def test_add1(self):
print("测试两个整数函数")
a1 = Count(10, 20)
res1 = a1.add()
print("计算实际结果:", res1)
#步骤5:使用unittest提供的断言函数
self.assertEqual(res1, 30)
def test_add(self):
print("测试add函数")
c1 = Count(10, 20)
res1 = c1.add()
print("计算实际结果:", res1)
#步骤5:使用unittest提供的断言函数
self.assertEqual(res1, 30)
def test_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_sub2(self):
print("测试浮点数sub")
s2 = Count(4589.87, 3978.78)
res2 = s2.sub()
print("实际计算结果:", res2)
if abs(res2 - 611.09) < 0.01:
res2 = 611.09
self.assertEqual(res2, 611.09)
def test_div2(self):
print("测试两个浮点型数据div")
d2 = Count(245.45, 34.67)
res2 = d2.div()
print("实际计算结果:", res2)
if abs(res2 - 7.0796) < 0.01:
res2 = 7.0796
self.assertEqual(res2, 7.0796)
def test_mul2(self):
print("测试两个浮点型数据mul")
m2 = Count(20.45, 45.67)
res2 = m2.mul()
print("实际计算结果:", res2)
if abs(res2 - 933.9515) < 0.01:
res2 = 933.9515
self.assertEqual(res2, 933.9515)
def test_add2(self):
print("测试两个浮点型数据函数")
c2=Count(2167.45,3978.78)
res2=c2.add()
print("计算实际结果:",res2)
if abs(res2-6146.23)<0.001:
res2=6146.23
self.assertEqual(res2,6146.23)
def test_add(self):
c1 = Count("你好", "Python!")
res1 = c1.add()
if res1 == "你好Python!":
print("计算正确!")
else:
print("计算错误!")
print("计算实际结果:", res1)
def test_mul1(self):
print("使用多组数据测试两个整数mul")
i = 0
for x, y in zip(list1_zhengshu, list2_zhengshu):
m1 = Count(x, y)
res_zhengshu[i] = m1.mul()
print("计算实际结果:", res_zhengshu[i])
i = i + 1
for res, res_right in zip(res_zhengshu, res_zhengshuRight):
self.assertEqual(res, res_right)
def test_add1(self):
print("使用多组数据测试两个整数函数")
i = 0
for x, y in zip(list1_zhengshu, list2_zhengshu):
a1 = Count(x, y)
res_zhengshu[i] = a1.add()
print("计算实际结果:", res_zhengshu[i])
i = i + 1
for res, res_right in zip(res_zhengshu, res_zhengshuRight):
self.assertEqual(res, res_right)
def test_add3(self):
print("使用多组数据测试两个字符串函数")
i = 0
for x, y in zip(list1_zifuchaun, list2_zifuchaun):
a3 = Count(x, y)
res_zifuchaun[i] = a3.add()
print("计算实际结果:", res_zifuchaun[i])
i = i + 1
for res, res_right in zip(res_zifuchaun, res_zifuchaunRight):
self.assertEqual(res, res_right)
def test_sub1(self):
print("使用多组数据测试两个整数函数sub")
i = 0
for x, y in zip(list1_zhengshu, list2_zhengshu):
s1 = Count(y, x)
res_zhengshu[i] = s1.sub()
print("计算实际结果:", res_zhengshu[i])
i = i + 1
for res, res_right in zip(res_zhengshu, res_zhengshuRight):
self.assertEqual(res, res_right)
def test_div1(self):
print("使用多组数据测试两个整数div")
i = 0
for x, y in zip(list1_zhengshu, list2_zhengshu):
d1 = Count(y,x)
res_zhengshu[i] = d1.div()
print("计算实际结果:", res_zhengshu[i])
i = i + 1
for res, res_right in zip(res_zhengshu, res_zhengshuRight):
self.assertEqual(res, res_right)
def test_div2(self):
print("使用多组数据测试两个浮点型数据div")
i = 0
for x, y in zip(list1_fudianshu, list2_fudianshu):
d2 = Count(y, x)
res_fudianshu[i] = d2.div()
print("计算实际结果:", res_fudianshu[i])
i = i + 1
for res, res_right in zip(res_fudianshu, res_fudianshuRight):
if abs(res - res_right) < 0.001:
res = res_right
self.assertEqual(res, res_right)
def test_mul2(self):
print("使用多组数据测试两个浮点型数据mul")
i = 0
for x, y in zip(list1_fudianshu, list2_fudianshu):
m2 = Count(x, y)
res_fudianshu[i] = m2.mul()
print("计算实际结果:", res_fudianshu[i])
i = i + 1
for res, res_right in zip(res_fudianshu, res_fudianshuRight):
if abs(res - res_right) < 0.001:
res = res_right
self.assertEqual(res, res_right)
def test_sub1(self):
print("开始获取测试数据:")
getdata = GetTestData()
file = getdata.openDataFile("E:/Python/demo/csv/importData/zhengshuData.csv")
zhengshuData = getdata.getData(file)
i = 0
for x, y in zip(zhengshuData[1], zhengshuData[0]):
s1 = Count(int(x), int(y))
zhengshuData[2][i] = str(s1.sub())
print("计算实际结果:", zhengshuData[2][i])
i = i + 1
for res, res_right in zip(zhengshuData[2], zhengshuData[4]):
self.assertEqual(res, res_right)
def test_add3(self):
print("使用多组数据测试两个字符串函数add3")
print("开始获取测试数据:")
getdata = GetTestData()
file = getdata.openDataFile(
'E:/Python/demo/csv/importData/zifuchuanData.csv')
zifuchuanData = getdata.getData(file)
i = 0
for x, y in zip(zifuchuanData[0], zifuchuanData[1]):
a3 = Count(x, y)
zifuchuanData[3][i] = a3.add()
print("计算实际结果:", zifuchuanData[3][i])
i = i + 1
for res, res_right in zip(zifuchuanData[3], zifuchuanData[2]):
self.assertEqual(res, res_right)
def test_mul1(self):
print("使用多组数据测试两个整数mul")
print("开始获取测试数据:")
getdata = GetTestData()
file = getdata.openDataFile(
"E:/Python/demo/csv/importData/zhengshuData.csv")
zhengshuData = getdata.getData(file)
i = 0
for x, y in zip(zhengshuData[1], zhengshuData[0]):
m1 = Count(int(x), int(y))
zhengshuData[2][i] = m1.mul()
print("计算实际结果:", zhengshuData[2][i])
i = i + 1
i = 0
for item in zhengshuData[5]:
zhengshuData[5][i] = float(item)
i = i + 1
for res, res_right in zip(zhengshuData[2], zhengshuData[5]):
self.assertEqual(res, res_right)
def test_sub2(self):
print("使用多组数据测试两个浮点型数据函数sub")
print("开始获取测试数据:")
getdata = GetTestData()
file = getdata.openDataFile('E:/Python/demo/csv/importData/fudianshuData.csv')
fudianshuData = getdata.getData(file)
i = 0
for x, y in zip(fudianshuData[1], fudianshuData[0]):
s2 = Count(float(x), float(y))
fudianshuData[2][i] = s2.sub()
print("计算实际结果:", fudianshuData[2][i])
i = i + 1
i = 0
for item in fudianshuData[4]:
fudianshuData[4][i] = float(item)
i = i + 1
for res, res_right in zip(fudianshuData[2], fudianshuData[4]):
if abs(res - res_right) < 0.001:
res = res_right
self.assertEqual(res, res_right)
def test_add1(self):
print("测试两个整数函数")
c1=Count(10,20)
res1=c1.add()
print("计算实际结果:",res1)
self.assertEqual(res1,30)
def test_add3(self):
print("测试两个字符串函数")
c3=Count("你好","测试")
res3=c3.add()
print("实际计算结果:",res3)
self.assertEqual(res3,"你好测试")
def test_sub1(self):
print("测试整数sub")
s1 = Count(100, 20)
res1 = s1.sub()
print("实际计算结果:", res1)
self.assertEqual(res1, 80)
def test_div1(self):
print("测试两个整数div")
d1 = Count(100, 20)
res1 = d1.div()
print("实际计算结果:", res1)
self.assertEqual(res1, 5)
#使用普通方法对Count类进行测试
#此文件只对add函数进行整数加测试
from calculator.calculatorPackage.mycalculator import Count
mytest = Count(10.56, 23.43)
res2 = mytest.add()
if abs(res2 - 33.99) <= 0.001:
print("计算正确!")
else:
print("计算错误!")
print("计算实际结果:", res2)
def test_mul1(self):
print("测试两个整数mul")
m1 = Count(10, 20)
res1 = m1.mul()
print("实际计算结果:", res1)
self.assertEqual(res1, 200)
