| .. _fixture: |
| .. _fixtures: |
| .. _`fixture functions`: |
| |
| pytest fixtures: explicit, modular, scalable |
| ======================================================== |
| |
| .. currentmodule:: _pytest.python |
| |
| .. versionadded:: 2.0/2.3/2.4 |
| |
| .. _`xUnit`: http://en.wikipedia.org/wiki/XUnit |
| .. _`purpose of test fixtures`: http://en.wikipedia.org/wiki/Test_fixture#Software |
| .. _`Dependency injection`: http://en.wikipedia.org/wiki/Dependency_injection#Definition |
| |
| The `purpose of test fixtures`_ is to provide a fixed baseline |
| upon which tests can reliably and repeatedly execute. pytest fixtures |
| offer dramatic improvements over the classic xUnit style of setup/teardown |
| functions: |
| |
| * fixtures have explicit names and are activated by declaring their use |
| from test functions, modules, classes or whole projects. |
| |
| * fixtures are implemented in a modular manner, as each fixture name |
| triggers a *fixture function* which can itself use other fixtures. |
| |
| * fixture management scales from simple unit to complex |
| functional testing, allowing to parametrize fixtures and tests according |
| to configuration and component options, or to re-use fixtures |
| across class, module or whole test session scopes. |
| |
| In addition, pytest continues to support :ref:`xunitsetup`. You can mix |
| both styles, moving incrementally from classic to new style, as you |
| prefer. You can also start out from existing :ref:`unittest.TestCase |
| style <unittest.TestCase>` or :ref:`nose based <nosestyle>` projects. |
| |
| .. note:: |
| |
| pytest-2.4 introduced an additional experimental |
| :ref:`yield fixture mechanism <yieldfixture>` for easier context manager |
| integration and more linear writing of teardown code. |
| |
| .. _`funcargs`: |
| .. _`funcarg mechanism`: |
| .. _`fixture function`: |
| .. _`@pytest.fixture`: |
| .. _`pytest.fixture`: |
| |
| Fixtures as Function arguments |
| ----------------------------------------- |
| |
| Test functions can receive fixture objects by naming them as an input |
| argument. For each argument name, a fixture function with that name provides |
| the fixture object. Fixture functions are registered by marking them with |
| :py:func:`@pytest.fixture <_pytest.python.fixture>`. Let's look at a simple |
| self-contained test module containing a fixture and a test function |
| using it:: |
| |
| # content of ./test_smtpsimple.py |
| import pytest |
| |
| @pytest.fixture |
| def smtp(): |
| import smtplib |
| return smtplib.SMTP("smtp.gmail.com") |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| assert 0 # for demo purposes |
| |
| Here, the ``test_ehlo`` needs the ``smtp`` fixture value. pytest |
| will discover and call the :py:func:`@pytest.fixture <_pytest.python.fixture>` |
| marked ``smtp`` fixture function. Running the test looks like this:: |
| |
| $ py.test test_smtpsimple.py |
| ======= test session starts ======== |
| platform linux -- Python 3.4.0, pytest-2.9.1, py-1.4.31, pluggy-0.3.1 |
| rootdir: $REGENDOC_TMPDIR, inifile: |
| collected 1 items |
| |
| test_smtpsimple.py F |
| |
| ======= FAILURES ======== |
| _______ test_ehlo ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_smtpsimple.py:11: AssertionError |
| ======= 1 failed in 0.12 seconds ======== |
| |
| In the failure traceback we see that the test function was called with a |
| ``smtp`` argument, the ``smtplib.SMTP()`` instance created by the fixture |
| function. The test function fails on our deliberate ``assert 0``. Here is |
| the exact protocol used by ``pytest`` to call the test function this way: |
| |
| 1. pytest :ref:`finds <test discovery>` the ``test_ehlo`` because |
| of the ``test_`` prefix. The test function needs a function argument |
| named ``smtp``. A matching fixture function is discovered by |
| looking for a fixture-marked function named ``smtp``. |
| |
| 2. ``smtp()`` is called to create an instance. |
| |
| 3. ``test_ehlo(<SMTP instance>)`` is called and fails in the last |
| line of the test function. |
| |
| Note that if you misspell a function argument or want |
| to use one that isn't available, you'll see an error |
| with a list of available function arguments. |
| |
| .. Note:: |
| |
| You can always issue:: |
| |
| py.test --fixtures test_simplefactory.py |
| |
| to see available fixtures. |
| |
| In versions prior to 2.3 there was no ``@pytest.fixture`` marker |
| and you had to use a magic ``pytest_funcarg__NAME`` prefix |
| for the fixture factory. This remains and will remain supported |
| but is not anymore advertised as the primary means of declaring fixture |
| functions. |
| |
| "Funcargs" a prime example of dependency injection |
| --------------------------------------------------- |
| |
| When injecting fixtures to test functions, pytest-2.0 introduced the |
| term "funcargs" or "funcarg mechanism" which continues to be present |
| also in docs today. It now refers to the specific case of injecting |
| fixture values as arguments to test functions. With pytest-2.3 there are |
| more possibilities to use fixtures but "funcargs" remain as the main way |
| as they allow to directly state the dependencies of a test function. |
| |
| As the following examples show in more detail, funcargs allow test |
| functions to easily receive and work against specific pre-initialized |
| application objects without having to care about import/setup/cleanup |
| details. It's a prime example of `dependency injection`_ where fixture |
| functions take the role of the *injector* and test functions are the |
| *consumers* of fixture objects. |
| |
| .. _smtpshared: |
| |
| Sharing a fixture across tests in a module (or class/session) |
| ----------------------------------------------------------------- |
| |
| .. regendoc:wipe |
| |
| Fixtures requiring network access depend on connectivity and are |
| usually time-expensive to create. Extending the previous example, we |
| can add a ``scope='module'`` parameter to the |
| :py:func:`@pytest.fixture <_pytest.python.fixture>` invocation |
| to cause the decorated ``smtp`` fixture function to only be invoked once |
| per test module. Multiple test functions in a test module will thus |
| each receive the same ``smtp`` fixture instance. The next example puts |
| the fixture function into a separate ``conftest.py`` file so |
| that tests from multiple test modules in the directory can |
| access the fixture function:: |
| |
| # content of conftest.py |
| import pytest |
| import smtplib |
| |
| @pytest.fixture(scope="module") |
| def smtp(): |
| return smtplib.SMTP("smtp.gmail.com") |
| |
| The name of the fixture again is ``smtp`` and you can access its result by |
| listing the name ``smtp`` as an input parameter in any test or fixture |
| function (in or below the directory where ``conftest.py`` is located):: |
| |
| # content of test_module.py |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| assert b"smtp.gmail.com" in msg |
| assert 0 # for demo purposes |
| |
| def test_noop(smtp): |
| response, msg = smtp.noop() |
| assert response == 250 |
| assert 0 # for demo purposes |
| |
| We deliberately insert failing ``assert 0`` statements in order to |
| inspect what is going on and can now run the tests:: |
| |
| $ py.test test_module.py |
| ======= test session starts ======== |
| platform linux -- Python 3.4.0, pytest-2.9.1, py-1.4.31, pluggy-0.3.1 |
| rootdir: $REGENDOC_TMPDIR, inifile: |
| collected 2 items |
| |
| test_module.py FF |
| |
| ======= FAILURES ======== |
| _______ test_ehlo ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| assert b"smtp.gmail.com" in msg |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_module.py:6: AssertionError |
| _______ test_noop ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_noop(smtp): |
| response, msg = smtp.noop() |
| assert response == 250 |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_module.py:11: AssertionError |
| ======= 2 failed in 0.12 seconds ======== |
| |
| You see the two ``assert 0`` failing and more importantly you can also see |
| that the same (module-scoped) ``smtp`` object was passed into the two |
| test functions because pytest shows the incoming argument values in the |
| traceback. As a result, the two test functions using ``smtp`` run as |
| quick as a single one because they reuse the same instance. |
| |
| If you decide that you rather want to have a session-scoped ``smtp`` |
| instance, you can simply declare it: |
| |
| .. code-block:: python |
| |
| @pytest.fixture(scope="session") |
| def smtp(...): |
| # the returned fixture value will be shared for |
| # all tests needing it |
| |
| .. _`finalization`: |
| |
| Fixture finalization / executing teardown code |
| ------------------------------------------------------------- |
| |
| pytest supports execution of fixture specific finalization code |
| when the fixture goes out of scope. By accepting a ``request`` object |
| into your fixture function you can call its ``request.addfinalizer`` one |
| or multiple times:: |
| |
| # content of conftest.py |
| |
| import smtplib |
| import pytest |
| |
| @pytest.fixture(scope="module") |
| def smtp(request): |
| smtp = smtplib.SMTP("smtp.gmail.com") |
| def fin(): |
| print ("teardown smtp") |
| smtp.close() |
| request.addfinalizer(fin) |
| return smtp # provide the fixture value |
| |
| The ``fin`` function will execute when the last test using |
| the fixture in the module has finished execution. |
| |
| Let's execute it:: |
| |
| $ py.test -s -q --tb=no |
| FFteardown smtp |
| |
| 2 failed in 0.12 seconds |
| |
| We see that the ``smtp`` instance is finalized after the two |
| tests finished execution. Note that if we decorated our fixture |
| function with ``scope='function'`` then fixture setup and cleanup would |
| occur around each single test. In either case the test |
| module itself does not need to change or know about these details |
| of fixture setup. |
| |
| |
| .. _`request-context`: |
| |
| Fixtures can introspect the requesting test context |
| ------------------------------------------------------------- |
| |
| Fixture function can accept the :py:class:`request <FixtureRequest>` object |
| to introspect the "requesting" test function, class or module context. |
| Further extending the previous ``smtp`` fixture example, let's |
| read an optional server URL from the test module which uses our fixture:: |
| |
| # content of conftest.py |
| import pytest |
| import smtplib |
| |
| @pytest.fixture(scope="module") |
| def smtp(request): |
| server = getattr(request.module, "smtpserver", "smtp.gmail.com") |
| smtp = smtplib.SMTP(server) |
| |
| def fin(): |
| print ("finalizing %s (%s)" % (smtp, server)) |
| smtp.close() |
| request.addfinalizer(fin) |
| return smtp |
| |
| We use the ``request.module`` attribute to optionally obtain an |
| ``smtpserver`` attribute from the test module. If we just execute |
| again, nothing much has changed:: |
| |
| $ py.test -s -q --tb=no |
| FFfinalizing <smtplib.SMTP object at 0xdeadbeef> (smtp.gmail.com) |
| |
| 2 failed in 0.12 seconds |
| |
| Let's quickly create another test module that actually sets the |
| server URL in its module namespace:: |
| |
| # content of test_anothersmtp.py |
| |
| smtpserver = "mail.python.org" # will be read by smtp fixture |
| |
| def test_showhelo(smtp): |
| assert 0, smtp.helo() |
| |
| Running it:: |
| |
| $ py.test -qq --tb=short test_anothersmtp.py |
| F |
| ======= FAILURES ======== |
| _______ test_showhelo ________ |
| test_anothersmtp.py:5: in test_showhelo |
| assert 0, smtp.helo() |
| E AssertionError: (250, b'mail.python.org') |
| E assert 0 |
| |
| voila! The ``smtp`` fixture function picked up our mail server name |
| from the module namespace. |
| |
| .. _`fixture-parametrize`: |
| |
| Parametrizing a fixture |
| ----------------------------------------------------------------- |
| |
| Fixture functions can be parametrized in which case they will be called |
| multiple times, each time executing the set of dependent tests, i. e. the |
| tests that depend on this fixture. Test functions do usually not need |
| to be aware of their re-running. Fixture parametrization helps to |
| write exhaustive functional tests for components which themselves can be |
| configured in multiple ways. |
| |
| Extending the previous example, we can flag the fixture to create two |
| ``smtp`` fixture instances which will cause all tests using the fixture |
| to run twice. The fixture function gets access to each parameter |
| through the special :py:class:`request <FixtureRequest>` object:: |
| |
| # content of conftest.py |
| import pytest |
| import smtplib |
| |
| @pytest.fixture(scope="module", |
| params=["smtp.gmail.com", "mail.python.org"]) |
| def smtp(request): |
| smtp = smtplib.SMTP(request.param) |
| def fin(): |
| print ("finalizing %s" % smtp) |
| smtp.close() |
| request.addfinalizer(fin) |
| return smtp |
| |
| The main change is the declaration of ``params`` with |
| :py:func:`@pytest.fixture <_pytest.python.fixture>`, a list of values |
| for each of which the fixture function will execute and can access |
| a value via ``request.param``. No test function code needs to change. |
| So let's just do another run:: |
| |
| $ py.test -q test_module.py |
| FFFF |
| ======= FAILURES ======== |
| _______ test_ehlo[smtp.gmail.com] ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| assert b"smtp.gmail.com" in msg |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_module.py:6: AssertionError |
| _______ test_noop[smtp.gmail.com] ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_noop(smtp): |
| response, msg = smtp.noop() |
| assert response == 250 |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_module.py:11: AssertionError |
| _______ test_ehlo[mail.python.org] ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_ehlo(smtp): |
| response, msg = smtp.ehlo() |
| assert response == 250 |
| > assert b"smtp.gmail.com" in msg |
| E assert b'smtp.gmail.com' in b'mail.python.org\nSIZE 51200000\nETRN\nSTARTTLS\nENHANCEDSTATUSCODES\n8BITMIME\nDSN\nSMTPUTF8' |
| |
| test_module.py:5: AssertionError |
| -------------------------- Captured stdout setup --------------------------- |
| finalizing <smtplib.SMTP object at 0xdeadbeef> |
| _______ test_noop[mail.python.org] ________ |
| |
| smtp = <smtplib.SMTP object at 0xdeadbeef> |
| |
| def test_noop(smtp): |
| response, msg = smtp.noop() |
| assert response == 250 |
| > assert 0 # for demo purposes |
| E assert 0 |
| |
| test_module.py:11: AssertionError |
| 4 failed in 0.12 seconds |
| |
| We see that our two test functions each ran twice, against the different |
| ``smtp`` instances. Note also, that with the ``mail.python.org`` |
| connection the second test fails in ``test_ehlo`` because a |
| different server string is expected than what arrived. |
| |
| pytest will build a string that is the test ID for each fixture value |
| in a parametrized fixture, e.g. ``test_ehlo[smtp.gmail.com]`` and |
| ``test_ehlo[mail.python.org]`` in the above examples. These IDs can |
| be used with ``-k`` to select specific cases to run, and they will |
| also identify the specific case when one is failing. Running pytest |
| with ``--collect-only`` will show the generated IDs. |
| |
| Numbers, strings, booleans and None will have their usual string |
| representation used in the test ID. For other objects, pytest will |
| make a string based on the argument name. It is possible to customise |
| the string used in a test ID for a certain fixture value by using the |
| ``ids`` keyword argument:: |
| |
| # content of test_ids.py |
| import pytest |
| |
| @pytest.fixture(params=[0, 1], ids=["spam", "ham"]) |
| def a(request): |
| return request.param |
| |
| def test_a(a): |
| pass |
| |
| def idfn(fixture_value): |
| if fixture_value == 0: |
| return "eggs" |
| else: |
| return None |
| |
| @pytest.fixture(params=[0, 1], ids=idfn) |
| def b(request): |
| return request.param |
| |
| def test_b(b): |
| pass |
| |
| The above shows how ``ids`` can be either a list of strings to use or |
| a function which will be called with the fixture value and then |
| has to return a string to use. In the latter case if the function |
| return ``None`` then pytest's auto-generated ID will be used. |
| |
| Running the above tests results in the following test IDs being used:: |
| |
| $ py.test --collect-only |
| ======= test session starts ======== |
| platform linux -- Python 3.4.0, pytest-2.9.1, py-1.4.31, pluggy-0.3.1 |
| rootdir: $REGENDOC_TMPDIR, inifile: |
| collected 10 items |
| <Module 'test_anothersmtp.py'> |
| <Function 'test_showhelo[smtp.gmail.com]'> |
| <Function 'test_showhelo[mail.python.org]'> |
| <Module 'test_ids.py'> |
| <Function 'test_a[spam]'> |
| <Function 'test_a[ham]'> |
| <Function 'test_b[eggs]'> |
| <Function 'test_b[1]'> |
| <Module 'test_module.py'> |
| <Function 'test_ehlo[smtp.gmail.com]'> |
| <Function 'test_noop[smtp.gmail.com]'> |
| <Function 'test_ehlo[mail.python.org]'> |
| <Function 'test_noop[mail.python.org]'> |
| |
| ======= no tests ran in 0.12 seconds ======== |
| |
| .. _`interdependent fixtures`: |
| |
| Modularity: using fixtures from a fixture function |
| ---------------------------------------------------------- |
| |
| You can not only use fixtures in test functions but fixture functions |
| can use other fixtures themselves. This contributes to a modular design |
| of your fixtures and allows re-use of framework-specific fixtures across |
| many projects. As a simple example, we can extend the previous example |
| and instantiate an object ``app`` where we stick the already defined |
| ``smtp`` resource into it:: |
| |
| # content of test_appsetup.py |
| |
| import pytest |
| |
| class App: |
| def __init__(self, smtp): |
| self.smtp = smtp |
| |
| @pytest.fixture(scope="module") |
| def app(smtp): |
| return App(smtp) |
| |
| def test_smtp_exists(app): |
| assert app.smtp |
| |
| Here we declare an ``app`` fixture which receives the previously defined |
| ``smtp`` fixture and instantiates an ``App`` object with it. Let's run it:: |
| |
| $ py.test -v test_appsetup.py |
| ======= test session starts ======== |
| platform linux -- Python 3.4.0, pytest-2.9.1, py-1.4.31, pluggy-0.3.1 -- $PYTHON_PREFIX/bin/python3.4 |
| cachedir: .cache |
| rootdir: $REGENDOC_TMPDIR, inifile: |
| collecting ... collected 2 items |
| |
| test_appsetup.py::test_smtp_exists[smtp.gmail.com] PASSED |
| test_appsetup.py::test_smtp_exists[mail.python.org] PASSED |
| |
| ======= 2 passed in 0.12 seconds ======== |
| |
| Due to the parametrization of ``smtp`` the test will run twice with two |
| different ``App`` instances and respective smtp servers. There is no |
| need for the ``app`` fixture to be aware of the ``smtp`` parametrization |
| as pytest will fully analyse the fixture dependency graph. |
| |
| Note, that the ``app`` fixture has a scope of ``module`` and uses a |
| module-scoped ``smtp`` fixture. The example would still work if ``smtp`` |
| was cached on a ``session`` scope: it is fine for fixtures to use |
| "broader" scoped fixtures but not the other way round: |
| A session-scoped fixture could not use a module-scoped one in a |
| meaningful way. |
| |
| |
| .. _`automatic per-resource grouping`: |
| |
| Automatic grouping of tests by fixture instances |
| ---------------------------------------------------------- |
| |
| .. regendoc: wipe |
| |
| pytest minimizes the number of active fixtures during test runs. |
| If you have a parametrized fixture, then all the tests using it will |
| first execute with one instance and then finalizers are called |
| before the next fixture instance is created. Among other things, |
| this eases testing of applications which create and use global state. |
| |
| The following example uses two parametrized funcargs, one of which is |
| scoped on a per-module basis, and all the functions perform ``print`` calls |
| to show the setup/teardown flow:: |
| |
| # content of test_module.py |
| import pytest |
| |
| @pytest.fixture(scope="module", params=["mod1", "mod2"]) |
| def modarg(request): |
| param = request.param |
| print ("create", param) |
| def fin(): |
| print ("fin %s" % param) |
| return param |
| |
| @pytest.fixture(scope="function", params=[1,2]) |
| def otherarg(request): |
| return request.param |
| |
| def test_0(otherarg): |
| print (" test0", otherarg) |
| def test_1(modarg): |
| print (" test1", modarg) |
| def test_2(otherarg, modarg): |
| print (" test2", otherarg, modarg) |
| |
| Let's run the tests in verbose mode and with looking at the print-output:: |
| |
| $ py.test -v -s test_module.py |
| ======= test session starts ======== |
| platform linux -- Python 3.4.0, pytest-2.9.1, py-1.4.31, pluggy-0.3.1 -- $PYTHON_PREFIX/bin/python3.4 |
| cachedir: .cache |
| rootdir: $REGENDOC_TMPDIR, inifile: |
| collecting ... collected 8 items |
| |
| test_module.py::test_0[1] test0 1 |
| PASSED |
| test_module.py::test_0[2] test0 2 |
| PASSED |
| test_module.py::test_1[mod1] create mod1 |
| test1 mod1 |
| PASSED |
| test_module.py::test_2[1-mod1] test2 1 mod1 |
| PASSED |
| test_module.py::test_2[2-mod1] test2 2 mod1 |
| PASSED |
| test_module.py::test_1[mod2] create mod2 |
| test1 mod2 |
| PASSED |
| test_module.py::test_2[1-mod2] test2 1 mod2 |
| PASSED |
| test_module.py::test_2[2-mod2] test2 2 mod2 |
| PASSED |
| |
| ======= 8 passed in 0.12 seconds ======== |
| |
| You can see that the parametrized module-scoped ``modarg`` resource caused |
| an ordering of test execution that lead to the fewest possible "active" resources. The finalizer for the ``mod1`` parametrized resource was executed |
| before the ``mod2`` resource was setup. |
| |
| |
| .. _`usefixtures`: |
| |
| Using fixtures from classes, modules or projects |
| ---------------------------------------------------------------------- |
| |
| .. regendoc:wipe |
| |
| Sometimes test functions do not directly need access to a fixture object. |
| For example, tests may require to operate with an empty directory as the |
| current working directory but otherwise do not care for the concrete |
| directory. Here is how you can can use the standard `tempfile |
| <http://docs.python.org/library/tempfile.html>`_ and pytest fixtures to |
| achieve it. We separate the creation of the fixture into a conftest.py |
| file:: |
| |
| # content of conftest.py |
| |
| import pytest |
| import tempfile |
| import os |
| |
| @pytest.fixture() |
| def cleandir(): |
| newpath = tempfile.mkdtemp() |
| os.chdir(newpath) |
| |
| and declare its use in a test module via a ``usefixtures`` marker:: |
| |
| # content of test_setenv.py |
| import os |
| import pytest |
| |
| @pytest.mark.usefixtures("cleandir") |
| class TestDirectoryInit: |
| def test_cwd_starts_empty(self): |
| assert os.listdir(os.getcwd()) == [] |
| with open("myfile", "w") as f: |
| f.write("hello") |
| |
| def test_cwd_again_starts_empty(self): |
| assert os.listdir(os.getcwd()) == [] |
| |
| Due to the ``usefixtures`` marker, the ``cleandir`` fixture |
| will be required for the execution of each test method, just as if |
| you specified a "cleandir" function argument to each of them. Let's run it |
| to verify our fixture is activated and the tests pass:: |
| |
| $ py.test -q |
| .. |
| 2 passed in 0.12 seconds |
| |
| You can specify multiple fixtures like this: |
| |
| .. code-block:: python |
| |
| @pytest.mark.usefixtures("cleandir", "anotherfixture") |
| |
| and you may specify fixture usage at the test module level, using |
| a generic feature of the mark mechanism: |
| |
| .. code-block:: python |
| |
| pytestmark = pytest.mark.usefixtures("cleandir") |
| |
| Note that the assigned variable *must* be called ``pytestmark``, assigning e.g. |
| ``foomark`` will not activate the fixtures. |
| |
| Lastly you can put fixtures required by all tests in your project |
| into an ini-file: |
| |
| .. code-block:: ini |
| |
| # content of pytest.ini |
| [pytest] |
| usefixtures = cleandir |
| |
| |
| .. _`autouse`: |
| .. _`autouse fixtures`: |
| |
| Autouse fixtures (xUnit setup on steroids) |
| ---------------------------------------------------------------------- |
| |
| .. regendoc:wipe |
| |
| Occasionally, you may want to have fixtures get invoked automatically |
| without a `usefixtures`_ or `funcargs`_ reference. As a practical |
| example, suppose we have a database fixture which has a |
| begin/rollback/commit architecture and we want to automatically surround |
| each test method by a transaction and a rollback. Here is a dummy |
| self-contained implementation of this idea:: |
| |
| # content of test_db_transact.py |
| |
| import pytest |
| |
| class DB: |
| def __init__(self): |
| self.intransaction = [] |
| def begin(self, name): |
| self.intransaction.append(name) |
| def rollback(self): |
| self.intransaction.pop() |
| |
| @pytest.fixture(scope="module") |
| def db(): |
| return DB() |
| |
| class TestClass: |
| @pytest.fixture(autouse=True) |
| def transact(self, request, db): |
| db.begin(request.function.__name__) |
| request.addfinalizer(db.rollback) |
| |
| def test_method1(self, db): |
| assert db.intransaction == ["test_method1"] |
| |
| def test_method2(self, db): |
| assert db.intransaction == ["test_method2"] |
| |
| The class-level ``transact`` fixture is marked with *autouse=true* |
| which implies that all test methods in the class will use this fixture |
| without a need to state it in the test function signature or with a |
| class-level ``usefixtures`` decorator. |
| |
| If we run it, we get two passing tests:: |
| |
| $ py.test -q |
| .. |
| 2 passed in 0.12 seconds |
| |
| Here is how autouse fixtures work in other scopes: |
| |
| - if an autouse fixture is defined in a test module, all its test |
| functions automatically use it. |
| |
| - if an autouse fixture is defined in a conftest.py file then all tests in |
| all test modules below its directory will invoke the fixture. |
| |
| - lastly, and **please use that with care**: if you define an autouse |
| fixture in a plugin, it will be invoked for all tests in all projects |
| where the plugin is installed. This can be useful if a fixture only |
| anyway works in the presence of certain settings e. g. in the ini-file. Such |
| a global fixture should always quickly determine if it should do |
| any work and avoid otherwise expensive imports or computation. |
| |
| Note that the above ``transact`` fixture may very well be a fixture that |
| you want to make available in your project without having it generally |
| active. The canonical way to do that is to put the transact definition |
| into a conftest.py file **without** using ``autouse``:: |
| |
| # content of conftest.py |
| @pytest.fixture() |
| def transact(self, request, db): |
| db.begin() |
| request.addfinalizer(db.rollback) |
| |
| and then e.g. have a TestClass using it by declaring the need:: |
| |
| @pytest.mark.usefixtures("transact") |
| class TestClass: |
| def test_method1(self): |
| ... |
| |
| All test methods in this TestClass will use the transaction fixture while |
| other test classes or functions in the module will not use it unless |
| they also add a ``transact`` reference. |
| |
| Shifting (visibility of) fixture functions |
| ---------------------------------------------------- |
| |
| If during implementing your tests you realize that you |
| want to use a fixture function from multiple test files you can move it |
| to a :ref:`conftest.py <conftest.py>` file or even separately installable |
| :ref:`plugins <plugins>` without changing test code. The discovery of |
| fixtures functions starts at test classes, then test modules, then |
| ``conftest.py`` files and finally builtin and third party plugins. |
| |
| Overriding fixtures on various levels |
| ------------------------------------- |
| |
| In relatively large test suite, you most likely need to ``override`` a ``global`` or ``root`` fixture with a ``locally`` |
| defined one, keeping the test code readable and maintainable. |
| |
| Override a fixture on a folder (conftest) level |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Given the tests file structure is: |
| |
| :: |
| |
| tests/ |
| __init__.py |
| |
| conftest.py |
| # content of tests/conftest.py |
| import pytest |
| |
| @pytest.fixture |
| def username(): |
| return 'username' |
| |
| test_something.py |
| # content of tests/test_something.py |
| def test_username(username): |
| assert username == 'username' |
| |
| subfolder/ |
| __init__.py |
| |
| conftest.py |
| # content of tests/subfolder/conftest.py |
| import pytest |
| |
| @pytest.fixture |
| def username(username): |
| return 'overridden-' + username |
| |
| test_something.py |
| # content of tests/subfolder/test_something.py |
| def test_username(username): |
| assert username == 'overridden-username' |
| |
| As you can see, a fixture with the same name can be overridden for certain test folder level. |
| Note that the ``base`` or ``super`` fixture can be accessed from the ``overriding`` |
| fixture easily - used in the example above. |
| |
| Override a fixture on a test module level |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Given the tests file structure is: |
| |
| :: |
| |
| tests/ |
| __init__.py |
| |
| conftest.py |
| # content of tests/conftest.py |
| @pytest.fixture |
| def username(): |
| return 'username' |
| |
| test_something.py |
| # content of tests/test_something.py |
| import pytest |
| |
| @pytest.fixture |
| def username(username): |
| return 'overridden-' + username |
| |
| def test_username(username): |
| assert username == 'overridden-username' |
| |
| test_something_else.py |
| # content of tests/test_something_else.py |
| import pytest |
| |
| @pytest.fixture |
| def username(username): |
| return 'overridden-else-' + username |
| |
| def test_username(username): |
| assert username == 'overridden-else-username' |
| |
| In the example above, a fixture with the same name can be overridden for certain test module. |
| |
| |
| Override a fixture with direct test parametrization |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Given the tests file structure is: |
| |
| :: |
| |
| tests/ |
| __init__.py |
| |
| conftest.py |
| # content of tests/conftest.py |
| import pytest |
| |
| @pytest.fixture |
| def username(): |
| return 'username' |
| |
| @pytest.fixture |
| def other_username(username): |
| return 'other-' + username |
| |
| test_something.py |
| # content of tests/test_something.py |
| import pytest |
| |
| @pytest.mark.parametrize('username', ['directly-overridden-username']) |
| def test_username(username): |
| assert username == 'directly-overridden-username' |
| |
| @pytest.mark.parametrize('username', ['directly-overridden-username-other']) |
| def test_username_other(other_username): |
| assert username == 'other-directly-overridden-username-other' |
| |
| In the example above, a fixture value is overridden by the test parameter value. Note that the value of the fixture |
| can be overridden this way even if the test doesn't use it directly (doesn't mention it in the function prototype). |
| |
| |
| Override a parametrized fixture with non-parametrized one and vice versa |
| ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^ |
| |
| Given the tests file structure is: |
| |
| :: |
| |
| tests/ |
| __init__.py |
| |
| conftest.py |
| # content of tests/conftest.py |
| import pytest |
| |
| @pytest.fixture(params=['one', 'two', 'three']) |
| def parametrized_username(request): |
| return request.param |
| |
| @pytest.fixture |
| def non_parametrized_username(request): |
| return 'username' |
| |
| test_something.py |
| # content of tests/test_something.py |
| import pytest |
| |
| @pytest.fixture |
| def parametrized_username(): |
| return 'overridden-username' |
| |
| @pytest.fixture(params=['one', 'two', 'three']) |
| def non_parametrized_username(request): |
| return request.param |
| |
| def test_username(parametrized_username): |
| assert parametrized_username == 'overridden-username' |
| |
| def test_parametrized_username(non_parametrized_username): |
| assert non_parametrized_username in ['one', 'two', 'three'] |
| |
| test_something_else.py |
| # content of tests/test_something_else.py |
| def test_username(parametrized_username): |
| assert parametrized_username in ['one', 'two', 'three'] |
| |
| def test_username(non_parametrized_username): |
| assert non_parametrized_username == 'username' |
| |
| In the example above, a parametrized fixture is overridden with a non-parametrized version, and |
| a non-parametrized fixture is overridden with a parametrized version for certain test module. |
| The same applies for the test folder level obviously. |