05: Unit Tests and nose
¶
Provide unit testing for our project's Python code.
Background¶
As the mantra says, "Untested code is broken code." The Python community has had a long culture of writing test scripts which ensure that your code works correctly as you write it and maintain it in the future. Pyramid has always had a deep commitment to testing, with 100% test coverage from the earliest pre-releases.
Python includes a unit testing framework in its standard library. Over the years a
number of Python projects, such as nose, have extended this framework with
alternative test runners that provide more convenience and functionality. The
Pyramid developers use nose
, which we'll use in this tutorial.
Don't worry, this tutorial won't be pedantic about "test-driven development" (TDD). We'll do just enough to ensure that, in each step, we haven't majorly broken the code. As you're writing your code, you might find this more convenient than changing to your browser constantly and clicking reload.
We'll also leave discussion of coverage for another section.
Objectives¶
- Write unit tests that ensure the quality of our code.
- Install a Python package (
nose
) which helps in our testing.
Steps¶
First we copy the results of the previous step, as well as install the
nose
package:$ cd ..; cp -r debugtoolbar unit_testing; cd unit_testing $ $VENV/bin/python setup.py develop $ $VENV/bin/easy_install nose
Now we write a simple unit test in
unit_testing/tutorial/tests.py
:1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18
import unittest from pyramid import testing class TutorialViewTests(unittest.TestCase): def setUp(self): self.config = testing.setUp() def tearDown(self): testing.tearDown() def test_hello_world(self): from tutorial import hello_world request = testing.DummyRequest() response = hello_world(request) self.assertEqual(response.status_code, 200)
Now run the tests:
$ $VENV/bin/nosetests tutorial . ---------------------------------------------------------------------- Ran 1 test in 0.141s OK
Analysis¶
Our tests.py
imports the Python standard unit testing framework. To make
writing Pyramid-oriented tests more convenient, Pyramid supplies some
pyramid.testing
helpers which we use in the test setup and teardown. Our
one test imports the view, makes a dummy request, and sees if the view returns
what we expect.
The tests.TutorialViewTests.test_hello_world
test is a small example of a
unit test. First, we import the view inside each test. Why not import at the
top, like in normal Python code? Because imports can cause effects that break a
test. We'd like our tests to be in units, hence the name unit testing. Each
test should isolate itself to the correct degree.
Our test then makes a fake incoming web request, then calls our Pyramid view. We test the HTTP status code on the response to make sure it matches our expectations.
Note that our use of pyramid.testing.setUp()
and
pyramid.testing.tearDown()
aren't actually necessary here; they are only
necessary when your test needs to make use of the config
object (it's a
Configurator) to add stuff to the configuration state before calling the view.
Extra credit¶
- Change the test to assert that the response status code should be
404
(meaning, not found.) Runnosetests
again. Read the error report and see if you can decipher what it is telling you. - As a more realistic example, put the
tests.py
back as you found it, and put an error in your view, such as a reference to a non-existing variable. Run the tests and see how this is more convenient than reloading your browser and going back to your code. - Finally, for the most realistic test, read about Pyramid
Response
objects and see how to change the response code. Run the tests and see how testing confirms the "contract" that your code claims to support. - How could we add a unit test assertion to test the HTML value of the response body?
- Why do we import the
hello_world
view function inside thetest_hello_world
method instead of at the top of the module?
See also