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.. _testing:
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Testing Flask Applications
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==========================
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**Something that is untested is broken.**
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Not sure where that is coming from, and it's not entirely correct, but
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also not that far from the truth. Untested applications make it hard to
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improve existing code and developers of untested applications tend to
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become pretty paranoid. If an application however has automated tests, you
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can safely change things and you will instantly know if your change broke
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something.
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Flask gives you a couple of ways to test applications. It mainly does
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that by exposing the Werkzeug test :class:`~werkzeug.Client` class to your
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code and handling the context locals for you. You can then use that with
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your favourite testing solution. In this documentation we will use the
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:mod:`unittest` package that comes preinstalled with each Python
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installation.
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The Application
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---------------
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First we need an application to test for functionality. For the testing
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we will use the application from the :ref:`tutorial`. If you don't have
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that application yet, get the sources from `the examples`_.
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.. _the examples:
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http://github.com/mitsuhiko/flask/tree/master/examples/flaskr/
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The Testing Skeleton
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--------------------
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In order to test that, we add a second module (
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`flaskr_tests.py`) and create a unittest skeleton there::
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import os
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import flaskr
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import unittest
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import tempfile
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class FlaskrTestCase(unittest.TestCase):
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def setUp(self):
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self.db_fd, flaskr.DATABASE = tempfile.mkstemp()
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self.app = flaskr.app.test_client()
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flaskr.init_db()
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def tearDown(self):
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os.close(self.db_fd)
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os.unlink(flaskr.DATABASE)
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if __name__ == '__main__':
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unittest.main()
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The code in the :meth:`~unittest.TestCase.setUp` method creates a new test
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client and initializes a new database. That function is called before
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each individual test function. To delete the database after the test, we
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close the file and remove it from the filesystem in the
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:meth:`~unittest.TestCase.tearDown` method. What the test client does is
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give us a simple interface to the application. We can trigger test
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requests to the application and the client will also keep track of cookies
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for us.
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Because SQLite3 is filesystem-based we can easily use the tempfile module
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to create a temporary database and initialize it. The
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:func:`~tempfile.mkstemp` function does two things for us: it returns a
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low-level file handle and a random file name, the latter we use as
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database name. We just have to keep the `db_fd` around so that we can use
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the :func:`os.close` function to close the file.
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If we now run that test suite, we should see the following output::
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$ python flaskr_tests.py
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----------------------------------------------------------------------
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Ran 0 tests in 0.000s
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OK
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Even though it did not run any tests, we already know that our flaskr
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application is syntactically valid, otherwise the import would have died
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with an exception.
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The First Test
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--------------
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Now we can add the first test. Let's check that the application shows
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"No entries here so far" if we access the root of the application (``/``).
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For that we modify our created test case class so that it looks like
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this::
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class FlaskrTestCase(unittest.TestCase):
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def setUp(self):
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self.db_fd, flaskr.app.config['DATABASE'] = tempfile.mkstemp()
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self.app = flaskr.app.test_client()
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flaskr.init_db()
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def tearDown(self):
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os.close(self.db_fd)
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os.unlink(flaskr.DATABASE)
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def test_empty_db(self):
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rv = self.app.get('/')
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assert 'No entries here so far' in rv.data
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Test functions begin with the word `test`. Every function named like that
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will be picked up automatically. By using `self.app.get` we can send an
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HTTP `GET` request to the application with the given path. The return
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value will be a :class:`~flask.Flask.response_class` object. We can now
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use the :attr:`~werkzeug.BaseResponse.data` attribute to inspect the
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return value (as string) from the application. In this case, we ensure
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that ``'No entries here so far'`` is part of the output.
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Run it again and you should see one passing test::
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$ python flaskr_tests.py
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.
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----------------------------------------------------------------------
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Ran 1 test in 0.034s
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OK
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Of course you can submit forms with the test client as well, which we will
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use now to log our user in.
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Logging In and Out
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------------------
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The majority of the functionality of our application is only available for
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the administration user. So we need a way to log our test client in to the
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application and out of it again. For that we fire some requests to the
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login and logout pages with the required form data (username and
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password). Because the login and logout pages redirect, we tell the
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client to `follow_redirects`.
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Add the following two methods to your `FlaskrTestCase` class::
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def login(self, username, password):
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return self.app.post('/login', data=dict(
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username=username,
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password=password
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), follow_redirects=True)
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def logout(self):
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return self.app.get('/logout', follow_redirects=True)
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Now we can easily test if logging in and out works and that it fails with
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invalid credentials. Add this new test to the class::
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def test_login_logout(self):
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rv = self.login('admin', 'default')
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assert 'You were logged in' in rv.data
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rv = self.logout()
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assert 'You were logged out' in rv.data
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rv = self.login('adminx', 'default')
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assert 'Invalid username' in rv.data
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rv = self.login('admin', 'defaultx')
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assert 'Invalid password' in rv.data
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Test Adding Messages
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--------------------
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Now we can also test that adding messages works. Add a new test method
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like this::
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def test_messages(self):
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self.login('admin', 'default')
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rv = self.app.post('/add', data=dict(
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title='<Hello>',
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text='<strong>HTML</strong> allowed here'
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), follow_redirects=True)
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assert 'No entries here so far' not in rv.data
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assert '<Hello>' in rv.data
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assert '<strong>HTML</strong> allowed here' in rv.data
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Here we check that HTML is allowed in the text but not in the title,
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which is the intended behavior.
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Running that should now give us three passing tests::
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$ python flaskr_tests.py
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...
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----------------------------------------------------------------------
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Ran 3 tests in 0.332s
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OK
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For more complex tests with headers and status codes, check out the
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`MiniTwit Example`_ from the sources. That one contains a larger test
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suite.
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.. _MiniTwit Example:
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http://github.com/mitsuhiko/flask/tree/master/examples/minitwit/
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Other Testing Tricks
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--------------------
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Besides using the test client we used above there is also the
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:meth:`~flask.Flask.test_request_context` method that in combination with
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the `with` statement can be used to activate a request context
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temporarily. With that you can access the :class:`~flask.request`,
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:class:`~flask.g` and :class:`~flask.session` objects like in view
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functions. Here a full example that showcases this::
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app = flask.Flask(__name__)
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with app.test_request_context('/?name=Peter'):
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assert flask.request.path == '/'
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assert flask.request.args['name'] == 'Peter'
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All the other objects that are context bound can be used the same.
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If you want to test your application with different configurations and
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there does not seem to be a good way to do that, consider switching to
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application factories (see :ref:`app-factories`).
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Keeping the Context Around
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--------------------------
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.. versionadded:: 0.4
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Sometimes it can be helpful to trigger a regular request but keep the
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context around for a little longer so that additional introspection can
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happen. With Flask 0.4 this is possible by using the
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:meth:`~flask.Flask.test_client` with a `with` block::
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app = flask.Flask(__name__)
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with app.test_client() as c:
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rv = c.get('/?foo=42')
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assert request.args['foo'] == '42'
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If you would just be using the :meth:`~flask.Flask.test_client` without
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the `with` block, the `assert` would fail with an error because `request`
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is no longer available (because used outside of an actual request).
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Keep in mind however that :meth:`~flask.Flask.after_request` functions
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are already called at that point so your database connection and
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everything involved is probably already closed down.
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