.. _`skip and xfail`: .. _skipping: Skip and xfail: dealing with tests that cannot succeed ====================================================== You can mark test functions that cannot be run on certain platforms or that you expect to fail so pytest can deal with them accordingly and present a summary of the test session, while keeping the test suite *green*. A **skip** means that you expect your test to pass only if some conditions are met, otherwise pytest should skip running the test altogether. Common examples are skipping windows-only tests on non-windows platforms, or skipping tests that depend on an external resource which is not available at the moment (for example a database). A **xfail** means that you expect a test to fail for some reason. A common example is a test for a feature not yet implemented, or a bug not yet fixed. When a test passes despite being expected to fail (marked with ``pytest.mark.xfail``), it's an **xpass** and will be reported in the test summary. ``pytest`` counts and lists *skip* and *xfail* tests separately. Detailed information about skipped/xfailed tests is not shown by default to avoid cluttering the output. You can use the ``-r`` option to see details corresponding to the "short" letters shown in the test progress:: pytest -rxXs # show extra info on xfailed, xpassed, and skipped tests More details on the ``-r`` option can be found by running ``pytest -h``. (See :ref:`how to change command line options defaults`) .. _skipif: .. _skip: .. _`condition booleans`: Skipping test functions ----------------------- .. versionadded:: 2.9 The simplest way to skip a test function is to mark it with the ``skip`` decorator which may be passed an optional ``reason``: .. code-block:: python @pytest.mark.skip(reason="no way of currently testing this") def test_the_unknown(): ... Alternatively, it is also possible to skip imperatively during test execution or setup by calling the ``pytest.skip(reason)`` function: .. code-block:: python def test_function(): if not valid_config(): pytest.skip("unsupported configuration") The imperative method is useful when it is not possible to evaluate the skip condition during import time. It is also possible to skip the whole module using ``pytest.skip(reason, allow_module_level=True)`` at the module level: .. code-block:: python import sys import pytest if not sys.platform.startswith("win"): pytest.skip("skipping windows-only tests", allow_module_level=True) **Reference**: :ref:`pytest.mark.skip ref` ``skipif`` ~~~~~~~~~~ .. versionadded:: 2.0 If you wish to skip something conditionally then you can use ``skipif`` instead. Here is an example of marking a test function to be skipped when run on an interpreter earlier than Python3.6 :: import sys @pytest.mark.skipif(sys.version_info < (3,6), reason="requires python3.6 or higher") def test_function(): ... If the condition evaluates to ``True`` during collection, the test function will be skipped, with the specified reason appearing in the summary when using ``-rs``. You can share ``skipif`` markers between modules. Consider this test module:: # content of test_mymodule.py import mymodule minversion = pytest.mark.skipif(mymodule.__versioninfo__ < (1,1), reason="at least mymodule-1.1 required") @minversion def test_function(): ... You can import the marker and reuse it in another test module:: # test_myothermodule.py from test_mymodule import minversion @minversion def test_anotherfunction(): ... For larger test suites it's usually a good idea to have one file where you define the markers which you then consistently apply throughout your test suite. Alternatively, you can use :ref:`condition strings ` instead of booleans, but they can't be shared between modules easily so they are supported mainly for backward compatibility reasons. **Reference**: :ref:`pytest.mark.skipif ref` Skip all test functions of a class or module ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ You can use the ``skipif`` marker (as any other marker) on classes:: @pytest.mark.skipif(sys.platform == 'win32', reason="does not run on windows") class TestPosixCalls(object): def test_function(self): "will not be setup or run under 'win32' platform" If the condition is ``True``, this marker will produce a skip result for each of the test methods of that class. If you want to skip all test functions of a module, you may use the ``pytestmark`` name on the global level: .. code-block:: python # test_module.py pytestmark = pytest.mark.skipif(...) If multiple ``skipif`` decorators are applied to a test function, it will be skipped if any of the skip conditions is true. .. _`whole class- or module level`: mark.html#scoped-marking Skipping files or directories ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ Sometimes you may need to skip an entire file or directory, for example if the tests rely on Python version-specific features or contain code that you do not wish pytest to run. In this case, you must exclude the files and directories from collection. Refer to :ref:`customizing-test-collection` for more information. Skipping on a missing import dependency ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ You can use the following helper at module level or within a test or test setup function:: docutils = pytest.importorskip("docutils") If ``docutils`` cannot be imported here, this will lead to a skip outcome of the test. You can also skip based on the version number of a library:: docutils = pytest.importorskip("docutils", minversion="0.3") The version will be read from the specified module's ``__version__`` attribute. Summary ~~~~~~~ Here's a quick guide on how to skip tests in a module in different situations: 1. Skip all tests in a module unconditionally: .. code-block:: python pytestmark = pytest.mark.skip("all tests still WIP") 2. Skip all tests in a module based on some condition: .. code-block:: python pytestmark = pytest.mark.skipif(sys.platform == "win32", "tests for linux only") 3. Skip all tests in a module if some import is missing: .. code-block:: python pexpect = pytest.importorskip("pexpect") .. _xfail: XFail: mark test functions as expected to fail ---------------------------------------------- You can use the ``xfail`` marker to indicate that you expect a test to fail:: @pytest.mark.xfail def test_function(): ... This test will be run but no traceback will be reported when it fails. Instead terminal reporting will list it in the "expected to fail" (``XFAIL``) or "unexpectedly passing" (``XPASS``) sections. Alternatively, you can also mark a test as ``XFAIL`` from within a test or setup function imperatively: .. code-block:: python def test_function(): if not valid_config(): pytest.xfail("failing configuration (but should work)") This will unconditionally make ``test_function`` ``XFAIL``. Note that no other code is executed after ``pytest.xfail`` call, differently from the marker. That's because it is implemented internally by raising a known exception. **Reference**: :ref:`pytest.mark.xfail ref` .. _`xfail strict tutorial`: ``strict`` parameter ~~~~~~~~~~~~~~~~~~~~ .. versionadded:: 2.9 Both ``XFAIL`` and ``XPASS`` don't fail the test suite, unless the ``strict`` keyword-only parameter is passed as ``True``: .. code-block:: python @pytest.mark.xfail(strict=True) def test_function(): ... This will make ``XPASS`` ("unexpectedly passing") results from this test to fail the test suite. You can change the default value of the ``strict`` parameter using the ``xfail_strict`` ini option: .. code-block:: ini [pytest] xfail_strict=true ``reason`` parameter ~~~~~~~~~~~~~~~~~~~~ As with skipif_ you can also mark your expectation of a failure on a particular platform:: @pytest.mark.xfail(sys.version_info >= (3,6), reason="python3.6 api changes") def test_function(): ... ``raises`` parameter ~~~~~~~~~~~~~~~~~~~~ If you want to be more specific as to why the test is failing, you can specify a single exception, or a tuple of exceptions, in the ``raises`` argument. .. code-block:: python @pytest.mark.xfail(raises=RuntimeError) def test_function(): ... Then the test will be reported as a regular failure if it fails with an exception not mentioned in ``raises``. ``run`` parameter ~~~~~~~~~~~~~~~~~ If a test should be marked as xfail and reported as such but should not be even executed, use the ``run`` parameter as ``False``: .. code-block:: python @pytest.mark.xfail(run=False) def test_function(): ... This is specially useful for xfailing tests that are crashing the interpreter and should be investigated later. Ignoring xfail ~~~~~~~~~~~~~~ By specifying on the commandline:: pytest --runxfail you can force the running and reporting of an ``xfail`` marked test as if it weren't marked at all. This also causes ``pytest.xfail`` to produce no effect. Examples ~~~~~~~~ Here is a simple test file with the several usages: .. literalinclude:: example/xfail_demo.py Running it with the report-on-xfail option gives this output:: example $ pytest -rx xfail_demo.py =========================== test session starts ============================ platform linux -- Python 3.x.y, pytest-3.x.y, py-1.x.y, pluggy-0.x.y rootdir: $REGENDOC_TMPDIR/example, inifile: collected 7 items xfail_demo.py xxxxxxx [100%] ========================= short test summary info ========================== XFAIL xfail_demo.py::test_hello XFAIL xfail_demo.py::test_hello2 reason: [NOTRUN] XFAIL xfail_demo.py::test_hello3 condition: hasattr(os, 'sep') XFAIL xfail_demo.py::test_hello4 bug 110 XFAIL xfail_demo.py::test_hello5 condition: pytest.__version__[0] != "17" XFAIL xfail_demo.py::test_hello6 reason: reason XFAIL xfail_demo.py::test_hello7 ======================== 7 xfailed in 0.12 seconds ========================= .. _`skip/xfail with parametrize`: Skip/xfail with parametrize --------------------------- It is possible to apply markers like skip and xfail to individual test instances when using parametrize: .. code-block:: python import pytest @pytest.mark.parametrize( ("n", "expected"), [ (1, 2), pytest.param(1, 0, marks=pytest.mark.xfail), pytest.param(1, 3, marks=pytest.mark.xfail(reason="some bug")), (2, 3), (3, 4), (4, 5), pytest.param( 10, 11, marks=pytest.mark.skipif(sys.version_info >= (3, 0), reason="py2k") ), ], ) def test_increment(n, expected): assert n + 1 == expected