def test_adding(self): """Test case that adds from range -10 to 10""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """ Accuracy test. """ adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """Method doc string.""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """Does the adder add? """ adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """For a range of numbers, expected value must equal actual value.""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): '''doc string''' adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """Perform tests on Adder class.""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(j, i))
def test_adding(self): """confirm adder returns expected result""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """ Make sure the `Adder` class produces the correct value. """ adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """Loops through all combinations from -10 to 10""" adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): """ This method tests adder """ adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adding(self): #Test method has to begin with word "test" """ Tests adder calc method """ adder = Adder() #Instantiate for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_adder(self): """ Tests the Adder's calc method Expected Result Example: 2 + 2 = 4 """ adder = Adder() for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i + j, adder.calc(i, j))
def test_module(self): """ Test the Adder, Subtracter, Multiplier, Divider classes and the Calculator class concurrently. """ calculator = Calculator(Adder(), Subtracter(), Multiplier(), Divider()) calculator.enter_number(5) calculator.enter_number(2) calculator.multiply() calculator.enter_number(46) calculator.add() calculator.enter_number(8) calculator.divide() calculator.enter_number(1) result = calculator.subtract() self.assertEqual(6, result)
def test_module2(self): calculator = Calculator(Adder(), Subtracter(), Multiplier(), Divider()) calculator.enter_number(5) with self.assertRaises(InsufficientOperands): calculator.multiply()
def test_module(self): calculator = Calculator(Adder(), Subtracter(), Multiplier(), Divider()) calculator.enter_number(5) calculator.enter_number(2) calculator.multiply() calculator.enter_number(46) result_add = calculator.add() self.assertEqual(56, result_add) calculator.enter_number(8) result_divide = calculator.divide() self.assertEqual(7, result_divide) calculator.enter_number(1) result = calculator.subtract() self.assertEqual(6, result)
def test_module(self): calculator = Calculator(Adder(), Subtracter(), Multiplier(), Divider()) calculator.enter_number(5) calculator.enter_number(2) result = calculator.multiply() self.assertEqual((2*5), result) calculator.enter_number(46) result = calculator.add() self.assertEqual(result, (46+(2*5))) calculator.enter_number(8) result = calculator.divide() self.assertEqual(result, (8 / (46+(2*5)))) calculator.enter_number(1) result = calculator.subtract() self.assertEqual(result, (1 - (8 / (46+(2*5)))))
def test_module(self): """Test that a sequence of operations produces the expected result.""" calculator = Calculator(Adder(), Subtracter(), Multiplier(), Divider()) calculator.enter_number(5) calculator.enter_number(2) calculator.multiply() calculator.enter_number(46) calculator.add() calculator.enter_number(8) calculator.divide() calculator.enter_number(1) result = calculator.subtract() self.assertEqual(6, result) with self.assertRaises(InsufficientOperands): calculator.add()
def setUp(self): self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """Set up for calc tests so don't have to rewrite""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() # Line is too long, but whatever. self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """Provide a method to run each time before any test method is run.""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """Method doc string.""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """setup for calculator tests""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """Test case that setups the other test cases from range -10 to 10""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """Initialize calculator with new operator objects.""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def main(): adder = Adder() subtracter = Subtracter() multiplier = Multiplier() divider = Divider() calculator = Calculator(adder, subtracter, multiplier, divider) return calculator
def setUp(self): """Initializes the calculator""" self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """ 1 time setup with modules """ self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """ This method initializes variables """ self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator(self.adder, self.subtracter, self.multiplier, self.divider)
def setUp(self): """ Fill the calculator object with proper adder, subtracter, multiplier, and divider classes. """ self.adder = Adder() self.subtracter = Subtracter() self.multiplier = Multiplier() self.divider = Divider() self.calculator = Calculator( self.adder, self.subtracter, self.multiplier, self.divider)