165

I am using py.test to test some DLL code wrapped in a python class MyTester. For validating purpose I need to log some test data during the tests and do more processing afterwards. As I have many test_... files I want to reuse the tester object creation (instance of MyTester) for most of my tests.

As the tester object is the one which got the references to the DLL's variables and functions I need to pass a list of the DLL's variables to the tester object for each of the test files (variables to be logged are the same for a test_... file). The content of the list is shall be used to log the specified data.

My idea is to do it somehow like this:

import pytest

class MyTester():
    def __init__(self, arg = ["var0", "var1"]):
        self.arg = arg
        # self.use_arg_to_init_logging_part()

    def dothis(self):
        print "this"

    def dothat(self):
        print "that"

# located in conftest.py (because other test will reuse it)

@pytest.fixture()
def tester(request):
    """ create tester object """
    # how to use the list below for arg?
    _tester = MyTester()
    return _tester

# located in test_...py

# @pytest.mark.usefixtures("tester") 
class TestIt():

    # def __init__(self):
    #     self.args_for_tester = ["var1", "var2"]
    #     # how to pass this list to the tester fixture?

    def test_tc1(self, tester):
       tester.dothis()
       assert 0 # for demo purpose

    def test_tc2(self, tester):
       tester.dothat()
       assert 0 # for demo purpose

Is it possible to achieve it like this or is there even a more elegant way?

Usually I could do it for each test method with some kind of setup function (xUnit-style). But I want to gain some kind of reuse. Does anyone know if this is possible with fixtures at all?

I know I can do something like this: (from the docs)

@pytest.fixture(scope="module", params=["merlinux.eu", "mail.python.org"])

But I need to the parametrization directly in the test module. Is it possible to access the params attribute of the fixture from the test module?

195

This is actually supported natively in py.test via indirect parametrization.

In your case, you would have:

@pytest.fixture
def tester(request):
    """Create tester object"""
    return MyTester(request.param)


class TestIt:
    @pytest.mark.parametrize('tester', [['var1', 'var2']], indirect=True)
    def test_tc1(self, tester):
       tester.dothis()
       assert 1
9
  • 2
    I tried using this solution but was having issues passing multiple parameters or using variable names other than request. I ended up using @Iguananaut 's solution. Jun 19 '16 at 16:23
  • 51
    This should be the accepted answer. The official documentation for the indirect keyword argument is admittedly sparse and unfriendly, which probably accounts for the obscurity of this essential technique. I've scoured the py.test site on multiple occasions for this very feature – only to come up empty, older, and befuddled. Bitterness is a place known as continuous integration. Thank Odin for Stackoverflow. Sep 6 '16 at 2:49
  • 1
    Note this method changes the name of your tests to include the parameter, which may or may not be desired. test_tc1 becomes test_tc1[tester0].
    – jjj
    Mar 15 '17 at 16:01
  • 2
    So indirect=True hands over parameters to all the called fixtures, right? Because the documentation explicitly names the fixtures for indirect parametrization, e.g. for a fixture named x: indirect=['x']
    – winklerrr
    May 11 '18 at 9:51
  • 1
    Okay, so True and False also works for the indirect keyword according to the official documentation about parametrization.
    – winklerrr
    May 15 '18 at 12:49
155

Update: Since this the accepted answer to this question and still gets upvoted sometimes, I should add an update. Although my original answer (below) was the only way to do this in older versions of pytest as others have noted pytest now supports indirect parametrization of fixtures. For example you can do something like this (via @imiric):

# test_parameterized_fixture.py
import pytest

class MyTester:
    def __init__(self, x):
        self.x = x

    def dothis(self):
        assert self.x

@pytest.fixture
def tester(request):
    """Create tester object"""
    return MyTester(request.param)


class TestIt:
    @pytest.mark.parametrize('tester', [True, False], indirect=['tester'])
    def test_tc1(self, tester):
       tester.dothis()
       assert 1
$ pytest -v test_parameterized_fixture.py
================================================================================= test session starts =================================================================================
platform cygwin -- Python 3.6.8, pytest-5.3.1, py-1.8.0, pluggy-0.13.1 -- /usr/bin/python3
cachedir: .pytest_cache
rootdir: .
collected 2 items

test_parameterized_fixture.py::TestIt::test_tc1[True] PASSED                                                                                                                    [ 50%]
test_parameterized_fixture.py::TestIt::test_tc1[False] FAILED

However, although this form of indirect parametrization is explicit, as @Yukihiko Shinoda points out it now supports a form of implicit indirect parametrization (though I couldn't find any obvious reference to this in the official docs):

# test_parameterized_fixture2.py
import pytest

class MyTester:
    def __init__(self, x):
        self.x = x

    def dothis(self):
        assert self.x

@pytest.fixture
def tester(tester_arg):
    """Create tester object"""
    return MyTester(tester_arg)


class TestIt:
    @pytest.mark.parametrize('tester_arg', [True, False])
    def test_tc1(self, tester):
       tester.dothis()
       assert 1
$ pytest -v test_parameterized_fixture2.py
================================================================================= test session starts =================================================================================
platform cygwin -- Python 3.6.8, pytest-5.3.1, py-1.8.0, pluggy-0.13.1 -- /usr/bin/python3
cachedir: .pytest_cache
rootdir: .
collected 2 items

test_parameterized_fixture2.py::TestIt::test_tc1[True] PASSED                                                                                                                   [ 50%]
test_parameterized_fixture2.py::TestIt::test_tc1[False] FAILED

I don't know exactly what are the semantics of this form, but it seems that pytest.mark.parametrize recognizes that although the test_tc1 method does not take an argument named tester_arg, the tester fixture that it's using does, so it passes the parametrized argument on through the tester fixture.


I had a similar problem--I have a fixture called test_package, and I later wanted to be able to pass an optional argument to that fixture when running it in specific tests. For example:

@pytest.fixture()
def test_package(request, version='1.0'):
    ...
    request.addfinalizer(fin)
    ...
    return package

(It doesn't matter for these purposes what the fixture does or what type of object the returned package) is.

It would then be desirable to somehow use this fixture in a test function in such a way that I can also specify the version argument to that fixture to use with that test. This is currently not possible, though might make a nice feature.

In the meantime it was easy enough to make my fixture simply return a function that does all the work the fixture previously did, but allows me to specify the version argument:

@pytest.fixture()
def test_package(request):
    def make_test_package(version='1.0'):
        ...
        request.addfinalizer(fin)
        ...
        return test_package

    return make_test_package

Now I can use this in my test function like:

def test_install_package(test_package):
    package = test_package(version='1.1')
    ...
    assert ...

and so on.

The OP's attempted solution was headed in the right direction, and as @hpk42's answer suggests, the MyTester.__init__ could just store off a reference to the request like:

class MyTester(object):
    def __init__(self, request, arg=["var0", "var1"]):
        self.request = request
        self.arg = arg
        # self.use_arg_to_init_logging_part()

    def dothis(self):
        print "this"

    def dothat(self):
        print "that"

Then use this to implement the fixture like:

@pytest.fixture()
def tester(request):
    """ create tester object """
    # how to use the list below for arg?
    _tester = MyTester(request)
    return _tester

If desired the MyTester class could be restructured a bit so that its .args attribute can be updated after it has been created, to tweak the behavior for individual tests.

3
  • Thanks for the hint with the function inside the fixture. Did take some time until i could work on this again but this is pretty useful!
    – maggie
    Aug 19 '15 at 6:57
  • 2
    A nice short post on this topic: alysivji.github.io/pytest-fixures-with-function-arguments.html
    – maggie
    Oct 16 '18 at 5:34
  • do you not getting an error saying: "Fixtures are not meant to be called directly, but are created automatically when test functions request them as parameters. "?
    – nz_21
    Jul 25 '19 at 13:51
22

I couldn't find any document, however, it seems to work in latest version of pytest.

@pytest.fixture
def tester(tester_arg):
    """Create tester object"""
    return MyTester(tester_arg)


class TestIt:
    @pytest.mark.parametrize('tester_arg', [['var1', 'var2']])
    def test_tc1(self, tester):
       tester.dothis()
       assert 1
4
  • 2
    Thanks for pointing this out--this seems like the cleanest solution of all. I don't think this used to be possible in earlier versions, but it's clear that it now is. Do you know if this form is mentioned anywhere in the official docs? I couldn't find anything quite like it, but it clearly works. I've updated my answer to include this example, thanks.
    – Iguananaut
    Feb 17 '20 at 14:13
  • 2
    I think it will not be possible in the feature, if you take a look at github.com/pytest-dev/pytest/issues/5712 and the related (merged) PR.
    – Nadège
    Feb 19 '20 at 11:12
  • 1
    This was reverted github.com/pytest-dev/pytest/pull/6914
    – Maspe36
    May 1 '20 at 14:20
  • 7
    To clarify, @Maspe36 is indicating that the PR linked by Nadège was reverted. Thus, this undocumented feature (I think it's still undocumented?) still lives.
    – blthayer
    Jul 29 '20 at 16:28
12

You can access the requesting module/class/function from fixture functions (and thus from your Tester class), see interacting with requesting test context from a fixture function. So you could declare some parameters on a class or module and the tester fixture can pick it up.

2
  • 3
    I know i can do something like this: (from the docs) @pytest.fixture(scope="module", params=["merlinux.eu", "mail.python.org"]) But i need to do it in the test module. How can i dynamically add params to the fixtures?
    – maggie
    Aug 7 '13 at 17:54
  • 2
    The point is not to have to interact with requesting test context from a fixture function but to have a well defined way to pass arguments to a fixture function. Fixture function shouldn't have to be aware of a type of requesting test context just to be able to receive arguments with agreed upon names. For instance one would like to be able to write @fixture def my_fixture(request) and then @pass_args(arg1=..., arg2=...) def test(my_fixture) and get these args in my_fixture() like this arg1 = request.arg1, arg2 = request.arg2. Is something like this possible in py.test now? Sep 29 '15 at 22:08
10

To improve a little bit imiric's answer: Another elegant way to solve this problem is to create "parameter fixtures". I personally prefer it over the indirect feature of pytest. This feature is available from pytest_cases, and the original idea was suggested by Sup3rGeo.

import pytest
from pytest_cases import param_fixture

# create a single parameter fixture
var = param_fixture("var", [['var1', 'var2']], ids=str)

@pytest.fixture
def tester(var):
    """Create tester object"""
    return MyTester(var)

class TestIt:
    def test_tc1(self, tester):
       tester.dothis()
       assert 1

Note that pytest-cases also provides @fixture that allow you to use parametrization marks directly on your fixtures instead of having to use @pytest.fixture(params=...)

from pytest_cases import fixture, parametrize

@fixture
@parametrize("var", [['var1', 'var2']], ids=str)
def tester(var):
    """Create tester object"""
    return MyTester(var)

and @parametrize_with_cases that allows you to source your parameters from "case functions" that may be grouped in a class or even a separate module. See doc for details. I'm the author by the way ;)

2
  • 1
    This appears to work now in plain pytest as well (I have v5.3.1). That is, I was able to get this working without param_fixture. See this answer. I couldn't find any example like it in the docs though; do you know anything about this?
    – Iguananaut
    Feb 17 '20 at 14:15
  • thanks for the info and the link ! I had no idea this was feasible. Let's wait for an official documentation to see what they have in mind.
    – smarie
    Feb 17 '20 at 14:23
6

I made a funny decorator that allows writing fixtures like this:

@fixture_taking_arguments
def dog(request, /, name, age=69):
    return f"{name} the dog aged {age}"

Here, to the left of / you have other fixtures, and to the right you have parameters that are supplied using:

@dog.arguments("Buddy", age=7)
def test_with_dog(dog):
    assert dog == "Buddy the dog aged 7"

This works the same way function arguments work. If you don't supply the age argument, the default one, 69, is used instead. if you don't supply name, or omit the dog.arguments decorator, you get the regular TypeError: dog() missing 1 required positional argument: 'name'. If you have another fixture that takes argument name, it doesn't conflict with this one.

Async fixtures are also supported.

Additionally, this gives you a nice setup plan:

$ pytest test_dogs_and_owners.py --setup-plan

SETUP    F dog['Buddy', age=7]
...
SETUP    F dog['Champion']
SETUP    F owner (fixtures used: dog)['John Travolta']

A full example:

from plugin import fixture_taking_arguments

@fixture_taking_arguments
def dog(request, /, name, age=69):
    return f"{name} the dog aged {age}"


@fixture_taking_arguments
def owner(request, dog, /, name="John Doe"):
    yield f"{name}, owner of {dog}"


@dog.arguments("Buddy", age=7)
def test_with_dog(dog):
    assert dog == "Buddy the dog aged 7"


@dog.arguments("Champion")
class TestChampion:
    def test_with_dog(self, dog):
        assert dog == "Champion the dog aged 69"

    def test_with_default_owner(self, owner, dog):
        assert owner == "John Doe, owner of Champion the dog aged 69"
        assert dog == "Champion the dog aged 69"

    @owner.arguments("John Travolta")
    def test_with_named_owner(self, owner):
        assert owner == "John Travolta, owner of Champion the dog aged 69"

The code for the decorator:

import pytest
from dataclasses import dataclass
from functools import wraps
from inspect import signature, Parameter, isgeneratorfunction, iscoroutinefunction, isasyncgenfunction
from itertools import zip_longest, chain


_NOTHING = object()


def _omittable_parentheses_decorator(decorator):
    @wraps(decorator)
    def wrapper(*args, **kwargs):
        if not kwargs and len(args) == 1 and callable(args[0]):
            return decorator()(args[0])
        else:
            return decorator(*args, **kwargs)
    return wrapper


@dataclass
class _ArgsKwargs:
    args: ...
    kwargs: ...

    def __repr__(self):
        return ", ".join(chain(
               (repr(v) for v in self.args), 
               (f"{k}={v!r}" for k, v in self.kwargs.items())))


def _flatten_arguments(sig, args, kwargs):
    assert len(sig.parameters) == len(args) + len(kwargs)
    for name, arg in zip_longest(sig.parameters, args, fillvalue=_NOTHING):
        yield arg if arg is not _NOTHING else kwargs[name]


def _get_actual_args_kwargs(sig, args, kwargs):
    request = kwargs["request"]
    try:
        request_args, request_kwargs = request.param.args, request.param.kwargs
    except AttributeError:
        request_args, request_kwargs = (), {}
    return tuple(_flatten_arguments(sig, args, kwargs)) + request_args, request_kwargs


@_omittable_parentheses_decorator
def fixture_taking_arguments(*pytest_fixture_args, **pytest_fixture_kwargs):
    def decorator(func):
        original_signature = signature(func)

        def new_parameters():
            for param in original_signature.parameters.values():
                if param.kind == Parameter.POSITIONAL_ONLY:
                    yield param.replace(kind=Parameter.POSITIONAL_OR_KEYWORD)

        new_signature = original_signature.replace(parameters=list(new_parameters()))

        if "request" not in new_signature.parameters:
            raise AttributeError("Target function must have positional-only argument `request`")

        is_async_generator = isasyncgenfunction(func)
        is_async = is_async_generator or iscoroutinefunction(func)
        is_generator = isgeneratorfunction(func)

        if is_async:
            @wraps(func)
            async def wrapper(*args, **kwargs):
                args, kwargs = _get_actual_args_kwargs(new_signature, args, kwargs)
                if is_async_generator:
                    async for result in func(*args, **kwargs):
                        yield result
                else:
                    yield await func(*args, **kwargs)
        else:
            @wraps(func)
            def wrapper(*args, **kwargs):
                args, kwargs = _get_actual_args_kwargs(new_signature, args, kwargs)
                if is_generator:
                    yield from func(*args, **kwargs)
                else:
                    yield func(*args, **kwargs)

        wrapper.__signature__ = new_signature
        fixture = pytest.fixture(*pytest_fixture_args, **pytest_fixture_kwargs)(wrapper)
        fixture_name = pytest_fixture_kwargs.get("name", fixture.__name__)

        def parametrizer(*args, **kwargs):
            return pytest.mark.parametrize(fixture_name, [_ArgsKwargs(args, kwargs)], indirect=True)

        fixture.arguments = parametrizer

        return fixture
    return decorator
2
3

You can also use closures, which will give you more comprehensive naming and control on the params. They're more "explicit" than the request param used in the implicit parametrization:


@pytest.fixture
def tester():
    # Create a closure on the Tester object
    def _tester(first_param, second_param):
        # use the above params to mock and instantiate things
        return MyTester(first_param, second_param)
    
    # Pass this closure to the test
    yield _tester 


@pytest.mark.parametrize(['param_one', 'param_two'], [(1,2), (1000,2000)])
def test_tc1(tester, param_one, param_two):
    # run the closure now with the desired params
    my_tester = tester(param_one, param_two)
    # assert code here

I use this to build configurable fixtures

0

Another way to do this is to use the request object to access variables defined in the module or class the test function is defined in.

This way you don't have to reuse the @pytest.mark.parametrize() decorator on every function of your test class if you want to pass the same variable for all the test functions of the class/module.

Example with a class variable :

@pytest.fixture
def tester(request):
    """Create tester object"""
    return MyTester(request.cls.tester_args)


class TestIt:
    tester_args = ['var1', 'var2']

    def test_tc1(self, tester):
       tester.dothis()

    def test_tc2(self, tester):
       tester.dothat()

This way the tester object of both test_tc1 and test_tc2 will be initialized with the tester_args parameters.

You can also use:

  • request.function to access the test_tc1 function,
  • request.instance to access the TestIt class instance,
  • request.module to access the module TestIt is defined in
  • etc. (refer to the request documentation)
0

Another way to go with this is to use a custom mark. It looks better than parameterize in the code, is not reflected in the test name, and is also optional (can be defined as not optional by raising a failure if no such mark exists)

for example:

@pytest.fixture
def loaded_dll(request):
    dll_file = None
    for mark in request.node.iter_markers("dll_file"):
        if mark.args:
            if dll_file is not None:
                pytest.fail("Only one dll_file can be mentioned in marks")
            dll_file = mark.args[0]
    if dll_file is None:
        pytest.fail("dll_file is a required mark")
    return some_dll_load(dll_file)

@pytest.mark.dll_file("this.dll")
def test_this_dll(loaded_dll):
    ...

I used this for my tests when I needed a fixture that mocks an ssh client, and wanted to test different possible outputs, I could decide the output for each test using the mark.

Notice that if it's for personal usage, the failsave mechanisms that fail the test are not required.

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