class SampleSize(DataLoader):
def __init__(self):
self.calc = Calculator()
pass
def cochran_small(self, n_0, N):
return cochran_small(n_0, N)
def cochran_large(self, proportion, marginerror, confidence):
return cochran_large(proportion, marginerror, confidence)
def cochran(self, N, proportion, marginerror, confidence):
n_0 = cochran_large(proportion, marginerror, confidence)
if N >= 500:
return n_0
else:
return cochran_small(n_0, N)
def find_n_size_unknown_sigma(self, confidence_p, interval_width,
n_pct_of_N):
z = Statistics.z_given_confidence(confidence_p)
E = self.calc.divide(interval_width, 2)
p_hat = n_pct_of_N
q_hat = 1 - p_hat
pq = self.calc.multiply(p_hat, q_hat)
result = self.calc.multiply(self.calc.square(self.calc.divide(z, E)),
pq)
return round(result, 0)
def find_n_size_given_sigma(self, confidence_p, sigma, me):
z = Statistics.z_given_confidence(confidence_p)
zsig = self.calc.multiply(z, sigma)
result = self.calc.square(self.calc.divide(zsig, me))
return round(result, 0)
def cochran_large(proportion, me, confidence):
calc = Calculator()
z = Statistics.z_given_confidence(confidence)
z_2 = calc.square(z)
e_2 = calc.square(me)
n_0 = calc.divide(
calc.multiply(calc.multiply(z_2, proportion), 1 - proportion), e_2)
return round(n_0, 0)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_Add(self):
test_data = CsvReader('./Tests/Data/UnitTestAddition.csv').data
for row in test_data:
a = int(row['Value 1'])
b = int(row['Value 2'])
result = int(row['Result'])
self.assertEqual(self.calculator.add(a, b), result)
self.assertNotEqual(self.calculator.add(a, b), result - 1)
def test_Subtract(self):
test_data = CsvReader('./Tests/Data/UnitTestSubtraction.csv').data
for row in test_data:
a = int(row['Value 1'])
b = int(row['Value 2'])
result = int(row['Result'])
self.assertEqual(self.calculator.subtract(a, b), result)
self.assertNotEqual(self.calculator.subtract(a, b), result - 1)
def test_Multiply(self):
test_data = CsvReader('./Tests/Data/UnitTestMultiplication.csv').data
for row in test_data:
a = int(row['Value 1'])
b = int(row['Value 2'])
result = int(row['Result'])
self.assertEqual(self.calculator.multiply(a, b), result)
self.assertNotEqual(self.calculator.multiply(a, b), result - 1)
def test_Divide(self):
test_data = CsvReader('./Tests/Data/UnitTestDivision.csv').data
for row in test_data:
a = int(row['Value 1'])
b = int(row['Value 2'])
result = float(row['Result'])
self.assertAlmostEqual(self.calculator.divide(a, b), result)
self.assertNotEqual(self.calculator.divide(a, b), result - 1)
def test_Square(self):
test_data = CsvReader('./Tests/Data/UnitTestSquare.csv').data
for row in test_data:
a = int(row['Value 1'])
result = int(row['Result'])
self.assertEqual(self.calculator.square(a), result)
self.assertNotEqual(self.calculator.square(a), result - 1)
def test_SquareRoot(self):
test_data = CsvReader('./Tests/Data/UnitTestSquareRoot.csv').data
for row in test_data:
a = int(row['Value 1'])
result = float(row['Result'])
self.assertAlmostEqual(self.calculator.squareRoot(a), result)
self.assertNotEqual(self.calculator.squareRoot(a), result - 1)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_addition(self):
add = self.calculator.add(4 ,6)
self.assertEqual(add, 10)
def test_subtraction(self):
subtract = self.calculator.subtract(6 ,3)
self.assertEqual(subtract, 3)
def test_division(self):
divide = self.calculator.divide(10, 2)
self.assertEqual(divide, 5)
def test_multiplication(self):
product = self.calculator.multiply(3, 3)
self.assertEqual(product, 9)
def test_power(self):
power = self.calculator.square(3, 2)
self.assertEqual(power, 9)
def test_root(self):
root = self.calculator.root(9, 2)
self.assertEqual(root, 3)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
class MyTestCase(unittest.TestCase):
def setUp(self):
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property_calculator(self):
self.assertEquals(self.calculator.result, 0)
def test_addition(self):
test_data = CSVReader("Tests/Data/addition.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.add(row['Value1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_subtraction(self):
test_data = CSVReader("Tests/Data/subtraction.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, result)
def test_multiplication(self):
test_data = CSVReader("Tests/Data/multiplication.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.multiply(row['Value1'], row['Value2']), result)
self.assertEqual(self.calculator.result, result)
def test_division(self):
test_data = CSVReader("Tests/Data/division.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.divide(row['Value1'], row['Value2']), result)
self.assertEqual(self.calculator.divide.result, result)
def test_square(self):
test_data = CSVReader("Tests/Data/square.csv")
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(row['Value1']), result)
self.assertEqual(self.calculator.square.result, result)
def test_squareroot(self):
test_data = CSVReader("Tests/Data/squareroot.csv")
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.squareroot(row['Value1']), result)
self.assertEqual(self.calculator.squareroot.result, result)
def test_results_property(self):
self.calculator.add(2, 1)
self.assertEqual(self.calculator.result, 3)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property_calculator(self):
self.assertEqual(self.calculator.result, 0)
def test_divide_zero(self):
self.assertEqual(self.calculator.divide(0, 4), "Division by zero")
def test_add_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Addition.csv').data
for row in test_data:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_subtract_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Subtraction.csv').data
for row in test_data:
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_multiply_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Multiplication.csv').data
for row in test_data:
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_divide_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Division.csv').data
for row in test_data:
self.assertEqual(
self.calculator.divide(row['Value 1'], row['Value 2']),
float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
def test_squared_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Square.csv').data
for row in test_data:
self.assertEqual(self.calculator.square(row['Value 1']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_squareroot_method_calculator(self):
test_data = CsvReader('Tests/Data/Unit_Test_Square_Root.csv').data
for row in test_data:
self.assertEqual(self.calculator.squareroot(row['Value 1']),
round(float(row['Result']), 7))
self.assertEqual(self.calculator.result,
round(float(row['Result']), 7))
class MyTestCase(unittest.TestCase):
def setUp(self):
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
def test_add_method(self):
add_data = CSVReader('csv/Unit Test Addition.csv')
for row in add_data.data:
self.assertEqual(
self.calculator.add(int(row['Value 1']), int(row['Value 2'])),
int(row['Result']))
def test_subtract_method(self):
sub_data = CSVReader('csv/Unit Test Subtraction.csv')
for row in sub_data.data:
self.assertEqual(
self.calculator.subtract(int(row['Value 2']),
int(row['Value 1'])),
int(row['Result']))
def test_multiply_method(self):
sub_data = CSVReader('csv/Unit Test Multiplication.csv')
for row in sub_data.data:
self.assertEqual(
self.calculator.multiply(int(row['Value 2']),
int(row['Value 1'])),
int(row['Result']))
def test_divide_method(self):
sub_data = CSVReader('csv/Unit Test Division.csv')
for row in sub_data.data:
self.assertEqual(
round(
self.calculator.divide(float(row['Value 2']),
float(row['Value 1'])), 9),
float(row['Result']))
def test_divide_method_zero(self):
with self.assertRaises(Exception):
self.calculator.divide(1, 0)
def test_square_method(self):
sub_data = CSVReader('csv/Unit Test Square.csv')
for row in sub_data.data:
self.assertEqual(self.calculator.square(int(row['Value 1'])),
int(row['Result']))
def test_sqrt_method(self):
sub_data = CSVReader('csv/Unit Test Square Root.csv')
for row in sub_data.data:
self.assertEqual(
round(self.calculator.square_root(float(row['Value 1'])), 8),
round(float(row['Result']), 8))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_addition(self):
test_data = CsvReader.CsvReader('Tests/Data/TestAddition.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, int(row['Result']))
def test_subtraction(self):
test_data = CsvReader.CsvReader('Tests/Data/TestSubtraction.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, int(row['Result']))
def test_multiplication(self):
test_data = CsvReader.CsvReader(
'Tests/Data/TestMultiplication.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, int(row['Result']))
def test_division(self):
test_data = CsvReader.CsvReader('Tests/Data/TestDivision.csv').data
for row in test_data:
result = float(row['Result'])
self.assertAlmostEqual(
self.calculator.divide(row['Value 1'], row['Value 2']), result)
self.assertAlmostEqual(self.calculator.result,
float(row['Result']))
def test_square(self):
test_data = CsvReader.CsvReader('Tests/Data/TestSquare.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(row['Value 1']), result)
self.assertEqual(self.calculator.result, int(row['Result']))
def test_square_root(self):
test_data = CsvReader.CsvReader('Tests/Data/TestSquareRoot.csv').data
for row in test_data:
result = float(row['Result'])
self.assertAlmostEqual(self.calculator.square_root(row['Value 1']),
result)
self.assertAlmostEqual(self.calculator.result,
float(row['Result']))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
def test_subtraction(self):
test_data = CsvReader('Tests/Data/subtraction.csv').data
for row in test_data:
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_addition(self):
test_data = CsvReader('Tests/Data/addition.csv').data
for row in test_data:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_multiplication(self):
test_data = CsvReader('Tests/Data/multiplication.csv').data
for row in test_data:
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_division(self):
test_data = CsvReader('Tests/Data/division.csv').data
for row in test_data:
self.assertEqual(
self.calculator.divide(row['Value 1'], row['Value 2']),
round(float(row['Result']), 9))
self.assertEqual(self.calculator.result,
round(float(row['Result']), 9))
def test_square(self):
test_data = CsvReader('Tests/Data/square.csv').data
for row in test_data:
self.assertEqual(self.calculator.square(row['Value 1']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_squareroot(self):
test_data = CsvReader('Tests/Data/squareroot.csv').data
for row in test_data:
self.assertEqual(self.calculator.squareroot(row['Value 1']),
round(float(row['Result']), 8))
self.assertEqual(self.calculator.result,
round(float(row['Result']), 8))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_subtraction(self):
test_data = CsvReader("Group4Test/Group4Data/subtraction.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.subtract(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_addition(self):
test_data = CsvReader("Group4Test/Group4Data/addition.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.add(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_multiplication(self):
test_data = CsvReader("Group4Test/Group4Data/multiplication.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.multiply(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_division(self):
test_data = CsvReader("Group4Test/Group4Data/division.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.divide(row['Value 1'], row['Value 2']), float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
def test_square(self):
test_data = CsvReader("Group4Test/Group4Data/square.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(row['Value 1'], result)
self.assertEqual(self.calculator.result, result)
#Old values = def test_sqrt(self):
def test_sqrt(self):
test_data = CsvReader("Group4Test/Group4Data/squareroot.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual((row['Value 1'], result))
self.assertEqual(self.calculator.result, result)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_addition(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Add Result'])
self.assertEqual(self.calculator.add(row['Add 1'], row['Add 2']), float(row['Add Result']))
self.assertEqual(self.calculator.result, result)
def test_subtraction(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Sub Result'])
self.assertEqual(self.calculator.subtract(row['Sub 1'], row['Sub 2']), float(row['Sub Result']))
self.assertEqual(self.calculator.result, result)
def test_multiplication(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Multiply Result'])
self.assertEqual(self.calculator.multiply(row['Multiply 1'], row['Multiply 2']),
float(row['Multiply Result']))
self.assertEqual(self.calculator.result, result)
def test_division(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Divide Result'])
self.assertEqual(self.calculator.division(row['Divide 1'], row['Divide 2']), float(row['Divide Result']))
self.assertEqual(self.calculator.result, result)
def test_squared(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Squared Result'])
self.assertEqual(self.calculator.squared(row['Squared 1']), float(row['Squared Result']))
self.assertEqual(self.calculator.result, result)
def test_sqrt(self):
test_data = CsvReader("Tests/Data/Unit_Test_Calculator.csv").data
for row in test_data:
result = float(row['Sqrt Result'])
self.assertEqual(self.calculator.sqrt(row['Sqrt 1']), float(row['Sqrt Result']))
self.assertEqual(self.calculator.result, result)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_add_method_calculator(self):
test_data = CsvReader('Tests/Data/Addition.csv').data
for row in test_data:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
int(row['Result']))
def test_subtract_method_calculator(self):
test_data = CsvReader('Tests/Data/Subtraction.csv').data
for row in test_data:
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
int(row['Result']))
def test_divide_method_calculator(self):
test_data = CsvReader('Tests/Data/Division.csv').data
for row in test_data:
x = float(row['Value 1'])
y = float(row['Value 2'])
z = float(row['Result'])
self.assertEqual(self.calculator.divide(y, x), round(z, 7))
def test_multiply_method_calculator(self):
test_data = CsvReader('Tests/Data/Multiplication.csv').data
for row in test_data:
self.assertEqual(
self.calculator.multiply(int(row['Value 1']),
int(row['Value 2'])),
int(row['Result']))
def test_square_method_calculator(self):
test_data = CsvReader('Tests/Data/Square.csv').data
for row in test_data:
self.assertEqual(self.calculator.square(row['Value 1']),
int(row['Result']))
def test_sqrt_method_calculator(self):
test_data = CsvReader('Tests/Data/Square Root.csv').data
for row in test_data:
x = float(row['Value 1'])
y = float(row['Result'])
self.assertEqual(self.calculator.sqrt(x), round(y, 8))
if __name__ == '__main__':
unittest.main()
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_addition(self):
test_data = CSVReader('CalcData/Unit_Test_Addition.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.add(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_subtraction(self):
test_data = CSVReader('CalcData/Unit_Test_Subtraction.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.subtract(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_multiplication(self):
test_data = CSVReader('CalcData/Unit_Test_Multiplication.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.multiply(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_division(self):
test_data = CSVReader('CalcData/Unit_Test_Division.csv').data
for row in test_data:
result = float(row['Result'])
self.assertAlmostEqual(self.calculator.divide(row['Value 2'], row['Value 1']), result)
self.assertAlmostEqual(self.calculator.result, result)
def test_square(self):
test_data = CSVReader('CalcData/Unit_Test_Square.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(float(row['Value 1'])), result)
self.assertEqual(self.calculator.result, result)
def test_square_root(self):
test_data = CSVReader('CalcData/Unit_Test_Square_Root.csv').data
for row in test_data:
result = float(row['Result'])
self.assertAlmostEqual(self.calculator.square_root(float(row['Value 1'])), result)
self.assertAlmostEqual(self.calculator.result, result)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
class MyTestCase(unittest.TestCase):
def setUp(self):
self.Calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.Calculator, Calculator)
def test_subtraction(self):
pprint("________Subtraction________")
test_data = CsvReader('Tests/csv/Subtraction.csv').data
for row in test_data:
self.assertEqual(self.Calculator.subtract(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.Calculator.result, int(row['Result']))
def test_addition(self):
pprint("________Addition________")
test_data = CsvReader('Tests/csv/Addition.csv').data
for row in test_data:
self.assertEqual(self.Calculator.add(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.Calculator.result, int(row['Result']))
def test_multiplication(self):
pprint("________Multiplication________")
test_data = CsvReader('Tests/csv/Multiplication.csv').data
for row in test_data:
self.assertEqual(self.Calculator.multiply(row['Value 1'], row['Value 2']), float(row['Result']))
self.assertEqual(self.Calculator.result, float(row['Result']))
def test_division(self):
pprint("________Division________")
test_data = CsvReader('Tests/csv/Division.csv').data
for row in test_data:
self.assertAlmostEqual(self.Calculator.divide(row['Value 1'], row['Value 2']), float(row['Result']))
self.assertAlmostEqual(self.Calculator.result, float(row['Result']))
def test_square(self):
pprint("________Square________")
test_data = CsvReader('Tests/csv/Square.csv').data
for row in test_data:
self.Calculator.square(row['Value 1'])
self.assertEqual(self.Calculator.result, int(row['Result']))
def test_squareroot(self):
pprint("________Square Root________")
test_data = CsvReader('Tests/csv/Square_Root.csv').data
for row in test_data:
self.Calculator.sqroot(int(row['Value 1']))
self.assertAlmostEqual(self.Calculator.result, float(row['Result']))
class MyTestCase(unittest.TestCase):
def setUp(self):
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_result(self):
self.assertEqual(self.calculator.result, 0)
def test_add(self):
result = 8
self.assertEqual(self.calculator.add(3, 5), result)
self.assertEqual(self.calculator.result, result)
def test_subtract(self):
result = -2
self.assertEqual(self.calculator.subtract(3, 5), result)
self.assertEqual(self.calculator.result, result)
def test_multiply(self):
result = 15
self.assertEqual(self.calculator.multiply(3, 5), result)
self.assertEqual(self.calculator.result, result)
def test_divide(self):
result = 3
self.assertEqual(self.calculator.divide(15, 5), result)
self.assertEqual(self.calculator.result, result)
try:
self.calculator.divide(3, 0)
except ZeroDivisionError:
pass
else:
self.fail("Did not catch ZeroDivisionError")
def test_square(self):
result = 9
self.assertEqual(self.calculator.square(3), result)
self.assertEqual(self.calculator.result, result)
def test_squareroot(self):
result = 3
self.assertEqual(self.calculator.squareroot(9), result)
self.assertEqual(self.calculator.result, result)
def automateMultiply(self):
print(" Test Case for Multiplication ")
print(self.random1, "- This is first Random number ")
print(self.random2, "- This is second Random number ")
num1 = self.random1
num2 = self.random2
print("Multiply by Automated function =", num1 * num2)
# By using the function
c = Calculator()
Multiply = c.multiply(num1, num2)
print("Multiply Output by Calling function =", Multiply)
if num1 * num2 == Multiply:
print("Test case of calculator Multiply is passed\n\n")
else:
print(" Test Automation of of Calculator Multiply is failed ")
print('*' * 70)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_add_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Addition.csv").data
for row in test_data:
self.assertEqual(self.calculator.add(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_sub_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Subtraction.csv").data
for row in test_data:
self.assertEqual(self.calculator.sub(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_multiply_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Multiplication.csv").data
for row in test_data:
self.assertEqual(self.calculator.multiply(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_divide_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Division.csv").data
for row in test_data:
self.assertEqual(self.calculator.divide(row['Value 1'], row['Value 2']), float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
def test_square_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Square.csv").data
for row in test_data:
self.assertEqual(self.calculator.squares(row['Value 1']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_sqrt_method_calculator(self):
test_data = CsvReader("Tests/Data/Unit Test Square Root.csv").data
for row in test_data:
self.assertEqual(self.calculator.square_root(row['Value 1']), round(float(row['Result']), 7))
self.assertEqual(self.calculator.result, round(float(row['Result']), 7))
class MyTestCase(unittest.TestCase):
def setUp(self):
self.calculator = Calculator()
# To test instantiation of calculator class
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
# Testing addition
def test_addition(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Addition.csv').data
for row in test_data:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
test_data.clear()
# Testing subtraction
def test_subtraction(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Subtraction.csv').data
for row in test_data:
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
test_data.clear()
# Testing multiplication
def test_multiplication(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Multiplication.csv').data
for row in test_data:
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
test_data.clear()
# Testing division
def test_division(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Division.csv').data
for row in test_data:
self.assertAlmostEqual(
float(row['Result']),
self.calculator.divide(row['Value 1'], row['Value 2']))
self.assertAlmostEqual(float(row['Result']),
round(self.calculator.result, 9))
test_data.clear()
# Testing squared
def test_squared(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Square.csv').data
for row in test_data:
self.assertEqual(self.calculator.squared(row['Value 1']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
test_data.clear()
# Testing squared root
def test_squared_root(self):
test_data = CSVReader(
'/Tests/Data_Calculator/Unit Test Square Root.csv').data
for row in test_data:
self.assertAlmostEqual(
self.calculator.squared_root(row['Value 1']),
round(float(row['Result']), 9))
self.assertAlmostEqual(round(float(row['Result']), 9),
round(self.calculator.result, 9))
test_data.clear()
def test_results(self):
self.assertEqual(self.calculator.result, 0)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calobject = Calculator() # Object of the class Calculator
def test_instantiate_calculator(self): # Instantiate the Calculator class
self.assertIsInstance(self.calobject, Calculator)
def test_addition_method_calculator(self): # Testing of the add function
print("Testing Addition")
try:
test_data = CsvReader('./Data/Unit Test Addition.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = row['Value 1']
y = row['Value 2']
expect_result = int(row['Result'])
self.assertEqual(self.calobject.add(x, y), expect_result)
self.assertEqual(self.calobject.result, expect_result)
print('Successful Testing!')
def test_subtraction_method_calculator(
self): # Testing of the subtract function
print(' ')
print('Testing Subtraction')
try:
test_data = CsvReader('./Data/Unit Test Subtraction.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = row['Value 1']
y = row['Value 2']
expect_result = int(row['Result'])
self.assertEqual(self.calobject.subtract(x, y), expect_result)
self.assertEqual(self.calobject.result, expect_result)
print('Successful Testing!')
def test_multiply_method_calculator(
self): # Testing of the multiply function
print(' ')
print('Testing Multiplication')
try:
test_data = CsvReader('./Data/Unit Test Multiplication.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = int(row['Value 1'])
y = int(row['Value 2'])
expect_result = int(row['Result'])
self.assertEqual(self.calobject.multiply(x, y), expect_result)
self.assertEqual(self.calobject.result, expect_result)
print('Successful Testing!')
def test_divide_method_calculator(self): # Testing of the divide function
print(' ')
print('Testing Division')
try:
test_data = CsvReader('./Data/Unit Test Division.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = float(row['Value 1'])
y = float(row['Value 2'])
expect_result = float(row['Result'])
self.assertEqual(self.calobject.divide(x, y),
round(expect_result, 7))
self.assertEqual(self.calobject.result, round(expect_result, 7))
print('Successful Testing!')
def test_square_method_calculator(self): # Testing of the square function
print(' ')
print('Testing Squares')
try:
test_data = CsvReader('./Data/Unit Test Square.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = int(row['Value 1'])
expect_result = int(row['Result'])
self.assertEqual(self.calobject.square(x), expect_result)
self.assertEqual(self.calobject.result, expect_result)
print('Successful Testing!')
def test_sqrt_method_calculator(
self): # Testing of the square_root function
print(' ')
print('Testing Square Roots')
try:
test_data = CsvReader('./Data/Unit Test Square Root.csv'
).data # Loading the .csv data file
except:
print('File not found, Please input valid file.')
for row in test_data:
x = float(row['Value 1'])
expect_result = float(row['Result'])
self.assertEqual(self.calobject.square_root(x),
round(expect_result, 8))
self.assertEqual(self.calobject.result, round(expect_result, 8))
print('Successful Testing!')
def test_calculator_multiplication(self):
calculator = Calculator()
result = calculator.multiply(2, 2)
self.assertEqual(4, result)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property_results(self):
self.assertEqual(self.calculator.result, 0)
def test_add_method_calculator(self):
print("Testing Addition")
test_data = CsvReader('./Data/Unit Test Addition.csv').data
for row in test_data:
x = row['Value 1']
y = row['Value 2']
result = int(row['Result'])
self.assertEqual(self.calculator.add(x, y), result)
self.assertEqual(self.calculator.result, result)
print("Successful Testing")
def test_subtract_method_calculator(self):
print(' ')
print('Testing Subtraction')
test_data = CsvReader('./Data/Unit Test Subtraction.csv').data
for row in test_data:
x = row['Value 1']
y = row['Value 2']
result = int(row['Result'])
self.assertEqual(self.calculator.subtract(x, y), result)
self.assertEqual(self.calculator.result, result)
print("Successful Testing")
def test_multiply_method_calculator(self):
print(' ')
print('Testing Multiplication')
test_data = CsvReader('./Data/Unit Test Multiplication.csv').data
for row in test_data:
x = row['Value 1']
y = row['Value 2']
result = int(row['Result'])
self.assertEqual(self.calculator.multiply(x, y), result)
self.assertEqual(self.calculator.result, result)
print("Successful Testing")
def test_divide_method_calculator(self):
print(' ')
print('Testing Division')
test_data = CsvReader('./Data/Unit Test Division.csv').data
for row in test_data:
x = row['Value 1']
y = row['Value 2']
result = float(row['Result'])
self.assertEqual(self.calculator.divide(x, y), round(result, 7))
self.assertEqual(self.calculator.result, round(result, 7))
print("Successful Testing")
def test_sqr_method_calculator(self):
print(' ')
print('Testing Squares')
test_data = CsvReader('./Data/Unit Test Square.csv').data
for row in test_data:
x = row['Value 1']
result = int(row['Result'])
self.assertEqual(self.calculator.square(x), result)
self.assertEqual(self.calculator.result, result)
print("Successful Testing")
def test_sqrrt_method_calculator(self):
print(' ')
print('Testing Square Roots')
test_data = CsvReader('./Data/Unit Test Square Root.csv').data
for row in test_data:
x = row['Value 1']
result = float(row['Result'])
self.assertEqual(self.calculator.square_root(x), round(result, 8))
self.assertEqual(self.calculator.result, round(result, 8))
print('Successful Testing!')
def test_multiply(self):
calculator = Calculator()
result = calculator.multiply(1, 2)
self.assertEqual(2, result)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property_calculator(self):
self.assertEqual(self.calculator.result, 0)
def test_add_method_calculator(self):
self.assertEqual(self.calculator.add(2, 2), 4)
self.assertEqual(self.calculator.result, 4)
def test_subtract_method_calculator(self):
self.assertEqual(self.calculator.subtract(2, 2), 0)
self.assertEqual(self.calculator.result, 0)
def test_multiply_method_calculator(self):
self.assertEqual(self.calculator.multiply(2, 2), 4)
self.assertEqual(self.calculator.result, 4)
def test_divide_method_calculator(self):
self.assertEqual(self.calculator.divide(5, 10), 2)
self.assertEqual(self.calculator.result, 2)
def test_square_method_calculator(self):
self.assertEqual(self.calculator.square(5), 25)
self.assertEqual(self.calculator.result, 25)
def test_square_root_method_calculator(self):
self.assertEqual(self.calculator.square_root(49), 7)
self.assertEqual(self.calculator.result, 7)
# Unit tests testing individual csv files
def test_subtraction(self):
test_data_subtract = CsvReader(
'./Tests/Data/Unit Test Subtraction.csv').data
for row in test_data_subtract:
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_addition(self):
test_data_add = CsvReader('./Tests/Data/Unit Test Addition.csv').data
for row in test_data_add:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_multiplication(self):
test_data_multiply = CsvReader(
'./Tests/Data/Unit Test Multiplication.csv').data
for row in test_data_multiply:
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_division(self):
test_data_divide = CsvReader(
'./Tests/Data/Unit Test Division.csv').data
for row in test_data_divide:
self.assertEqual(
round(self.calculator.divide(row['Value 1'], row['Value 2']),
9), round(float(row['Result']), 9))
self.assertEqual(round(self.calculator.result, 9),
round(float(row['Result']), 9))
def test_square(self):
test_data_square = CsvReader('./Tests/Data/Unit Test Square.csv').data
for row in test_data_square:
self.assertEqual(self.calculator.square(row['Value 1']),
int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
def test_square_root(self):
test_data_square_root = CsvReader(
'./Tests/Data/Unit Test Square Root.csv').data
for row in test_data_square_root:
self.assertEqual(
round(self.calculator.square_root(row['Value 1']), 8),
round(float(row['Result']), 8))
self.assertEqual(round(self.calculator.result, 8),
round(float(row['Result']), 8))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_add_method_calculator(self):
test_data = CsvReader("Tests/Data/addition.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']),
float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_subtract_method_calculator(self):
test_data = CsvReader("Tests/Data/subtraction.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(
self.calculator.subtract(int(row['Value 2']),
int(row['Value 1'])),
int(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_multiply_method_calculator(self):
test_data = CsvReader("Tests/Data/multiplication.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_divide_method_calculator(self):
test_data = CsvReader("Tests/Data/division.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(
self.calculator.divide(row['Value 1'], row['Value 2']),
float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_square_method_calculator(self):
test_data = CsvReader("Tests/Data/square.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(self.calculator.sqr(int(row['Value 1'])),
int(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_sqrt_method_calculator(self):
test_data = CsvReader("Tests/Data/sq_rt.csv").data
pprint(test_data)
for row in test_data:
self.assertEqual(self.calculator.sq_rt(int(row['Value 1'])),
float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
test_data.clear()
def test_results_property_calculator(self):
self.assertEqual(self.calculator.result, 0)
class CsvReaderTests(unittest.TestCase):
def setUp(self):
self.calculator = Calculator()
def test_instantiate_csvreader(self):
self.csv_reader = CsvReader('data/Unit Test CsvReader.txt')
self.assertIsInstance(self.csv_reader, CsvReader)
self.assertEqual(self.csv_reader.data.__len__(), 2)
def test_zerolength(self):
try:
test_data = CsvReader(
'data/Unit Test Zero Length Datafile.csv').data
except ZeroDataException:
pass
else:
self.fail("Did not catch ZeroDataException.")
def test_add(self):
test_data = CsvReader('data/Unit Test Addition.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']), result)
def test_subtract(self):
test_data = CsvReader('data/Unit Test Subtraction.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.subtract(row['Value 2'], row['Value 1']),
result)
def test_multiply(self):
test_data = CsvReader('data/Unit Test Multiplication.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
result)
def test_division(self):
test_data = CsvReader('data/Unit Test Division.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
round(self.calculator.divide(row['Value 2'], row['Value 1']),
9), result)
def test_square(self):
test_data = CsvReader('data/Unit Test Square.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(row['Value 1']), result)
def test_squareroot(self):
test_data = CsvReader('data/Unit Test Square Root.csv').data
for row in test_data:
data = row['Result']
result = float(data)
if "." in data:
sigfigs = len(data.split('.')[1])
self.assertEqual(
round(self.calculator.squareroot(row['Value 1']), sigfigs),
result)
else:
self.assertEqual(self.calculator.squareroot(row['Value 1']),
result)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_properties(self):
self.assertEqual(self.calculator.result, 0)
def test_addition_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestAddition.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(
self.calculator.add(row["Value 1"], row["Value 2"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
def test_subtraction_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestSubtraction.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(
self.calculator.subtract(row["Value 1"], row["Value 2"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
def test_multiplication_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestMultiplication.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(
self.calculator.multiply(row["Value 1"], row["Value 2"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
def test_division_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestDivision.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(
self.calculator.divide(row["Value 1"], row["Value 2"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
def test_square_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestSquare.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(self.calculator.squared(row["Value 1"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
def test_squareroot_calculator(self):
test_Data = CsvReader("/Tests/Data/UnitTestSquareRoot.csv").data
pprint(test_Data)
for row in test_Data:
self.assertEqual(self.calculator.sqrt(row["Value 1"]),
float(row["Result"]))
self.assertEqual(self.calculator.result, float(row["Result"]))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_results_property(self):
self.assertEqual(self.calculator.result, 0)
## Part 1 - Subtraction
def test_subtraction_calulator(self):
print("Start Subtraction test")
self.assertEqual(self.calculator.subtract(2, 4), 2)
self.assertEqual(self.calculator.result, 2)
test_data = getFileData('/Tests/Data/UnitTestSubtraction.csv').data
for row in test_data:
self.assertEqual(self.calculator.subtract(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
## Part 2 - Addition
def test_addition_calulator(self):
print("Start addition test")
test_data = getFileData('/Tests/Data/UnitTestAddition.csv').data
for row in test_data:
self.assertEqual(self.calculator.add(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
## Part 3 - Multiplcation
def test_multiplication_calulator(self):
print("Start Multiplication test")
self.assertEqual(self.calculator.multiply(4, 4), 16)
self.assertEqual(self.calculator.result, 16)
test_data = getFileData('/Tests/Data/UnitTestMultiplication.csv').data
for row in test_data:
self.assertEqual(self.calculator.multiply(row['Value 1'], row['Value 2']), int(row['Result']))
self.assertEqual(self.calculator.result, int(row['Result']))
## Part 4 - Divide
def test_division_calulator(self):
print("Start Divide test")
self.assertEqual(self.calculator.divide(4, 4), 1)
self.assertEqual(self.calculator.result, 1)
test_data = getFileData('/Tests/Data/UnitTestDivision.csv').data
for row in test_data:
self.assertEqual(self.calculator.divide(row['Value 1'], row['Value 2']), float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
## Part 5 - Square
def test_square_calulator(self):
print("Start Square test")
self.assertEqual(self.calculator.square(4), 16)
self.assertEqual(self.calculator.result, 16)
test_data = getFileData('/Tests/Data/UnitTestSquare.csv').data
for row in test_data:
self.assertEqual(self.calculator.square(row['Value 1']), float(row['Result']))
self.assertEqual(self.calculator.result, float(row['Result']))
## Part 6 - Square Root
def test_sqrt_calulator(self):
print("Start Square Root test")
self.assertEqual(self.calculator.sqrt(16), 4)
self.assertEqual(self.calculator.result, 4)
test_data = getFileData('/Tests/Data/UnitTestSquareRoot.csv').data
for row in test_data:
self.assertAlmostEqual(self.calculator.sqrt(row['Value 1']), float(row['Result']))
self.assertAlmostEqual(self.calculator.result, float(row['Result']))
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
def test_add_method_calculator(self):
result = roundOff(4)
self.assertEqual(self.calculator.add(2, 2), result)
self.assertEqual(self.calculator.result, result)
def test_add_method_calculatorCSV(self):
test_data = CsvReader('Data/Addition.csv').data
for row in test_data:
result = roundOff(float(row['Result']))
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_subtract_method_calculator(self):
result = roundOff(0)
self.assertEqual(self.calculator.subtract(2, 2), result)
self.assertEqual(self.calculator.result, result)
def test_subtract_method_calculatorCSV(self):
test_data = CsvReader('Data/Subtraction.csv').data
for row in test_data:
result = roundOff(float(row['Result']))
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, result)
def test_multiply_method_calculator(self):
result = 4
self.assertEqual(self.calculator.multiply(2, 2), result)
self.assertEqual(self.calculator.result, result)
def test_multiply_method_calculatorCSV(self):
test_data = CsvReader('Data/Multiplication.csv').data
for row in test_data:
result = roundOff(float(row['Result']))
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, result)
def test_divide_method_calculator(self):
result = roundOff(2)
self.assertEqual(self.calculator.divide(4, 8), result)
self.assertEqual(self.calculator.result, result)
def test_divide_method_calculatorCSV(self):
test_data = CsvReader('Data/Division.csv').data
for row in test_data:
result = roundOff((row['Result']))
self.assertEqual(
self.calculator.divide(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_square_method_calculator(self):
result = roundOff(16)
self.assertEqual(self.calculator.square(4), result)
self.assertEqual(self.calculator.result, result)
def test_square_method_calculatorCSV(self):
test_data = CsvReader('Data/Square.csv').data
for row in test_data:
result = roundOff(float(row['Result']))
self.assertEqual(self.calculator.square(row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_sqrt_method_calculator(self):
result = roundOff(2)
self.assertEqual(self.calculator.squareroot(4), result)
self.assertEqual(self.calculator.result, result)
def test_sqrt_method_calculatorCSV(self):
test_data = CsvReader('Data/Square Root.csv').data
for row in test_data:
result = roundOff(float(row['Result']))
self.assertAlmostEqual(self.calculator.squareroot(row['Value 1']),
result)
self.assertAlmostEqual(self.calculator.result, result)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_results_property_calculator(self):
self.assertEqual(self.calculator.result, 0)
def test_add_method_calculator(self):
self.assertEqual(self.calculator.add(2, 2), 4)
self.assertEqual(self.calculator.result, 4)
test_data = CsvReader('Tests/Data/UnitTestAddition.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.add(row['Value 2'], row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_subtract_method_calculator(self):
self.assertEqual(self.calculator.subtract(2, 2), 0)
self.assertEqual(self.calculator.result, 0)
test_data = CsvReader('Tests/Data/UnitTestSubtraction.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.subtract(row['Value 2'], row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_multiply_method_calculator(self):
self.assertEqual(self.calculator.multiply(2, 2), 4)
self.assertEqual(self.calculator.result, 4)
test_data = CsvReader('Tests/Data/UnitTestMultiplication.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.multiply(row['Value 2'], row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_divide_method_calculator(self):
self.assertEqual(self.calculator.divide(2, 2), 1)
self.assertEqual(self.calculator.result, 1)
test_data = CsvReader('Tests/Data/UnitTestDivision.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.divide(row['Value 2'], row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_square_method_calculator(self):
self.assertEqual(self.calculator.square(2), 4)
self.assertEqual(self.calculator.result, 4)
test_data = CsvReader('Tests/Data/UnitTestSquare.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_square_root_method_calculator(self):
self.assertEqual(self.calculator.squareroot(4), 2)
self.assertEqual(self.calculator.result, 2)
test_data = CsvReader('Tests/Data/UnitTestSquareRoot.csv').data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.squareroot(row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
def test_instantiate_calculator(self):
self.assertIsInstance(self.calculator, Calculator)
class MyTestCase(unittest.TestCase):
def setUp(self) -> None:
self.calculator = Calculator()
def test_instantiate_calculator(self):
calculator = Calculator()
self.assertIsInstance(calculator, Calculator)
def test_results_property_calculator(self):
self.assertEqual(self.calculator.result, 0)
def test_add(self):
test_data = CsvReader("/Tests/Data/Addition.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.add(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
# def test_subtract_method_calculator(self):
# self.assertEqual(self.calculator.subtract(2, 2), 0)
# self.assertEqual(self.calculator.result, 0)
def test_subtract(self):
test_data = CsvReader("/Tests/Data/Subtraction.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.subtract(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, result)
def test_multiply(self):
test_data = CsvReader("/Tests/Data/Multiplication.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.multiply(row['Value 1'], row['Value 2']),
result)
self.assertEqual(self.calculator.result, result)
def test_divide(self):
test_data = CsvReader("/Tests/Data/Division.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(
self.calculator.divide(row['Value 1'], row['Value 2']), result)
self.assertEqual(self.calculator.result, result)
def test_square_root(self):
test_data = CsvReader("/Tests/Data/SquareRoot.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square_root(row['Value 1']),
round(result, 8))
# self.assertEqual(self.calculator.square_root(row['Value 1']), result)
# self.assertEqual("nan", self.calculator.square_root(-4))
# def test_square_root_method_calculator(self):
# self.assertEqual(2, self.calculator.square_root(4))
# self.assertEqual(0, self.calculator.square_root(0))
# self.assertEqual("nan", self.calculator.square_root(-4))
def test_square(self):
test_data = CsvReader("/Tests/Data/Square.csv").data
for row in test_data:
result = float(row['Result'])
self.assertEqual(self.calculator.square(row['Value 1']), result)
self.assertEqual(self.calculator.result, result)
