Ejemplo n.º 1
0
      if head is None or head.next is None:
         return head
      larger_head, equal_head, smaller_head = ListNode(0), ListNode(0), ListNode(0)
      larger, equal, smaller, cur = larger_head, equal_head, smaller_head, head
      while cur:
         if cur.val > k:
            larger.next = cur
            larger = larger.next
         elif cur.val == k:
            equal.next = cur
            equal = equal.next
         else:
            smaller.next = cur
            smaller = smaller.next
         cur = cur.next
      smaller.next = equal_head.next
      equal.next = larger_head.next
      larger.next = None
      return smaller_head.next

if __name__ == "__main__":
   l1 = LinkedList(10, 1, 6)
   l1.display()
   t = Solution()
   l2 = t.listPivoting(l1.getHead(), 4)
   cur = l2
   while cur:
      print cur.val,
      cur = cur.next
   print "\n"
Ejemplo n.º 2
0
   # Time: O(n)
   # Space: O(1)
   def evenOddMerge(self, head):
      if head is None or head.next is None: return head
      odd_head, even_head, cur = ListNode(0), ListNode(0), head
      odd, even = odd_head, even_head
      count = 0
      while cur:
         if count == 1:
            odd.next = cur
            odd = odd.next
         else:
            even.next = cur
            even = even.next
         cur = cur.next
         count = 1 - count
      even.next = odd_head.next
      odd.next = None
      return even_head.next

if __name__ == "__main__":
   l1 = LinkedList(10, 1, 100)
   l1.display()
   t = Solution()
   l2 = t.evenOddMerge(l1.getHead())
   cur = l2
   while cur:
      print cur.val,
      cur = cur.next
   print "\n"
Ejemplo n.º 3
0
class Solution:
   # Time: O(n)
   # Space: O(1)
   def isLinkedListAPalindrome(self, head):
      if head is None or head.next is None:
         return True
      fast, slow, prev = head, head, None
      while fast and fast.next:
         fast = fast.next.next
         prev = slow
         slow = slow.next
      prev.next = None
      prev, cur = None, slow
      while cur:
         next = cur.next
         cur.next = prev
         prev = cur
         cur = next
      while prev and head:
         if prev.val != head.val:
            return False
         head = head.next
         prev = prev.next
      return True

if __name__ == "__main__":
   l1 = LinkedList(4, 1, 2)
   l1.display()
   t = Solution()
   print t.isLinkedListAPalindrome(l1.getHead())
Ejemplo n.º 4
0
      prev, cur = None, slow.next
      slow.next = None
      while cur:
         next = cur.next
         cur.next = prev
         prev = cur
         cur = next
      dummy = ListNode(0)
      cur = dummy
      while head or prev:
         if head:
            cur.next = head
            head = head.next
            cur = cur.next
         if prev:
            cur.next = prev
            prev = prev.next
            cur = cur.next
      return dummy.next

if __name__ == "__main__":
   l1 = LinkedList(10, 1, 100)
   l1.display()
   t = Solution()
   l2 = t.zippingLinkedList(l1.getHead())
   cur = l2
   while cur:
      print cur.val,
      cur = cur.next
   print "\n"
Ejemplo n.º 5
0
class Solution:
   # Time: O(len(F) + len(L))
   # Space: O(1)
   def mergeTwoSortedLists(self, F, L):
      dummy = ListNode(0)
      cur, l1, l2 = dummy, F, L
      while l1 and l2:
         if l1.val < l2.val:
            cur.next = l1
            cur, l1 = cur.next, l1.next
         else:
            cur.next = l2
            cur, l2 = cur.next, l2.next
      if l1 is None: cur.next = l2
      else: cur.next = l1
      return dummy.next

if __name__ == "__main__":
   l1 = LinkedList(5, True)
   l2 = LinkedList(5, True)
   l1.display()
   l2.display()
   t = Solution()
   l3 = t.mergeTwoSortedLists(l1.getHead(), l2.getHead())
   cur = l3
   while cur:
      print cur.val, 
      cur = cur.next
   print "\n"
Ejemplo n.º 6
0
from Util.LinkedList import ListNode
from Util.LinkedList import LinkedList

class Solution:
   # Time: O(n):
   # Space: O(1):
   def removeKthLastList(self, head, k):
      dummy = ListNode(0)
      dummy.next = head
      fast = dummy
      for i in range(k): fast = fast.next
      slow = dummy
      while fast and fast.next:
         fast, slow = fast.next, slow.next
      slow.next = slow.next.next
      return dummy.next

if __name__ == "__main__":
   l1 = LinkedList(5)
   l1.display()
   t = Solution()
   l2 = t.removeKthLastList(l1.getHead(), 3)
   cur = l2
   while cur:
      print cur.val, 
      cur = cur.next
   print "\n"
Ejemplo n.º 7
0
from Util.LinkedList import ListNode
from Util.LinkedList import LinkedList

class Solution:
   # Time: O(n)
   # Space: O(1)
   def reverseLinkedList(self, head):
      if head is None or head.next is None:
         return head
      prev, cur = None, head
      while cur:
         next = cur.next
         cur.next = prev
         prev = cur
         cur = next
      return prev

if __name__ == "__main__":
   l1 = LinkedList(10)
   l1.display()
   t = Solution()
   l2 = t.reverseLinkedList(l1.getHead())
   cur = l2
   while cur:
      print cur.val, 
      cur = cur.next
   print "\n"
Ejemplo n.º 8
0
from Util.LinkedList import ListNode
from Util.LinkedList import LinkedList

class Solution:
   # Time: O(n)
   # Space: O(1)
   def findMedianSortedCircularLinkedList(self, node):
      cur, start, length = node.next, node, 1
      while cur != node:
         if start.val <= cur.val:
            start = cur
         cur = cur.next
         length += 1
      start = start.next
      for i in range((length - 1)/2): start = start.next
      if length % 2 == 1: return start.val
      return 0.5 * (start.val + start.next.val)

if __name__ == "__main__":
   l1 = LinkedList(12, 1, 9, True)
   l1.display()
   l1.createCycle(0)
   t = Solution()
   print t.findMedianSortedCircularLinkedList(l1.getHead())
Ejemplo n.º 9
0
   # Space: O(1)
   def reverseSublistSF(self, head, s, f):
      dummy = ListNode(0)
      dummy.next = head
      lastUnSwap, cur, diff = dummy, head, f - s
      while cur and s > 1:
         cur = cur.next
         lastUnSwap = lastUnSwap.next
         s -= 1
      firstSwap, prev = cur, lastUnSwap
      while cur and diff >= 0:
         next = cur.next
         cur.next = prev
         prev = cur
         cur = next
         diff -= 1
      lastUnSwap.next = prev
      firstSwap.next = cur
      return dummy.next

if __name__ == "__main__":
   l1 = LinkedList(5)
   l1.display()
   t = Solution()
   l2 = t.reverseSublistSF(l1.getHead(), 2, 4)
   cur = l2
   while cur:
      print cur.val, 
      cur = cur.next
   print "\n"
Ejemplo n.º 10
0
   def addTwoNumbers(self, l1, l2):
      dummy = ListNode(0)
      carry, cur = 0, dummy
      while l1 or l2:
         sum = carry
         if l1:
            sum += l1.val 
            l1 = l1.next
         if l2:
            sum += l2.val
            l2 = l2.next
         carry = sum / 10
         sum %= 10
         cur.next = ListNode(sum)
         cur =  cur.next
      if carry == 1: cur.next = ListNode(1)
      return dummy.next

if __name__ == "__main__":
   l1 = LinkedList(4, 1, 9)
   l1.display()
   l2 = LinkedList(4, 1, 9)
   l2.display()
   t = Solution()
   l3 = t.addTwoNumbers(l1.getHead(), l2.getHead())
   cur = l3
   while cur:
      print cur.val,
      cur = cur.next
   print "\n"
Ejemplo n.º 11
0
         slow = slow.next
         if fast == slow:
            slow = head
            while slow != fast:
               fast, slow = fast.next, slow.next
            return slow
      return None

   def overlappingNoCycleLists(self, l1, l2):
      h1, h2, len1, len2 = l1, l2, 0, 0
      while h1: h1, len1 = h1.next, len1 + 1
      while h2: h2, len2 = h2.next, len2 + 1
      h1, h2 = l1, l2
      if len1 > len2:
         for i in range(len1 - len2): h1 = h1.next
      else:
         for i in range(len2 - len1): h2 = h2.next
      while h1 and h2 and h1 != h2:
         h1, h2 = h1.next, h2.next
      return h1

if __name__ == "__main__":
   l1 = LinkedList(8)
   l1.createCycle(3)
   l2 = LinkedList(4)
   cur = l2.getHead()
   while cur.next: cur = cur.next
   cur.next = l1.getHead().next
   t = Solution()
   print t.overlappingLists(l1.getHead(), l2.getHead())
Ejemplo n.º 12
0
from Util.LinkedList import LinkedList

class Solution:
   # Time: O(n)
   # Space: O(1)
   def cyclicallyRightShiftList(self, head, k):
      if head is None or head.next is None: return head
      cur = head
      length = 1
      while cur.next:
         cur = cur.next
         length += 1
      k = length - k%length
      cur.next = head
      for i in range(k):
         cur =  cur.next
      newHead = cur.next
      cur.next = None
      return newHead

if __name__ == "__main__":
   l1 = LinkedList(5, 1, 5)
   l1.display()
   t = Solution()
   l2 = t.cyclicallyRightShiftList(l1.getHead(), 3)
   cur = l2
   while cur:
      print cur.val,
      cur = cur.next
   print "\n"
Ejemplo n.º 13
0
from Util.LinkedList import ListNode
from Util.LinkedList import LinkedList

class Solution:
   # Time: O(n)
   # Space: O(1)
   def checkingCycle(self, head):
      if head is None: return None
      fast, slow = head, head
      while fast and fast.next:
         fast = fast.next.next
         slow = slow.next
         if slow == fast:
            slow = head
            while slow != fast:
               slow = slow.next
               fast = fast.next
            return slow
      return None

if __name__ == "__main__":
   l1 = LinkedList(6)
   l1.createCycle(3)
   t = Solution()
   c = t.checkingCycle(l1.getHead())
   print c.val if c else -1