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.. _paramexamples:
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Parametrizing tests
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=================================================
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.. currentmodule :: _pytest.python
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`` pytest `` allows to easily parametrize test functions.
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For basic docs, see :ref: `parametrize-basics` .
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In the following we provide some examples using
the builtin mechanisms.
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Generating parameters combinations, depending on command line
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----------------------------------------------------------------------------
.. regendoc:wipe
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Let's say we want to execute a test with different computation
parameters and the parameter range shall be determined by a command
line argument. Let's first write a simple (do-nothing) computation test::
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# content of test_compute.py
def test_compute(param1):
assert param1 < 4
Now we add a test configuration like this::
# content of conftest.py
def pytest_addoption(parser):
parser.addoption("--all", action="store_true",
help="run all combinations")
def pytest_generate_tests(metafunc):
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if 'param1' in metafunc.fixturenames:
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if metafunc.config.getoption('all'):
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end = 5
else:
end = 2
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metafunc.parametrize("param1", range(end))
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This means that we only run 2 tests if we do not pass `` --all `` :
.. code-block :: pytest
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$ pytest -q test_compute.py
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.. [100%]
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2 passed in 0.12 seconds
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We run only two computations, so we see two dots.
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let's run the full monty:
.. code-block :: pytest
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$ pytest -q --all
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....F [100%]
================================= FAILURES =================================
_____________________________ test_compute[4] ______________________________
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param1 = 4
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def test_compute(param1):
> assert param1 < 4
E assert 4 < 4
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test_compute.py:3: AssertionError
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1 failed, 4 passed in 0.12 seconds
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As expected when running the full range of `` param1 `` values
we'll get an error on the last one.
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Different options for test IDs
------------------------------------
pytest will build a string that is the test ID for each set of values in a
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parametrized test. These IDs can be used with `` -k `` to select specific cases
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to run, and they will also identify the specific case when one is failing.
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Running pytest with `` --collect-only `` will show the generated IDs.
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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::
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# content of test_time.py
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import pytest
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from datetime import datetime, timedelta
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testdata = [
(datetime(2001, 12, 12), datetime(2001, 12, 11), timedelta(1)),
(datetime(2001, 12, 11), datetime(2001, 12, 12), timedelta(-1)),
]
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@pytest.mark.parametrize("a,b,expected", testdata)
def test_timedistance_v0(a, b, expected):
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diff = a - b
assert diff == expected
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@pytest.mark.parametrize("a,b,expected", testdata, ids=["forward", "backward"])
def test_timedistance_v1(a, b, expected):
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diff = a - b
assert diff == expected
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def idfn(val):
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if isinstance(val, (datetime,)):
# note this wouldn't show any hours/minutes/seconds
return val.strftime('%Y%m%d')
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@pytest.mark.parametrize("a,b,expected", testdata, ids=idfn)
def test_timedistance_v2(a, b, expected):
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diff = a - b
assert diff == expected
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@pytest.mark.parametrize("a,b,expected", [
pytest.param(datetime(2001, 12, 12), datetime(2001, 12, 11),
timedelta(1), id='forward'),
pytest.param(datetime(2001, 12, 11), datetime(2001, 12, 12),
timedelta(-1), id='backward'),
])
def test_timedistance_v3(a, b, expected):
diff = a - b
assert diff == expected
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In `` test_timedistance_v0 `` , we let pytest generate the test IDs.
In `` test_timedistance_v1 `` , we specified `` ids `` as a list of strings which were
used as the test IDs. These are succinct, but can be a pain to maintain.
In `` test_timedistance_v2 `` , we specified `` ids `` as a function that can generate a
string representation to make part of the test ID. So our `` datetime `` values use the
label generated by `` idfn `` , but because we didn't generate a label for `` timedelta ``
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objects, they are still using the default pytest representation:
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.. code-block :: pytest
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$ pytest test_time.py --collect-only
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
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cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 8 items
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<Module test_time.py>
<Function test_timedistance_v0[a0-b0-expected0]>
<Function test_timedistance_v0[a1-b1-expected1]>
<Function test_timedistance_v1[forward]>
<Function test_timedistance_v1[backward]>
<Function test_timedistance_v2[20011212-20011211-expected0]>
<Function test_timedistance_v2[20011211-20011212-expected1]>
<Function test_timedistance_v3[forward]>
<Function test_timedistance_v3[backward]>
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======================= no tests ran in 0.12 seconds =======================
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In `` test_timedistance_v3 `` , we used `` pytest.param `` to specify the test IDs
together with the actual data, instead of listing them separately.
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A quick port of "testscenarios"
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------------------------------------
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.. _`test scenarios`: https://pypi.org/project/testscenarios/
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Here is a quick port to run tests configured with `test scenarios`_ ,
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an add-on from Robert Collins for the standard unittest framework. We
only have to work a bit to construct the correct arguments for pytest's
:py:func: `Metafunc.parametrize` ::
# content of test_scenarios.py
def pytest_generate_tests(metafunc):
idlist = []
argvalues = []
for scenario in metafunc.cls.scenarios:
idlist.append(scenario[0])
items = scenario[1].items()
argnames = [x[0] for x in items]
argvalues.append(([x[1] for x in items]))
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metafunc.parametrize(argnames, argvalues, ids=idlist, scope="class")
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scenario1 = ('basic', {'attribute': 'value'})
scenario2 = ('advanced', {'attribute': 'value2'})
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class TestSampleWithScenarios(object):
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scenarios = [scenario1, scenario2]
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def test_demo1(self, attribute):
assert isinstance(attribute, str)
def test_demo2(self, attribute):
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assert isinstance(attribute, str)
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this is a fully self-contained example which you can run with:
.. code-block :: pytest
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$ pytest test_scenarios.py
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
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cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 4 items
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test_scenarios.py .... [100%]
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========================= 4 passed in 0.12 seconds =========================
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If you just collect tests you'll also nicely see 'advanced' and 'basic' as variants for the test function:
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.. code-block :: pytest
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$ pytest --collect-only test_scenarios.py
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
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cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 4 items
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<Module test_scenarios.py>
<Class TestSampleWithScenarios>
<Function test_demo1[basic]>
<Function test_demo2[basic]>
<Function test_demo1[advanced]>
<Function test_demo2[advanced]>
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======================= no tests ran in 0.12 seconds =======================
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Note that we told `` metafunc.parametrize() `` that your scenario values
should be considered class-scoped. With pytest-2.3 this leads to a
resource-based ordering.
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Deferring the setup of parametrized resources
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---------------------------------------------------
.. regendoc:wipe
The parametrization of test functions happens at collection
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time. It is a good idea to setup expensive resources like DB
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connections or subprocess only when the actual test is run.
Here is a simple example how you can achieve that, first
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the actual test requiring a `` db `` object::
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# content of test_backends.py
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import pytest
def test_db_initialized(db):
# a dummy test
if db.__class__.__name__ == "DB2":
pytest.fail("deliberately failing for demo purposes")
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We can now add a test configuration that generates two invocations of
the `` test_db_initialized `` function and also implements a factory that
creates a database object for the actual test invocations::
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# content of conftest.py
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import pytest
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def pytest_generate_tests(metafunc):
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if 'db' in metafunc.fixturenames:
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metafunc.parametrize("db", ['d1', 'd2'], indirect=True)
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class DB1(object):
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"one database object"
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class DB2(object):
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"alternative database object"
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@pytest.fixture
def db(request):
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if request.param == "d1":
return DB1()
elif request.param == "d2":
return DB2()
else:
raise ValueError("invalid internal test config")
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Let's first see how it looks like at collection time:
.. code-block :: pytest
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$ pytest test_backends.py --collect-only
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
2019-01-31 00:25:38 +08:00
cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 2 items
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<Module test_backends.py>
<Function test_db_initialized[d1]>
<Function test_db_initialized[d2]>
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======================= no tests ran in 0.12 seconds =======================
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And then when we run the test:
.. code-block :: pytest
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$ pytest -q test_backends.py
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.F [100%]
================================= FAILURES =================================
_________________________ test_db_initialized[d2] __________________________
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db = <conftest.DB2 object at 0xdeadbeef>
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def test_db_initialized(db):
# a dummy test
if db.__class__.__name__ == "DB2":
> pytest.fail("deliberately failing for demo purposes")
E Failed: deliberately failing for demo purposes
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test_backends.py:6: Failed
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1 failed, 1 passed in 0.12 seconds
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The first invocation with `` db == "DB1" `` passed while the second with `` db == "DB2" `` failed. Our `` db `` fixture function has instantiated each of the DB values during the setup phase while the `` pytest_generate_tests `` generated two according calls to the `` test_db_initialized `` during the collection phase.
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.. regendoc:wipe
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Apply indirect on particular arguments
---------------------------------------------------
Very often parametrization uses more than one argument name. There is opportunity to apply `` indirect ``
parameter on particular arguments. It can be done by passing list or tuple of
arguments' names to `` indirect `` . In the example below there is a function `` test_indirect `` which uses
two fixtures: `` x `` and `` y `` . Here we give to indirect the list, which contains the name of the
fixture `` x `` . The indirect parameter will be applied to this argument only, and the value `` a ``
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will be passed to respective fixture function::
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# content of test_indirect_list.py
import pytest
@pytest.fixture(scope='function')
def x(request):
return request.param * 3
@pytest.fixture(scope='function')
def y(request):
return request.param * 2
@pytest.mark.parametrize('x, y', [('a', 'b')], indirect=['x'])
def test_indirect(x,y):
assert x == 'aaa'
assert y == 'b'
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The result of this test will be successful:
.. code-block :: pytest
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$ pytest test_indirect_list.py --collect-only
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
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cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 1 item
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<Module test_indirect_list.py>
<Function test_indirect[a-b]>
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======================= no tests ran in 0.12 seconds =======================
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.. regendoc:wipe
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Parametrizing test methods through per-class configuration
--------------------------------------------------------------
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.. _`unittest parametrizer`: https://github.com/testing-cabal/unittest-ext/blob/master/params.py
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Here is an example `` pytest_generate_tests `` function implementing a
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parametrization scheme similar to Michael Foord's `unittest
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parametrizer`_ but in a lot less code::
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# content of ./test_parametrize.py
import pytest
def pytest_generate_tests(metafunc):
# called once per each test function
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funcarglist = metafunc.cls.params[metafunc.function.__name__]
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argnames = sorted(funcarglist[0])
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metafunc.parametrize(argnames, [[funcargs[name] for name in argnames]
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for funcargs in funcarglist])
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class TestClass(object):
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# a map specifying multiple argument sets for a test method
params = {
'test_equals': [dict(a=1, b=2), dict(a=3, b=3), ],
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'test_zerodivision': [dict(a=1, b=0), ],
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}
def test_equals(self, a, b):
assert a == b
def test_zerodivision(self, a, b):
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with pytest.raises(ZeroDivisionError):
a / b
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Our test generator looks up a class-level definition which specifies which
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argument sets to use for each test function. Let's run it:
.. code-block :: pytest
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$ pytest -q
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F.. [100%]
================================= FAILURES =================================
________________________ TestClass.test_equals[1-2] ________________________
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self = <test_parametrize.TestClass object at 0xdeadbeef>, a = 1, b = 2
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def test_equals(self, a, b):
> assert a == b
E assert 1 == 2
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test_parametrize.py:18: AssertionError
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1 failed, 2 passed in 0.12 seconds
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Indirect parametrization with multiple fixtures
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--------------------------------------------------------------
Here is a stripped down real-life example of using parametrized
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testing for testing serialization of objects between different python
interpreters. We define a `` test_basic_objects `` function which
is to be run with different sets of arguments for its three arguments:
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* `` python1 `` : first python interpreter, run to pickle-dump an object to a file
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* `` python2 `` : second interpreter, run to pickle-load an object from a file
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* `` obj `` : object to be dumped/loaded
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.. literalinclude :: multipython.py
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Running it results in some skips if we don't have all the python interpreters installed and otherwise runs all combinations (5 interpreters times 5 interpreters times 3 objects to serialize/deserialize):
.. code-block :: pytest
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. $ pytest -rs -q multipython.py
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...sss...sssssssss...sss... [100%]
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========================= short test summary info ==========================
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SKIPPED [15] $REGENDOC_TMPDIR/CWD/multipython.py:30: 'python3.4' not found
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12 passed, 15 skipped in 0.12 seconds
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Indirect parametrization of optional implementations/imports
--------------------------------------------------------------------
If you want to compare the outcomes of several implementations of a given
API, you can write test functions that receive the already imported implementations
and get skipped in case the implementation is not importable/available. Let's
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say we have a "base" implementation and the other (possibly optimized ones)
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need to provide similar results::
# content of conftest.py
import pytest
@pytest.fixture(scope="session")
def basemod(request):
return pytest.importorskip("base")
@pytest.fixture(scope="session", params=["opt1", "opt2"])
def optmod(request):
return pytest.importorskip(request.param)
And then a base implementation of a simple function::
# content of base.py
def func1():
return 1
And an optimized version::
# content of opt1.py
def func1():
return 1.0001
And finally a little test module::
# content of test_module.py
def test_func1(basemod, optmod):
assert round(basemod.func1(), 3) == round(optmod.func1(), 3)
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If you run this with reporting for skips enabled:
.. code-block :: pytest
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$ pytest -rs test_module.py
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y
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cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collected 2 items
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test_module.py .s [100%]
========================= short test summary info ==========================
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SKIPPED [1] $REGENDOC_TMPDIR/conftest.py:11: could not import 'opt2'
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=================== 1 passed, 1 skipped in 0.12 seconds ====================
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You'll see that we don't have an `` opt2 `` module and thus the second test run
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of our `` test_func1 `` was skipped. A few notes:
- the fixture functions in the `` conftest.py `` file are "session-scoped" because we
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don't need to import more than once
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- if you have multiple test functions and a skipped import, you will see
the `` [1] `` count increasing in the report
- you can put :ref: `@pytest.mark.parametrize <@pytest.mark.parametrize>` style
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parametrization on the test functions to parametrize input/output
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values as well.
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Set marks or test ID for individual parametrized test
--------------------------------------------------------------------
Use `` pytest.param `` to apply marks or set test ID to individual parametrized test.
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For example:
.. code-block :: python
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# content of test_pytest_param_example.py
import pytest
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@pytest.mark.parametrize(
"test_input,expected",
[
("3+5", 8),
pytest.param("1+7", 8, marks=pytest.mark.basic),
pytest.param("2+4", 6, marks=pytest.mark.basic, id="basic_2+4"),
pytest.param(
"6*9", 42, marks=[pytest.mark.basic, pytest.mark.xfail], id="basic_6* 9"
),
],
)
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def test_eval(test_input, expected):
assert eval(test_input) == expected
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In this example, we have 4 parametrized tests. Except for the first test,
we mark the rest three parametrized tests with the custom marker `` basic `` ,
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and for the fourth test we also use the built-in mark `` xfail `` to indicate this
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test is expected to fail. For explicitness, we set test ids for some tests.
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Then run `` pytest `` with verbose mode and with only the `` basic `` marker:
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.. code-block :: pytest
$ pytest -v -m basic
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=========================== test session starts ============================
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platform linux -- Python 3.x.y, pytest-4.x.y, py-1.x.y, pluggy-0.x.y -- $PYTHON_PREFIX/bin/python
cachedir: $PYTHON_PREFIX/.pytest_cache
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rootdir: $REGENDOC_TMPDIR
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collecting ... collected 17 items / 14 deselected / 3 selected
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test_pytest_param_example.py::test_eval[1+7-8] PASSED [ 33%]
test_pytest_param_example.py::test_eval[basic_2+4] PASSED [ 66%]
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test_pytest_param_example.py::test_eval[basic_6*9] XFAIL [100%]
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============ 2 passed, 14 deselected, 1 xfailed in 0.12 seconds ============
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As the result:
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- Four tests were collected
- One test was deselected because it doesn't have the `` basic `` mark.
- Three tests with the `` basic `` mark was selected.
- The test `` test_eval[1+7-8] `` passed, but the name is autogenerated and confusing.
- The test `` test_eval[basic_2+4] `` passed.
- The test `` test_eval[basic_6*9] `` was expected to fail and did fail.
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.. _`parametrizing_conditional_raising`:
Parametrizing conditional raising
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--------------------------------------------------------------------
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Use :func: `pytest.raises` with the
:ref: `pytest.mark.parametrize ref` decorator to write parametrized tests
in which some tests raise exceptions and others do not.
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It is helpful to define a no-op context manager `` does_not_raise `` to serve
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as a complement to `` raises `` . For example::
from contextlib import contextmanager
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import pytest
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@contextmanager
def does_not_raise():
yield
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@pytest.mark.parametrize('example_input,expectation', [
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(3, does_not_raise()),
(2, does_not_raise()),
(1, does_not_raise()),
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(0, pytest.raises(ZeroDivisionError)),
])
def test_division(example_input, expectation):
"""Test how much I know division."""
with expectation:
assert (6 / example_input) is not None
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In the example above, the first three test cases should run unexceptionally,
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while the fourth should raise `` ZeroDivisionError `` .
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If you're only supporting Python 3.7+, you can simply use `` nullcontext ``
to define `` does_not_raise `` ::
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from contextlib import nullcontext as does_not_raise
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Or, if you're supporting Python 3.3+ you can use::
from contextlib import ExitStack as does_not_raise
Or, if desired, you can `` pip install contextlib2 `` and use::
from contextlib2 import ExitStack as does_not_raise