def test1(self):
self.assertTrue(
linked_lists.equals(
EXPECTED1, SOLUTION1.reverseBetween(HEAD1(), LEFT1, RIGHT1)))
self.assertTrue(
linked_lists.equals(
EXPECTED2, SOLUTION1.reverseBetween(HEAD2(), LEFT2, RIGHT2)))
def test1(self):
self.assertTrue(
linked_lists.equals(EXPECTED1, SOLUTION1.sortList(HEAD1())))
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION1.sortList(HEAD2())))
self.assertTrue(
linked_lists.equals(EXPECTED3, SOLUTION1.sortList(HEAD3())))
def test2(self):
self.assertTrue(
linked_lists.equals(EXPECTED1, SOLUTION2.mergeKLists(LISTS1())))
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION2.mergeKLists(LISTS2)))
self.assertTrue(
linked_lists.equals(EXPECTED3, SOLUTION2.mergeKLists(LISTS3)))
def test1(self):
self.assertTrue(
linked_lists.equals(EXPECTED1, SOLUTION1.addTwoNumbers(L11, L12)))
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION1.addTwoNumbers(L21, L22)))
self.assertTrue(
linked_lists.equals(EXPECTED3, SOLUTION1.addTwoNumbers(L31, L32)))
def test1(self):
self.assertTrue(
linked_lists.equals(EXPECTED1,
SOLUTION1.deleteDuplicates(HEAD1())))
self.assertTrue(
linked_lists.equals(EXPECTED2,
SOLUTION1.deleteDuplicates(HEAD2())))
def test1(self):
head1 = HEAD1()
self.assertTrue(
linked_lists.equals(EXPECTED1, SOLUTION1.insertionSortList(head1)))
head2 = HEAD2()
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION1.insertionSortList(head2)))
def test1(self):
head1 = HEAD1()
SOLUTION1.reorderList(head1)
self.assertTrue(linked_lists.equals(EXPECTED1, head1))
head2 = HEAD2()
SOLUTION1.reorderList(head2)
self.assertTrue(linked_lists.equals(EXPECTED2, head2))
def test1(self):
head1 = linked_lists.from_values(*VALUES1)
head1 = SOLUTION1.rotateRight(head1, K1)
self.assertTrue(linked_lists.equals(EXPECTED1, head1))
head2 = linked_lists.from_values(*VALUES2)
head2 = SOLUTION1.rotateRight(head2, K2)
self.assertTrue(linked_lists.equals(EXPECTED2, head2))
def test1(self):
self.assertTrue(
linked_lists.equals(EXPECTED1,
SOLUTION1.mergeTwoLists(L11(), L12())))
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION1.mergeTwoLists(L21, L22)))
self.assertTrue(
linked_lists.equals(EXPECTED3, SOLUTION1.mergeTwoLists(L31,
L32())))
def test1(self):
self.assertTrue(
linked_lists.equals(EXPECTED1, SOLUTION1.partition(HEAD1, X1)))
self.assertTrue(
linked_lists.equals(EXPECTED2, SOLUTION1.partition(HEAD2, X2)))
def test1(self):
self.assertTrue(linked_lists.equals(EXPECTED1, SOLUTION1.reverseKGroup(HEAD1(), K1)))
self.assertTrue(linked_lists.equals(EXPECTED2, SOLUTION1.reverseKGroup(HEAD2(), K2)))
self.assertTrue(linked_lists.equals(EXPECTED3, SOLUTION1.reverseKGroup(HEAD3(), K3)))
self.assertTrue(linked_lists.equals(EXPECTED4, SOLUTION1.reverseKGroup(HEAD4(), K4)))
def test1(self):
self.assertTrue(linked_lists.equals(EXPECTED1, SOLUTION1.removeNthFromEnd(HEAD1(), N1)))
self.assertTrue(linked_lists.equals(EXPECTED2, SOLUTION1.removeNthFromEnd(HEAD2(), N2)))
self.assertTrue(linked_lists.equals(EXPECTED3, SOLUTION1.removeNthFromEnd(HEAD3(), N3)))