374

I have some kind of test data and want to create a unit test for each item. My first idea was to do it like this:

import unittest

l = [["foo", "a", "a",], ["bar", "a", "b"], ["lee", "b", "b"]]

class TestSequence(unittest.TestCase):
    def testsample(self):
        for name, a,b in l:
            print "test", name
            self.assertEqual(a,b)

if __name__ == '__main__':
    unittest.main()

The downside of this is that it handles all data in one test. I would like to generate one test for each item on the fly. Any suggestions?

2

25 Answers 25

300

This is called "parametrization".

There are several tools that support this approach. E.g.:

The resulting code looks like this:

from parameterized import parameterized

class TestSequence(unittest.TestCase):
    @parameterized.expand([
        ["foo", "a", "a",],
        ["bar", "a", "b"],
        ["lee", "b", "b"],
    ])
    def test_sequence(self, name, a, b):
        self.assertEqual(a,b)

Which will generate the tests:

test_sequence_0_foo (__main__.TestSequence) ... ok
test_sequence_1_bar (__main__.TestSequence) ... FAIL
test_sequence_2_lee (__main__.TestSequence) ... ok

======================================================================
FAIL: test_sequence_1_bar (__main__.TestSequence)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "/usr/local/lib/python2.7/site-packages/parameterized/parameterized.py", line 233, in <lambda>
    standalone_func = lambda *a: func(*(a + p.args), **p.kwargs)
  File "x.py", line 12, in test_sequence
    self.assertEqual(a,b)
AssertionError: 'a' != 'b'

For historical reasons I'll leave the original answer circa 2008):

I use something like this:

import unittest

l = [["foo", "a", "a",], ["bar", "a", "b"], ["lee", "b", "b"]]

class TestSequense(unittest.TestCase):
    pass

def test_generator(a, b):
    def test(self):
        self.assertEqual(a,b)
    return test

if __name__ == '__main__':
    for t in l:
        test_name = 'test_%s' % t[0]
        test = test_generator(t[1], t[2])
        setattr(TestSequense, test_name, test)
    unittest.main()
15
  • 27
    Actually, bignose, this code DOES generate a different name for each test (it actually wouldn't work otherwise). In the example given the tests executed will be named "test_foo", "test_bar", and "test_lee" respectively. Thus the benefit you mention (and it is a big one) is preserved as long as you generate sensible names.
    – Toji
    Feb 23, 2011 at 16:52
  • 2
    As the answer given by @codeape states, nose handles this. However, nose does not seem to handle Unicode; therefore for me this is a preferable solution. +1 Aug 13, 2011 at 20:42
  • 5
    So note, that more proper answer is given in the duplicate question: stackoverflow.com/a/2799009/322020 - you have use to .__name__ = to enable .exact_method testing
    – Nakilon
    Apr 12, 2013 at 10:38
  • 8
    Why does the code modifying the class appear in the if __name__ == '__main__' conditional? Surely it should go outside this to run at import time (remembering that python modules are only imported once even if imported from several different places) Dec 21, 2013 at 0:52
  • 4
    I don't think this is a good solution. The code of a unittest should not depend on the way it gets called. The TestCase should be useable in nose or pytest or a different test environment.
    – guettli
    Apr 29, 2014 at 12:21
264

Using unittest (since 3.4)

Since Python 3.4, the standard library unittest package has the subTest context manager.

See the documentation:

Example:

from unittest import TestCase

param_list = [('a', 'a'), ('a', 'b'), ('b', 'b')]

class TestDemonstrateSubtest(TestCase):
    def test_works_as_expected(self):
        for p1, p2 in param_list:
            with self.subTest(p1, p2):
                self.assertEqual(p1, p2)

You can also specify a custom message and parameter values to subTest():

with self.subTest(msg="Checking if p1 equals p2", p1=p1, p2=p2):

Using nose

The nose testing framework supports this.

Example (the code below is the entire contents of the file containing the test):

param_list = [('a', 'a'), ('a', 'b'), ('b', 'b')]

def test_generator():
    for params in param_list:
        yield check_em, params[0], params[1]

def check_em(a, b):
    assert a == b

The output of the nosetests command:

> nosetests -v
testgen.test_generator('a', 'a') ... ok
testgen.test_generator('a', 'b') ... FAIL
testgen.test_generator('b', 'b') ... ok

======================================================================
FAIL: testgen.test_generator('a', 'b')
----------------------------------------------------------------------
Traceback (most recent call last):
  File "/usr/lib/python2.5/site-packages/nose-0.10.1-py2.5.egg/nose/case.py", line 203, in runTest
    self.test(*self.arg)
  File "testgen.py", line 7, in check_em
    assert a == b
AssertionError

----------------------------------------------------------------------
Ran 3 tests in 0.006s

FAILED (failures=1)
9
  • 1
    Actually, you can. I had a look at the unittest docs and this was added in 3.4 (I've updated the answer with a code example).
    – codeape
    Apr 4, 2018 at 13:21
  • 2
    Is there a way to run the unittest version with pytest, so that it would run all the cases and not stop on the first failed parameter?
    – kakk11
    Apr 24, 2019 at 17:13
  • 3
    As mentioned by @kakk11, this answer (and subTest in general) does not work with pytest. This is a known issue. There is an actively developed plugin to make this work: github.com/pytest-dev/pytest-subtests
    – Jérémie
    Jun 17, 2019 at 15:47
  • 6
    there are two issues: 1) first failed subtest causes that subsequent subtests are not run 2) setUp() and tearDown() are not called for subtests Sep 7, 2019 at 18:30
  • 1
    Thanks! I'm able to see subtests that fail using this approach.
    – Saurabh
    Sep 11, 2023 at 18:40
92

This can be solved elegantly using Metaclasses:

import unittest

l = [["foo", "a", "a",], ["bar", "a", "b"], ["lee", "b", "b"]]

class TestSequenceMeta(type):
    def __new__(mcs, name, bases, dict):

        def gen_test(a, b):
            def test(self):
                self.assertEqual(a, b)
            return test

        for tname, a, b in l:
            test_name = "test_%s" % tname
            dict[test_name] = gen_test(a,b)
        return type.__new__(mcs, name, bases, dict)

class TestSequence(unittest.TestCase):
    __metaclass__ = TestSequenceMeta

if __name__ == '__main__':
    unittest.main()
11
  • 2
    This worked GREAT for me with Selenium. As a note, in the class TestSequence, you can define "static" methods like setUp(self), is_element_present(self, how, what), ... tearDown(self). Putting them AFTER the "metaclass = TestSequenceMeta" statement seems to work. Sep 8, 2015 at 23:37
  • 6
    This solution is better than the one selected as accepted IMHO.
    – petroslamb
    Jan 18, 2016 at 13:42
  • 2
    @petroslamb The __new__ method in the metaclass gets called when the class itself is defined, not when the first instance is created. I would imagine this method of dynamically creating test methods is more compatible with the introspection used by unittest to determine how many tests are in a class (i.e. it may compile the list of tests before it ever creates an instance of that class).
    – BillyBBone
    Feb 23, 2016 at 4:20
  • 20
    Note: in python 3, change this to: class TestSequence(unittest.TestCase, metaclass=TestSequenceMeta):[...]
    – Mathieu_Du
    Dec 30, 2016 at 18:40
  • 10
    Could you please use dct instead of dict? Using keywords as variable names is confusing and error-prone.
    – npfoss
    Nov 26, 2018 at 4:26
67

As of Python 3.4, subtests have been introduced to unittest for this purpose. See the documentation for details. TestCase.subTest is a context manager which allows one to isolate asserts in a test so that a failure will be reported with parameter information, but it does not stop the test execution. Here's the example from the documentation:

class NumbersTest(unittest.TestCase):

def test_even(self):
    """
    Test that numbers between 0 and 5 are all even.
    """
    for i in range(0, 6):
        with self.subTest(i=i):
            self.assertEqual(i % 2, 0)

The output of a test run would be:

======================================================================
FAIL: test_even (__main__.NumbersTest) (i=1)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "subtests.py", line 32, in test_even
    self.assertEqual(i % 2, 0)
AssertionError: 1 != 0

======================================================================
FAIL: test_even (__main__.NumbersTest) (i=3)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "subtests.py", line 32, in test_even
    self.assertEqual(i % 2, 0)
AssertionError: 1 != 0

======================================================================
FAIL: test_even (__main__.NumbersTest) (i=5)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "subtests.py", line 32, in test_even
    self.assertEqual(i % 2, 0)
AssertionError: 1 != 0

This is also part of unittest2, so it is available for earlier versions of Python.

5
  • 2
    The best solution if you use python 3.4 and higher.
    – Max Malysh
    Dec 20, 2015 at 14:14
  • 4
    Using unittest2, this is also available for Python 2.7.
    – Bernhard
    Mar 25, 2016 at 16:21
  • 20
    One major difference between this approach and having separate tests is that the test state isn't reset each time. (That is, setUp() and tearDown() aren't run between the sub-tests.) Apr 9, 2016 at 15:16
  • 2
    @KevinChristopherHenry Yes, but self.setUp() can in theory be called manually from within the subtest. As for tearDown, having it called automatically at the end might suffice.
    – Asclepius
    May 1, 2017 at 20:33
  • I think that this could be powerful when used in conjunction with the metaclass approach above. Jun 2, 2020 at 9:25
44

load_tests is a little known mechanism introduced in 2.7 to dynamically create a TestSuite. With it, you can easily create parametrized tests.

For example:

import unittest

class GeneralTestCase(unittest.TestCase):
    def __init__(self, methodName, param1=None, param2=None):
        super(GeneralTestCase, self).__init__(methodName)

        self.param1 = param1
        self.param2 = param2

    def runTest(self):
        pass  # Test that depends on param 1 and 2.


def load_tests(loader, tests, pattern):
    test_cases = unittest.TestSuite()
    for p1, p2 in [(1, 2), (3, 4)]:
        test_cases.addTest(GeneralTestCase('runTest', p1, p2))
    return test_cases

That code will run all the TestCases in the TestSuite returned by load_tests. No other tests are automatically run by the discovery mechanism.

Alternatively, you can also use inheritance as shown in this ticket: http://bugs.python.org/msg151444

7
  • 1
    The code above fails: TypeError: __init__() takes at most 2 arguments (4 given)
    – max
    Nov 17, 2015 at 5:31
  • 2
    Added null defaults to the constructor extra parameters.
    – Javier
    Nov 24, 2015 at 1:56
  • I prefer the nose-parameterize code in @mojo's answer, but for my clients it's just too useful to avoid an extra dependency so I'll be using this for them.
    – sage
    Mar 19, 2016 at 15:55
  • 1
    This solution was my favourite on this page. Both Nose, suggested in the current top answer, and its fork Nose2 are maintenance only, and the latter suggests users instead try pytest. What a mess - I'll stick to a native approach like this!
    – Sean
    Jan 31, 2018 at 22:00
  • 1
    bonus: ability to redefine shortDescription method for output passed in params
    – fun_vit
    Feb 14, 2018 at 10:30
41

It can be done by using pytest. Just write the file test_me.py with content:

import pytest

@pytest.mark.parametrize('name, left, right', [['foo', 'a', 'a'],
                                               ['bar', 'a', 'b'],
                                               ['baz', 'b', 'b']])
def test_me(name, left, right):
    assert left == right, name

And run your test with command py.test --tb=short test_me.py. Then the output will look like:

=========================== test session starts ============================
platform darwin -- Python 2.7.6 -- py-1.4.23 -- pytest-2.6.1
collected 3 items

test_me.py .F.

================================= FAILURES =================================
_____________________________ test_me[bar-a-b] _____________________________
test_me.py:8: in test_me
    assert left == right, name
E   AssertionError: bar
==================== 1 failed, 2 passed in 0.01 seconds ====================

It is simple! Also pytest has more features like fixtures, mark, assert, etc.

4
  • 1
    I was looking for a simple, straight forward example how to parametrize test cases with py.test. Thank you very much!
    – timgeb
    Mar 25, 2016 at 15:13
  • @timgeb I'm glad to help you. Check py.test tag, for more examples. Also I suggest to use hamcrest for adding some sugar into your asserts with human readable mutchers, which can be modified, combined or created by your own way. Plus we have allure-python, a nice looking report generation for py.test Mar 25, 2016 at 15:55
  • Thanks. I just started moving from unittest to py.test. I used to have TestCase base classes that were able to dynamically create children with different arguments which they would store as class variables... which was a bit unwieldy.
    – timgeb
    Mar 25, 2016 at 15:57
  • 1
    @timgeb Yep you are right. The most killer feature of py.test is yield_fixtures. Which can do setup, return some useful data into test and after test ends make teardown. Fixtures can also be parametirized. Mar 25, 2016 at 16:08
16

Use the ddt library. It adds simple decorators for the test methods:

import unittest
from ddt import ddt, data
from mycode import larger_than_two

@ddt
class FooTestCase(unittest.TestCase):

    @data(3, 4, 12, 23)
    def test_larger_than_two(self, value):
        self.assertTrue(larger_than_two(value))

    @data(1, -3, 2, 0)
    def test_not_larger_than_two(self, value):
        self.assertFalse(larger_than_two(value))

This library can be installed with pip. It doesn't require nose, and works excellent with the standard library unittest module.

6

You would benefit from trying the TestScenarios library.

testscenarios provides clean dependency injection for python unittest style tests. This can be used for interface testing (testing many implementations via a single test suite) or for classic dependency injection (provide tests with dependencies externally to the test code itself, allowing easy testing in different situations).

6

There's also Hypothesis which adds fuzz or property based testing.

This is a very powerful testing method.

2
6

This is effectively the same as parameterized as mentioned in a previous answer, but specific to unittest:

def sub_test(param_list):
    """Decorates a test case to run it as a set of subtests."""

    def decorator(f):

        @functools.wraps(f)
        def wrapped(self):
            for param in param_list:
                with self.subTest(**param):
                    f(self, **param)

        return wrapped

    return decorator

Example usage:

class TestStuff(unittest.TestCase):
    @sub_test([
        dict(arg1='a', arg2='b'),
        dict(arg1='x', arg2='y'),
    ])
    def test_stuff(self, arg1, arg2):
        ...
3
  • Thanks for this. I was able to get this working easier than the parameterized solution.
    – dgundersen
    Mar 19, 2022 at 14:30
  • Am I mistaken that test_stuff should be test_stuff(self, arg1, arg2)? Jun 23, 2022 at 20:52
  • Nope, you are correct! Fixed via edit - thanks! Jul 11, 2022 at 19:45
4

You can use the nose-ittr plugin (pip install nose-ittr).

It's very easy to integrate with existing tests, and minimal changes (if any) are required. It also supports the nose multiprocessing plugin.

Note that you can also have a customize setup function per test.

@ittr(number=[1, 2, 3, 4])
def test_even(self):
    assert_equal(self.number % 2, 0)

It is also possible to pass nosetest parameters like with their built-in plugin attrib. This way you can run only a specific test with specific parameter:

nosetest -a number=2
1
  • I like this approach, especially the per method level it supports.
    – Matt
    Mar 6, 2015 at 1:29
4

I use metaclasses and decorators for generate tests. You can check my implementation python_wrap_cases. This library doesn't require any test frameworks.

Your example:

import unittest
from python_wrap_cases import wrap_case


@wrap_case
class TestSequence(unittest.TestCase):

    @wrap_case("foo", "a", "a")
    @wrap_case("bar", "a", "b")
    @wrap_case("lee", "b", "b")
    def testsample(self, name, a, b):
        print "test", name
        self.assertEqual(a, b)

Console output:

testsample_u'bar'_u'a'_u'b' (tests.example.test_stackoverflow.TestSequence) ... test bar
FAIL
testsample_u'foo'_u'a'_u'a' (tests.example.test_stackoverflow.TestSequence) ... test foo
ok
testsample_u'lee'_u'b'_u'b' (tests.example.test_stackoverflow.TestSequence) ... test lee
ok

Also you may use generators. For example this code generate all possible combinations of tests with arguments a__list and b__list

import unittest
from python_wrap_cases import wrap_case


@wrap_case
class TestSequence(unittest.TestCase):

    @wrap_case(a__list=["a", "b"], b__list=["a", "b"])
    def testsample(self, a, b):
        self.assertEqual(a, b)

Console output:

testsample_a(u'a')_b(u'a') (tests.example.test_stackoverflow.TestSequence) ... ok
testsample_a(u'a')_b(u'b') (tests.example.test_stackoverflow.TestSequence) ... FAIL
testsample_a(u'b')_b(u'a') (tests.example.test_stackoverflow.TestSequence) ... FAIL
testsample_a(u'b')_b(u'b') (tests.example.test_stackoverflow.TestSequence) ... ok
2

I came across ParamUnittest the other day when looking at the source code for radon (example usage on the GitHub repository). It should work with other frameworks that extend TestCase (like Nose).

Here is an example:

import unittest
import paramunittest


@paramunittest.parametrized(
    ('1', '2'),
    #(4, 3),    <---- Uncomment to have a failing test
    ('2', '3'),
    (('4', ), {'b': '5'}),
    ((), {'a': 5, 'b': 6}),
    {'a': 5, 'b': 6},
)
class TestBar(TestCase):
    def setParameters(self, a, b):
        self.a = a
        self.b = b

    def testLess(self):
        self.assertLess(self.a, self.b)
2
import unittest

def generator(test_class, a, b):
    def test(self):
        self.assertEqual(a, b)
    return test

def add_test_methods(test_class):
    # The first element of list is variable "a", then variable "b", then name of test case that will be used as suffix.
    test_list = [[2,3, 'one'], [5,5, 'two'], [0,0, 'three']]
    for case in test_list:
        test = generator(test_class, case[0], case[1])
        setattr(test_class, "test_%s" % case[2], test)


class TestAuto(unittest.TestCase):
    def setUp(self):
        print 'Setup'
        pass

    def tearDown(self):
        print 'TearDown'
        pass

_add_test_methods(TestAuto)  # It's better to start with underscore so it is not detected as a test itself

if __name__ == '__main__':
    unittest.main(verbosity=1)

RESULT:

>>>
Setup
FTearDown
Setup
TearDown
.Setup
TearDown
.
======================================================================
FAIL: test_one (__main__.TestAuto)
----------------------------------------------------------------------
Traceback (most recent call last):
  File "D:/inchowar/Desktop/PyTrash/test_auto_3.py", line 5, in test
    self.assertEqual(a, b)
AssertionError: 2 != 3

----------------------------------------------------------------------
Ran 3 tests in 0.019s

FAILED (failures=1)
3
  • 1
    Minor problem with your def add_test_methods function. Should be def _add_test_methods I think
    – Raychaser
    Jan 13, 2017 at 19:12
  • @Raychaser...You are correct..I fixed that but did not update it here....Thanks for catching that. Jan 16, 2017 at 10:45
  • @ArindamRoychowdhury Is there any way to add the test methods from within the TestAuto class, say in the setup method. If I call the add_test_methods method from either setup method, the dynamic tests do not get added to the TestAuto class
    – Sennin
    May 5, 2023 at 17:06
1

Just use metaclasses, as seen here;

class DocTestMeta(type):
    """
    Test functions are generated in metaclass due to the way some
    test loaders work. For example, setupClass() won't get called
    unless there are other existing test methods, and will also
    prevent unit test loader logic being called before the test
    methods have been defined.
    """
    def __init__(self, name, bases, attrs):
        super(DocTestMeta, self).__init__(name, bases, attrs)

    def __new__(cls, name, bases, attrs):
        def func(self):
            """Inner test method goes here"""
            self.assertTrue(1)

        func.__name__ = 'test_sample'
        attrs[func.__name__] = func
        return super(DocTestMeta, cls).__new__(cls, name, bases, attrs)

class ExampleTestCase(TestCase):
    """Our example test case, with no methods defined"""
    __metaclass__ = DocTestMeta

Output:

test_sample (ExampleTestCase) ... OK
1

I'd been having trouble with a very particular style of parameterized tests. All our Selenium tests can run locally, but they also should be able to be run remotely against several platforms on SauceLabs. Basically, I wanted to take a large amount of already-written test cases and parameterize them with the fewest changes to code possible. Furthermore, I needed to be able to pass the parameters into the setUp method, something which I haven't seen any solutions for elsewhere.

Here's what I've come up with:

import inspect
import types

test_platforms = [
    {'browserName': "internet explorer", 'platform': "Windows 7", 'version': "10.0"},
    {'browserName': "internet explorer", 'platform': "Windows 7", 'version': "11.0"},
    {'browserName': "firefox", 'platform': "Linux", 'version': "43.0"},
]


def sauce_labs():
    def wrapper(cls):
        return test_on_platforms(cls)
    return wrapper


def test_on_platforms(base_class):
    for name, function in inspect.getmembers(base_class, inspect.isfunction):
        if name.startswith('test_'):
            for platform in test_platforms:
                new_name = '_'.join(list([name, ''.join(platform['browserName'].title().split()), platform['version']]))
                new_function = types.FunctionType(function.__code__, function.__globals__, new_name,
                                                  function.__defaults__, function.__closure__)
                setattr(new_function, 'platform', platform)
                setattr(base_class, new_name, new_function)
            delattr(base_class, name)

    return base_class

With this, all I had to do was add a simple decorator @sauce_labs() to each regular old TestCase, and now when running them, they're wrapped up and rewritten, so that all the test methods are parameterized and renamed. LoginTests.test_login(self) runs as LoginTests.test_login_internet_explorer_10.0(self), LoginTests.test_login_internet_explorer_11.0(self), and LoginTests.test_login_firefox_43.0(self), and each one has the parameter self.platform to decide what browser/platform to run against, even in LoginTests.setUp, which is crucial for my task since that's where the connection to SauceLabs is initialized.

Anyway, I hope this might be of help to someone looking to do a similar "global" parameterization of their tests!

1

You can use TestSuite and custom TestCase classes.

import unittest

class CustomTest(unittest.TestCase):
    def __init__(self, name, a, b):
        super().__init__()
        self.name = name
        self.a = a
        self.b = b

    def runTest(self):
        print("test", self.name)
        self.assertEqual(self.a, self.b)

if __name__ == '__main__':
    suite = unittest.TestSuite()
    suite.addTest(CustomTest("Foo", 1337, 1337))
    suite.addTest(CustomTest("Bar", 0xDEAD, 0xC0DE))
    unittest.TextTestRunner().run(suite)
1
  • While the TestSuite works, the arguments are not passed down to __init__ function.
    – jadelord
    Aug 2, 2017 at 19:42
1

I have found that this works well for my purposes, especially if I need to generate tests that do slightly difference processes on a collection of data.

import unittest

def rename(newName):
    def renamingFunc(func):
        func.__name__ == newName
        return func
    return renamingFunc

class TestGenerator(unittest.TestCase):

    TEST_DATA = {}

    @classmethod
    def generateTests(cls):
        for dataName, dataValue in TestGenerator.TEST_DATA:
            for func in cls.getTests(dataName, dataValue):
                setattr(cls, "test_{:s}_{:s}".format(func.__name__, dataName), func)

    @classmethod
    def getTests(cls):
        raise(NotImplementedError("This must be implemented"))

class TestCluster(TestGenerator):

    TEST_CASES = []

    @staticmethod
    def getTests(dataName, dataValue):

        def makeTest(case):

            @rename("{:s}".format(case["name"]))
            def test(self):
                # Do things with self, case, data
                pass

            return test

        return [makeTest(c) for c in TestCluster.TEST_CASES]

TestCluster.generateTests()

The TestGenerator class can be used to spawn different sets of test cases like TestCluster.

TestCluster can be thought of as an implementation of the TestGenerator interface.

1

This solution works with unittest and nose for Python 2 and Python 3:

#!/usr/bin/env python
import unittest

def make_function(description, a, b):
    def ghost(self):
        self.assertEqual(a, b, description)
    print(description)
    ghost.__name__ = 'test_{0}'.format(description)
    return ghost


class TestsContainer(unittest.TestCase):
    pass

testsmap = {
    'foo': [1, 1],
    'bar': [1, 2],
    'baz': [5, 5]}

def generator():
    for name, params in testsmap.iteritems():
        test_func = make_function(name, params[0], params[1])
        setattr(TestsContainer, 'test_{0}'.format(name), test_func)

generator()

if __name__ == '__main__':
    unittest.main()
1
  • Thank you @guillaume-jacquenot for the upgraded version <3 !
    – mop
    Apr 26, 2020 at 7:56
1

Meta-programming is fun, but it can get in the way. Most solutions here make it difficult to:

  • selectively launch a test
  • point back to the code given the test's name

So, my first suggestion is to follow the simple/explicit path (works with any test runner):

import unittest

class TestSequence(unittest.TestCase):

    def _test_complex_property(self, a, b):
        self.assertEqual(a,b)

    def test_foo(self):
        self._test_complex_property("a", "a")
    def test_bar(self):
        self._test_complex_property("a", "b")
    def test_lee(self):
        self._test_complex_property("b", "b")

if __name__ == '__main__':
    unittest.main()

Since we shouldn't repeat ourselves, my second suggestion builds on Javier's answer: embrace property based testing. Hypothesis library:

  • is "more relentlessly devious about test case generation than us mere humans"

  • will provide simple count-examples

  • works with any test runner

  • has many more interesting features (statistics, additional test output, ...)

    class TestSequence(unittest.TestCase):

      @given(st.text(), st.text())
      def test_complex_property(self, a, b):
          self.assertEqual(a,b)
    

To test your specific examples, just add:

    @example("a", "a")
    @example("a", "b")
    @example("b", "b")

To run only one particular example, you can comment out the other examples (provided example will be run first). You may want to use @given(st.nothing()). Another option is to replace the whole block by:

    @given(st.just("a"), st.just("b"))

OK, you don't have distinct test names. But maybe you just need:

  • a descriptive name of the property under test.
  • which input leads to failure (falsifying example).

Funnier example

0

I had trouble making these work for setUpClass.

Here's a version of Javier's answer that gives setUpClass access to dynamically allocated attributes.

import unittest


class GeneralTestCase(unittest.TestCase):
    @classmethod
    def setUpClass(cls):
        print ''
        print cls.p1
        print cls.p2

    def runTest1(self):
        self.assertTrue((self.p2 - self.p1) == 1)

    def runTest2(self):
        self.assertFalse((self.p2 - self.p1) == 2)


def load_tests(loader, tests, pattern):
    test_cases = unittest.TestSuite()
    for p1, p2 in [(1, 2), (3, 4)]:
        clsname = 'TestCase_{}_{}'.format(p1, p2)
        dct = {
            'p1': p1,
            'p2': p2,
        }
        cls = type(clsname, (GeneralTestCase,), dct)
        test_cases.addTest(cls('runTest1'))
        test_cases.addTest(cls('runTest2'))
    return test_cases

Outputs

1
2
..
3
4
..
----------------------------------------------------------------------
Ran 4 tests in 0.000s

OK
0

The metaclass-based answers still work in Python 3, but instead of the __metaclass__ attribute, one has to use the metaclass parameter, as in:

class ExampleTestCase(TestCase,metaclass=DocTestMeta):
    pass
-1
import unittest

def generator(test_class, a, b,c,d,name):
    def test(self):
        print('Testexecution=',name)
        print('a=',a)
        print('b=',b)
        print('c=',c)
        print('d=',d)

    return test

def add_test_methods(test_class):
    test_list = [[3,3,5,6, 'one'], [5,5,8,9, 'two'], [0,0,5,6, 'three'],[0,0,2,3,'Four']]
    for case in test_list:
        print('case=',case[0], case[1],case[2],case[3],case[4])
        test = generator(test_class, case[0], case[1],case[2],case[3],case[4])
        setattr(test_class, "test_%s" % case[4], test)


class TestAuto(unittest.TestCase):
    def setUp(self):
        print ('Setup')
        pass

    def tearDown(self):
        print ('TearDown')
        pass

add_test_methods(TestAuto)

if __name__ == '__main__':
    unittest.main(verbosity=1)
2
  • it seems like you lost the formatting there. it's really hard to read as it stands
    – Arturo
    Dec 6, 2019 at 0:44
  • 2
    An explanation would be in order. Jan 6, 2021 at 1:11
-1

Following is my solution. I find this useful when:

  1. Should work for unittest.Testcase and unittest discover

  2. Have a set of tests to be run for different parameter settings.

  3. Very simple and no dependency on other packages

     import unittest
    
     class BaseClass(unittest.TestCase):
         def setUp(self):
             self.param = 2
             self.base = 2
    
         def test_me(self):
             self.assertGreaterEqual(5, self.param+self.base)
    
         def test_me_too(self):
             self.assertLessEqual(3, self.param+self.base)
    
    
      class Child_One(BaseClass):
         def setUp(self):
             BaseClass.setUp(self)
             self.param = 4
    
    
      class Child_Two(BaseClass):
         def setUp(self):
             BaseClass.setUp(self)
             self.param = 1
    
1
  • This doesn't answer the question, which is about generating tests on the fly.
    – lenz
    Jan 4, 2018 at 20:14
-1

Besides using setattr, we can use load_tests with Python 3.2 and later.

class Test(unittest.TestCase):
    pass

def _test(self, file_name):
    open(file_name, 'r') as f:
        self.assertEqual('test result',f.read())

def _generate_test(file_name):
    def test(self):
        _test(self, file_name)
    return test

def _generate_tests():
    for file in files:
        file_name = os.path.splitext(os.path.basename(file))[0]
        setattr(Test, 'test_%s' % file_name, _generate_test(file))

test_cases = (Test,)

def load_tests(loader, tests, pattern):
    _generate_tests()
    suite = TestSuite()
    for test_class in test_cases:
        tests = loader.loadTestsFromTestCase(test_class)
        suite.addTests(tests)
    return suite

if __name__ == '__main__':
    _generate_tests()
    unittest.main()
1
  • The link is broken (DNS?): "Hmm. We’re having trouble finding that site. We can’t connect to the server at blog.livreuro.com." Jan 29, 2021 at 22:17

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