def test_add2(self): '''加法测试2''' j = Count(41, 76) self.assertEqual(j.add(), 117) # if __name__ == '__main__': # unittest.main()
def tast_add(self): c1 = Count(10, 20) res1 = c1.add() if res1 == 30: print("计算正确!") else: print("计算错误!") print("计算实际结果:", res1)
def test_add(self): try: j = Count(5, 20) assert (j.add() == 25), 'result error!' except AssertionError as e: print(e) else: print('Test pass');
def test_add(self): try: j = Count(2, 3) add = j.add() assert (add == 5), 'Integer addition result error' except AssertionError as msg: print(msg) else: print('Test pass!')
def test_add(self): ''' 在test_add中首先调用Count类并传入要计算的数,通过add()方法得到两数相加 的返回值,这里不再使用繁琐的异常处理,而是调用unittest框架所提供的assertEqual() 方法对add()的返回值进行断言,判断两者是否相等, ''' j = Count(2,3) self.assertEqual(j.add(),5)
def test_add(self): try: j = Count(2, 2) add = j.add() assert (add == 5), u"test不通过" except AssertionError as msg: print msg else: print u'测试通过'
def test_add(self): try: j = Count(2, 3) add = j.add() #assert <test>, <message> : test是狀態測試,而message是斷言失敗時所要呈現訊息。 assert add == 5, 'Integer addition result error!' except AssertionError as msg: print(msg) else: print('Test pass!')
def test_add(self): try: a = int(input('请输入a:')) b = int(input('请输入b:')) except ValueError: print('请输入准确的整数') else: try: j = Count(a, b) assert (j.add() == 9), 'not pass' except AssertionError as msg: print(msg) else: print('Test pass!')
def test_add2(self): j = Count(3, 4) self.assertEqual(j.add(), 7)
def test_add2(self): j = Count(4, 3) self.assertEqual(j.add(), 7, msg='不等于7')
def test_add2(self): j = Count(41, 1) self.assertEqual(j.add(), 42)
def test_add1(self): t = Count(1, 2) self.assertEqual(t.add(), 3)
def test_add(self): #传入要计算的数 j=Count(2,3) #调用unittesst方法进行断言 self.assertEqual(j.add(),5)
def test_add2(self): j = Count(4, 5) self.assertEqual(j.add(), 1, msg="ok1")
def test_add(self): j = Count(2, 3) self.assertEqual(j.add(), 5, "wrong calculation")
def test_Not(self): j = Count(23, 3) self.assertEqual(j.add(), 26, msg="结果相等")
def test_add2(self): j = Count(12, 23) self.assertEqual(j.add(), 35)
def test_add(self): j = Count(2, 3) #调用计算器的类 self.assertEqual(j.add(), 5, msg="testcase not pass!") #调用加法运算
def test_add2(self): j = Count(50, 60) self.assertEqual(j.add(), 110, msg="testcase not pass!")
def test_add(self): '''加法测试1''' j = Count(2, 3) self.assertEqual(j.add(), 5)
def test_add2(self): t = Count(100, 10) self.assertEqual(t.add(), 110)
def test_add(self): j = Count(5, 6) self.assertEqual(j.add(), 11, msg="5+6运算错误")
def test_odd(self): j = Count(1, 3) self.assertEqual(j.add(), 4)
def test_add1(self): j = Count(2, 3) self.assertEqual(j.add(), 5, msg='不等于5')
def test_add2(self): j = Count(55, 66) self.assertEqual(j.add(), 111, msg="55+66运算错误")
def test_add2(self): j = Count(23, 12) self.assertEqual(j.add(), 35)
def test_add2(self): j = Count(41,76) self.assertEqual(j.add(),117)
def test_add2(self): j = Count(12, 55) self.assertEqual(j.add(), 67)
def test_add(self): j = Count(2, 3) self.assertEqual(j.add(), 5)
def test_add2(self): j = Count(20, 20) self.assertEqual(j.add(), 40)