Beispiel #1
0
class ProblemTest(unittest.TestCase):

    def setUp(self):
        self.q = "Question"
        self.a = "Answer"
        self.p  = Problem(self.q,self.a)

    def test_get_question(self):
        self.assertEqual(self.p.get_question(),self.q)

    def test_get_answer(self):
        self.assertEqual(self.p.get_answer(),self.a)

    def test_set_question(self):
        self.p.set_question("New Question")
        self.assertEqual(self.p.get_question(),"New Question")

    def test_set_answer(self):
        self.p.set_answer("New Answer")
        self.assertEqual(self.p.get_answer(),"New Answer")

    def test_check_answer(self):
        self.assertTrue(self.p.check_answer(self.a))
        self.assertFalse(self.p.check_answer("not the answer"))

    def test_as_string(self):
        test_string = "Problem|Question|Answer|"
        self.assertEqual(self.p.as_string(),test_string)

    def test_copy(self):
        copy = self.p.copy()
        self.assertFalse(self.p is copy)
        self.assertEqual(self.p.as_string(),copy.as_string())
Beispiel #2
0
class ProblemSetTest(unittest.TestCase):
    def setUp(self):
        self.name = "Problem_Set"
        self.pset = ProblemSet(self.name)
        self.pset.test_fill_quotes()
        self.pset.test_fill_math(10)
        self.pset.test_fill(10)

        self.problemA = Problem("Question A", "Answer A")
        self.problemB = Problem("Question B", "Answer B")
        self.problemC = Problem("Question C", "Answer C")

    def test_get_name(self):
        self.assertEqual(self.name, self.pset.get_name())

    def test_set_name(self):
        self.pset.set_name("My Problem Set")
        self.assertEqual("My Problem Set", self.pset.get_name())

    def test_add_problem(self):
        self.pset.add_problem(self.problemA)
        self.assertEqual(self.pset.get_problem(self.pset.get_length() - 1),
                         self.problemA)

    def test_find_problem(self):
        self.assertEqual(self.pset.find_problem(self.problemA), -1)
        self.pset.add_problem(self.problemA)
        self.pset.add_problem(self.problemB)
        self.pset.add_problem(self.problemC)
        ind_probA = self.pset.find_problem(self.problemA)
        ind_probB = self.pset.find_problem(self.problemB)
        ind_probC = self.pset.find_problem(self.problemC)
        self.assertEqual(self.pset.get_problem(ind_probA), self.problemA)
        self.assertEqual(self.pset.get_problem(ind_probB), self.problemB)
        self.assertEqual(self.pset.get_problem(ind_probC), self.problemC)

    def test_remove_problem(self):
        self.assertEqual(self.pset.remove_problem(self.problemA), -1)

        p = self.pset.get_problem(0)
        self.assertEqual(self.pset.remove_problem(p), 0)
        self.assertEqual(self.pset.find_problem(p), -1)

    def test_replace_problem(self):
        p = self.pset.get_problem(0)
        self.pset.replace_problem(0, self.problemA)
        self.assertEqual(self.pset.find_problem(p), -1)
        self.assertEqual(self.pset.find_problem(self.problemA), 0)

    def test_insert_problem(self):
        p = self.pset.get_problem(5)
        self.pset.insert_problem(5, self.problemA)
        self.assertEqual(self.pset.get_problem(5), self.problemA)
        self.assertEqual(self.pset.get_problem(6), p)

    def test_swap_problem(self):
        self.assertEqual(self.pset.swap_problem(-1, 1), -1)
        self.assertEqual(self.pset.swap_problem(0, 0), -1)
        self.assertEqual(self.pset.swap_problem(1, -1), -1)

        p0 = self.pset.get_problem(0)  #problem in position zero orginally
        p1 = self.pset.get_problem(1)  #problem in position one  orginally
        self.assertEqual(self.pset.swap_problem(0, 1), 0)
        self.assertEqual(self.pset.get_problem(0), p1)  #p1 should be in pos 0
        self.assertEqual(self.pset.get_problem(1), p0)  #p0 should be in pos 1

    def test_move_problem(self):
        #dst > org
        ind_org = 0
        ind_dst = 10
        prob_org = self.pset.get_problem(ind_org)
        prob_dst = self.pset.get_problem(ind_dst)
        self.assertEqual(self.pset.move_problem(ind_org, ind_dst), 0)
        self.assertEqual(self.pset.get_problem(ind_dst), prob_org)
        self.assertEqual(self.pset.get_problem(ind_dst - 1), prob_dst)

        #dst < org
        ind_org = 12
        ind_dst = 1
        prob_org = self.pset.get_problem(ind_org)
        prob_dst = self.pset.get_problem(ind_dst)
        self.assertEqual(self.pset.move_problem(ind_org, ind_dst), 0)
        self.assertEqual(self.pset.get_problem(ind_dst), prob_org)
        self.assertEqual(self.pset.get_problem(ind_dst + 1), prob_dst)

    def test_pop_problem(self):
        pset_length = self.pset.get_length()
        last_problem = self.pset.get_problem(pset_length - 1)
        self.pset.pop_problem()
        self.assertEqual(self.pset.find_problem(last_problem), -1)
        self.assertEqual(self.pset.get_length(), pset_length - 1)

    def test_copy(self):
        pset_copy = self.pset.copy()
        self.assertFalse(pset_copy == self.pset)
        self.assertEqual(pset_copy.as_string(), self.pset.as_string())

    def test_consolidate(self):
        p1 = ProblemSet("", self.problemA, self.problemB)
        p2 = ProblemSet("", self.problemB, self.problemC)
        p3 = ProblemSet("", self.problemC, self.problemA)
        test_string = p1.as_string().rstrip() + p2.as_string().rstrip(
        ) + p3.as_string()
        p1.consolidate(p2, p3)
        self.assertEqual(p1.as_string(), test_string)

    def test_check_index(self):
        test = ProblemSet("", self.problemA, self.problemB, self.problemC)
        self.assertFalse(test.check_index(-1))
        self.assertFalse(test.check_index(test.get_length()))
        self.assertTrue(test.check_index(0))
        self.assertTrue(test.check_index(test.get_length() - 1))

    def test_as_string(self):
        ps = ProblemSet("ProblemSet")
        ps.add_problem(self.problemA)
        ps.add_problem(self.problemB)
        ps.add_problem(self.problemC)
        comp_str = "ProblemSet" + "\n" + self.problemA.as_string() + "\n"
        comp_str += self.problemB.as_string() + "\n" + self.problemC.as_string(
        ) + "\n"
        self.assertEqual(ps.as_string(), comp_str)

    def test_save_load(self):
        self.pset.save("deleteme")
        load_set = ProblemSet()
        load_set.load("deleteme")
        self.assertEqual(self.pset.as_string(), load_set.as_string())

    def test_txt(self):
        self.pset.as_text_file("tester")
Beispiel #3
0
class ExamTest(unittest.TestCase):
    def setUp(self):
        self.name = "Exam"
        self.exam = Exam(self.name)
        self.exam.test_fill_quotes()
        #self.exam.save("setup")
        self.problemA = Problem("Question A", "Answer A")
        self.problemB = Problem("Question B", "Answer B")
        self.problemC = Problem("Question C", "Answer C")

    def tearDown(self):
        del self.exam
        del self.problemA
        del self.problemB
        del self.problemC

    def test_get_name(self):
        self.assertEqual(self.name, self.exam.get_name())

    def test_set_name(self):
        self.exam.set_name("MyExam")
        self.assertEqual("MyExam", self.exam.get_name())

    def test_find_problem(self):
        self.assertEqual(self.exam.find_problem(self.problemA), -1)
        self.exam.add_problem(self.problemA, 1)
        self.exam.add_problem(self.problemB, 1)
        self.exam.add_problem(self.problemC, 1)
        indA = self.exam.find_problem(self.problemA)
        indB = self.exam.find_problem(self.problemB)
        indC = self.exam.find_problem(self.problemC)
        self.assertEqual(
            self.exam.get_problem(indA).as_string(), self.problemA.as_string())
        self.assertEqual(
            self.exam.get_problem(indB).as_string(), self.problemB.as_string())
        self.assertEqual(
            self.exam.get_problem(indC).as_string(), self.problemC.as_string())

    def test_remove_problem(self):
        self.assertEqual(self.exam.remove_problem(self.problemA), -1)

        p = self.exam.get_problem(0)
        self.assertEqual(self.exam.remove_problem(p), 0)
        self.assertEqual(self.exam.find_problem(p), -1)

    def test_replace_problem(self):
        p = self.exam.get_problem(0)
        self.assertTrue(self.exam.check_index(0))
        self.assertEqual(self.exam.replace_problem(0, self.problemA, 1), 0)
        self.assertEqual(self.exam.find_problem(p), -1)
        self.assertEqual(self.exam.find_problem(self.problemA), 0)

    def test_insert_problem(self):
        p = self.exam.get_problem(5)
        self.exam.insert_problem(5, self.problemA, 1)
        self.assertEqual(self.exam.get_problem(5), self.problemA)
        self.assertEqual(self.exam.get_problem(6), p)

    def test_swap_problem(self):
        self.assertEqual(self.exam.swap_problem(-1, 1), -1)
        self.assertEqual(self.exam.swap_problem(0, 0), -1)
        self.assertEqual(self.exam.swap_problem(1, -1), -1)

        p0 = self.exam.get_problem(0)  #problem in position zero orginally
        p1 = self.exam.get_problem(1)  #problem in position one  orginally
        self.assertEqual(self.exam.swap_problem(0, 1), 0)
        self.assertEqual(self.exam.get_problem(0), p1)  #p1 should be in pos 0
        self.assertEqual(self.exam.get_problem(1), p0)  #p0 should be in pos 1

    def test_move_problem(self):
        #dst > org
        ind_org = 0
        ind_dst = 5
        prob_org = self.exam.get_problem(ind_org)
        prob_dst = self.exam.get_problem(ind_dst)
        self.assertEqual(self.exam.move_problem(ind_org, ind_dst), 0)
        self.assertEqual(self.exam.get_problem(ind_dst), prob_org)
        self.assertEqual(self.exam.get_problem(ind_dst - 1), prob_dst)

        #dst < org
        ind_org = 5
        ind_dst = 1
        prob_org = self.exam.get_problem(ind_org)
        prob_dst = self.exam.get_problem(ind_dst)
        self.assertEqual(self.exam.move_problem(ind_org, ind_dst), 0)
        self.assertEqual(self.exam.get_problem(ind_dst), prob_org)
        self.assertEqual(self.exam.get_problem(ind_dst + 1), prob_dst)

    def test_pop_problem(self):
        exam_length = self.exam.get_length()
        last_problem = self.exam.get_problem(exam_length - 1)
        self.exam.pop_problem()
        self.assertEqual(self.exam.find_problem(last_problem), -1)
        self.assertEqual(self.exam.get_length(), exam_length - 1)

    def test_copy(self):
        exam_copy = self.exam.copy()
        self.assertFalse(exam_copy == self.exam)
        self.assertEqual(exam_copy.as_string(), self.exam.as_string())

    def test_check_index(self):
        self.assertFalse(self.exam.check_index(-1))
        self.assertFalse(self.exam.check_index(self.exam.get_length()))
        self.assertTrue(self.exam.check_index(0))
        self.assertTrue(self.exam.check_index(self.exam.get_length() - 1))

    def test_as_string(self):
        ex = Exam("Exam", [1, 1, 1],
                  ProblemSet("", self.problemA, self.problemB, self.problemC))
        points = ' '.join([str(i) for i in ex.get_points()])
        comp_str = "Exam" + "\n" + points + '\n' + self.problemA.as_string(
        ) + "\n"
        comp_str += self.problemB.as_string() + "\n" + self.problemC.as_string(
        ) + "\n"
        self.assertEqual(ex.as_string(), comp_str)

    def test_save_load(self):
        self.exam.save("deleteme")
        load_set = Exam()
        load_set.load("deleteme")
        self.assertEqual(self.exam.as_string(), load_set.as_string())

    def test_consolidate(self):
        test = Exam()
        #test is easy if we eliminate the name otherwise we have to do a lot of str manip
        self.exam.set_name("")
        test.consolidate(self.exam, self.exam, self.exam)
        test_string = '\n' + ' '.join(
            [str(i) for i in (self.exam.get_points() * 3)])
        test_string += super(Exam, self.exam).as_string().rstrip() * 3 + '\n'
        self.assertEqual(test.as_string(), test_string)

    def test_txt(self):
        #self.exam.as_text_file("tester")
        pass