456 lines
16 KiB
ReStructuredText
456 lines
16 KiB
ReStructuredText
.. _reference-fixtures:
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.. _fixture:
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.. _fixtures:
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.. _`@pytest.fixture`:
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.. _`pytest.fixture`:
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Fixtures reference
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========================================================
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.. seealso:: :ref:`about-fixtures`
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.. seealso:: :ref:`how-to-fixtures`
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.. currentmodule:: _pytest.python
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.. _`Dependency injection`: https://en.wikipedia.org/wiki/Dependency_injection
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Built-in fixtures
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-----------------
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:ref:`Fixtures <fixtures-api>` are defined using the :ref:`@pytest.fixture
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<pytest.fixture-api>` decorator. Pytest has several useful built-in fixtures:
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:fixture:`capfd`
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Capture, as text, output to file descriptors ``1`` and ``2``.
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:fixture:`capfdbinary`
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Capture, as bytes, output to file descriptors ``1`` and ``2``.
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:fixture:`caplog`
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Control logging and access log entries.
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:fixture:`capsys`
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Capture, as text, output to ``sys.stdout`` and ``sys.stderr``.
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:fixture:`capsysbinary`
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Capture, as bytes, output to ``sys.stdout`` and ``sys.stderr``.
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:fixture:`cache`
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Store and retrieve values across pytest runs.
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:fixture:`doctest_namespace`
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Provide a dict injected into the docstests namespace.
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:fixture:`monkeypatch`
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Temporarily modify classes, functions, dictionaries,
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``os.environ``, and other objects.
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:fixture:`pytestconfig`
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Access to configuration values, pluginmanager and plugin hooks.
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:fixture:`record_property`
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Add extra properties to the test.
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:fixture:`record_testsuite_property`
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Add extra properties to the test suite.
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:fixture:`recwarn`
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Record warnings emitted by test functions.
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:fixture:`request`
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Provide information on the executing test function.
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:fixture:`testdir`
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Provide a temporary test directory to aid in running, and
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testing, pytest plugins.
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:fixture:`tmp_path`
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Provide a :class:`pathlib.Path` object to a temporary directory
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which is unique to each test function.
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:fixture:`tmp_path_factory`
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Make session-scoped temporary directories and return
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:class:`pathlib.Path` objects.
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:fixture:`tmpdir`
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Provide a :class:`py.path.local` object to a temporary
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directory which is unique to each test function;
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replaced by :fixture:`tmp_path`.
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.. _`py.path.local`: https://py.readthedocs.io/en/latest/path.html
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:fixture:`tmpdir_factory`
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Make session-scoped temporary directories and return
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:class:`py.path.local` objects;
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replaced by :fixture:`tmp_path_factory`.
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.. _`conftest.py`:
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.. _`conftest`:
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Fixture availability
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---------------------
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Fixture availability is determined from the perspective of the test. A fixture
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is only available for tests to request if they are in the scope that fixture is
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defined in. If a fixture is defined inside a class, it can only be requested by
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tests inside that class. But if a fixture is defined inside the global scope of
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the module, than every test in that module, even if it's defined inside a class,
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can request it.
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Similarly, a test can also only be affected by an autouse fixture if that test
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is in the same scope that autouse fixture is defined in (see
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:ref:`autouse order`).
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A fixture can also request any other fixture, no matter where it's defined, so
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long as the test requesting them can see all fixtures involved.
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For example, here's a test file with a fixture (``outer``) that requests a
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fixture (``inner``) from a scope it wasn't defined in:
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.. literalinclude:: /example/fixtures/test_fixtures_request_different_scope.py
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From the tests' perspectives, they have no problem seeing each of the fixtures
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they're dependent on:
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.. image:: /example/fixtures/test_fixtures_request_different_scope.*
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:align: center
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So when they run, ``outer`` will have no problem finding ``inner``, because
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pytest searched from the tests' perspectives.
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.. note::
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The scope a fixture is defined in has no bearing on the order it will be
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instantiated in: the order is mandated by the logic described
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:ref:`here <fixture order>`.
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``conftest.py``: sharing fixtures across multiple files
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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The ``conftest.py`` file serves as a means of providing fixtures for an entire
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directory. Fixtures defined in a ``conftest.py`` can be used by any test
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in that package without needing to import them (pytest will automatically
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discover them).
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You can have multiple nested directories/packages containing your tests, and
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each directory can have its own ``conftest.py`` with its own fixtures, adding on
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to the ones provided by the ``conftest.py`` files in parent directories.
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For example, given a test file structure like this:
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::
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tests/
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__init__.py
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conftest.py
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# content of tests/conftest.py
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import pytest
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@pytest.fixture
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def order():
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return []
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@pytest.fixture
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def top(order, innermost):
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order.append("top")
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test_top.py
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# content of tests/test_top.py
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import pytest
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@pytest.fixture
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def innermost(order):
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order.append("innermost top")
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def test_order(order, top):
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assert order == ["innermost top", "top"]
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subpackage/
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__init__.py
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conftest.py
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# content of tests/subpackage/conftest.py
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import pytest
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@pytest.fixture
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def mid(order):
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order.append("mid subpackage")
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test_subpackage.py
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# content of tests/subpackage/test_subpackage.py
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import pytest
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@pytest.fixture
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def innermost(order, mid):
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order.append("innermost subpackage")
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def test_order(order, top):
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assert order == ["mid subpackage", "innermost subpackage", "top"]
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The boundaries of the scopes can be visualized like this:
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.. image:: /example/fixtures/fixture_availability.*
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:align: center
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The directories become their own sort of scope where fixtures that are defined
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in a ``conftest.py`` file in that directory become available for that whole
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scope.
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Tests are allowed to search upward (stepping outside a circle) for fixtures, but
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can never go down (stepping inside a circle) to continue their search. So
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``tests/subpackage/test_subpackage.py::test_order`` would be able to find the
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``innermost`` fixture defined in ``tests/subpackage/test_subpackage.py``, but
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the one defined in ``tests/test_top.py`` would be unavailable to it because it
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would have to step down a level (step inside a circle) to find it.
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The first fixture the test finds is the one that will be used, so
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:ref:`fixtures can be overridden <override fixtures>` if you need to change or
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extend what one does for a particular scope.
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You can also use the ``conftest.py`` file to implement
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:ref:`local per-directory plugins <conftest.py plugins>`.
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Fixtures from third-party plugins
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Fixtures don't have to be defined in this structure to be available for tests,
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though. They can also be provided by third-party plugins that are installed, and
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this is how many pytest plugins operate. As long as those plugins are installed,
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the fixtures they provide can be requested from anywhere in your test suite.
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Because they're provided from outside the structure of your test suite,
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third-party plugins don't really provide a scope like `conftest.py` files and
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the directories in your test suite do. As a result, pytest will search for
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fixtures stepping out through scopes as explained previously, only reaching
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fixtures defined in plugins *last*.
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For example, given the following file structure:
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::
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tests/
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__init__.py
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conftest.py
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# content of tests/conftest.py
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import pytest
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@pytest.fixture
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def order():
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return []
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subpackage/
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__init__.py
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conftest.py
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# content of tests/subpackage/conftest.py
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import pytest
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@pytest.fixture(autouse=True)
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def mid(order, b_fix):
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order.append("mid subpackage")
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test_subpackage.py
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# content of tests/subpackage/test_subpackage.py
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import pytest
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@pytest.fixture
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def inner(order, mid, a_fix):
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order.append("inner subpackage")
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def test_order(order, inner):
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assert order == ["b_fix", "mid subpackage", "a_fix", "inner subpackage"]
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If ``plugin_a`` is installed and provides the fixture ``a_fix``, and
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``plugin_b`` is installed and provides the fixture ``b_fix``, then this is what
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the test's search for fixtures would look like:
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.. image:: /example/fixtures/fixture_availability_plugins.svg
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:align: center
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pytest will only search for ``a_fix`` and ``b_fix`` in the plugins after
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searching for them first in the scopes inside ``tests/``.
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.. note:
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pytest can tell you what fixtures are available for a given test if you call
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``pytests`` along with the test's name (or the scope it's in), and provide
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the ``--fixtures`` flag, e.g. ``pytest --fixtures test_something.py``
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(fixtures with names that start with ``_`` will only be shown if you also
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provide the ``-v`` flag).
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.. _`fixture order`:
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Fixture instantiation order
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---------------------------
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When pytest wants to execute a test, once it knows what fixtures will be
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executed, it has to figure out the order they'll be executed in. To do this, it
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considers 3 factors:
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1. scope
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2. dependencies
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3. autouse
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Names of fixtures or tests, where they're defined, the order they're defined in,
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and the order fixtures are requested in have no bearing on execution order
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beyond coincidence. While pytest will try to make sure coincidences like these
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stay consistent from run to run, it's not something that should be depended on.
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If you want to control the order, it's safest to rely on these 3 things and make
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sure dependencies are clearly established.
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Higher-scoped fixtures are executed first
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Within a function request for fixtures, those of higher-scopes (such as
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``session``) are executed before lower-scoped fixtures (such as ``function`` or
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``class``).
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Here's an example:
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.. literalinclude:: /example/fixtures/test_fixtures_order_scope.py
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The test will pass because the larger scoped fixtures are executing first.
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The order breaks down to this:
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.. image:: /example/fixtures/test_fixtures_order_scope.*
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:align: center
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Fixtures of the same order execute based on dependencies
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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When a fixture requests another fixture, the other fixture is executed first.
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So if fixture ``a`` requests fixture ``b``, fixture ``b`` will execute first,
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because ``a`` depends on ``b`` and can't operate without it. Even if ``a``
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doesn't need the result of ``b``, it can still request ``b`` if it needs to make
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sure it is executed after ``b``.
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For example:
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.. literalinclude:: /example/fixtures/test_fixtures_order_dependencies.py
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If we map out what depends on what, we get something that look like this:
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.. image:: /example/fixtures/test_fixtures_order_dependencies.*
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:align: center
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The rules provided by each fixture (as to what fixture(s) each one has to come
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after) are comprehensive enough that it can be flattened to this:
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.. image:: /example/fixtures/test_fixtures_order_dependencies_flat.*
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:align: center
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Enough information has to be provided through these requests in order for pytest
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to be able to figure out a clear, linear chain of dependencies, and as a result,
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an order of operations for a given test. If there's any ambiguity, and the order
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of operations can be interpreted more than one way, you should assume pytest
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could go with any one of those interpretations at any point.
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For example, if ``d`` didn't request ``c``, i.e.the graph would look like this:
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.. image:: /example/fixtures/test_fixtures_order_dependencies_unclear.*
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:align: center
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Because nothing requested ``c`` other than ``g``, and ``g`` also requests ``f``,
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it's now unclear if ``c`` should go before/after ``f``, ``e``, or ``d``. The
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only rules that were set for ``c`` is that it must execute after ``b`` and
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before ``g``.
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pytest doesn't know where ``c`` should go in the case, so it should be assumed
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that it could go anywhere between ``g`` and ``b``.
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This isn't necessarily bad, but it's something to keep in mind. If the order
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they execute in could affect the behavior a test is targeting, or could
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otherwise influence the result of a test, then the order should be defined
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explicitly in a way that allows pytest to linearize/"flatten" that order.
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.. _`autouse order`:
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Autouse fixtures are executed first within their scope
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^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
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Autouse fixtures are assumed to apply to every test that could reference them,
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so they are executed before other fixtures in that scope. Fixtures that are
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requested by autouse fixtures effectively become autouse fixtures themselves for
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the tests that the real autouse fixture applies to.
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So if fixture ``a`` is autouse and fixture ``b`` is not, but fixture ``a``
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requests fixture ``b``, then fixture ``b`` will effectively be an autouse
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fixture as well, but only for the tests that ``a`` applies to.
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In the last example, the graph became unclear if ``d`` didn't request ``c``. But
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if ``c`` was autouse, then ``b`` and ``a`` would effectively also be autouse
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because ``c`` depends on them. As a result, they would all be shifted above
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non-autouse fixtures within that scope.
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So if the test file looked like this:
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.. literalinclude:: /example/fixtures/test_fixtures_order_autouse.py
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the graph would look like this:
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.. image:: /example/fixtures/test_fixtures_order_autouse.*
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:align: center
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Because ``c`` can now be put above ``d`` in the graph, pytest can once again
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linearize the graph to this:
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.. image:: /example/fixtures/test_fixtures_order_autouse_flat.*
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:align: center
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In this example, ``c`` makes ``b`` and ``a`` effectively autouse fixtures as
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well.
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Be careful with autouse, though, as an autouse fixture will automatically
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execute for every test that can reach it, even if they don't request it. For
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example, consider this file:
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.. literalinclude:: /example/fixtures/test_fixtures_order_autouse_multiple_scopes.py
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Even though nothing in ``TestClassWithoutC1Request`` is requesting ``c1``, it still
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is executed for the tests inside it anyway:
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.. image:: /example/fixtures/test_fixtures_order_autouse_multiple_scopes.*
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:align: center
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But just because one autouse fixture requested a non-autouse fixture, that
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doesn't mean the non-autouse fixture becomes an autouse fixture for all contexts
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that it can apply to. It only effectively becomes an autouse fixture for the
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contexts the real autouse fixture (the one that requested the non-autouse
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fixture) can apply to.
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For example, take a look at this test file:
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.. literalinclude:: /example/fixtures/test_fixtures_order_autouse_temp_effects.py
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It would break down to something like this:
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.. image:: /example/fixtures/test_fixtures_order_autouse_temp_effects.*
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:align: center
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For ``test_req`` and ``test_no_req`` inside ``TestClassWithAutouse``, ``c3``
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effectively makes ``c2`` an autouse fixture, which is why ``c2`` and ``c3`` are
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executed for both tests, despite not being requested, and why ``c2`` and ``c3``
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are executed before ``c1`` for ``test_req``.
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If this made ``c2`` an *actual* autouse fixture, then ``c2`` would also execute
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for the tests inside ``TestClassWithoutAutouse``, since they can reference
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``c2`` if they wanted to. But it doesn't, because from the perspective of the
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``TestClassWithoutAutouse`` tests, ``c2`` isn't an autouse fixture, since they
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can't see ``c3``.
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.. note:
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pytest can tell you what order the fixtures will execute in for a given test
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if you call ``pytests`` along with the test's name (or the scope it's in),
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and provide the ``--setup-plan`` flag, e.g.
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``pytest --setup-plan test_something.py`` (fixtures with names that start
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with ``_`` will only be shown if you also provide the ``-v`` flag).
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