11

Imagine I have implemented a utility (maybe a class) called Bar in a module foo, and have written the following tests for it.

test_foo.py:

from foo import Bar as Implementation
from pytest import mark

@mark.parametrize(<args>, <test data set 1>)
def test_one(<args>):
    <do something with Implementation and args>

@mark.parametrize(<args>, <test data set 2>)
def test_two(<args>):
    <do something else with Implementation and args>

<more such tests>

Now imagine that, in the future I expect different implementations of the same interface to be written. I would like those implementations to be able to reuse the tests that were written for the above test suite: The only things that need to change are

  1. The import of the Implementation
  2. <test data set 1>, <test data set 2> etc.

So I am looking for a way to write the above tests in a reusable way, that would allow authors of new implementations of the interface to be able to use the tests by injecting the implementation and the test data into them, without having to modify the file containing the original specification of the tests.

What would be a good, idiomatic way of doing this in pytest?

====================================================================

====================================================================

Here is a unittest version that (isn't pretty but) works.

define_tests.py:

# Single, reusable definition of tests for the interface. Authors of
# new implementations of the interface merely have to provide the test
# data, as class attributes of a class which inherits
# unittest.TestCase AND this class.
class TheTests():

    def test_foo(self):
        # Faking pytest.mark.parametrize by looping
        for args, in_, out in self.test_foo_data:
            self.assertEqual(self.Implementation(*args).foo(in_),
                             out)

    def test_bar(self):
        # Faking pytest.mark.parametrize by looping
        for args, in_, out in self.test_bar_data:
            self.assertEqual(self.Implementation(*args).bar(in_),
                             out)

v1.py:

# One implementation of the interface
class Implementation:

    def __init__(self, a,b):
        self.n = a+b

    def foo(self, n):
        return self.n + n

    def bar(self, n):
        return self.n - n

v1_test.py:

# Test for one implementation of the interface
from v1 import Implementation
from define_tests import TheTests
from unittest import TestCase

# Hook into testing framework by inheriting unittest.TestCase and reuse
# the tests which *each and every* implementation of the interface must
# pass, by inheritance from define_tests.TheTests
class FooTests(TestCase, TheTests):

    Implementation = Implementation

    test_foo_data = (((1,2), 3,  6),
                     ((4,5), 6, 15))

    test_bar_data = (((1,2), 3,  0),
                     ((4,5), 6,  3))

Anybody (even a client of the library) writing another implementation of this interface

  • can reuse the set of tests defined in define_tests.py
  • inject own test data into the tests
  • without modifying any of the original files
5

This is a great use case for parametrized test fixtures.

Your code could look something like this:

from foo import Bar, Baz

@pytest.fixture(params=[Bar, Baz])
def Implementation(request):
    return request.param

def test_one(Implementation):
    assert Implementation().frobnicate()

This would have test_one run twice: once where Implementation=Bar and once where Implementation=Baz.

Note that since Implementation is just a fixture, you can change its scope, or do more setup (maybe instantiate the class, maybe configure it somehow).

If used with the pytest.mark.parametrize decorator, pytest will generate all the permutations. For example, assuming the code above, and this code here:

@pytest.mark.parametrize('thing', [1, 2])
def test_two(Implementation, thing):
    assert Implementation(thing).foo == thing

test_two will run four times, with the following configurations:

  • Implementation=Bar, thing=1
  • Implementation=Bar, thing=2
  • Implementation=Baz, thing=1
  • Implementation=Baz, thing=2
  • How would this allow the authors of new implementations to add new parametrizations of the tests without touching the original files containing the test definitions? – jacg Oct 16 '14 at 15:10
  • You can move the fixture definition into a central place, a conftest.py file at a higher level. Documentation is here: pytest.org/latest/… Do you want to keep new authors from touching certain test files in particular, or anything in the test suite? – Frank T Oct 16 '14 at 20:19
  • It should be possible to add extensions without modifying any existing code. If I ship a library with a few conforming implementations and their tests, clients of the library should be able to add new implementations and their tests without modifying any of the files that came with the library. This would be trivial, were it not for the fact that I want to reuse the exsting tests by injecting new data into them. Moving the fixture into a conftest.py which ships with the library, would (unless I've missed something) still require the extender to change a file that came with the library. – jacg Oct 16 '14 at 22:52
  • I've edited the question to include a working code sample demonstrating the idea in unittest. The fundamental point is: reuse of tests without modification of any files which previously existed. What's more, this unittest implementation would work regardless of where the the files are in the filesystem, as long as the import define_tests works inside the new test file; something which, I suspect, might be tricky in pytest. – jacg Oct 17 '14 at 0:02
  • @jacg did you ever find what you were looking for? I'd like to know too. – DavidC Aug 28 '16 at 3:19
0

You can't do it without class inheritance, but you don't have to use unittest.TestCase. To make it more pytest you can use fixtures.

It allows you for example fixture parametrizing, or use another fixures.

I try create simple example.

class SomeTest:

    @pytest.fixture
    def implementation(self):
        return "A"

    def test_a(self, implementation):
        assert "A" == implementation


class OtherTest(SomeTest):

   @pytest.fixture(params=["B", "C"])
   def implementation(self, request):
       return request.param


def test_a(self, implementation):
    """ the "implementation" fixture is not accessible out of class """ 
    assert "A" == implementation

and second test fails

    def test_a(self, implementation):
>       assert "A" == implementation
E       assert 'A' == 'B'
E         - A
E         + B

    def test_a(self, implementation):
>       assert "A" == implementation
E       assert 'A' == 'C'
E         - A
E         + C

  def test_a(implementation):
        fixture 'implementation' not found

Don't forget you have to define python_class = *Test in pytest.ini

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

Not the answer you're looking for? Browse other questions tagged or ask your own question.