_node
reverse_node = first_half_reversed.head
for i in xrange(list_len / 2):
if node.data != reverse_node.data:
return False
node = node.next_node
reverse_node = reverse_node.next_node
return True
def add_lists(l1, l2):
result = singly_linked_list()
node1 = l1.head
node2 = l2.head
carry = 0
while node1 or node2:
if node1 and node2:
result.append((node1.data + node2.data + carry) % 10)
carry = (node1.data + node2.data + carry) / 10
else:
node = node1 or node2
result.append((node.data + carry) % 10)
carry = (node.data + carry) / 10
if node1:
node1 = node1.next_node
if node2:
node2 = node2.next_node
if carry:
result.append(carry)
return result
def add_lists(l1, l2):
result = singly_linked_list()
node1 = l1.head
node2 = l2.head
carry = 0
while node1 or node2:
if node1 and node2:
result.append((node1.data + node2.data + carry) % 10)
carry = (node1.data + node2.data + carry) / 10
else:
node = node1 if node1 else node2
result.append((node.data + carry) % 10)
carry = (node.data + carry) / 10
node1 = node1.next_node if node1 else None
node2 = node2.next_node if node2 else None
if carry > 0:
result.insert(0, carry)
return result
