As some comments have echoed, structuring your tests in this manner is probably a design flaw in the tests themselves and you should consider restructuring them. However, if you want to do this and rely on the fact that the test runner you are using executes them in an alphabetical (seemingly) order then I suggest the following.
Similar to what @Matthias was saying but I would do one thing differently for the cases where you may decide to inherit from the class at a later date.
from unittest import TestCase, main as unittest_main
class TestSimpleFoo(TestCase):
foo = 'bar'
def setUp(self):
pass
def test_a(self):
self.assertEqual(self.__class__.foo, 'bar')
self.__class__.foo = 'can'
def test_f(self):
self.assertEqual(self.__class__.foo, 'can')
if __name__ == '__main__':
unittest_main()
The difference between this answer and @Matthias's answer you accepted is the explicit declaration of the class versus the lookup of said class reference.
TestSimpleFoo vs self.__class__
I prefer the dynamicness so I can inherit the tests later and run both test classes back to back and not have any cross over between the two. Because if you would choose to inherit from this class, explicitly naming the class reference would cause both test classes to run against that reference rather than their own respective classes.
self.foo
refers to an instance variable whilefoo = 'bar'
(where it is located) assigns a class variable.]login
sets anaccess_token
which I require for the next few tests.setUp
to mock the appropriate access_token? (Make the setUp call the OAuth as required; more of integration testing at this point .. but take it that the setUp cannot be wrong, or the other TestCase would have failed.)setUpClass()
. It runs a single time when your class is called. You can use it to setup variables needed for multiple tests.