def test_dividing(self): divider = Divider() for i in range(-10, 10): for j in range(-10, 10): if j != 0: self.assertEqual(i / j, divider.calc(i, j))
def test_dividing(self): divider = Divider() for x in range(5, 10): for y in range(5, 10): self.assertEqual(x / y, divider.calc(x, y))
def test_divider(self): divider = Divider() try: for i in range(-10, 10): for j in range(-10, 10): self.assertEqual(i / j, divider.calc(i, j)) except ZeroDivisionError: return 0
def test_dividing(self): divider = Divider() for i in range(-10, 10): for j in range(-10, 10): if i == 0 or j == 0: continue else: self.assertEqual(i / j, divider.calc(i, j))
def test_dividing(self): """Test diider functionalty""" divider = Divider() for i in range(-10, 10): for j in range(-10, 10): if i == 0 or j == 0: continue else: self.assertEqual(i / j, divider.calc(i, j))
def test_divider(self): divider = Divider() for i in range(-10, 10): for j in range(-10, 10): try: self.assertEqual(i / j, divider.calc(i, j)) except ZeroDivisionError: # print("skipping zero division cases") pass
def test_divider(self): div = Divider() for i in range(-10, 10): for j in [x for x in range(-10, 10) if x != 0]: self.assertEqual(i / j, div.calc(i, j))
def test_divider(self): divider = Divider() for i in range(1, 10): for j in range(1, 10): self.assertEqual(i / j, divider.calc(i, j))