244 lines
8.4 KiB
Plaintext
244 lines
8.4 KiB
Plaintext
==============================================================
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Injecting objects into test functions (funcargs)
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==============================================================
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.. currentmodule:: _pytest.python
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.. _`funcargs`:
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.. _`funcarg mechanism`:
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Dependency injection through function arguments
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=================================================
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py.test lets you inject objects into test functions and precisely
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control their life cycle in relation to the test execution. It is
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also possible to run a test function multiple times with different objects.
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The basic mechanism for injecting objects is also called the
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*funcarg mechanism* because objects are ultimatly injected
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by calling a test function with it as an argument. Unlike the
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classical xUnit approach *funcargs* relate more to `Dependency Injection`_
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because they help to de-couple test code from objects required for
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them to execute.
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.. _`Dependency injection`: http://en.wikipedia.org/wiki/Dependency_injection
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To create a value with which to call a test function a factory function
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is called which gets full access to the test function context and can
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register finalizers or invoke lifecycle-caching helpers. The factory
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can be implemented in same test class or test module, or in a
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per-directory ``conftest.py`` file or even in an external plugin. This
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allows full de-coupling of test code and objects needed for test
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execution.
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A test function may be invoked multiple times in which case we
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speak of :ref:`parametrized testing <parametrizing-tests>`. This can be
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very useful if you want to test e.g. against different database backends
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or with multiple numerical arguments sets and want to reuse the same set
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of test functions.
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.. _funcarg:
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Basic injection example
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--------------------------------
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Let's look at a simple self-contained test module::
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# content of ./test_simplefactory.py
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def pytest_funcarg__myfuncarg(request):
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return 42
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def test_function(myfuncarg):
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assert myfuncarg == 17
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This test function needs an injected object named ``myfuncarg``.
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py.test will discover and call the factory named
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``pytest_funcarg__myfuncarg`` within the same module in this case.
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Running the test looks like this::
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$ py.test test_simplefactory.py
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=========================== test session starts ============================
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platform linux2 -- Python 2.6.6 -- pytest-2.0.2
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collecting ... collected 1 items
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test_simplefactory.py F
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================================= FAILURES =================================
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______________________________ test_function _______________________________
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myfuncarg = 42
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def test_function(myfuncarg):
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> assert myfuncarg == 17
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E assert 42 == 17
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test_simplefactory.py:5: AssertionError
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========================= 1 failed in 0.02 seconds =========================
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This means that indeed the test function was called with a ``myfuncarg``
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argument value of ``42`` and the assert fails. Here is how py.test
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comes to call the test function this way:
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1. py.test :ref:`finds <test discovery>` the ``test_function`` because
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of the ``test_`` prefix. The test function needs a function argument
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named ``myfuncarg``. A matching factory function is discovered by
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looking for the name ``pytest_funcarg__myfuncarg``.
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2. ``pytest_funcarg__myfuncarg(request)`` is called and
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returns the value for ``myfuncarg``.
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3. the test function can now be called: ``test_function(42)``.
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This results in the above exception because of the assertion
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mismatch.
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Note that if you misspell a function argument or want
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to use one that isn't available, you'll see an error
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with a list of available function arguments.
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You can always issue::
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py.test --funcargs test_simplefactory.py
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to see available function arguments (which you can also
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think of as "resources").
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.. _`parametrizing tests, generalized`: http://tetamap.wordpress.com/2009/05/13/parametrizing-python-tests-generalized/
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.. _`blog post about the monkeypatch funcarg`: http://tetamap.wordpress.com/2009/03/03/monkeypatching-in-unit-tests-done-right/
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.. _`xUnit style`: xunit_setup.html
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.. _`funcarg factory`:
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.. _factory:
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The funcarg **request** object
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=============================================
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Each funcarg factory receives a **request** object which is tied to a
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specific test function call. A request object is passed to a funcarg
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factory and provides access to test configuration and context:
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.. autoclass:: _pytest.python.FuncargRequest()
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:members: function,cls,module,keywords,config
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.. _`useful caching and finalization helpers`:
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.. automethod:: FuncargRequest.addfinalizer
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.. automethod:: FuncargRequest.cached_setup
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.. automethod:: FuncargRequest.applymarker
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.. automethod:: FuncargRequest.getfuncargvalue
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.. _`test generators`:
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.. _`parametrizing-tests`:
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.. _`parametrized test functions`:
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Parametrizing multiple calls to a test function
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===========================================================
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You can parametrize multiple runs of the same test
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function by adding new test function calls with different
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function argument values. Let's look at a simple self-contained
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example:
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Basic generated test example
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----------------------------
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Let's consider a test module which uses the ``pytest_generate_tests``
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hook to generate several calls to the same test function::
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# content of test_example.py
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def pytest_generate_tests(metafunc):
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if "numiter" in metafunc.funcargnames:
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for i in range(10):
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metafunc.addcall(funcargs=dict(numiter=i))
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def test_func(numiter):
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assert numiter < 9
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Running this::
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$ py.test test_example.py
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=========================== test session starts ============================
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platform linux2 -- Python 2.6.6 -- pytest-2.0.2
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collecting ... collected 10 items
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test_example.py .........F
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================================= FAILURES =================================
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_______________________________ test_func[9] _______________________________
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numiter = 9
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def test_func(numiter):
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> assert numiter < 9
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E assert 9 < 9
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test_example.py:7: AssertionError
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==================== 1 failed, 9 passed in 0.02 seconds ====================
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Note that the ``pytest_generate_tests(metafunc)`` hook is called during
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the test collection phase which is separate from the actual test running.
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Let's just look at what is collected::
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$ py.test --collectonly test_example.py
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=========================== test session starts ============================
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platform linux2 -- Python 2.6.6 -- pytest-2.0.2
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collecting ... collected 10 items
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<Module 'test_example.py'>
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<Function 'test_func[0]'>
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<Function 'test_func[1]'>
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<Function 'test_func[2]'>
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<Function 'test_func[3]'>
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<Function 'test_func[4]'>
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<Function 'test_func[5]'>
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<Function 'test_func[6]'>
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<Function 'test_func[7]'>
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<Function 'test_func[8]'>
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<Function 'test_func[9]'>
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============================= in 0.00 seconds =============================
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If you want to select only the run with the value ``7`` you could do::
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$ py.test -v -k 7 test_example.py # or -k test_func[7]
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=========================== test session starts ============================
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platform linux2 -- Python 2.6.6 -- pytest-2.0.2 -- /home/hpk/venv/0/bin/python
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collecting ... collected 10 items
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test_example.py:6: test_func[7] PASSED
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======================== 9 tests deselected by '7' =========================
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================== 1 passed, 9 deselected in 0.01 seconds ==================
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You might want to look at :ref:`more parametrization examples <paramexamples>`.
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.. _`metafunc object`:
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The **metafunc** object
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-------------------------------------------
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metafunc objects are passed to the ``pytest_generate_tests`` hook.
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They help to inspect a testfunction and to generate tests
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according to test configuration or values specified
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in the class or module where a test function is defined:
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``metafunc.funcargnames``: set of required function arguments for given function
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``metafunc.function``: underlying python test function
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``metafunc.cls``: class object where the test function is defined in or None.
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``metafunc.module``: the module object where the test function is defined in.
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``metafunc.config``: access to command line opts and general config
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.. automethod:: Metafunc.addcall(funcargs=None, id=_notexists, param=_notexists)
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