Esempio n. 1
0
 def test_power(self):
     get_start_time("power")
     self.calculator = Calculator(random.random() * 100)
     calc_value = self.calculator.value
     self.assertAlmostEqual(
         self.calculator.power(1.3, 3.7).value, calc_value**(1.3 * 3.7))
     get_end_time("power")
Esempio n. 2
0
 def test_root(self):
     get_start_time("root")
     self.calculator = Calculator(random.random() * 100)
     calc_value = self.calculator.value
     self.assertAlmostEqual(
         self.calculator.root(1.9 * 4.5).value,
         calc_value**(1 / (1.9 * 4.5)))
     get_end_time("root")
Esempio n. 3
0
 def test_root_divide_subtract(self):
     get_start_time("root_divide_subtract")
     self.calculator = Calculator(random.random() * 1000000)
     calc_value = self.calculator.value
     self.assertEqual(
         self.calculator.root(2, 3).divide(5, 3.2).subtract(228, 666).value,
         (calc_value**(1 / 6)) / (5 * 3.2) - 228 - 666)
     get_end_time("root_divide_subtract")
Esempio n. 4
0
 def test_multi_power_add(self):
     get_start_time("multi_power_add")
     self.calculator = Calculator(random.random() * 100)
     calc_value = self.calculator.value
     self.assertAlmostEqual(
         self.calculator.multiply(1.2, 3.4).power(2, 1.3).add(13, 19).value,
         (calc_value * 1.2 * 3.4)**(2 * 1.3) + (13 + 19))
     Calculator(3).add().multiply()
     get_end_time("multi_power_add")
Esempio n. 5
0
class TestCalculator(unittest.TestCase):
    def setUp(self):
        self.calculator = Calculator(1)

    def test_add(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.add(1, 2, 3).value, calc_value + 6)

    def test_mul(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.multiply(5, 2, 90).value, calc_value * 900)

    def test_divide(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.divide(2, 3).value, calc_value / 6)

    def kek(self):
        self.assertEqual(1, 2)

    def test_power(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.power(2, 3).value, calc_value**6)

    def test_root(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.root(2, 3).value, calc_value**(1. / 6))

    def test_power_add_mul(self):
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.power(2, 5).add(12, 18).multiply(5, 6).value,
            (calc_value**10 + 30) * 30)

    def test_add_mul(self):
        self.calculator = Calculator(random.random() * 20)
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.add(12, 17).multiply(11, 12).value,
            (calc_value + 29) * 132)

    def test_xor(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.xor(3, 4).value, calc_value ^ 7)

    def test_xor2(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.xor(3, 3).value, calc_value ^ 0)
Esempio n. 6
0
class TestCalculator(unittest.TestCase):
    def setUp(self):
        self.calculator = Calculator(randint(1, 100000))

    def test_add(self):
        """
        Test add function with regular data
        :rtype: object
        """
        print('Start time: ', datetime.now().minute, 'm ', datetime.now().second, 's ', datetime.now().microsecond, 'ms')
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.add(1, 2, 3).value, calc_value + 6)

    def test_mul(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.multiply(5, 2, 90).value, calc_value * 900)

    def test_divide(self):
        calc_value = self.calculator.value
        self.assertEquals(self.calculator.divide(2, 3).value, calc_value / 6)

    def test_power(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.power(4).root(2).value, calc_value**2)

    def test_power_zero(self):
        calc_value = 0
        self.calculator.value = 0
        self.assertEqual(self.calculator.power(5).root(7).value, 0)

    def test_root(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.root(2).value, sqrt(calc_value))
        print('End time: ', datetime.now().minute, 'm ', datetime.now().second, 's ', datetime.now().microsecond, 'ms')

    def test_all(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.multiply(6, 3, 1, 9, 4).root(8).add(6, 2, 1).divide(4, 5).value, (sqrt(sqrt(sqrt(calc_value*648)))+9)/20)
Esempio n. 7
0
class TestCalculator(unittest.TestCase):
    print("Start of the test", datetime.datetime.now())

    def setUp(self):
        self.calculator = Calculator(random.randint(1, 100))

    def test_add(self):
        calc_value = self.calculator.value + 6
        self.assertEqual(calc_value, self.calculator.add(1, 2, 3).value)

    def test_subtract(self):
        calc_value = self.calculator.value - 2
        self.assertEqual(calc_value, self.calculator.subtract(1, 1).value)

    def test_mul(self):
        calc_value = self.calculator.value * 900
        self.assertEqual(calc_value, self.calculator.multiply(5, 2, 90).value)

    def test_divide(self):
        calc_value = self.calculator.value / 4
        self.assertEquals(calc_value, self.calculator.divide(4).value)

    def test_pow_and_root(self):
        calc_value = sqrt(self.calculator.value**4)
        self.assertEqual(calc_value, self.calculator.power(4).root().value)

    def test_chain(self):
        calc_value = (((sqrt(self.calculator.value**2)) + 12 - 33) * 10) / 2
        self.assertEqual(
            calc_value,
            self.calculator.power(2).root().add(4,
                                                8).subtract(11, 22).multiply(
                                                    5, 2).divide(2).value)

    def kek(self):
        self.assertEqual(1, 2)

    print("End of the test", datetime.datetime.now())
 def setUp(self):
     print('Set_up test begin:', time.asctime())
     self.calculator = Calculator(random.randint(1, 1000))
     print('Set_up test end:', time.asctime(), '\n --------------')
class TestCalculator(unittest.TestCase):
    def setUp(self):
        print('Set_up test begin:', time.asctime())
        self.calculator = Calculator(random.randint(1, 1000))
        print('Set_up test end:', time.asctime(), '\n --------------')

    def test_add(self):
        print('test_add begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.add(1, 2, 3).value, calc_value + 6)
        print('test_add end:', time.asctime(), '\n --------------')

    def test_mul(self):
        print('test_mul begin:', (time.asctime()))
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.multiply(5, 2, 90).value, calc_value * 900)
        print('test_mul end:', time.asctime(), '\n --------------')

    def test_divide(self):
        print('test_divide begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.divide(2, 3).value, calc_value / 6)
        print('test_divide end:', time.asctime(), '\n --------------')

    def test_power(self):
        print('test_power begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.power(2, 3).value, calc_value**6)
        print('test_power end:', time.asctime(), '\n --------------')

    def test_power_long(self):
        print('test_power_long begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.power(2, 3, 3, 4, 4, 5).value, calc_value**1440)
        print('test_root_long end:', time.asctime(), '\n --------------')

    def test_power_smaller(self):
        print('test_power_smaller begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertLessEqual(
            self.calculator.power(10, 2).value, calc_value**100)
        print('test_power_smaller end:', time.asctime(), '\n --------------')

    def test_root_zero(self):
        print('test_root_zero begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.root(0).value, calc_value)
        print('test_root_zero end:', time.asctime(), '\n --------------')

    def test_power_zero(self):
        print('test_root_zero begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.power(0).value, 1)
        print('test_root_zero end:', time.asctime(), '\n --------------')

    def test_root(self):
        print('test_root begin:', time.asctime())
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.root(2, 3).value, calc_value**(1 / 6))
        print('test_root end:', time.asctime(), '\n --------------')
        print('Использованное число:', calc_value)
Esempio n. 10
0
 def setUp(self):
     self.calculator = Calculator(1)
Esempio n. 11
0
class TestCalculator(unittest.TestCase):
    def setUp(self):
        self.calculator = Calculator(1)

    def test_add(self):
        self.calculator.value = random.random() * 100
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.add(1, 22, 3, 0).value, calc_value + 26)

    def test_mul(self):
        self.calculator.value = random.random() * 100
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.multiply(5, 2, 90).value, calc_value * 900)

    def test_divide(self):
        self.calculator.value = random.random() * 100
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.divide(5, 3, 1, 7).value, calc_value / 105)

    def test_subtract(self):
        self.calculator.value = random.random() * 100
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.subtract(8, 10, 37).value, calc_value - 55)

    def test_power(self):
        get_start_time("power")
        self.calculator = Calculator(random.random() * 100)
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.power(1.3, 3.7).value, calc_value**(1.3 * 3.7))
        get_end_time("power")

    def test_root(self):
        get_start_time("root")
        self.calculator = Calculator(random.random() * 100)
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.root(1.9 * 4.5).value,
            calc_value**(1 / (1.9 * 4.5)))
        get_end_time("root")

    def test_root_divide_subtract(self):
        get_start_time("root_divide_subtract")
        self.calculator = Calculator(random.random() * 1000000)
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.root(2, 3).divide(5, 3.2).subtract(228, 666).value,
            (calc_value**(1 / 6)) / (5 * 3.2) - 228 - 666)
        get_end_time("root_divide_subtract")

    def test_multi_power_add(self):
        get_start_time("multi_power_add")
        self.calculator = Calculator(random.random() * 100)
        calc_value = self.calculator.value
        self.assertAlmostEqual(
            self.calculator.multiply(1.2, 3.4).power(2, 1.3).add(13, 19).value,
            (calc_value * 1.2 * 3.4)**(2 * 1.3) + (13 + 19))
        Calculator(3).add().multiply()
        get_end_time("multi_power_add")
 def setUp(self):
     self.calculator = Calculator(random.randint(1, 100))
     #print(self.calculator.value)
     self.timestart = time.time()
Esempio n. 13
0
class TestCalculator(unittest.TestCase):
    def setUp(self):
        self.calculator = Calculator(randint(0, 100))

    def test_add(self):
        print('Start: ' + str(datetime.datetime.now().second) + ' ' +
              str(datetime.datetime.now().microsecond))
        """
        Test add function with regular data
        :rtype: object
        """
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.add(1, 2, 3).value, calc_value + 6)

    def test_mul(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.multiply(5, 2, 90).value, calc_value * 900)

    def test_mul_zero(self):
        self.calculator.value = 4
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.multiply(5, 2, 90, 0).value, 0)

    def test_divide(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.divide(2, 3).value, calc_value / 6)

    def test_divide_int(self):
        self.calculator.value = 20
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.divide(2, 4, integer_divide=True).value,
            calc_value // 8)

    def test_subtract(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.subtract(1, 2).value, calc_value - (1 + 2))

    def test_subtract_negative(self):
        self.calculator.value = 10
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.subtract(-11, -2).value, calc_value + 11 + 2)

    def test_power(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.power(1, 2).value, calc_value**2)

    def test_zero_power(self):
        self.calculator = 10
        self.assertEqual(self.calculator.power(1, 2, 0).value, 1)

    def test_negative_power(self):
        self.calculator.value = 10
        calc_value = self.calculator.value
        self.assertEqual((self.calculator.power(-1, -2).value + 1) // 1,
                         calc_value**2)

    def test_root(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.root().value, sqrt(calc_value))

    def test_zero_root(self):
        self.calculator.value = 0
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.root().value, 0)
        print('End: ' + str(datetime.datetime.now().second) + ' ' +
              str(datetime.datetime.now().microsecond))

    def test_all(self):
        self.calculator.value = 40
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.add(3,
                                5,
                                6,
                                9,
                                self=self.calculator.power(
                                    5, self=(self.calculator.root()))).value,
            sqrt(calc_value)**5 + 3 + 5 + 6 + 9)


#3+5+6+9+( (sqrt(value))^5)

    def kek(self):
        self.assertEqual(1, 2)
Esempio n. 14
0
 def test_add_mul(self):
     self.calculator = Calculator(random.random() * 20)
     calc_value = self.calculator.value
     self.assertAlmostEqual(
         self.calculator.add(12, 17).multiply(11, 12).value,
         (calc_value + 29) * 132)
Esempio n. 15
0
 def setUp(self):
     global cnt
     cnt += 1
     print('Test', cnt, ': ', clock())
     self.calculator = Calculator(randint(-1000, 1000))
Esempio n. 16
0
class TestCalculator(unittest.TestCase):
    def setUp(self):
        global cnt
        cnt += 1
        print('Test', cnt, ': ', clock())
        self.calculator = Calculator(randint(-1000, 1000))

    def test_add(self):
        self.assertEqual(self.calculator.value + 6,
                         self.calculator.add(1, 2, 3).value)
        self.assertEqual(self.calculator.value + 3 * INF,
                         self.calculator.add(INF, INF, INF).value)  # maxTest
        self.assertRaises(TypeError, self.calculator.add,
                          'asda')  # typeErorTest
        self.assertRaises(TypeError, self.calculator.add,
                          '1212 1212')  # typeErorWithNumberInStringTest
        self.assertEqual(self.calculator.value - 500,
                         self.calculator.add(-500).value)  # negativeTest
        self.assertEqual(self.calculator.value + eps + eps,
                         self.calculator.add(eps, eps).value)  # minTest

    def test_multiply(self):
        self.assertEqual(self.calculator.value * 900,
                         self.calculator.multiply(5, 2, 90).value)
        self.assertEqual(self.calculator.value * INF * INF,
                         self.calculator.multiply(INF, INF).value)  # maxTest
        self.assertEqual(self.calculator.value * 0 * 5,
                         self.calculator.multiply(0, 5).value)  # zeroTest
        self.assertEqual(self.calculator.value * -500,
                         self.calculator.multiply(-500).value)  # negativeTest
        self.assertRaises(TypeError, self.calculator.multiply,
                          'asda')  # typeErorTest
        self.assertRaises(TypeError, self.calculator.multiply,
                          '1212 1212')  # typeErorWithNumberInStringTest
        self.assertEqual(self.calculator.value * -500 * -500,
                         self.calculator.multiply(
                             -500, -500).value)  # negativeAndNegativeTest
        self.assertEqual(self.calculator.value * eps * eps,
                         self.calculator.multiply(eps, eps).value)  # minTest

    def test_divide(self):
        self.assertAlmostEqual(self.calculator.value / 9,
                               self.calculator.divide(3, 3).value)
        self.assertAlmostEqual(self.calculator.value / INF / INF,
                               self.calculator.divide(INF,
                                                      INF).value)  #maxTest
        self.assertAlmostEqual(self.calculator.value / eps / eps,
                               self.calculator.divide(eps,
                                                      eps).value)  #minTest
        self.assertAlmostEqual(self.calculator.value / -5 / 100,
                               self.calculator.divide(
                                   -5, 100).value)  #negativeTest
        self.assertRaises(TypeError, self.calculator.divide,
                          'asda')  # typeErorTest
        self.assertRaises(ZeroDivisionError, self.calculator.divide,
                          0)  # typeErorTest
        self.assertRaises(TypeError, self.calculator.divide,
                          '1212 1212')  # typeErorWithNumberInStringTest

    def test_power(self):
        if self.calculator.value > 0:
            self.assertAlmostEqual(self.calculator.value**0,
                                   self.calculator.power(0).value)  # zeroTest
            self.assertAlmostEqual(self.calculator.value**2,
                                   self.calculator.power(2).value)
            self.assertAlmostEqual(self.calculator.value**5,
                                   self.calculator.power(5).value)
            self.assertAlmostEqual(self.calculator.value**200,
                                   self.calculator.power(200).value)  # maxTest
            self.assertAlmostEqual(
                self.calculator.value**-200,
                self.calculator.power(-200).value)  # maxTest
        self.assertRaises(TypeError, self.calculator.power,
                          'asda')  # typeErorTest
        self.assertRaises(TypeError, self.calculator.power,
                          '1212 1212')  # typeErorWithNumberInStringTest
        self.calculator.value = -200
        self.assertAlmostEqual(
            self.calculator.value,
            self.calculator.power(10).value
        )  # baseNegativeTest return vales_last , becouse pow(10) is not exist

    def test_root(self):
        print(self.calculator.value)
        if self.calculator.value > 0:
            self.assertAlmostEqual(self.calculator.value**(1 / 2),
                                   self.calculator.root(2).value)
            self.assertAlmostEqual(
                self.calculator.value,
                self.calculator.root(0).value
            )  #  zeroTest, return vales_last , becouse root(0) is not exist
            self.assertAlmostEqual(self.calculator.value**(1 / 5),
                                   self.calculator.root(5).value)
            self.assertAlmostEqual(self.calculator.value**(1 / 200),
                                   self.calculator.root(200).value)  # maxTest
        self.assertRaises(TypeError, self.calculator.root,
                          'asda')  # typeErorTest
        self.assertRaises(TypeError, self.calculator.root,
                          '1212 1212')  # typeErorWithNumberInStringTest
        self.calculator.value = -200
        self.assertAlmostEqual(
            self.calculator.value,
            self.calculator.root(10).value
        )  # baseNegativeTest return vales_last , becouse root(10) is not exist

    def test_subtract(self):
        self.assertAlmostEqual(self.calculator.value - 6,
                               self.calculator.subtract(1, 2, 3).value)
        self.assertAlmostEqual(self.calculator.value - 3 * INF,
                               self.calculator.subtract(INF, INF,
                                                        INF).value)  # maxTest
        self.assertRaises(TypeError, self.calculator.subtract,
                          'asda')  # typeErorTest
        self.assertRaises(TypeError, self.calculator.subtract,
                          '1212 1212')  # typeErorWithNumberInStringTest
        self.assertAlmostEqual(
            self.calculator.value + 500,
            self.calculator.subtract(-500).value)  # negativeTest
        self.assertAlmostEqual(self.calculator.value - eps - eps,
                               self.calculator.subtract(eps,
                                                        eps).value)  # minTest
Esempio n. 17
0
 def setUp(self):
     self.calculator = Calculator(random.randint(1, 100))
Esempio n. 18
0
 def setUp(self):
     self.calculator = Calculator(randint(0, 100))
class TestCalculator(unittest.TestCase):
    def setUp(self):
        self.calculator = Calculator(random.randint(1, 100))
        #print(self.calculator.value)
        self.timestart = time.time()

    def tearDown(self):
        print(time.time() - self.timestart)

    def test_add(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.add(1, 2, 3).value, calc_value + 6)

    def test_mul(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.multiply(5, 2, 90).value, calc_value * 900)

    def test_divide(self):
        calc_value = self.calculator.value
        self.assertEqual(self.calculator.divide(2, 3).value, calc_value / 6)

    def test_accuracy(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.add(3).root(12).power(12,
                                                  integer_power=True).value,
            calc_value + 3)

    def test_chain(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.add(7, -5, 0).divide(2, 1 / 2,
                                                 3).power(2).add(127).value,
            ((calc_value + 2) / 3)**2 + 127)

    def test_float(self):
        calc_value = self.calculator.value
        self.assertEqual(
            self.calculator.root(6).divide(10, 2, 1 / 2).multiply(2.28).value,
            (calc_value**(1 / 6)) / 10 * 2.28)

    def test_divide_by_zero(self):
        with self.assertRaises(ValueError):
            self.calculator.divide(10, 0)

    def test_long_calc(self):
        calc_value = self.calculator.value
        for i in range(500000):
            self.calculator.power(100)
            self.calculator.root(100)
        self.assertTrue(-1e-6 < self.calculator.value - calc_value < 1e-6)