Testify is a replacement for Python's unittest module and nose. It is modeled after unittest, and existing unittest classes are fully supported.
However, Testify has features above and beyond unittest:
-
Class-level setup and teardown fixture methods, which are run only once for an entire class of test methods.
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A decorator-based approach to fixture methods, enabling features like lazily-evaluated attributes and context managers for tests.
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Enhanced test discovery. Testify can drill down into packages to find test cases (similiar to nose).
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Support for detecting and running test suites, grouped by modules, classes, or individual test methods.
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Support for splitting up tests into buckets for multiprocessing.
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Pretty test runner output (hooray color!).
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Extensible plugin system for adding additional functionality around reporting.
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Comes complete with other handy testing utilities, including turtle (for mocking), code coverage integration, profiling, and numerous common assertion helpers for easier debugging.
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More Pythonic naming conventions.
from testify import *
class AdditionTestCase(TestCase):
@class_setup
def init_the_variable(self):
self.variable = 0
@setup
def increment_the_variable(self):
self.variable += 1
def test_the_variable(self):
assert_equal(self.variable, 1)
@suite('disabled', reason='ticket #123, not equal to 2 places')
def test_broken(self):
# raises 'AssertionError: 1 !~= 1.01'
assert_almost_equal(1, 1.01, threshold=2)
@teardown
def decrement_the_variable(self):
self.variable -= 1
@class_teardown
def get_rid_of_the_variable(self):
self.variable = None
if __name__ == "__main__":
run()
Testify will discover and run unittests
without any code changes, just
point it to a directory containing your tests:
$ testify my_unittests/foo_test.py
To take advantage of more advanced Testify features, just replace
unittest.TestCase
with testify.TestCase
!
Testify provides the following fixtures for your enjoyment:
-
@setup
: Run before each individual test method on theTestCase
(that is, all methods that begin with 'test'). -
@teardown
: Likesetup
, but run after each test completes (regardless of success or failure). -
@class_setup
: Run before aTestCase
begins executing its tests. Note that this not a class method; you still have access to the sameTestCase
instance as your tests. -
@class_teardown
: Likeclass_setup
, but run after all tests complete (regardless of success or failure). -
@setup_teardown
: A context manager for individual tests, where test execution occurs during the yield. For example:@setup_teardown def mock_something(self): with mock.patch('foo') as foo_mock: self.foo_mock = foo_mock yield # this is where you would do teardown things
-
@class_setup_teardown
: Likesetup_teardown
, but all of theTestCase
's methods are run when this yields. -
@let
: This declares a lazily-evaluated attribute of theTestCase
. When accessed, this attribute will be computed and cached for the life of the test (including setup and teardown). For example:@let def expensive_attribute(self): return expensive_function_call() def test_something(self): assert self.expensive_attribute def test_something_else(self): # no expensive call assert True
In pseudo code, Testify follows this schedule when running your tests:
Run all 'class_setup' methods
Enter all 'class_setup_teardown' context managers
For each method beginning with 'test':
Run all 'setup' methods
Enter all 'setup_teardown' context managers
Run the method and record failure or success
Exit all 'setup_teardown' context managers
Run all 'teardown' methods
Exit all 'class_setup_teardown' context managers
Run all 'class_teardown' methods
Your fixtures are just decorated methods, so they can be inherited and overloaded as expected. When you introduce subclasses and mixins into the... mix, things can get a little crazy. For this reason, Testify makes a couple guarantees about how your fixtures are run:
-
A subclass's fixture context is always contained within its parent's fixture context (as determined by the usual MRO). That is, fixture context is pushed and popped in FILO order.
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Fixtures of the same type (and defined at the same level in the class heirarchy) will be run in the order they are defined on the class.