Beispiel #1
0
def main():

    # Create first node and set the head ptr
    testListHead = testList = ListNode(3)

    # Add the second node and set a ptr that the end of the list can loop back to
    testList.next = ListNode(2)
    testList = testList.next
    loopback = testList

    # Populate the remaining nodes in the linked list
    testList.next = ListNode(0)
    testList = testList.next
    testList.next = ListNode(-4)
    testList = testList.next
    testList.next = loopback

    # Set ptr to beginning of list to pass to Solution class
    testList = testListHead

    # Instantiate Solution class
    s = Solution()

    # Run the solution
    answer = s.hasCycle(testList)

    print("The linked list contains a cycle: ")
    print(answer)
Beispiel #2
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def list_to_LL(arr):
    if len(arr) < 1:
        return None

    if len(arr) == 1:
        return ListNode(arr[0])
    return ListNode(val=arr[0], next=list_to_LL(arr[1:]))
Beispiel #3
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    def create_node(nums: list) -> ListNode:
        top = cur = ListNode(nums[0])
        for n in nums[1:]:
            cur.next = ListNode(n)
            cur = cur.next

        return top
Beispiel #4
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    def test_something(self):
        n2 = ListNode(2)
        n1 = ListNode(1, n2)
        m2 = ListNode(2)
        m1 = ListNode(1, m2)

        self.assertEqual('1122', self.NodeListStr(Solution().mergeTwoLists(n1, m1)))
        self.assertEqual(None, Solution().mergeTwoLists(None, None))
Beispiel #5
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def main():

    # Build the linked lists with the test inputs
    # Start pointer references the head, which we pass to solution
    listOneStart = listOne = ListNode(2)
    listOne.next = ListNode(4)
    listOne = listOne.next
    listOne.next = ListNode(3)
    listOne = listOneStart

    listTwoStart = listTwo = ListNode(5)
    listTwo.next = ListNode(6)
    listTwo = listTwo.next
    listTwo.next = ListNode(4)
    listTwo = listTwoStart

    # Instantiate Solution class
    s = Solution()

    # Run the Solution method
    answer = s.addTwoNumbers(listOne, listTwo)

    # Loop through answer list and print all nodes
    while answer:
        print(str(answer.val))
        answer = answer.next
Beispiel #6
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def main():

    # Build up both lists with the test values, node by node
    # testLists are pointers to the head, which we will pass in to the solution
    testList1 = buildList1 = ListNode(1)  # 1, 2, 4
    buildList1.next = ListNode(2)
    buildList1 = buildList1.next
    buildList1.next = ListNode(4)
    buildList1 = buildList1.next

    testList2 = buildList2 = ListNode(1)  # 1, 3, 4
    buildList2.next = ListNode(3)
    buildList2 = buildList2.next
    buildList2.next = ListNode(4)
    buildList2 = buildList2.next

    # Instantiate Solution class
    s = Solution()

    # Run the Solution method on all test cases
    answer = s.mergeTwoLists(testList1, testList2)

    # Traverse the list and print each node's value
    while answer:
        print(answer.val)
        answer = answer.next
Beispiel #7
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def main():

    # Create first list node and set the head pointer there
    testListHead = testList = ListNode(1)

    # Populate the remaining nodes of the test list
    for i in range(2, 6):
        testList.next = ListNode(i)
        testList = testList.next

    # Set the pointer back to the beginning of the linked list
    testList = testListHead

    # Instantiate Solution class
    s = Solution()

    # Run the solution
    answer = s.reverseList(testList)

    # Traverse the list and print each value one by one
    print("Final answer")
    while answer:
        print(answer.val)
        answer = answer.next
Beispiel #8
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

l1 = ListNode(1, ListNode(2, ListNode(4)))

l2 = ListNode(1, ListNode(3, ListNode(4)))

tc.assertEqual(first=str(sol.mergeTwoLists(l1=l1, l2=l2)),
               second=str(
                   ListNode(
                       1,
                       ListNode(
                           1, ListNode(2, ListNode(3,
                                                   ListNode(4,
                                                            ListNode(4))))))),
               msg='Not Equal => Except value and Actual value')

l1 = None

l2 = None

tc.assertEqual(first=str(sol.mergeTwoLists(l1=l1, l2=l2)),
               second=str(None),
               msg='Not Equal => Except value and Actual value')

l1 = None
Beispiel #9
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

head = ListNode(1, ListNode(2, ListNode(3, ListNode(4, ListNode(5)))))

tc.assertEqual(first=str(sol.oddEvenList(head=head)),
               second=str(
                   ListNode(1,
                            ListNode(3, ListNode(5, ListNode(2,
                                                             ListNode(4)))))),
               msg='Not Equal => Except value and Actual value')

head = ListNode(
    2,
    ListNode(1, ListNode(3, ListNode(5, ListNode(6, ListNode(4,
                                                             ListNode(7)))))))

tc.assertEqual(first=str(sol.oddEvenList(head=head)),
               second=str(
                   ListNode(
                       2,
                       ListNode(
                           3,
                           ListNode(
                               6,
                               ListNode(7,
                                        ListNode(1,
Beispiel #10
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

head = ListNode(1,
                ListNode(2,
                         ListNode(2,
                                  ListNode(1)
                                  )
                         )
                )

tc.assertEqual(
    first=sol.isPalindrome(head=head),
    second=True,
    msg='Not Equal => Except value and Actual value'
)

head = ListNode(1,
                ListNode(2)
                )

tc.assertEqual(
    first=sol.isPalindrome(head=head),
    second=False,
    msg='Not Equal => Except value and Actual value'
)
Beispiel #11
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

l1 = ListNode(2, ListNode(4, ListNode(3)))

l2 = ListNode(5, ListNode(6, ListNode(4)))

tc.assertEqual(first=str(sol.addTwoNumbers(l1=l1, l2=l2)),
               second=str(ListNode(7, ListNode(0, ListNode(8)))),
               msg='Not Equal => Except value and Actual value')

l1 = ListNode(0)

l2 = ListNode(0)

tc.assertEqual(first=str(sol.addTwoNumbers(l1=l1, l2=l2)),
               second=str(ListNode(0)),
               msg='Not Equal => Except value and Actual value')

l1 = ListNode(
    9,
    ListNode(9, ListNode(9, ListNode(9, ListNode(9, ListNode(9,
                                                             ListNode(9)))))))

l2 = ListNode(9, ListNode(9, ListNode(9, ListNode(9))))

tc.assertEqual(first=str(sol.addTwoNumbers(l1=l1, l2=l2)),
Beispiel #12
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from Solution import ListNode
from Solution import Solution
l1 = ListNode(2)
t1 = l1
t1.next = ListNode(4)
t1 = t1.next
t1.next = ListNode(3)
l2 = ListNode(5)
t2 = l2
t2.next = ListNode(6)
t2 = t2.next
t2.next = ListNode(4)
sum = Solution()
print(sum.addTwoNumbers(l1, l2))
Beispiel #13
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

head = ListNode(1, ListNode(2))

tc.assertEqual(first=str(sol.reverseList(head=head)),
               second=str(ListNode(2, ListNode(1))),
               msg='Not Equal => Except value and Actual value')

head = ListNode()

tc.assertEqual(first=str(sol.reverseList(head=head)),
               second=str(ListNode()),
               msg='Not Equal => Except value and Actual value')

print('ALL CLEAR')
Beispiel #14
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from Solution import Solution
from Solution import ListNode
from unittest import TestCase

sol = Solution()
tc = TestCase()

head = ListNode(1, ListNode(2, ListNode(3, ListNode(4))))

tc.assertEqual(first=str(sol.swapPairs(head=head)),
               second=str(ListNode(2, ListNode(1, ListNode(4, ListNode(3))))),
               msg='Not Equal => Except value and Actual value')

head = ListNode()

tc.assertEqual(first=str(sol.swapPairs(head=head)),
               second=str(ListNode()),
               msg='Not Equal => Except value and Actual value')

head = ListNode(1)

tc.assertEqual(first=str(sol.swapPairs(head=head)),
               second=str(ListNode(1)),
               msg='Not Equal => Except value and Actual value')

print('ALL CLEAR')