Пример #1
0
from Chapter_2.LinkedList import *

llist = LinkedList()

llist.append(1)
llist.append(1)
llist.append(1)
llist.append(1)

llist.append(2)
llist.append(2)

llist.append(3)
llist.append(3)
llist.append(3)
llist.append(3)

llist.append(4)
llist.append(4)
llist.append(4)
llist.append(4)
llist.append(4)
llist.append(4)
llist.append(4)

llist.append(5)
llist.append(5)
llist.append(5)
llist.append(5)
llist.append(5)
 def PrintSummedListResult(self, result):
     sumedListResult = LinkedList()
     resultAsAstr = list(str(result))
     for result in resultAsAstr:
         sumedListResult.append(result)
     sumedListResult.printList()
    def BuildListOfDepths(self):
        root = self.binaryTreeRoot
        if root is None:
            return
        current = LinkedList()
        current.append(root)
        while current.getListSize() > 0:
            self.allListsOfDepths.append(current)  # add the previous level
            parents = current  # go to next level
            current = LinkedList()

            currentParent = parents.head  # head of the linked list (holds a binary node)
            while currentParent is not None:
                node = currentParent.data
                if node.leftNode is not None:
                    current.append(node.leftNode)
                if node.rightNode is not None:
                    current.append(node.rightNode)
                currentParent = currentParent.nextNode
    def GetSummedListsNumber(self, list1, list2):
        currentNode_1 = list1.head
        currentNode_2 = list2.head
        acumulate = 0
        while currentNode_1 is not None:
            nodesSum = int(currentNode_1.data) + int(currentNode_2.data)
            currentNode_1 = currentNode_1.nextNode
            currentNode_2 = currentNode_2.nextNode
            acumulate += nodesSum
        return acumulate

    def PrintSummedListResult(self, result):
        sumedListResult = LinkedList()
        resultAsAstr = list(str(result))
        for result in resultAsAstr:
            sumedListResult.append(result)
        sumedListResult.printList()


list1 = LinkedList()
list1.append(99)
list1.append(2)
list1.append(4)

list2 = LinkedList()
list2.append(26)
list2.append(3)
list2.append(6)

SumLinkedLists().PrepareListsToSum(list1, list2)
Пример #5
0
from Chapter_2.LinkedList import *

llist = LinkedList()

llist.append(1)
llist.append(2)
llist.append(3)
llist.append(4)
llist.append(5)
llist.printList()

llist.deleteMiddleNodeFromList(llist)
llist.printList()
from Chapter_2.LinkedList import *

llist = LinkedList()
llist.append(1)
llist.append(2)
llist.append(3)
llist.append(2)
llist.append(1)

llist.checkIfListIsPalindrome(llist)
        list2_size = list2.getListSize()

        if list1_size > list2_size:
            difference = list1_size - list2_size
            self.removeCharactersFromHeadOfLinkedList(difference, list1)
        if list2_size > list1_size:
            difference = list2_size - list1_size
            self.removeCharactersFromHeadOfLinkedList(difference, list2)

    def removeCharactersFromHeadOfLinkedList(self, howManyCharsToRemove,
                                             thisList):
        for i in range(howManyCharsToRemove):
            thisList.deleteNode("index", 0)


llist_1 = LinkedList()
llist_1.append(1)
llist_1.append(2)
llist_1.append(45)
llist_1.append(532)
llist_1.printList()

llist_2 = LinkedList()
llist_2.append(13)
llist_2.append(27)
llist_2.append(555)
llist_2.append(4)
llist_2.append(5)
llist_2.append(45)
llist_2.append(532)
llist_2.printList()
Пример #8
0
            if slow == fast:  # collision
                break

        # Error checking - no meeting point, and therefore no loop
        if fast is None or fast.nextNode is None:
            return None
        '''
        Move slow to head. Keep fast at Meeting point. Each are k steps from the Loop Start.
        If they move at the same pace, they must meet at Loop Start.
        '''
        slow = linkedList.head
        while slow != fast:
            slow = slow.nextNode
            fast = fast.nextNode
        # Both now point to the start of the loop
        return fast


llist = LinkedList()

llist.append("A")
llist.append("B")
llist.append("C")
llist.append("D")
llist.append("E")
llist.append("C")
llist.printList()

result = LinkedListLoopDetect().FindBeginning(llist)
print(result)