.. _plugins: .. _`writing-plugins`: Writing plugins =============== It is easy to implement `local conftest plugins`_ for your own project or `pip-installable plugins`_ that can be used throughout many projects, including third party projects. Please refer to :ref:`using plugins` if you only want to use but not write plugins. A plugin contains one or multiple hook functions. :ref:`Writing hooks ` explains the basics and details of how you can write a hook function yourself. ``pytest`` implements all aspects of configuration, collection, running and reporting by calling `well specified hooks`_ of the following plugins: * :ref:`builtin plugins`: loaded from pytest's internal ``_pytest`` directory. * :ref:`external plugins `: modules discovered through `setuptools entry points`_ * `conftest.py plugins`_: modules auto-discovered in test directories In principle, each hook call is a ``1:N`` Python function call where ``N`` is the number of registered implementation functions for a given specification. All specifications and implementations following the ``pytest_`` prefix naming convention, making them easy to distinguish and find. .. _`pluginorder`: Plugin discovery order at tool startup -------------------------------------- ``pytest`` loads plugin modules at tool startup in the following way: * by loading all builtin plugins * by loading all plugins registered through `setuptools entry points`_. * by pre-scanning the command line for the ``-p name`` option and loading the specified plugin before actual command line parsing. * by loading all :file:`conftest.py` files as inferred by the command line invocation: - if no test paths are specified use current dir as a test path - if exists, load ``conftest.py`` and ``test*/conftest.py`` relative to the directory part of the first test path. Note that pytest does not find ``conftest.py`` files in deeper nested sub directories at tool startup. It is usually a good idea to keep your conftest.py file in the top level test or project root directory. * by recursively loading all plugins specified by the ``pytest_plugins`` variable in ``conftest.py`` files .. _`pytest/plugin`: http://bitbucket.org/pytest-dev/pytest/src/tip/pytest/plugin/ .. _`conftest.py plugins`: .. _`conftest.py`: .. _`localplugin`: .. _`conftest`: .. _`local conftest plugins`: conftest.py: local per-directory plugins ---------------------------------------- Local ``conftest.py`` plugins contain directory-specific hook implementations. Hook Session and test running activities will invoke all hooks defined in ``conftest.py`` files closer to the root of the filesystem. Example of implementing the ``pytest_runtest_setup`` hook so that is called for tests in the ``a`` sub directory but not for other directories:: a/conftest.py: def pytest_runtest_setup(item): # called for running each test in 'a' directory print ("setting up", item) a/test_sub.py: def test_sub(): pass test_flat.py: def test_flat(): pass Here is how you might run it:: py.test test_flat.py # will not show "setting up" py.test a/test_sub.py # will show "setting up" .. Note:: If you have ``conftest.py`` files which do not reside in a python package directory (i.e. one containing an ``__init__.py``) then "import conftest" can be ambiguous because there might be other ``conftest.py`` files as well on your PYTHONPATH or ``sys.path``. It is thus good practise for projects to either put ``conftest.py`` under a package scope or to never import anything from a conftest.py file. Writing your own plugin ----------------------- .. _`setuptools`: http://pypi.python.org/pypi/setuptools If you want to write a plugin, there are many real-life examples you can copy from: * a custom collection example plugin: :ref:`yaml plugin` * around 20 doc:`builtin plugins` which provide pytest's own functionality * many `external plugins `_ providing additional features All of these plugins implement the documented `well specified hooks`_ to extend and add functionality. .. note:: Make sure to check out the excellent `cookiecutter-pytest-plugin `_ project, which is a `cookiecutter template `_ for authoring plugins. The template provides an excellent starting point with a working plugin, tests running with tox, comprehensive README and entry-pointy already pre-configured. Also consider :ref:`contributing your plugin to pytest-dev` once it has some happy users other than yourself. .. _`setuptools entry points`: .. _`pip-installable plugins`: Making your plugin installable by others ---------------------------------------- If you want to make your plugin externally available, you may define a so-called entry point for your distribution so that ``pytest`` finds your plugin module. Entry points are a feature that is provided by `setuptools`_. pytest looks up the ``pytest11`` entrypoint to discover its plugins and you can thus make your plugin available by defining it in your setuptools-invocation: .. sourcecode:: python # sample ./setup.py file from setuptools import setup setup( name="myproject", packages = ['myproject'] # the following makes a plugin available to pytest entry_points = { 'pytest11': [ 'name_of_plugin = myproject.pluginmodule', ] }, ) If a package is installed this way, ``pytest`` will load ``myproject.pluginmodule`` as a plugin which can define `well specified hooks`_. Requiring/Loading plugins in a test module or conftest file ----------------------------------------------------------- You can require plugins in a test module or a conftest file like this:: pytest_plugins = "name1", "name2", When the test module or conftest plugin is loaded the specified plugins will be loaded as well. You can also use dotted path like this:: pytest_plugins = "myapp.testsupport.myplugin" which will import the specified module as a ``pytest`` plugin. Accessing another plugin by name -------------------------------- If a plugin wants to collaborate with code from another plugin it can obtain a reference through the plugin manager like this: .. sourcecode:: python plugin = config.pluginmanager.getplugin("name_of_plugin") If you want to look at the names of existing plugins, use the ``--traceconfig`` option. Testing plugins --------------- pytest comes with some facilities that you can enable for testing your plugin. Given that you have an installed plugin you can enable the :py:class:`testdir <_pytest.pytester.Testdir>` fixture via specifying a command line option to include the pytester plugin (``-p pytester``) or by putting ``pytest_plugins = "pytester"`` into your test or ``conftest.py`` file. You then will have a ``testdir`` fixture which you can use like this:: # content of test_myplugin.py pytest_plugins = "pytester" # to get testdir fixture def test_myplugin(testdir): testdir.makepyfile(""" def test_example(): pass """) result = testdir.runpytest("--verbose") result.fnmatch_lines(""" test_example* """) Note that by default ``testdir.runpytest()`` will perform a pytest in-process. You can pass the command line option ``--runpytest=subprocess`` to have it happen in a subprocess. Also see the :py:class:`RunResult <_pytest.pytester.RunResult>` for more methods of the result object that you get from a call to ``runpytest``. .. _`writinghooks`: Writing hook functions ====================== .. _validation: hook function validation and execution -------------------------------------- pytest calls hook functions from registered plugins for any given hook specification. Let's look at a typical hook function for the ``pytest_collection_modifyitems(session, config, items)`` hook which pytest calls after collection of all test items is completed. When we implement a ``pytest_collection_modifyitems`` function in our plugin pytest will during registration verify that you use argument names which match the specification and bail out if not. Let's look at a possible implementation: .. code-block:: python def pytest_collection_modifyitems(config, items): # called after collection is completed # you can modify the ``items`` list Here, ``pytest`` will pass in ``config`` (the pytest config object) and ``items`` (the list of collected test items) but will not pass in the ``session`` argument because we didn't list it in the function signature. This dynamic "pruning" of arguments allows ``pytest`` to be "future-compatible": we can introduce new hook named parameters without breaking the signatures of existing hook implementations. It is one of the reasons for the general long-lived compatibility of pytest plugins. Note that hook functions other than ``pytest_runtest_*`` are not allowed to raise exceptions. Doing so will break the pytest run. firstresult: stop at first non-None result ------------------------------------------- Most calls to ``pytest`` hooks result in a **list of results** which contains all non-None results of the called hook functions. Some hook specifications use the ``firstresult=True`` option so that the hook call only executes until the first of N registered functions returns a non-None result which is then taken as result of the overall hook call. The remaining hook functions will not be called in this case. hookwrapper: executing around other hooks ------------------------------------------------- .. currentmodule:: _pytest.core .. versionadded:: 2.7 (experimental) pytest plugins can implement hook wrappers which wrap the execution of other hook implementations. A hook wrapper is a generator function which yields exactly once. When pytest invokes hooks it first executes hook wrappers and passes the same arguments as to the regular hooks. At the yield point of the hook wrapper pytest will execute the next hook implementations and return their result to the yield point in the form of a :py:class:`CallOutcome` instance which encapsulates a result or exception info. The yield point itself will thus typically not raise exceptions (unless there are bugs). Here is an example definition of a hook wrapper:: import pytest @pytest.hookimpl(hookwrapper=True) def pytest_pyfunc_call(pyfuncitem): # do whatever you want before the next hook executes outcome = yield # outcome.excinfo may be None or a (cls, val, tb) tuple res = outcome.get_result() # will raise if outcome was exception # postprocess result Note that hook wrappers don't return results themselves, they merely perform tracing or other side effects around the actual hook implementations. If the result of the underlying hook is a mutable object, they may modify that result but it's probably better to avoid it. Hook function ordering / call example ------------------------------------- For any given hook specification there may be more than one implementation and we thus generally view ``hook`` execution as a ``1:N`` function call where ``N`` is the number of registered functions. There are ways to influence if a hook implementation comes before or after others, i.e. the position in the ``N``-sized list of functions: .. code-block:: python # Plugin 1 @pytest.hookimpl(tryfirst=True) def pytest_collection_modifyitems(items): # will execute as early as possible # Plugin 2 @pytest.hookimpl(trylast=True) def pytest_collection_modifyitems(items): # will execute as late as possible # Plugin 3 @pytest.hookimpl(hookwrapper=True) def pytest_collection_modifyitems(items): # will execute even before the tryfirst one above! outcome = yield # will execute after all non-hookwrappers executed Here is the order of execution: 1. Plugin3's pytest_collection_modifyitems called until the yield point because it is a hook wrapper. 2. Plugin1's pytest_collection_modifyitems is called because it is marked with ``tryfirst=True``. 3. Plugin2's pytest_collection_modifyitems is called because it is marked with ``trylast=True`` (but even without this mark it would come after Plugin1). 4. Plugin3's pytest_collection_modifyitems then executing the code after the yield point. The yield receives a :py:class:`CallOutcome` instance which encapsulates the result from calling the non-wrappers. Wrappers shall not modify the result. It's possible to use ``tryfirst`` and ``trylast`` also in conjunction with ``hookwrapper=True`` in which case it will influence the ordering of hookwrappers among each other. Declaring new hooks ------------------------ .. currentmodule:: _pytest.hookspec Plugins and ``conftest.py`` files may declare new hooks that can then be implemented by other plugins in order to alter behaviour or interact with the new plugin: .. autofunction:: pytest_addhooks Hooks are usually declared as do-nothing functions that contain only documentation describing when the hook will be called and what return values are expected. For an example, see `newhooks.py`_ from :ref:`xdist`. .. _`newhooks.py`: https://github.com/pytest-dev/pytest-xdist/blob/974bd566c599dc6a9ea291838c6f226197208b46/xdist/newhooks.py Optionally using hooks from 3rd party plugins --------------------------------------------- Using new hooks from plugins as explained above might be a little tricky because of the standard :ref:`validation mechanism `: if you depend on a plugin that is not installed, validation will fail and the error message will not make much sense to your users. One approach is to defer the hook implementation to a new plugin instead of declaring the hook functions directly in your plugin module, for example:: # contents of myplugin.py class DeferPlugin(object): """Simple plugin to defer pytest-xdist hook functions.""" def pytest_testnodedown(self, node, error): """standard xdist hook function. """ def pytest_configure(config): if config.pluginmanager.hasplugin('xdist'): config.pluginmanager.register(DeferPlugin()) This has the added benefit of allowing you to conditionally install hooks depending on which plugins are installed. .. _`well specified hooks`: .. currentmodule:: _pytest.hookspec pytest hook reference ===================== Initialization, command line and configuration hooks ---------------------------------------------------- .. autofunction:: pytest_load_initial_conftests .. autofunction:: pytest_cmdline_preparse .. autofunction:: pytest_cmdline_parse .. autofunction:: pytest_namespace .. autofunction:: pytest_addoption .. autofunction:: pytest_cmdline_main .. autofunction:: pytest_configure .. autofunction:: pytest_unconfigure Generic "runtest" hooks ----------------------- All runtest related hooks receive a :py:class:`pytest.Item` object. .. autofunction:: pytest_runtest_protocol .. autofunction:: pytest_runtest_setup .. autofunction:: pytest_runtest_call .. autofunction:: pytest_runtest_teardown .. autofunction:: pytest_runtest_makereport For deeper understanding you may look at the default implementation of these hooks in :py:mod:`_pytest.runner` and maybe also in :py:mod:`_pytest.pdb` which interacts with :py:mod:`_pytest.capture` and its input/output capturing in order to immediately drop into interactive debugging when a test failure occurs. The :py:mod:`_pytest.terminal` reported specifically uses the reporting hook to print information about a test run. Collection hooks ---------------- ``pytest`` calls the following hooks for collecting files and directories: .. autofunction:: pytest_ignore_collect .. autofunction:: pytest_collect_directory .. autofunction:: pytest_collect_file For influencing the collection of objects in Python modules you can use the following hook: .. autofunction:: pytest_pycollect_makeitem .. autofunction:: pytest_generate_tests After collection is complete, you can modify the order of items, delete or otherwise amend the test items: .. autofunction:: pytest_collection_modifyitems Reporting hooks --------------- Session related reporting hooks: .. autofunction:: pytest_collectstart .. autofunction:: pytest_itemcollected .. autofunction:: pytest_collectreport .. autofunction:: pytest_deselected And here is the central hook for reporting about test execution: .. autofunction:: pytest_runtest_logreport Debugging/Interaction hooks --------------------------- There are few hooks which can be used for special reporting or interaction with exceptions: .. autofunction:: pytest_internalerror .. autofunction:: pytest_keyboard_interrupt .. autofunction:: pytest_exception_interact .. autofunction:: pytest_enter_pdb Reference of objects involved in hooks ====================================== .. autoclass:: _pytest.config.Config() :members: .. autoclass:: _pytest.config.Parser() :members: .. autoclass:: _pytest.main.Node() :members: .. autoclass:: _pytest.main.Collector() :members: :show-inheritance: .. autoclass:: _pytest.main.Item() :members: :show-inheritance: .. autoclass:: _pytest.python.Module() :members: :show-inheritance: .. autoclass:: _pytest.python.Class() :members: :show-inheritance: .. autoclass:: _pytest.python.Function() :members: :show-inheritance: .. autoclass:: _pytest.runner.CallInfo() :members: .. autoclass:: _pytest.runner.TestReport() :members: .. autoclass:: _pytest.core.CallOutcome() :members: .. autofunction:: _pytest.config.get_plugin_manager() .. autoclass:: _pytest.config.PytestPluginManager() :members: :undoc-members: :show-inheritance: .. autoclass:: pluggy.PluginManager() :members: .. currentmodule:: _pytest.pytester .. autoclass:: Testdir() :members: runpytest,runpytest_subprocess,runpytest_inprocess,makeconftest,makepyfile .. autoclass:: RunResult() :members: .. autoclass:: LineMatcher() :members: