如何区分这两者,很简单unittest作为官方的测试框架,在测试方面更加基础,并且可以再次基础上进行二次开发,同时在用法上格式会更加复杂;而pytest框架作为第三方框架,方便的地方就在于使用更加灵活,并且能够对原有unittest风格的测试用例有很好的兼容性,同时在扩展上更加丰富,可通过扩展的插件增加使用的场景,比如一些并发测试等;
pip安装:
pip install pytest
测试安装成功:
pytest --help
py.test --help
检查安装版本:
pytest --version
Pytest编写规则:
test_example.py
def count_num(a: list) -> int:
return len(a)
def test_count():
assert count_num([1, 2, 3]) != 3
执行测试:
pytest test_example.py
执行结果:
C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest>pytest test_example.py -v
================================================================= test session starts =================================================================
platform win32 -- Python 3.6.8, pytest-6.2.5, py-1.10.0, pluggy-1.0.0 -- d:\coding\python3.6\python.exe
cachedir: .pytest_cache
rootdir: C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest
plugins: Faker-8.11.0
collected 1 item
test_example.py::test_count FAILED [100%]
====================================================================== FAILURES =======================================================================
_____________________________________________________________________ test_count ______________________________________________________________________
def test_count():
> assert count_num([1, 2, 3]) != 3
E assert 3 != 3
E + where 3 = count_num([1, 2, 3])
test_example.py:11: AssertionError
=============================================================== short test summary info ===============================================================
FAILED test_example.py::test_count - assert 3 != 3
================================================================== 1 failed in 0.16s ==================================================================
备注:
默认情况下,pytest会在当前目录下寻找以test_为开头(以_test结尾)的测试文件,并且执行文件内所有以test_为开头(以_test为结尾)的所有函数和方法;
pytest test_example3.py::test_odd
pytest -k example
import pytest
test_flag = False
@pytest.mark.skip()
def test_odd():
num = random.randint(0, 100)
assert num % 2 == 1
@pytest.mark.skipif(test_flag is False, reason="test_flag is False")
def test_even():
num = random.randint(0, 1000)
assert num % 2 == 0
def test_zero():
num = 0
with pytest.raises(ZeroDivisionError) as e:
num = 1/0
exc_msg = e.value.args[0]
print(exc_msg)
assert num == 0
@pytest.mark.xfail()
def test_sum():
random_list = [random.randint(0, 100) for x in range(10)]
num = sum(random_list)
assert num < 20
@pytest.mark.parametrize('num,num2', [(1,2),(3,4)])
def test_many_odd(num: int, num2: int):
assert num % 2 == 1
assert num2 % 2 == 0
固件就是一些预处理的函数,pytest会在执行测试函数前(或者执行后)加载运行这些固件,常见的应用场景就有数据库的连接和关闭(设备连接和关闭)
简单使用
import pytest
@pytest.fixture()
def postcode():
return "hello"
def test_count(postcode):
assert postcode == "hello"
按照官方的解释就是当运行测试函数,会首先检测运行函数的参数,搜索与参数同名的fixture,一旦pytest找到,就会运行这些固件,获取这些固件的返回值(如果有),并将这些返回值作为参数传递给测试函数;
接下来进一步验证关于官方的说法:
import pytest
@pytest.fixture()
def connect_db():
print("Connect Database in .......")
yield
print("Close Database out .......")
def read_database(key: str):
p_info = {
"name": "zhangsan",
"address": "China Guangzhou",
"age": 99
}
return p_info[key]
def test_count(connect_db):
assert read_database("name") == "zhangsan"
执行测试函数结果
============================= test session starts =============================
platform win32 -- Python 3.6.8, pytest-6.2.5, py-1.10.0, pluggy-1.0.0 -- D:\Coding\Python3.6\python.exe
cachedir: .pytest_cache
rootdir: C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest
plugins: Faker-8.11.0
collecting ... collected 1 item
test_example.py::test_count Connect Database in .......
PASSED [100%]Close Database out .......
============================== 1 passed in 0.07s ==============================
备注:
从前面大致了解了固件的作用,抽离出一些重复的工作方便复用,同时pytest框架中为了更加精细化控制固件,会使用作用域来进行指定固件的使用范围,(比如在这一模块中的测试函数执行一次即可,不需要模块中的函数重复执行)更加具体的例子就是数据库的连接,这一连接的操作可能是耗时的,我只需要在这一模块的测试函数运行一次即可,不需要每次都运行。
而定义固件是,一般通过scop参数来声明作用,常用的有:
import pytest
@pytest.fixture(scope="function")
def func_scope():
print("func_scope")
@pytest.fixture(scope="module")
def mod_scope():
print("mod_scope")
@pytest.fixture(scope="session")
def sess_scope():
print("session_scope")
def test_scope(sess_scope, mod_scope, func_scope):
pass
def test_scope2(sess_scope, mod_scope, func_scope):
pass
执行结果:
============================= test session starts =============================
platform win32 -- Python 3.6.8, pytest-6.2.5, py-1.10.0, pluggy-1.0.0 -- D:\Coding\Python3.6\python.exe
cachedir: .pytest_cache
rootdir: C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest
plugins: Faker-8.11.0
collecting ... collected 2 items
test_example2.py::test_scope session_scope
mod_scope
func_scope
PASSED [ 50%]
test_example2.py::test_scope2 func_scope
PASSED [100%]
============================== 2 passed in 0.07s ==============================
从这里可以看出module,session作用域的固件只执行了一次,可以验证官方的使用介绍
有人可能会说,这样子怎么那么麻烦,unittest框架中直接定义setUp就能自动执行预处理,同样的pytest框架也有类似的自动执行; pytest框架中固件一般通过参数autouse控制自动运行。
import pytest
@pytest.fixture(scope='session', autouse=True)
def connect_db():
print("Connect Database in .......")
yield
print("Close Database out .......")
def test1():
print("test1")
def test2():
print("test")
执行结果:
============================= test session starts =============================
platform win32 -- Python 3.6.8, pytest-6.2.5, py-1.10.0, pluggy-1.0.0 -- D:\Coding\Python3.6\python.exe
cachedir: .pytest_cache
rootdir: C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest
plugins: Faker-8.11.0
collecting ... collected 2 items
test_example.py::test1 Connect Database in .......
PASSED [ 50%]test1
test_example.py::test2 PASSED [100%]test
Close Database out .......
============================== 2 passed in 0.07s ==============================
从结果看到,测试函数运行前后自动执行了connect_db固件;
前面简单的提到过了@pytest.mark.parametrize通过参数化测试,而关于固件传入参数时则需要通过pytest框架中内置的固件request,并且通过request.param获取参数
import pytest
@pytest.fixture(params=[
('redis', '6379'),
('elasticsearch', '9200')
])
def param(request):
return request.param
@pytest.fixture(autouse=True)
def db(param):
print('\nSucceed to connect %s:%s' % param)
yield
print('\nSucceed to close %s:%s' % param)
def test_api():
assert 1 == 1
执行结果:
============================= test session starts =============================
platform win32 -- Python 3.6.8, pytest-6.2.5, py-1.10.0, pluggy-1.0.0 -- D:\Coding\Python3.6\python.exe
cachedir: .pytest_cache
rootdir: C:\Users\libuliduobuqiuqiu\Desktop\GitProjects\PythonDemo\pytest
plugins: Faker-8.11.0
collecting ... collected 2 items
test_example.py::test_api[param0]
Succeed to connect redis:6379
PASSED [ 50%]
Succeed to close redis:6379
test_example.py::test_api[param1]
Succeed to connect elasticsearch:9200
PASSED [100%]
Succeed to close elasticsearch:9200
============================== 2 passed in 0.07s ==============================
这里模拟连接redis和elasticsearch,加载固件自动执行连接然后执行测试函数再断开连接。
对于开发来说为什么也要学习自动化测试这一块,很重要的一点就是通过自动化测试节省一些重复工作的时间,同时对于优化代码结构,提高代码覆盖率,以及后续项目重构都是有着很重要的意义,同时理解pytest和unittest在基础上有何区别有助于不同的业务场景中选择适合自己的测试工具。
这篇文章只是简单的介绍了pytest的基本使用,有兴趣的可以去看看官方文档,官方文档中还提到了如内置固件的使用,常用测试的场景等等。
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