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656 lines
27 KiB
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656 lines
27 KiB
Plaintext
=====================================
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Writing your first Django app, part 5
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=====================================
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This tutorial begins where :doc:`Tutorial 4 </intro/tutorial04>` left off.
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We've built a Web-poll application, and we'll now create some automated tests
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for it.
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Introducing automated testing
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=============================
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What are automated tests?
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-------------------------
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Tests are simple routines that check the operation of your code.
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Testing operates at different levels. Some tests might apply to a tiny detail
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- *does a particular model method return values as expected?*, while others
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examine the overall operation of the software - *does a sequence of user inputs
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on the site produce the desired result?* That's no different from the kind of
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testing you did earlier in :doc:`Tutorial 1 </intro/tutorial01>`, using the
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shell to examine the behavior of a method, or running the application and
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entering data to check how it behaves.
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What's different in *automated* tests is that the testing work is done for
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you by the system. You create a set of tests once, and then as you make changes
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to your app, you can check that your code still works as you originally
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intended, without having to perform time consuming manual testing.
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Why you need to create tests
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----------------------------
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So why create tests, and why now?
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You may feel that you have quite enough on your plate just learning
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Python/Django, and having yet another thing to learn and do may seem
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overwhelming and perhaps unnecessary. After all, our polls application is
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working quite happily now; going through the trouble of creating automated
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tests is not going to make it work any better. If creating the polls
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application is the last bit of Django programming you will ever do, then true,
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you don't need to know how to create automated tests. But, if that's not the
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case, now is an excellent time to learn.
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Tests will save you time
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~~~~~~~~~~~~~~~~~~~~~~~~
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Up to a certain point, 'checking that it seems to work' will be a satisfactory
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test. In a more sophisticated application, you might have dozens of complex
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interactions between components.
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A change in any of those components could have unexpected consequences on the
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application's behavior. Checking that it still 'seems to work' could mean
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running through your code's functionality with twenty different variations of
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your test data just to make sure you haven't broken something - not a good use
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of your time.
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That's especially true when automated tests could do this for you in seconds.
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If something's gone wrong, tests will also assist in identifying the code
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that's causing the unexpected behavior.
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Sometimes it may seem a chore to tear yourself away from your productive,
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creative programming work to face the unglamorous and unexciting business
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of writing tests, particularly when you know your code is working properly.
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However, the task of writing tests is a lot more fulfilling than spending hours
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testing your application manually or trying to identify the cause of a
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newly-introduced problem.
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Tests don't just identify problems, they prevent them
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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It's a mistake to think of tests merely as a negative aspect of development.
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Without tests, the purpose or intended behavior of an application might be
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rather opaque. Even when it's your own code, you will sometimes find yourself
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poking around in it trying to find out what exactly it's doing.
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Tests change that; they light up your code from the inside, and when something
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goes wrong, they focus light on the part that has gone wrong - *even if you
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hadn't even realized it had gone wrong*.
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Tests make your code more attractive
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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You might have created a brilliant piece of software, but you will find that
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many other developers will simply refuse to look at it because it lacks tests;
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without tests, they won't trust it. Jacob Kaplan-Moss, one of Django's
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original developers, says "Code without tests is broken by design."
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That other developers want to see tests in your software before they take it
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seriously is yet another reason for you to start writing tests.
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Tests help teams work together
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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The previous points are written from the point of view of a single developer
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maintaining an application. Complex applications will be maintained by teams.
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Tests guarantee that colleagues don't inadvertently break your code (and that
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you don't break theirs without knowing). If you want to make a living as a
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Django programmer, you must be good at writing tests!
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Basic testing strategies
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========================
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There are many ways to approach writing tests.
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Some programmers follow a discipline called "`test-driven development`_"; they
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actually write their tests before they write their code. This might seem
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counter-intuitive, but in fact it's similar to what most people will often do
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anyway: they describe a problem, then create some code to solve it. Test-driven
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development simply formalizes the problem in a Python test case.
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More often, a newcomer to testing will create some code and later decide that
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it should have some tests. Perhaps it would have been better to write some
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tests earlier, but it's never too late to get started.
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Sometimes it's difficult to figure out where to get started with writing tests.
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If you have written several thousand lines of Python, choosing something to
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test might not be easy. In such a case, it's fruitful to write your first test
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the next time you make a change, either when you add a new feature or fix a bug.
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So let's do that right away.
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.. _test-driven development: http://en.wikipedia.org/wiki/Test-driven_development
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Writing our first test
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======================
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We identify a bug
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-----------------
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Fortunately, there's a little bug in the ``polls`` application for us to fix
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right away: the ``Poll.was_published_recently()`` method returns ``True`` if
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the ``Poll`` was published within the last day (which is correct) but also if
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the ``Poll``'s ``pub_date`` field is in the future (which certainly isn't).
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You can see this in the Admin; create a poll whose date lies in the future;
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you'll see that the ``Poll`` change list claims it was published recently.
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You can also see this using the shell::
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>>> import datetime
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>>> from django.utils import timezone
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>>> from polls.models import Poll
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>>> # create a Poll instance with pub_date 30 days in the future
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>>> future_poll = Poll(pub_date=timezone.now() + datetime.timedelta(days=30))
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>>> # was it published recently?
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>>> future_poll.was_published_recently()
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True
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Since things in the future are not 'recent', this is clearly wrong.
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Create a test to expose the bug
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-------------------------------
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What we've just done in the shell to test for the problem is exactly what we
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can do in an automated test, so let's turn that into an automated test.
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The best place for an application's tests is in the application's ``tests.py``
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file - the testing system will look there for tests automatically.
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Put the following in the ``tests.py`` file in the ``polls`` application::
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import datetime
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from django.utils import timezone
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from django.test import TestCase
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from polls.models import Poll
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class PollMethodTests(TestCase):
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def test_was_published_recently_with_future_poll(self):
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"""
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was_published_recently() should return False for polls whose
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pub_date is in the future
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"""
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future_poll = Poll(pub_date=timezone.now() + datetime.timedelta(days=30))
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self.assertEqual(future_poll.was_published_recently(), False)
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What we have done here is created a :class:`django.test.TestCase` subclass
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with a method that creates a ``Poll`` instance with a ``pub_date`` in the
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future. We then check the output of ``was_published_recently()`` - which
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*ought* to be False.
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Running tests
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-------------
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In the terminal, we can run our test::
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python manage.py test polls
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and you'll see something like::
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Creating test database for alias 'default'...
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F
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======================================================================
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FAIL: test_was_published_recently_with_future_poll (polls.tests.PollMethodTests)
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----------------------------------------------------------------------
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Traceback (most recent call last):
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File "/path/to/mysite/polls/tests.py", line 16, in test_was_published_recently_with_future_poll
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self.assertEqual(future_poll.was_published_recently(), False)
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AssertionError: True != False
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----------------------------------------------------------------------
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Ran 1 test in 0.001s
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FAILED (failures=1)
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Destroying test database for alias 'default'...
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What happened is this:
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* ``python manage.py test polls`` looked for tests in the ``polls`` application
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* it found a subclass of the :class:`django.test.TestCase` class
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* it created a special database for the purpose of testing
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* it looked for test methods - ones whose names begin with ``test``
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* in ``test_was_published_recently_with_future_poll`` it created a ``Poll``
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instance whose ``pub_date`` field is 30 days in the future
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* ... and using the ``assertEqual()`` method, it discovered that its
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``was_published_recently()`` returns ``True``, though we wanted it to return
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``False``
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The test informs us which test failed and even the line on which the failure
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occurred.
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Fixing the bug
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--------------
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We already know what the problem is: ``Poll.was_published_recently()`` should
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return ``False`` if its ``pub_date`` is in the future. Amend the method in
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``models.py``, so that it will only return ``True`` if the date is also in the
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past::
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def was_published_recently(self):
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now = timezone.now()
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return now - datetime.timedelta(days=1) <= self.pub_date < now
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and run the test again::
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Creating test database for alias 'default'...
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.
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----------------------------------------------------------------------
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Ran 1 test in 0.001s
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OK
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Destroying test database for alias 'default'...
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After identifying a bug, we wrote a test that exposes it and corrected the bug
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in the code so our test passes.
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Many other things might go wrong with our application in the future, but we can
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be sure that we won't inadvertently reintroduce this bug, because simply
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running the test will warn us immediately. We can consider this little portion
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of the application pinned down safely forever.
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More comprehensive tests
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------------------------
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While we're here, we can further pin down the ``was_published_recently()``
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method; in fact, it would be positively embarrassing if in fixing one bug we had
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introduced another.
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Add two more test methods to the same class, to test the behavior of the method
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more comprehensively::
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def test_was_published_recently_with_old_poll(self):
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"""
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was_published_recently() should return False for polls whose pub_date
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is older than 1 day
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"""
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old_poll = Poll(pub_date=timezone.now() - datetime.timedelta(days=30))
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self.assertEqual(old_poll.was_published_recently(), False)
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def test_was_published_recently_with_recent_poll(self):
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"""
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was_published_recently() should return True for polls whose pub_date
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is within the last day
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"""
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recent_poll = Poll(pub_date=timezone.now() - datetime.timedelta(hours=1))
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self.assertEqual(recent_poll.was_published_recently(), True)
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And now we have three tests that confirm that ``Poll.was_published_recently()``
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returns sensible values for past, recent, and future polls.
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Again, ``polls`` is a simple application, but however complex it grows in the
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future and whatever other code it interacts with, we now have some guarantee
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that the method we have written tests for will behave in expected ways.
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Test a view
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===========
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The polls application is fairly undiscriminating: it will publish any poll,
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including ones whose ``pub_date`` field lies in the future. We should improve
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this. Setting a ``pub_date`` in the future should mean that the Poll is
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published at that moment, but invisible until then.
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A test for a view
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-----------------
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When we fixed the bug above, we wrote the test first and then the code to fix
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it. In fact that was a simple example of test-driven development, but it
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doesn't really matter in which order we do the work.
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In our first test, we focused closely on the internal behavior of the code. For
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this test, we want to check its behavior as it would be experienced by a user
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through a web browser.
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Before we try to fix anything, let's have a look at the tools at our disposal.
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The Django test client
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----------------------
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Django provides a test :class:`~django.test.client.Client` to simulate a user
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interacting with the code at the view level. We can use it in ``tests.py``
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or even in the shell.
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We will start again with the shell, where we need to do a couple of things that
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won't be necessary in ``tests.py``. The first is to set up the test environment
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in the shell::
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>>> from django.test.utils import setup_test_environment
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>>> setup_test_environment()
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:meth:`~django.test.utils.setup_test_environment` installs a template renderer
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which will allow us to examine some additional attributes on responses such as
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``response.context`` that otherwise wouldn't be available. Note that this
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method *does not* setup a test database, so the following will be run against
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the existing database and the output may differ slightly depending on what
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polls you already created.
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Next we need to import the test client class (later in ``tests.py`` we will use
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the :class:`django.test.TestCase` class, which comes with its own client, so
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this won't be required)::
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>>> from django.test.client import Client
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>>> # create an instance of the client for our use
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>>> client = Client()
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With that ready, we can ask the client to do some work for us::
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>>> # get a response from '/'
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>>> response = client.get('/')
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>>> # we should expect a 404 from that address
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>>> response.status_code
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404
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>>> # on the other hand we should expect to find something at '/polls/'
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>>> # we'll use 'reverse()' rather than a harcoded URL
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>>> from django.core.urlresolvers import reverse
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>>> response = client.get(reverse('polls:index'))
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>>> response.status_code
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200
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>>> response.content
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'\n\n\n <p>No polls are available.</p>\n\n'
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>>> # note - you might get unexpected results if your ``TIME_ZONE``
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>>> # in ``settings.py`` is not correct. If you need to change it,
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>>> # you will also need to restart your shell session
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>>> from polls.models import Poll
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>>> from django.utils import timezone
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>>> # create a Poll and save it
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>>> p = Poll(question="Who is your favorite Beatle?", pub_date=timezone.now())
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>>> p.save()
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>>> # check the response once again
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>>> response = client.get('/polls/')
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>>> response.content
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'\n\n\n <ul>\n \n <li><a href="/polls/1/">Who is your favorite Beatle?</a></li>\n \n </ul>\n\n'
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>>> response.context['latest_poll_list']
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[<Poll: Who is your favorite Beatle?>]
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Improving our view
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------------------
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The list of polls shows polls that aren't published yet (i.e. those that have a
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``pub_date`` in the future). Let's fix that.
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In :doc:`Tutorial 4 </intro/tutorial04>` we deleted the view functions from
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``views.py`` in favor of a :class:`~django.views.generic.list.ListView` in
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``urls.py``::
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url(r'^$',
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ListView.as_view(
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queryset=Poll.objects.order_by('-pub_date')[:5],
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context_object_name='latest_poll_list',
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template_name='polls/index.html'),
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name='index'),
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``response.context_data['latest_poll_list']`` extracts the data this view
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places into the context.
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We need to amend the line that gives us the ``queryset``::
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queryset=Poll.objects.order_by('-pub_date')[:5],
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Let's change the queryset so that it also checks the date by comparing it with
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``timezone.now()``. First we need to add an import::
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from django.utils import timezone
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and then we must amend the existing ``url`` function to::
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url(r'^$',
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ListView.as_view(
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queryset=Poll.objects.filter(pub_date__lte=timezone.now) \
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.order_by('-pub_date')[:5],
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context_object_name='latest_poll_list',
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template_name='polls/index.html'),
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name='index'),
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``Poll.objects.filter(pub_date__lte=timezone.now)`` returns a queryset
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containing Polls whose ``pub_date`` is less than or equal to - that is, earlier
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than or equal to - ``timezone.now``. Notice that we use a callable queryset
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argument, ``timezone.now``, which will be evaluated at request time. If we had
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included the parentheses, ``timezone.now()`` would be evaluated just once when
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the web server is started.
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Testing our new view
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--------------------
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Now you can satisfy yourself that this behaves as expected by firing up the
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runserver, loading the site in your browser, creating ``Polls`` with dates in
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the past and future, and checking that only those that have been published are
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listed. You don't want to have to do that *every single time you make any
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change that might affect this* - so let's also create a test, based on our
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shell session above.
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Add the following to ``polls/tests.py``::
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from django.core.urlresolvers import reverse
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and we'll create a factory method to create polls as well as a new test class::
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def create_poll(question, days):
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"""
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Creates a poll with the given `question` published the given number of
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`days` offset to now (negative for polls published in the past,
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positive for polls that have yet to be published).
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"""
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return Poll.objects.create(question=question,
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pub_date=timezone.now() + datetime.timedelta(days=days))
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class PollViewTests(TestCase):
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def test_index_view_with_no_polls(self):
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"""
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If no polls exist, an appropriate message should be displayed.
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"""
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response = self.client.get(reverse('polls:index'))
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self.assertEqual(response.status_code, 200)
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self.assertContains(response, "No polls are available.")
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self.assertQuerysetEqual(response.context['latest_poll_list'], [])
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def test_index_view_with_a_past_poll(self):
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"""
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Polls with a pub_date in the past should be displayed on the index page.
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"""
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create_poll(question="Past poll.", days=-30)
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response = self.client.get(reverse('polls:index'))
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self.assertQuerysetEqual(
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response.context['latest_poll_list'],
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['<Poll: Past poll.>']
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)
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def test_index_view_with_a_future_poll(self):
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"""
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Polls with a pub_date in the future should not be displayed on the
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index page.
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"""
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create_poll(question="Future poll.", days=30)
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response = self.client.get(reverse('polls:index'))
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self.assertContains(response, "No polls are available.", status_code=200)
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self.assertQuerysetEqual(response.context['latest_poll_list'], [])
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def test_index_view_with_future_poll_and_past_poll(self):
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"""
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Even if both past and future polls exist, only past polls should be
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displayed.
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"""
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create_poll(question="Past poll.", days=-30)
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create_poll(question="Future poll.", days=30)
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response = self.client.get(reverse('polls:index'))
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self.assertQuerysetEqual(
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response.context['latest_poll_list'],
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['<Poll: Past poll.>']
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)
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def test_index_view_with_two_past_polls(self):
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"""
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The polls index page may display multiple polls.
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"""
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create_poll(question="Past poll 1.", days=-30)
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create_poll(question="Past poll 2.", days=-5)
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response = self.client.get(reverse('polls:index'))
|
|
self.assertQuerysetEqual(
|
|
response.context['latest_poll_list'],
|
|
['<Poll: Past poll 2.>', '<Poll: Past poll 1.>']
|
|
)
|
|
|
|
Let's look at some of these more closely.
|
|
|
|
First is a poll factory method, ``create_poll``, to take some repetition out
|
|
of the process of creating polls.
|
|
|
|
``test_index_view_with_no_polls`` doesn't create any polls, but checks the
|
|
message: "No polls are available." and verifies the ``latest_poll_list`` is
|
|
empty. Note that the :class:`django.test.TestCase` class provides some
|
|
additional assertion methods. In these examples, we use
|
|
:meth:`~django.test.TestCase.assertContains()` and
|
|
:meth:`~django.test.TestCase.assertQuerysetEqual()`.
|
|
|
|
In ``test_index_view_with_a_past_poll``, we create a poll and verify that it
|
|
appears in the list.
|
|
|
|
In ``test_index_view_with_a_future_poll``, we create a poll with a ``pub_date``
|
|
in the future. The database is reset for each test method, so the first poll is
|
|
no longer there, and so again the index shouldn't have any polls in it.
|
|
|
|
And so on. In effect, we are using the tests to tell a story of admin input
|
|
and user experience on the site, and checking that at every state and for every
|
|
new change in the state of the system, the expected results are published.
|
|
|
|
Testing the ``DetailView``
|
|
--------------------------
|
|
|
|
What we have works well; however, even though future polls don't appear in the
|
|
*index*, users can still reach them if they know or guess the right URL. So we
|
|
need similar constraints in the ``DetailViews``, by adding::
|
|
|
|
queryset=Poll.objects.filter(pub_date__lte=timezone.now)
|
|
|
|
to them - for example::
|
|
|
|
url(r'^(?P<pk>\d+)/$',
|
|
DetailView.as_view(
|
|
queryset=Poll.objects.filter(pub_date__lte=timezone.now),
|
|
model=Poll,
|
|
template_name='polls/detail.html'),
|
|
name='detail'),
|
|
|
|
and of course, we will add some tests, to check that a ``Poll`` whose
|
|
``pub_date`` is in the past can be displayed, and that one with a ``pub_date``
|
|
in the future is not::
|
|
|
|
class PollIndexDetailTests(TestCase):
|
|
def test_detail_view_with_a_future_poll(self):
|
|
"""
|
|
The detail view of a poll with a pub_date in the future should
|
|
return a 404 not found.
|
|
"""
|
|
future_poll = create_poll(question='Future poll.', days=5)
|
|
response = self.client.get(reverse('polls:detail', args=(future_poll.id,)))
|
|
self.assertEqual(response.status_code, 404)
|
|
|
|
def test_detail_view_with_a_past_poll(self):
|
|
"""
|
|
The detail view of a poll with a pub_date in the past should display
|
|
the poll's question.
|
|
"""
|
|
past_poll = create_poll(question='Past Poll.', days=-5)
|
|
response = self.client.get(reverse('polls:detail', args=(past_poll.id,)))
|
|
self.assertContains(response, past_poll.question, status_code=200)
|
|
|
|
Ideas for more tests
|
|
--------------------
|
|
|
|
We ought to add similar ``queryset`` arguments to the other ``DetailView``
|
|
URLs, and create a new test class for each view. They'll be very similar to
|
|
what we have just created; in fact there will be a lot of repetition.
|
|
|
|
We could also improve our application in other ways, adding tests along the
|
|
way. For example, it's silly that ``Polls`` can be published on the site that
|
|
have no ``Choices``. So, our views could check for this, and exclude such
|
|
``Polls``. Our tests would create a ``Poll`` without ``Choices`` and then test
|
|
that it's not published, as well as create a similar ``Poll`` *with*
|
|
``Choices``, and test that it *is* published.
|
|
|
|
Perhaps logged-in admin users should be allowed to see unpublished ``Polls``,
|
|
but not ordinary visitors. Again: whatever needs to be added to the software to
|
|
accomplish this should be accompanied by a test, whether you write the test
|
|
first and then make the code pass the test, or work out the logic in your code
|
|
first and then write a test to prove it.
|
|
|
|
At a certain point you are bound to look at your tests and wonder whether your
|
|
code is suffering from test bloat, which brings us to:
|
|
|
|
When testing, more is better
|
|
============================
|
|
|
|
It might seem that our tests are growing out of control. At this rate there will
|
|
soon be more code in our tests than in our application, and the repetition
|
|
is unaesthetic, compared to the elegant conciseness of the rest of our code.
|
|
|
|
**It doesn't matter**. Let them grow. For the most part, you can write a test
|
|
once and then forget about it. It will continue performing its useful function
|
|
as you continue to develop your program.
|
|
|
|
Sometimes tests will need to be updated. Suppose that we amend our views so that
|
|
only ``Polls`` with ``Choices`` are published. In that case, many of our
|
|
existing tests will fail - *telling us exactly which tests need to be amended to
|
|
bring them up to date*, so to that extent tests help look after themselves.
|
|
|
|
At worst, as you continue developing, you might find that you have some tests
|
|
that are now redundant. Even that's not a problem; in testing redundancy is
|
|
a *good* thing.
|
|
|
|
As long as your tests are sensibly arranged, they won't become unmanageable.
|
|
Good rules-of-thumb include having:
|
|
|
|
* a separate ``TestClass`` for each model or view
|
|
* a separate test method for each set of conditions you want to test
|
|
* test method names that describe their function
|
|
|
|
Further testing
|
|
===============
|
|
|
|
This tutorial only introduces some of the basics of testing. There's a great
|
|
deal more you can do, and a number of very useful tools at your disposal to
|
|
achieve some very clever things.
|
|
|
|
For example, while our tests here have covered some of the internal logic of a
|
|
model and the way our views publish information, you can use an "in-browser"
|
|
framework such as Selenium_ to test the way your HTML actually renders in a
|
|
browser. These tools allow you to check not just the behavior of your Django
|
|
code, but also, for example, of your JavaScript. It's quite something to see
|
|
the tests launch a browser, and start interacting with your site, as if a human
|
|
being were driving it! Django includes :class:`~django.test.LiveServerTestCase`
|
|
to facilitate integration with tools like Selenium.
|
|
|
|
If you have a complex application, you may want to run tests automatically
|
|
with every commit for the purposes of `continuous integration`_, so that
|
|
quality control is itself - at least partially - automated.
|
|
|
|
A good way to spot untested parts of your application is to check code
|
|
coverage. This also helps identify fragile or even dead code. If you can't test
|
|
a piece of code, it usually means that code should be refactored or removed.
|
|
Coverage will help to identify dead code. See
|
|
:ref:`topics-testing-code-coverage` for details.
|
|
|
|
:doc:`Testing Django applications </topics/testing/index>` has comprehensive
|
|
information about testing.
|
|
|
|
.. _Selenium: http://seleniumhq.org/
|
|
.. _continuous integration: http://en.wikipedia.org/wiki/Continuous_integration
|
|
|
|
What's next?
|
|
============
|
|
|
|
For full details on testing, see :doc:`Testing in Django
|
|
</topics/testing/index>`.
|
|
|
|
When you're comfortable with testing Django views, read
|
|
:doc:`part 6 of this tutorial</intro/tutorial06>` to learn about
|
|
static files management.
|