Monkeypatching/mocking modules and environments ================================================================ .. currentmodule:: _pytest.monkeypatch Sometimes tests need to invoke functionality which depends on global settings or which invokes code which cannot be easily tested such as network access. The ``monkeypatch`` fixture helps you to safely set/delete an attribute, dictionary item or environment variable, or to modify ``sys.path`` for importing. The ``monkeypatch`` fixture provides these helper methods for safely patching and mocking functionality in tests: .. code-block:: python monkeypatch.setattr(obj, name, value, raising=True) monkeypatch.delattr(obj, name, raising=True) monkeypatch.setitem(mapping, name, value) monkeypatch.delitem(obj, name, raising=True) monkeypatch.setenv(name, value, prepend=False) monkeypatch.delenv(name, raising=True) monkeypatch.syspath_prepend(path) monkeypatch.chdir(path) All modifications will be undone after the requesting test function or fixture has finished. The ``raising`` parameter determines if a ``KeyError`` or ``AttributeError`` will be raised if the target of the set/deletion operation does not exist. Consider the following scenarios: 1. Modifying the behavior of a function or the property of a class for a test e.g. there is an API call or database connection you will not make for a test but you know what the expected output should be. Use :py:meth:`monkeypatch.setattr` to patch the function or property with your desired testing behavior. This can include your own functions. Use :py:meth:`monkeypatch.delattr` to remove the function or property for the test. 2. Modifying the values of dictionaries e.g. you have a global configuration that you want to modify for certain test cases. Use :py:meth:`monkeypatch.setitem` to patch the dictionary for the test. :py:meth:`monkeypatch.delitem` can be used to remove items. 3. Modifying environment variables for a test e.g. to test program behavior if an environment variable is missing, or to set multiple values to a known variable. :py:meth:`monkeypatch.setenv` and :py:meth:`monkeypatch.delenv` can be used for these patches. 4. Use ``monkeypatch.setenv("PATH", value, prepend=os.pathsep)`` to modify ``$PATH``, and :py:meth:`monkeypatch.chdir` to change the context of the current working directory during a test. 5. Use py:meth:`monkeypatch.syspath_prepend` to modify ``sys.path`` which will also call :py:meth:`pkg_resources.fixup_namespace_packages` and :py:meth:`importlib.invalidate_caches`. See the `monkeypatch blog post`_ for some introduction material and a discussion of its motivation. .. _`monkeypatch blog post`: http://tetamap.wordpress.com/2009/03/03/monkeypatching-in-unit-tests-done-right/ Simple example: monkeypatching functions ---------------------------------------- Consider a scenario where you are working with user directories. In the context of testing, you do not want your test to depend on the running user. ``monkeypatch`` can be used to patch functions dependent on the user to always return a specific value. In this example, :py:meth:`monkeypatch.setattr` is used to patch ``Path.home`` so that the known testing path ``Path("/abc")`` is always used when the test is run. This removes any dependency on the running user for testing purposes. :py:meth:`monkeypatch.setattr` must be called before the function which will use the patched function is called. After the test function finishes the ``Path.home`` modification will be undone. .. code-block:: python # contents of test_module.py with source code and the test from pathlib import Path def getssh(): """Simple function to return expanded homedir ssh path.""" return Path.home() / ".ssh" def test_getssh(monkeypatch): # mocked return function to replace Path.home # always return '/abc' def mockreturn(): return Path("/abc") # Application of the monkeypatch to replace Path.home # with the behavior of mockreturn defined above. monkeypatch.setattr(Path, "home", mockreturn) # Calling getssh() will use mockreturn in place of Path.home # for this test with the monkeypatch. x = getssh() assert x == Path("/abc/.ssh") Monkeypatching returned objects: building mock classes ------------------------------------------------------ :py:meth:`monkeypatch.setattr` can be used in conjunction with classes to mock returned objects from functions instead of values. Imagine a simple function to take an API url and return the json response. .. code-block:: python # contents of app.py, a simple API retrieval example import requests def get_json(url): """Takes a URL, and returns the JSON.""" r = requests.get(url) return r.json() We need to mock ``r``, the returned response object for testing purposes. The mock of ``r`` needs a ``.json()`` method which returns a dictionary. This can be done in our test file by defining a class to represent ``r``. .. code-block:: python # contents of test_app.py, a simple test for our API retrieval # import requests for the purposes of monkeypatching import requests # our app.py that includes the get_json() function # this is the previous code block example import app # custom class to be the mock return value # will override the requests.Response returned from requests.get class MockResponse: # mock json() method always returns a specific testing dictionary @staticmethod def json(): return {"mock_key": "mock_response"} def test_get_json(monkeypatch): # Any arguments may be passed and mock_get() will always return our # mocked object, which only has the .json() method. def mock_get(*args, **kwargs): return MockResponse() # apply the monkeypatch for requests.get to mock_get monkeypatch.setattr(requests, "get", mock_get) # app.get_json, which contains requests.get, uses the monkeypatch result = app.get_json("https://fakeurl") assert result["mock_key"] == "mock_response" ``monkeypatch`` applies the mock for ``requests.get`` with our ``mock_get`` function. The ``mock_get`` function returns an instance of the ``MockResponse`` class, which has a ``json()`` method defined to return a known testing dictionary and does not require any outside API connection. You can build the ``MockResponse`` class with the appropriate degree of complexity for the scenario you are testing. For instance, it could include an ``ok`` property that always returns ``True``, or return different values from the ``json()`` mocked method based on input strings. This mock can be shared across tests using a ``fixture``: .. code-block:: python # contents of test_app.py, a simple test for our API retrieval import pytest import requests # app.py that includes the get_json() function import app # custom class to be the mock return value of requests.get() class MockResponse: @staticmethod def json(): return {"mock_key": "mock_response"} # monkeypatched requests.get moved to a fixture @pytest.fixture def mock_response(monkeypatch): """Requests.get() mocked to return {'mock_key':'mock_response'}.""" def mock_get(*args, **kwargs): return MockResponse() monkeypatch.setattr(requests, "get", mock_get) # notice our test uses the custom fixture instead of monkeypatch directly def test_get_json(mock_response): result = app.get_json("https://fakeurl") assert result["mock_key"] == "mock_response" Furthermore, if the mock was designed to be applied to all tests, the ``fixture`` could be moved to a ``conftest.py`` file and use the with ``autouse=True`` option. Global patch example: preventing "requests" from remote operations ------------------------------------------------------------------ If you want to prevent the "requests" library from performing http requests in all your tests, you can do: .. code-block:: python # contents of conftest.py import pytest @pytest.fixture(autouse=True) def no_requests(monkeypatch): """Remove requests.sessions.Session.request for all tests.""" monkeypatch.delattr("requests.sessions.Session.request") This autouse fixture will be executed for each test function and it will delete the method ``request.session.Session.request`` so that any attempts within tests to create http requests will fail. .. note:: Be advised that it is not recommended to patch builtin functions such as ``open``, ``compile``, etc., because it might break pytest's internals. If that's unavoidable, passing ``--tb=native``, ``--assert=plain`` and ``--capture=no`` might help although there's no guarantee. .. note:: Mind that patching ``stdlib`` functions and some third-party libraries used by pytest might break pytest itself, therefore in those cases it is recommended to use :meth:`MonkeyPatch.context` to limit the patching to the block you want tested: .. code-block:: python import functools def test_partial(monkeypatch): with monkeypatch.context() as m: m.setattr(functools, "partial", 3) assert functools.partial == 3 See issue `#3290 `_ for details. Monkeypatching environment variables ------------------------------------ If you are working with environment variables you often need to safely change the values or delete them from the system for testing purposes. ``monkeypatch`` provides a mechanism to do this using the ``setenv`` and ``delenv`` method. Our example code to test: .. code-block:: python # contents of our original code file e.g. code.py import os def get_os_user_lower(): """Simple retrieval function. Returns lowercase USER or raises EnvironmentError.""" username = os.getenv("USER") if username is None: raise OSError("USER environment is not set.") return username.lower() There are two potential paths. First, the ``USER`` environment variable is set to a value. Second, the ``USER`` environment variable does not exist. Using ``monkeypatch`` both paths can be safely tested without impacting the running environment: .. code-block:: python # contents of our test file e.g. test_code.py import pytest def test_upper_to_lower(monkeypatch): """Set the USER env var to assert the behavior.""" monkeypatch.setenv("USER", "TestingUser") assert get_os_user_lower() == "testinguser" def test_raise_exception(monkeypatch): """Remove the USER env var and assert EnvironmentError is raised.""" monkeypatch.delenv("USER", raising=False) with pytest.raises(OSError): _ = get_os_user_lower() This behavior can be moved into ``fixture`` structures and shared across tests: .. code-block:: python # contents of our test file e.g. test_code.py import pytest @pytest.fixture def mock_env_user(monkeypatch): monkeypatch.setenv("USER", "TestingUser") @pytest.fixture def mock_env_missing(monkeypatch): monkeypatch.delenv("USER", raising=False) # notice the tests reference the fixtures for mocks def test_upper_to_lower(mock_env_user): assert get_os_user_lower() == "testinguser" def test_raise_exception(mock_env_missing): with pytest.raises(OSError): _ = get_os_user_lower() Monkeypatching dictionaries --------------------------- :py:meth:`monkeypatch.setitem` can be used to safely set the values of dictionaries to specific values during tests. Take this simplified connection string example: .. code-block:: python # contents of app.py to generate a simple connection string DEFAULT_CONFIG = {"user": "user1", "database": "db1"} def create_connection_string(config=None): """Creates a connection string from input or defaults.""" config = config or DEFAULT_CONFIG return f"User Id={config['user']}; Location={config['database']};" For testing purposes we can patch the ``DEFAULT_CONFIG`` dictionary to specific values. .. code-block:: python # contents of test_app.py # app.py with the connection string function (prior code block) import app def test_connection(monkeypatch): # Patch the values of DEFAULT_CONFIG to specific # testing values only for this test. monkeypatch.setitem(app.DEFAULT_CONFIG, "user", "test_user") monkeypatch.setitem(app.DEFAULT_CONFIG, "database", "test_db") # expected result based on the mocks expected = "User Id=test_user; Location=test_db;" # the test uses the monkeypatched dictionary settings result = app.create_connection_string() assert result == expected You can use the :py:meth:`monkeypatch.delitem` to remove values. .. code-block:: python # contents of test_app.py import pytest # app.py with the connection string function import app def test_missing_user(monkeypatch): # patch the DEFAULT_CONFIG t be missing the 'user' key monkeypatch.delitem(app.DEFAULT_CONFIG, "user", raising=False) # Key error expected because a config is not passed, and the # default is now missing the 'user' entry. with pytest.raises(KeyError): _ = app.create_connection_string() The modularity of fixtures gives you the flexibility to define separate fixtures for each potential mock and reference them in the needed tests. .. code-block:: python # contents of test_app.py import pytest # app.py with the connection string function import app # all of the mocks are moved into separated fixtures @pytest.fixture def mock_test_user(monkeypatch): """Set the DEFAULT_CONFIG user to test_user.""" monkeypatch.setitem(app.DEFAULT_CONFIG, "user", "test_user") @pytest.fixture def mock_test_database(monkeypatch): """Set the DEFAULT_CONFIG database to test_db.""" monkeypatch.setitem(app.DEFAULT_CONFIG, "database", "test_db") @pytest.fixture def mock_missing_default_user(monkeypatch): """Remove the user key from DEFAULT_CONFIG""" monkeypatch.delitem(app.DEFAULT_CONFIG, "user", raising=False) # tests reference only the fixture mocks that are needed def test_connection(mock_test_user, mock_test_database): expected = "User Id=test_user; Location=test_db;" result = app.create_connection_string() assert result == expected def test_missing_user(mock_missing_default_user): with pytest.raises(KeyError): _ = app.create_connection_string() .. currentmodule:: _pytest.monkeypatch API Reference ------------- Consult the docs for the :class:`MonkeyPatch` class.