Testing tools
Django provides a small set of tools that come in handy when writing tests.
The test client
The test client is a Python class that acts as a dummy Web browser, allowing you to test your views and interact with your Django-powered application programmatically.
Some of the things you can do with the test client are:
- Simulate GET and POST requests on a URL and observe the response – everything from low-level HTTP (result headers and status codes) to page content.
- See the chain of redirects (if any) and check the URL and status code at each step.
- Test that a given request is rendered by a given Django template, with a template context that contains certain values.
Note that the test client is not intended to be a replacement for Selenium or other “in-browser” frameworks. Django’s test client has a different focus. In short:
- Use Django’s test client to establish that the correct template is being rendered and that the template is passed the correct context data.
- Use in-browser frameworks like Selenium to test rendered HTML and the behavior of Web pages, namely JavaScript functionality. Django also provides special support for those frameworks; see the section on
LiveServerTestCase
for more details.
A comprehensive test suite should use a combination of both test types.
Overview and a quick example
To use the test client, instantiate django.test.Client
and retrieve Web pages:
>>> from django.test import Client >>> c = Client() >>> response = c.post('/login/', {'username': 'john', 'password': 'smith'}) >>> response.status_code 200 >>> response = c.get('/customer/details/') >>> response.content b'<!DOCTYPE html...'
As this example suggests, you can instantiate Client
from within a session of the Python interactive interpreter.
Note a few important things about how the test client works:
- The test client does not require the Web server to be running. In fact, it will run just fine with no Web server running at all! That’s because it avoids the overhead of HTTP and deals directly with the Django framework. This helps make the unit tests run quickly.
-
When retrieving pages, remember to specify the path of the URL, not the whole domain. For example, this is correct:
>>> c.get('/login/')
This is incorrect:
>>> c.get('https://www.example.com/login/')
The test client is not capable of retrieving Web pages that are not powered by your Django project. If you need to retrieve other Web pages, use a Python standard library module such as
urllib
. - To resolve URLs, the test client uses whatever URLconf is pointed-to by your
ROOT_URLCONF
setting. -
Although the above example would work in the Python interactive interpreter, some of the test client’s functionality, notably the template-related functionality, is only available while tests are running.
The reason for this is that Django’s test runner performs a bit of black magic in order to determine which template was loaded by a given view. This black magic (essentially a patching of Django’s template system in memory) only happens during test running.
-
By default, the test client will disable any CSRF checks performed by your site.
If, for some reason, you want the test client to perform CSRF checks, you can create an instance of the test client that enforces CSRF checks. To do this, pass in the
enforce_csrf_checks
argument when you construct your client:>>> from django.test import Client >>> csrf_client = Client(enforce_csrf_checks=True)
Making requests
Use the django.test.Client
class to make requests.
-
class Client(enforce_csrf_checks=False, json_encoder=DjangoJSONEncoder, **defaults)
-
It requires no arguments at time of construction. However, you can use keywords arguments to specify some default headers. For example, this will send a
User-Agent
HTTP header in each request:>>> c = Client(HTTP_USER_AGENT='Mozilla/5.0')
The values from the
extra
keywords arguments passed toget()
,post()
, etc. have precedence over the defaults passed to the class constructor.The
enforce_csrf_checks
argument can be used to test CSRF protection (see above).The
json_encoder
argument allows setting a custom JSON encoder for the JSON serialization that’s described inpost()
.The
raise_request_exception
argument allows controlling whether or not exceptions raised during the request should also be raised in the test. Defaults toTrue
.New in Django 3.0:The
raise_request_exception
argument was added.Once you have a
Client
instance, you can call any of the following methods:-
get(path, data=None, follow=False, secure=False, **extra)
-
Makes a GET request on the provided
path
and returns aResponse
object, which is documented below.The key-value pairs in the
data
dictionary are used to create a GET data payload. For example:>>> c = Client() >>> c.get('/customers/details/', {'name': 'fred', 'age': 7})
…will result in the evaluation of a GET request equivalent to:
/customers/details/?name=fred&age=7
The
extra
keyword arguments parameter can be used to specify headers to be sent in the request. For example:>>> c = Client() >>> c.get('/customers/details/', {'name': 'fred', 'age': 7}, ... HTTP_X_REQUESTED_WITH='XMLHttpRequest')
…will send the HTTP header
HTTP_X_REQUESTED_WITH
to the details view, which is a good way to test code paths that use thedjango.http.HttpRequest.is_ajax()
method.CGI specification
The headers sent via
**extra
should follow CGI specification. For example, emulating a different “Host” header as sent in the HTTP request from the browser to the server should be passed asHTTP_HOST
.If you already have the GET arguments in URL-encoded form, you can use that encoding instead of using the data argument. For example, the previous GET request could also be posed as:
>>> c = Client() >>> c.get('/customers/details/?name=fred&age=7')
If you provide a URL with both an encoded GET data and a data argument, the data argument will take precedence.
If you set
follow
toTrue
the client will follow any redirects and aredirect_chain
attribute will be set in the response object containing tuples of the intermediate urls and status codes.If you had a URL
/redirect_me/
that redirected to/next/
, that redirected to/final/
, this is what you’d see:>>> response = c.get('/redirect_me/', follow=True) >>> response.redirect_chain [('http://testserver/next/', 302), ('http://testserver/final/', 302)]
If you set
secure
toTrue
the client will emulate an HTTPS request.
-
post(path, data=None, content_type=MULTIPART_CONTENT, follow=False, secure=False, **extra)
-
Makes a POST request on the provided
path
and returns aResponse
object, which is documented below.The key-value pairs in the
data
dictionary are used to submit POST data. For example:>>> c = Client() >>> c.post('/login/', {'name': 'fred', 'passwd': 'secret'})
…will result in the evaluation of a POST request to this URL:
/login/
…with this POST data:
name=fred&passwd=secret
If you provide
content_type
as application/json, thedata
is serialized usingjson.dumps()
if it’s a dict, list, or tuple. Serialization is performed withDjangoJSONEncoder
by default, and can be overridden by providing ajson_encoder
argument toClient
. This serialization also happens forput()
,patch()
, anddelete()
requests.Changed in Django 2.2:The JSON serialization was extended to support lists and tuples. In older versions, only dicts are serialized.
If you provide any other
content_type
(e.g. text/xml for an XML payload), the contents ofdata
are sent as-is in the POST request, usingcontent_type
in the HTTPContent-Type
header.If you don’t provide a value for
content_type
, the values indata
will be transmitted with a content type of multipart/form-data. In this case, the key-value pairs indata
will be encoded as a multipart message and used to create the POST data payload.To submit multiple values for a given key – for example, to specify the selections for a
<select multiple>
– provide the values as a list or tuple for the required key. For example, this value ofdata
would submit three selected values for the field namedchoices
:{'choices': ('a', 'b', 'd')}
Submitting files is a special case. To POST a file, you need only provide the file field name as a key, and a file handle to the file you wish to upload as a value. For example:
>>> c = Client() >>> with open('wishlist.doc') as fp: ... c.post('/customers/wishes/', {'name': 'fred', 'attachment': fp})
(The name
attachment
here is not relevant; use whatever name your file-processing code expects.)You may also provide any file-like object (e.g.,
StringIO
orBytesIO
) as a file handle. If you’re uploading to anImageField
, the object needs aname
attribute that passes thevalidate_image_file_extension
validator. For example:>>> from io import BytesIO >>> img = BytesIO(b'mybinarydata') >>> img.name = 'myimage.jpg'
Note that if you wish to use the same file handle for multiple
post()
calls then you will need to manually reset the file pointer between posts. The easiest way to do this is to manually close the file after it has been provided topost()
, as demonstrated above.You should also ensure that the file is opened in a way that allows the data to be read. If your file contains binary data such as an image, this means you will need to open the file in
rb
(read binary) mode.The
extra
argument acts the same as forClient.get()
.If the URL you request with a POST contains encoded parameters, these parameters will be made available in the request.GET data. For example, if you were to make the request:
>>> c.post('/login/?visitor=true', {'name': 'fred', 'passwd': 'secret'})
… the view handling this request could interrogate request.POST to retrieve the username and password, and could interrogate request.GET to determine if the user was a visitor.
If you set
follow
toTrue
the client will follow any redirects and aredirect_chain
attribute will be set in the response object containing tuples of the intermediate urls and status codes.If you set
secure
toTrue
the client will emulate an HTTPS request.
-
head(path, data=None, follow=False, secure=False, **extra)
-
Makes a HEAD request on the provided
path
and returns aResponse
object. This method works just likeClient.get()
, including thefollow
,secure
andextra
arguments, except it does not return a message body.
-
options(path, data='', content_type='application/octet-stream', follow=False, secure=False, **extra)
-
Makes an OPTIONS request on the provided
path
and returns aResponse
object. Useful for testing RESTful interfaces.When
data
is provided, it is used as the request body, and aContent-Type
header is set tocontent_type
.The
follow
,secure
andextra
arguments act the same as forClient.get()
.
-
put(path, data='', content_type='application/octet-stream', follow=False, secure=False, **extra)
-
Makes a PUT request on the provided
path
and returns aResponse
object. Useful for testing RESTful interfaces.When
data
is provided, it is used as the request body, and aContent-Type
header is set tocontent_type
.The
follow
,secure
andextra
arguments act the same as forClient.get()
.
-
patch(path, data='', content_type='application/octet-stream', follow=False, secure=False, **extra)
-
Makes a PATCH request on the provided
path
and returns aResponse
object. Useful for testing RESTful interfaces.The
follow
,secure
andextra
arguments act the same as forClient.get()
.
-
delete(path, data='', content_type='application/octet-stream', follow=False, secure=False, **extra)
-
Makes a DELETE request on the provided
path
and returns aResponse
object. Useful for testing RESTful interfaces.When
data
is provided, it is used as the request body, and aContent-Type
header is set tocontent_type
.The
follow
,secure
andextra
arguments act the same as forClient.get()
.
-
trace(path, follow=False, secure=False, **extra)
-
Makes a TRACE request on the provided
path
and returns aResponse
object. Useful for simulating diagnostic probes.Unlike the other request methods,
data
is not provided as a keyword parameter in order to comply with RFC 7231#section-4.3.8, which mandates that TRACE requests must not have a body.The
follow
,secure
, andextra
arguments act the same as forClient.get()
.
-
login(**credentials)
-
If your site uses Django’s authentication system and you deal with logging in users, you can use the test client’s
login()
method to simulate the effect of a user logging into the site.After you call this method, the test client will have all the cookies and session data required to pass any login-based tests that may form part of a view.
The format of the
credentials
argument depends on which authentication backend you’re using (which is configured by yourAUTHENTICATION_BACKENDS
setting). If you’re using the standard authentication backend provided by Django (ModelBackend
),credentials
should be the user’s username and password, provided as keyword arguments:>>> c = Client() >>> c.login(username='fred', password='secret') # Now you can access a view that's only available to logged-in users.
If you’re using a different authentication backend, this method may require different credentials. It requires whichever credentials are required by your backend’s
authenticate()
method.login()
returnsTrue
if it the credentials were accepted and login was successful.Finally, you’ll need to remember to create user accounts before you can use this method. As we explained above, the test runner is executed using a test database, which contains no users by default. As a result, user accounts that are valid on your production site will not work under test conditions. You’ll need to create users as part of the test suite – either manually (using the Django model API) or with a test fixture. Remember that if you want your test user to have a password, you can’t set the user’s password by setting the password attribute directly – you must use the
set_password()
function to store a correctly hashed password. Alternatively, you can use thecreate_user()
helper method to create a new user with a correctly hashed password.
-
force_login(user, backend=None)
-
If your site uses Django’s authentication system, you can use the
force_login()
method to simulate the effect of a user logging into the site. Use this method instead oflogin()
when a test requires a user be logged in and the details of how a user logged in aren’t important.Unlike
login()
, this method skips the authentication and verification steps: inactive users (is_active=False
) are permitted to login and the user’s credentials don’t need to be provided.The user will have its
backend
attribute set to the value of thebackend
argument (which should be a dotted Python path string), or tosettings.AUTHENTICATION_BACKENDS[0]
if a value isn’t provided. Theauthenticate()
function called bylogin()
normally annotates the user like this.This method is faster than
login()
since the expensive password hashing algorithms are bypassed. Also, you can speed uplogin()
by using a weaker hasher while testing.
-
logout()
-
If your site uses Django’s authentication system, the
logout()
method can be used to simulate the effect of a user logging out of your site.After you call this method, the test client will have all the cookies and session data cleared to defaults. Subsequent requests will appear to come from an
AnonymousUser
.
-
Testing responses
The get()
and post()
methods both return a Response
object. This Response
object is not the same as the HttpResponse
object returned by Django views; the test response object has some additional data useful for test code to verify.
Specifically, a Response
object has the following attributes:
-
class Response
-
-
client
-
The test client that was used to make the request that resulted in the response.
-
content
-
The body of the response, as a bytestring. This is the final page content as rendered by the view, or any error message.
-
context
-
The template
Context
instance that was used to render the template that produced the response content.If the rendered page used multiple templates, then
context
will be a list ofContext
objects, in the order in which they were rendered.Regardless of the number of templates used during rendering, you can retrieve context values using the
[]
operator. For example, the context variablename
could be retrieved using:>>> response = client.get('/foo/') >>> response.context['name'] 'Arthur'
Not using Django templates?
This attribute is only populated when using the
DjangoTemplates
backend. If you’re using another template engine,context_data
may be a suitable alternative on responses with that attribute.
-
exc_info
-
New in Django 3.0.
A tuple of three values that provides information about the unhandled exception, if any, that occurred during the view.
The values are (type, value, traceback), the same as returned by Python’s
sys.exc_info()
. Their meanings are:- type: The type of the exception.
- value: The exception instance.
- traceback: A traceback object which encapsulates the call stack at the point where the exception originally occurred.
If no exception occurred, then
exc_info
will beNone
.
-
json(**kwargs)
-
The body of the response, parsed as JSON. Extra keyword arguments are passed to
json.loads()
. For example:>>> response = client.get('/foo/') >>> response.json()['name'] 'Arthur'
If the
Content-Type
header is not"application/json"
, then aValueError
will be raised when trying to parse the response.
-
request
-
The request data that stimulated the response.
-
wsgi_request
-
The
WSGIRequest
instance generated by the test handler that generated the response.
-
status_code
-
The HTTP status of the response, as an integer. For a full list of defined codes, see the IANA status code registry.
-
templates
-
A list of
Template
instances used to render the final content, in the order they were rendered. For each template in the list, usetemplate.name
to get the template’s file name, if the template was loaded from a file. (The name is a string such as'admin/index.html'
.)Not using Django templates?
This attribute is only populated when using the
DjangoTemplates
backend. If you’re using another template engine,template_name
may be a suitable alternative if you only need the name of the template used for rendering.
-
resolver_match
-
An instance of
ResolverMatch
for the response. You can use thefunc
attribute, for example, to verify the view that served the response:# my_view here is a function based view self.assertEqual(response.resolver_match.func, my_view) # class-based views need to be compared by name, as the functions # generated by as_view() won't be equal self.assertEqual(response.resolver_match.func.__name__, MyView.as_view().__name__)
If the given URL is not found, accessing this attribute will raise a
Resolver404
exception.
-
You can also use dictionary syntax on the response object to query the value of any settings in the HTTP headers. For example, you could determine the content type of a response using response['Content-Type']
.
Exceptions
If you point the test client at a view that raises an exception and Client.raise_request_exception
is True
, that exception will be visible in the test case. You can then use a standard try ... except
block or assertRaises()
to test for exceptions.
The only exceptions that are not visible to the test client are Http404
, PermissionDenied
, SystemExit
, and SuspiciousOperation
. Django catches these exceptions internally and converts them into the appropriate HTTP response codes. In these cases, you can check response.status_code
in your test.
If Client.raise_request_exception
is False
, the test client will return a 500 response as would be returned to a browser. The response has the attribute exc_info
to provide information about the unhandled exception.
Persistent state
The test client is stateful. If a response returns a cookie, then that cookie will be stored in the test client and sent with all subsequent get()
and post()
requests.
Expiration policies for these cookies are not followed. If you want a cookie to expire, either delete it manually or create a new Client
instance (which will effectively delete all cookies).
A test client has two attributes that store persistent state information. You can access these properties as part of a test condition.
-
A Python
SimpleCookie
object, containing the current values of all the client cookies. See the documentation of thehttp.cookies
module for more.
-
Client.session
-
A dictionary-like object containing session information. See the session documentation for full details.
To modify the session and then save it, it must be stored in a variable first (because a new
SessionStore
is created every time this property is accessed):def test_something(self): session = self.client.session session['somekey'] = 'test' session.save()
Setting the language
When testing applications that support internationalization and localization, you might want to set the language for a test client request. The method for doing so depends on whether or not the LocaleMiddleware
is enabled.
If the middleware is enabled, the language can be set by creating a cookie with a name of LANGUAGE_COOKIE_NAME
and a value of the language code:
from django.conf import settings def test_language_using_cookie(self): self.client.cookies.load({settings.LANGUAGE_COOKIE_NAME: 'fr'}) response = self.client.get('/') self.assertEqual(response.content, b"Bienvenue sur mon site.")
or by including the Accept-Language
HTTP header in the request:
def test_language_using_header(self): response = self.client.get('/', HTTP_ACCEPT_LANGUAGE='fr') self.assertEqual(response.content, b"Bienvenue sur mon site.")
More details are in How Django discovers language preference.
If the middleware isn’t enabled, the active language may be set using translation.override()
:
from django.utils import translation def test_language_using_override(self): with translation.override('fr'): response = self.client.get('/') self.assertEqual(response.content, b"Bienvenue sur mon site.")
More details are in Explicitly setting the active language.
Example
The following is a unit test using the test client:
import unittest from django.test import Client class SimpleTest(unittest.TestCase): def setUp(self): # Every test needs a client. self.client = Client() def test_details(self): # Issue a GET request. response = self.client.get('/customer/details/') # Check that the response is 200 OK. self.assertEqual(response.status_code, 200) # Check that the rendered context contains 5 customers. self.assertEqual(len(response.context['customers']), 5)
See also
Provided test case classes
Normal Python unit test classes extend a base class of unittest.TestCase
. Django provides a few extensions of this base class:
You can convert a normal unittest.TestCase
to any of the subclasses: change the base class of your test from unittest.TestCase
to the subclass. All of the standard Python unit test functionality will be available, and it will be augmented with some useful additions as described in each section below.
SimpleTestCase
-
class SimpleTestCase
A subclass of unittest.TestCase
that adds this functionality:
- Some useful assertions like:
- Checking that a callable
raises a certain exception
. - Checking that a callable
triggers a certain warning
. - Testing form field
rendering and error treatment
. - Testing
HTML responses for the presence/lack of a given fragment
. - Verifying that a template
has/hasn't been used to generate a given response content
. - Verifying that two
URLs
are equal. - Verifying a HTTP
redirect
is performed by the app. - Robustly testing two
HTML fragments
for equality/inequality orcontainment
. - Robustly testing two
XML fragments
for equality/inequality. - Robustly testing two
JSON fragments
for equality.
- Checking that a callable
- The ability to run tests with modified settings.
- Using the
client
Client
.
If your tests make any database queries, use subclasses TransactionTestCase
or TestCase
.
-
SimpleTestCase.databases
-
New in Django 2.2.
SimpleTestCase
disallows database queries by default. This helps to avoid executing write queries which will affect other tests since eachSimpleTestCase
test isn’t run in a transaction. If you aren’t concerned about this problem, you can disable this behavior by setting thedatabases
class attribute to'__all__'
on your test class.
-
SimpleTestCase.allow_database_queries
-
Deprecated since version 2.2.
This attribute is deprecated in favor of
databases
. The previous behavior ofallow_database_queries = True
can be achieved by settingdatabases = '__all__'
.
Warning
SimpleTestCase
and its subclasses (e.g. TestCase
, …) rely on setUpClass()
and tearDownClass()
to perform some class-wide initialization (e.g. overriding settings). If you need to override those methods, don’t forget to call the super
implementation:
class MyTestCase(TestCase): @classmethod def setUpClass(cls): super().setUpClass() ... @classmethod def tearDownClass(cls): ... super().tearDownClass()
Be sure to account for Python’s behavior if an exception is raised during setUpClass()
. If that happens, neither the tests in the class nor tearDownClass()
are run. In the case of django.test.TestCase
, this will leak the transaction created in super()
which results in various symptoms including a segmentation fault on some platforms (reported on macOS). If you want to intentionally raise an exception such as unittest.SkipTest
in setUpClass()
, be sure to do it before calling super()
to avoid this.
TransactionTestCase
-
class TransactionTestCase
TransactionTestCase
inherits from SimpleTestCase
to add some database-specific features:
- Resetting the database to a known state at the beginning of each test to ease testing and using the ORM.
- Database
fixtures
. - Test skipping based on database backend features.
- The remaining specialized
assert*
methods.
Django’s TestCase
class is a more commonly used subclass of TransactionTestCase
that makes use of database transaction facilities to speed up the process of resetting the database to a known state at the beginning of each test. A consequence of this, however, is that some database behaviors cannot be tested within a Django TestCase
class. For instance, you cannot test that a block of code is executing within a transaction, as is required when using select_for_update()
. In those cases, you should use TransactionTestCase
.
TransactionTestCase
and TestCase
are identical except for the manner in which the database is reset to a known state and the ability for test code to test the effects of commit and rollback:
- A
TransactionTestCase
resets the database after the test runs by truncating all tables. ATransactionTestCase
may call commit and rollback and observe the effects of these calls on the database. - A
TestCase
, on the other hand, does not truncate tables after a test. Instead, it encloses the test code in a database transaction that is rolled back at the end of the test. This guarantees that the rollback at the end of the test restores the database to its initial state.
Warning
TestCase
running on a database that does not support rollback (e.g. MySQL with the MyISAM storage engine), and all instances of TransactionTestCase
, will roll back at the end of the test by deleting all data from the test database.
Apps will not see their data reloaded; if you need this functionality (for example, third-party apps should enable this) you can set serialized_rollback = True
inside the TestCase
body.
TestCase
-
class TestCase
This is the most common class to use for writing tests in Django. It inherits from TransactionTestCase
(and by extension SimpleTestCase
). If your Django application doesn’t use a database, use SimpleTestCase
.
The class:
- Wraps the tests within two nested
atomic()
blocks: one for the whole class and one for each test. Therefore, if you want to test some specific database transaction behavior, useTransactionTestCase
. - Checks deferrable database constraints at the end of each test.
It also provides an additional method:
-
classmethod TestCase.setUpTestData()
-
The class-level
atomic
block described above allows the creation of initial data at the class level, once for the wholeTestCase
. This technique allows for faster tests as compared to usingsetUp()
.For example:
from django.test import TestCase class MyTests(TestCase): @classmethod def setUpTestData(cls): # Set up data for the whole TestCase cls.foo = Foo.objects.create(bar="Test") ... def test1(self): # Some test using self.foo ... def test2(self): # Some other test using self.foo ...
Note that if the tests are run on a database with no transaction support (for instance, MySQL with the MyISAM engine),
setUpTestData()
will be called before each test, negating the speed benefits.Be careful not to modify any objects created in
setUpTestData()
in your test methods. Modifications to in-memory objects from setup work done at the class level will persist between test methods. If you do need to modify them, you could reload them in thesetUp()
method withrefresh_from_db()
, for example.
LiveServerTestCase
-
class LiveServerTestCase
LiveServerTestCase
does basically the same as TransactionTestCase
with one extra feature: it launches a live Django server in the background on setup, and shuts it down on teardown. This allows the use of automated test clients other than the Django dummy client such as, for example, the Selenium client, to execute a series of functional tests inside a browser and simulate a real user’s actions.
The live server listens on localhost
and binds to port 0 which uses a free port assigned by the operating system. The server’s URL can be accessed with self.live_server_url
during the tests.
To demonstrate how to use LiveServerTestCase
, let’s write a Selenium test. First of all, you need to install the selenium package into your Python path:
$ python -m pip install selenium
...\> py -m pip install selenium
Then, add a LiveServerTestCase
-based test to your app’s tests module (for example: myapp/tests.py
). For this example, we’ll assume you’re using the staticfiles
app and want to have static files served during the execution of your tests similar to what we get at development time with DEBUG=True
, i.e. without having to collect them using collectstatic
. We’ll use the StaticLiveServerTestCase
subclass which provides that functionality. Replace it with django.test.LiveServerTestCase
if you don’t need that.
The code for this test may look as follows:
from django.contrib.staticfiles.testing import StaticLiveServerTestCase from selenium.webdriver.firefox.webdriver import WebDriver class MySeleniumTests(StaticLiveServerTestCase): fixtures = ['user-data.json'] @classmethod def setUpClass(cls): super().setUpClass() cls.selenium = WebDriver() cls.selenium.implicitly_wait(10) @classmethod def tearDownClass(cls): cls.selenium.quit() super().tearDownClass() def test_login(self): self.selenium.get('%s%s' % (self.live_server_url, '/login/')) username_input = self.selenium.find_element_by_name("username") username_input.send_keys('myuser') password_input = self.selenium.find_element_by_name("password") password_input.send_keys('secret') self.selenium.find_element_by_xpath('//input[@value="Log in"]').click()
Finally, you may run the test as follows:
$ ./manage.py test myapp.tests.MySeleniumTests.test_login
...\> manage.py test myapp.tests.MySeleniumTests.test_login
This example will automatically open Firefox then go to the login page, enter the credentials and press the “Log in” button. Selenium offers other drivers in case you do not have Firefox installed or wish to use another browser. The example above is just a tiny fraction of what the Selenium client can do; check out the full reference for more details.
Note
When using an in-memory SQLite database to run the tests, the same database connection will be shared by two threads in parallel: the thread in which the live server is run and the thread in which the test case is run. It’s important to prevent simultaneous database queries via this shared connection by the two threads, as that may sometimes randomly cause the tests to fail. So you need to ensure that the two threads don’t access the database at the same time. In particular, this means that in some cases (for example, just after clicking a link or submitting a form), you might need to check that a response is received by Selenium and that the next page is loaded before proceeding with further test execution. Do this, for example, by making Selenium wait until the <body>
HTML tag is found in the response (requires Selenium > 2.13):
def test_login(self): from selenium.webdriver.support.wait import WebDriverWait timeout = 2 ... self.selenium.find_element_by_xpath('//input[@value="Log in"]').click() # Wait until the response is received WebDriverWait(self.selenium, timeout).until( lambda driver: driver.find_element_by_tag_name('body'))
The tricky thing here is that there’s really no such thing as a “page load,” especially in modern Web apps that generate HTML dynamically after the server generates the initial document. So, checking for the presence of <body>
in the response might not necessarily be appropriate for all use cases. Please refer to the Selenium FAQ and Selenium documentation for more information.
Test cases features
Default test client
-
SimpleTestCase.client
Every test case in a django.test.*TestCase
instance has access to an instance of a Django test client. This client can be accessed as self.client
. This client is recreated for each test, so you don’t have to worry about state (such as cookies) carrying over from one test to another.
This means, instead of instantiating a Client
in each test:
import unittest from django.test import Client class SimpleTest(unittest.TestCase): def test_details(self): client = Client() response = client.get('/customer/details/') self.assertEqual(response.status_code, 200) def test_index(self): client = Client() response = client.get('/customer/index/') self.assertEqual(response.status_code, 200)
…you can refer to self.client
, like so:
from django.test import TestCase class SimpleTest(TestCase): def test_details(self): response = self.client.get('/customer/details/') self.assertEqual(response.status_code, 200) def test_index(self): response = self.client.get('/customer/index/') self.assertEqual(response.status_code, 200)
Customizing the test client
-
SimpleTestCase.client_class
If you want to use a different Client
class (for example, a subclass with customized behavior), use the client_class
class attribute:
from django.test import Client, TestCase class MyTestClient(Client): # Specialized methods for your environment ... class MyTest(TestCase): client_class = MyTestClient def test_my_stuff(self): # Here self.client is an instance of MyTestClient... call_some_test_code()
Fixture loading
-
TransactionTestCase.fixtures
A test case for a database-backed website isn’t much use if there isn’t any data in the database. Tests are more readable and it’s more maintainable to create objects using the ORM, for example in TestCase.setUpTestData()
, however, you can also use fixtures.
A fixture is a collection of data that Django knows how to import into a database. For example, if your site has user accounts, you might set up a fixture of fake user accounts in order to populate your database during tests.
The most straightforward way of creating a fixture is to use the manage.py dumpdata
command. This assumes you already have some data in your database. See the dumpdata
documentation
for more details.
Once you’ve created a fixture and placed it in a fixtures
directory in one of your INSTALLED_APPS
, you can use it in your unit tests by specifying a fixtures
class attribute on your django.test.TestCase
subclass:
from django.test import TestCase from myapp.models import Animal class AnimalTestCase(TestCase): fixtures = ['mammals.json', 'birds'] def setUp(self): # Test definitions as before. call_setup_methods() def test_fluffy_animals(self): # A test that uses the fixtures. call_some_test_code()
Here’s specifically what will happen:
- At the start of each test, before
setUp()
is run, Django will flush the database, returning the database to the state it was in directly aftermigrate
was called. - Then, all the named fixtures are installed. In this example, Django will install any JSON fixture named
mammals
, followed by any fixture namedbirds
. See theloaddata
documentation for more details on defining and installing fixtures.
For performance reasons, TestCase
loads fixtures once for the entire test class, before setUpTestData()
, instead of before each test, and it uses transactions to clean the database before each test. In any case, you can be certain that the outcome of a test will not be affected by another test or by the order of test execution.
By default, fixtures are only loaded into the default
database. If you are using multiple databases and set TransactionTestCase.databases
, fixtures will be loaded into all specified databases.
URLconf configuration
If your application provides views, you may want to include tests that use the test client to exercise those views. However, an end user is free to deploy the views in your application at any URL of their choosing. This means that your tests can’t rely upon the fact that your views will be available at a particular URL. Decorate your test class or test method with @override_settings(ROOT_URLCONF=...)
for URLconf configuration.
Multi-database support
-
TransactionTestCase.databases
Django sets up a test database corresponding to every database that is defined in the DATABASES
definition in your settings and referred to by at least one test through databases
.
However, a big part of the time taken to run a Django TestCase
is consumed by the call to flush
that ensures that you have a clean database at the start of each test run. If you have multiple databases, multiple flushes are required (one for each database), which can be a time consuming activity – especially if your tests don’t need to test multi-database activity.
As an optimization, Django only flushes the default
database at the start of each test run. If your setup contains multiple databases, and you have a test that requires every database to be clean, you can use the databases
attribute on the test suite to request extra databases to be flushed.
For example:
class TestMyViews(TransactionTestCase): databases = {'default', 'other'} def test_index_page_view(self): call_some_test_code()
This test case will flush the default
and other
test databases before running test_index_page_view
. You can also use '__all__'
to specify that all of the test databases must be flushed.
The databases
flag also controls which databases the TransactionTestCase.fixtures
are loaded into. By default, fixtures are only loaded into the default
database.
Queries against databases not in databases
will give assertion errors to prevent state leaking between tests.
-
TransactionTestCase.multi_db
Deprecated since version 2.2.
This attribute is deprecated in favor of databases
. The previous behavior of multi_db = True
can be achieved by setting databases = '__all__'
.
-
TestCase.databases
By default, only the default
database will be wrapped in a transaction during a TestCase
’s execution and attempts to query other databases will result in assertion errors to prevent state leaking between tests.
Use the databases
class attribute on the test class to request transaction wrapping against non-default
databases.
For example:
class OtherDBTests(TestCase): databases = {'other'} def test_other_db_query(self): ...
This test will only allow queries against the other
database. Just like for SimpleTestCase.databases
and TransactionTestCase.databases
, the '__all__'
constant can be used to specify that the test should allow queries to all databases.
-
TestCase.multi_db
Deprecated since version 2.2.
This attribute is deprecated in favor of databases
. The previous behavior of multi_db = True
can be achieved by setting databases = '__all__'
.
Overriding settings
Warning
Use the functions below to temporarily alter the value of settings in tests. Don’t manipulate django.conf.settings
directly as Django won’t restore the original values after such manipulations.
-
SimpleTestCase.settings()
For testing purposes it’s often useful to change a setting temporarily and revert to the original value after running the testing code. For this use case Django provides a standard Python context manager (see PEP 343) called settings()
, which can be used like this:
from django.test import TestCase class LoginTestCase(TestCase): def test_login(self): # First check for the default behavior response = self.client.get('/sekrit/') self.assertRedirects(response, '/accounts/login/?next=/sekrit/') # Then override the LOGIN_URL setting with self.settings(LOGIN_URL='/other/login/'): response = self.client.get('/sekrit/') self.assertRedirects(response, '/other/login/?next=/sekrit/')
This example will override the LOGIN_URL
setting for the code in the with
block and reset its value to the previous state afterwards.
-
SimpleTestCase.modify_settings()
It can prove unwieldy to redefine settings that contain a list of values. In practice, adding or removing values is often sufficient. Django provides the modify_settings()
context manager for easier settings changes:
from django.test import TestCase class MiddlewareTestCase(TestCase): def test_cache_middleware(self): with self.modify_settings(MIDDLEWARE={ 'append': 'django.middleware.cache.FetchFromCacheMiddleware', 'prepend': 'django.middleware.cache.UpdateCacheMiddleware', 'remove': [ 'django.contrib.sessions.middleware.SessionMiddleware', 'django.contrib.auth.middleware.AuthenticationMiddleware', 'django.contrib.messages.middleware.MessageMiddleware', ], }): response = self.client.get('/') # ...
For each action, you can supply either a list of values or a string. When the value already exists in the list, append
and prepend
have no effect; neither does remove
when the value doesn’t exist.
-
override_settings()
In case you want to override a setting for a test method, Django provides the override_settings()
decorator (see PEP 318). It’s used like this:
from django.test import TestCase, override_settings class LoginTestCase(TestCase): @override_settings(LOGIN_URL='/other/login/') def test_login(self): response = self.client.get('/sekrit/') self.assertRedirects(response, '/other/login/?next=/sekrit/')
The decorator can also be applied to TestCase
classes:
from django.test import TestCase, override_settings @override_settings(LOGIN_URL='/other/login/') class LoginTestCase(TestCase): def test_login(self): response = self.client.get('/sekrit/') self.assertRedirects(response, '/other/login/?next=/sekrit/')
-
modify_settings()
Likewise, Django provides the modify_settings()
decorator:
from django.test import TestCase, modify_settings class MiddlewareTestCase(TestCase): @modify_settings(MIDDLEWARE={ 'append': 'django.middleware.cache.FetchFromCacheMiddleware', 'prepend': 'django.middleware.cache.UpdateCacheMiddleware', }) def test_cache_middleware(self): response = self.client.get('/') # ...
The decorator can also be applied to test case classes:
from django.test import TestCase, modify_settings @modify_settings(MIDDLEWARE={ 'append': 'django.middleware.cache.FetchFromCacheMiddleware', 'prepend': 'django.middleware.cache.UpdateCacheMiddleware', }) class MiddlewareTestCase(TestCase): def test_cache_middleware(self): response = self.client.get('/') # ...
Note
When given a class, these decorators modify the class directly and return it; they don’t create and return a modified copy of it. So if you try to tweak the above examples to assign the return value to a different name than LoginTestCase
or MiddlewareTestCase
, you may be surprised to find that the original test case classes are still equally affected by the decorator. For a given class, modify_settings()
is always applied after override_settings()
.
Warning
The settings file contains some settings that are only consulted during initialization of Django internals. If you change them with override_settings
, the setting is changed if you access it via the django.conf.settings
module, however, Django’s internals access it differently. Effectively, using override_settings()
or modify_settings()
with these settings is probably not going to do what you expect it to do.
We do not recommend altering the DATABASES
setting. Altering the CACHES
setting is possible, but a bit tricky if you are using internals that make using of caching, like django.contrib.sessions
. For example, you will have to reinitialize the session backend in a test that uses cached sessions and overrides CACHES
.
Finally, avoid aliasing your settings as module-level constants as override_settings()
won’t work on such values since they are only evaluated the first time the module is imported.
You can also simulate the absence of a setting by deleting it after settings have been overridden, like this:
@override_settings() def test_something(self): del settings.LOGIN_URL ...
When overriding settings, make sure to handle the cases in which your app’s code uses a cache or similar feature that retains state even if the setting is changed. Django provides the django.test.signals.setting_changed
signal that lets you register callbacks to clean up and otherwise reset state when settings are changed.
Django itself uses this signal to reset various data:
Overridden settings | Data reset |
---|---|
USE_TZ, TIME_ZONE | Databases timezone |
TEMPLATES | Template engines |
SERIALIZATION_MODULES | Serializers cache |
LOCALE_PATHS, LANGUAGE_CODE | Default translation and loaded translations |
MEDIA_ROOT, DEFAULT_FILE_STORAGE | Default file storage |
Emptying the test outbox
If you use any of Django’s custom TestCase
classes, the test runner will clear the contents of the test email outbox at the start of each test case.
For more detail on email services during tests, see Email services below.
Assertions
As Python’s normal unittest.TestCase
class implements assertion methods such as assertTrue()
and assertEqual()
, Django’s custom TestCase
class provides a number of custom assertion methods that are useful for testing Web applications:
The failure messages given by most of these assertion methods can be customized with the msg_prefix
argument. This string will be prefixed to any failure message generated by the assertion. This allows you to provide additional details that may help you to identify the location and cause of a failure in your test suite.
-
SimpleTestCase.assertRaisesMessage(expected_exception, expected_message, callable, *args, **kwargs)
-
SimpleTestCase.assertRaisesMessage(expected_exception, expected_message)
-
Asserts that execution of
callable
raisesexpected_exception
and thatexpected_message
is found in the exception’s message. Any other outcome is reported as a failure. It’s a simpler version ofunittest.TestCase.assertRaisesRegex()
with the difference thatexpected_message
isn’t treated as a regular expression.If only the
expected_exception
andexpected_message
parameters are given, returns a context manager so that the code being tested can be written inline rather than as a function:with self.assertRaisesMessage(ValueError, 'invalid literal for int()'): int('a')
-
SimpleTestCase.assertWarnsMessage(expected_warning, expected_message, callable, *args, **kwargs)
-
SimpleTestCase.assertWarnsMessage(expected_warning, expected_message)
-
Analogous to
SimpleTestCase.assertRaisesMessage()
but forassertWarnsRegex()
instead ofassertRaisesRegex()
.
-
SimpleTestCase.assertFieldOutput(fieldclass, valid, invalid, field_args=None, field_kwargs=None, empty_value='')
-
Asserts that a form field behaves correctly with various inputs.
Parameters: - fieldclass – the class of the field to be tested.
- valid – a dictionary mapping valid inputs to their expected cleaned values.
- invalid – a dictionary mapping invalid inputs to one or more raised error messages.
- field_args – the args passed to instantiate the field.
- field_kwargs – the kwargs passed to instantiate the field.
-
empty_value – the expected clean output for inputs in
empty_values
.
For example, the following code tests that an
EmailField
accepts[email protected]
as a valid email address, but rejectsaaa
with a reasonable error message:self.assertFieldOutput(EmailField, {'[email protected]': '[email protected]'}, {'aaa': ['Enter a valid email address.']})
-
SimpleTestCase.assertFormError(response, form, field, errors, msg_prefix='')
-
Asserts that a field on a form raises the provided list of errors when rendered on the form.
form
is the name theForm
instance was given in the template context.field
is the name of the field on the form to check. Iffield
has a value ofNone
, non-field errors (errors you can access viaform.non_field_errors()
) will be checked.errors
is an error string, or a list of error strings, that are expected as a result of form validation.
-
SimpleTestCase.assertFormsetError(response, formset, form_index, field, errors, msg_prefix='')
-
Asserts that the
formset
raises the provided list of errors when rendered.formset
is the name theFormset
instance was given in the template context.form_index
is the number of the form within theFormset
. Ifform_index
has a value ofNone
, non-form errors (errors you can access viaformset.non_form_errors()
) will be checked.field
is the name of the field on the form to check. Iffield
has a value ofNone
, non-field errors (errors you can access viaform.non_field_errors()
) will be checked.errors
is an error string, or a list of error strings, that are expected as a result of form validation.
-
SimpleTestCase.assertContains(response, text, count=None, status_code=200, msg_prefix='', html=False)
-
Asserts that a
Response
instance produced the givenstatus_code
and thattext
appears in the content of the response. Ifcount
is provided,text
must occur exactlycount
times in the response.Set
html
toTrue
to handletext
as HTML. The comparison with the response content will be based on HTML semantics instead of character-by-character equality. Whitespace is ignored in most cases, attribute ordering is not significant. SeeassertHTMLEqual()
for more details.
-
SimpleTestCase.assertNotContains(response, text, status_code=200, msg_prefix='', html=False)
-
Asserts that a
Response
instance produced the givenstatus_code
and thattext
does not appear in the content of the response.Set
html
toTrue
to handletext
as HTML. The comparison with the response content will be based on HTML semantics instead of character-by-character equality. Whitespace is ignored in most cases, attribute ordering is not significant. SeeassertHTMLEqual()
for more details.
-
SimpleTestCase.assertTemplateUsed(response, template_name, msg_prefix='', count=None)
-
Asserts that the template with the given name was used in rendering the response.
The name is a string such as
'admin/index.html'
.The count argument is an integer indicating the number of times the template should be rendered. Default is
None
, meaning that the template should be rendered one or more times.You can use this as a context manager, like this:
with self.assertTemplateUsed('index.html'): render_to_string('index.html') with self.assertTemplateUsed(template_name='index.html'): render_to_string('index.html')
-
SimpleTestCase.assertTemplateNotUsed(response, template_name, msg_prefix='')
-
Asserts that the template with the given name was not used in rendering the response.
You can use this as a context manager in the same way as
assertTemplateUsed()
.
-
SimpleTestCase.assertURLEqual(url1, url2, msg_prefix='')
-
New in Django 2.2.
Asserts that two URLs are the same, ignoring the order of query string parameters except for parameters with the same name. For example,
/path/?x=1&y=2
is equal to/path/?y=2&x=1
, but/path/?a=1&a=2
isn’t equal to/path/?a=2&a=1
.
-
SimpleTestCase.assertRedirects(response, expected_url, status_code=302, target_status_code=200, msg_prefix='', fetch_redirect_response=True)
-
Asserts that the response returned a
status_code
redirect status, redirected toexpected_url
(including anyGET
data), and that the final page was received withtarget_status_code
.If your request used the
follow
argument, theexpected_url
andtarget_status_code
will be the url and status code for the final point of the redirect chain.If
fetch_redirect_response
isFalse
, the final page won’t be loaded. Since the test client can’t fetch external URLs, this is particularly useful ifexpected_url
isn’t part of your Django app.Scheme is handled correctly when making comparisons between two URLs. If there isn’t any scheme specified in the location where we are redirected to, the original request’s scheme is used. If present, the scheme in
expected_url
is the one used to make the comparisons to.
-
SimpleTestCase.assertHTMLEqual(html1, html2, msg=None)
-
Asserts that the strings
html1
andhtml2
are equal. The comparison is based on HTML semantics. The comparison takes following things into account:- Whitespace before and after HTML tags is ignored.
- All types of whitespace are considered equivalent.
- All open tags are closed implicitly, e.g. when a surrounding tag is closed or the HTML document ends.
- Empty tags are equivalent to their self-closing version.
- The ordering of attributes of an HTML element is not significant.
- Attributes without an argument are equal to attributes that equal in name and value (see the examples).
- Text, character references, and entity references that refer to the same character are equivalent.
The following examples are valid tests and don’t raise any
AssertionError
:self.assertHTMLEqual( '<p>Hello <b>'world'!</p>', '''<p> Hello <b>'world'! </b> </p>''' ) self.assertHTMLEqual( '<input type="checkbox" checked="checked" id="id_accept_terms" />', '<input id="id_accept_terms" type="checkbox" checked>' )
html1
andhtml2
must be valid HTML. AnAssertionError
will be raised if one of them cannot be parsed.Output in case of error can be customized with the
msg
argument.
-
SimpleTestCase.assertHTMLNotEqual(html1, html2, msg=None)
-
Asserts that the strings
html1
andhtml2
are not equal. The comparison is based on HTML semantics. SeeassertHTMLEqual()
for details.html1
andhtml2
must be valid HTML. AnAssertionError
will be raised if one of them cannot be parsed.Output in case of error can be customized with the
msg
argument.
-
SimpleTestCase.assertXMLEqual(xml1, xml2, msg=None)
-
Asserts that the strings
xml1
andxml2
are equal. The comparison is based on XML semantics. Similarly toassertHTMLEqual()
, the comparison is made on parsed content, hence only semantic differences are considered, not syntax differences. When invalid XML is passed in any parameter, anAssertionError
is always raised, even if both string are identical.XML declaration, document type, and comments are ignored. Only the root element and its children are compared.
Output in case of error can be customized with the
msg
argument.
-
SimpleTestCase.assertXMLNotEqual(xml1, xml2, msg=None)
-
Asserts that the strings
xml1
andxml2
are not equal. The comparison is based on XML semantics. SeeassertXMLEqual()
for details.Output in case of error can be customized with the
msg
argument.
-
SimpleTestCase.assertInHTML(needle, haystack, count=None, msg_prefix='')
-
Asserts that the HTML fragment
needle
is contained in thehaystack
one.If the
count
integer argument is specified, then additionally the number ofneedle
occurrences will be strictly verified.Whitespace in most cases is ignored, and attribute ordering is not significant. The passed-in arguments must be valid HTML.
-
SimpleTestCase.assertJSONEqual(raw, expected_data, msg=None)
-
Asserts that the JSON fragments
raw
andexpected_data
are equal. Usual JSON non-significant whitespace rules apply as the heavyweight is delegated to thejson
library.Output in case of error can be customized with the
msg
argument.
-
SimpleTestCase.assertJSONNotEqual(raw, expected_data, msg=None)
-
Asserts that the JSON fragments
raw
andexpected_data
are not equal. SeeassertJSONEqual()
for further details.Output in case of error can be customized with the
msg
argument.
-
TransactionTestCase.assertQuerysetEqual(qs, values, transform=repr, ordered=True, msg=None)
-
Asserts that a queryset
qs
returns a particular list of valuesvalues
.The comparison of the contents of
qs
andvalues
is performed by applyingtransform
toqs
. By default, this means that therepr()
of each value inqs
is compared to thevalues
. Any other callable can be used ifrepr()
doesn’t provide a unique or helpful comparison.By default, the comparison is also ordering dependent. If
qs
doesn’t provide an implicit ordering, you can set theordered
parameter toFalse
, which turns the comparison into acollections.Counter
comparison. If the order is undefined (if the givenqs
isn’t ordered and the comparison is against more than one ordered values), aValueError
is raised.Output in case of error can be customized with the
msg
argument.
-
TransactionTestCase.assertNumQueries(num, func, *args, **kwargs)
-
Asserts that when
func
is called with*args
and**kwargs
thatnum
database queries are executed.If a
"using"
key is present inkwargs
it is used as the database alias for which to check the number of queries:self.assertNumQueries(7, using='non_default_db')
If you wish to call a function with a
using
parameter you can do it by wrapping the call with alambda
to add an extra parameter:self.assertNumQueries(7, lambda: my_function(using=7))
You can also use this as a context manager:
with self.assertNumQueries(2): Person.objects.create(name="Aaron") Person.objects.create(name="Daniel")
Tagging tests
You can tag your tests so you can easily run a particular subset. For example, you might label fast or slow tests:
from django.test import tag class SampleTestCase(TestCase): @tag('fast') def test_fast(self): ... @tag('slow') def test_slow(self): ... @tag('slow', 'core') def test_slow_but_core(self): ...
You can also tag a test case:
@tag('slow', 'core') class SampleTestCase(TestCase): ...
Subclasses inherit tags from superclasses, and methods inherit tags from their class. Given:
@tag('foo') class SampleTestCaseChild(SampleTestCase): @tag('bar') def test(self): ...
SampleTestCaseChild.test
will be labeled with 'slow'
, 'core'
, 'bar'
, and 'foo'
.
Then you can choose which tests to run. For example, to run only fast tests:
$ ./manage.py test --tag=fast
...\> manage.py test --tag=fast
Or to run fast tests and the core one (even though it’s slow):
$ ./manage.py test --tag=fast --tag=core
...\> manage.py test --tag=fast --tag=core
You can also exclude tests by tag. To run core tests if they are not slow:
$ ./manage.py test --tag=core --exclude-tag=slow
...\> manage.py test --tag=core --exclude-tag=slow
test --exclude-tag
has precedence over test --tag
, so if a test has two tags and you select one of them and exclude the other, the test won’t be run.
Email services
If any of your Django views send email using Django’s email functionality, you probably don’t want to send email each time you run a test using that view. For this reason, Django’s test runner automatically redirects all Django-sent email to a dummy outbox. This lets you test every aspect of sending email – from the number of messages sent to the contents of each message – without actually sending the messages.
The test runner accomplishes this by transparently replacing the normal email backend with a testing backend. (Don’t worry – this has no effect on any other email senders outside of Django, such as your machine’s mail server, if you’re running one.)
-
django.core.mail.outbox
During test running, each outgoing email is saved in django.core.mail.outbox
. This is a list of all EmailMessage
instances that have been sent. The outbox
attribute is a special attribute that is created only when the locmem
email backend is used. It doesn’t normally exist as part of the django.core.mail
module and you can’t import it directly. The code below shows how to access this attribute correctly.
Here’s an example test that examines django.core.mail.outbox
for length and contents:
from django.core import mail from django.test import TestCase class EmailTest(TestCase): def test_send_email(self): # Send message. mail.send_mail( 'Subject here', 'Here is the message.', '[email protected]', ['[email protected]'], fail_silently=False, ) # Test that one message has been sent. self.assertEqual(len(mail.outbox), 1) # Verify that the subject of the first message is correct. self.assertEqual(mail.outbox[0].subject, 'Subject here')
As noted previously, the test outbox is emptied at the start of every test in a Django *TestCase
. To empty the outbox manually, assign the empty list to mail.outbox
:
from django.core import mail # Empty the test outbox mail.outbox = []
Management Commands
Management commands can be tested with the call_command()
function. The output can be redirected into a StringIO
instance:
from io import StringIO from django.core.management import call_command from django.test import TestCase class ClosepollTest(TestCase): def test_command_output(self): out = StringIO() call_command('closepoll', stdout=out) self.assertIn('Expected output', out.getvalue())
Skipping tests
The unittest library provides the @skipIf
and @skipUnless
decorators to allow you to skip tests if you know ahead of time that those tests are going to fail under certain conditions.
For example, if your test requires a particular optional library in order to succeed, you could decorate the test case with @skipIf
. Then, the test runner will report that the test wasn’t executed and why, instead of failing the test or omitting the test altogether.
To supplement these test skipping behaviors, Django provides two additional skip decorators. Instead of testing a generic boolean, these decorators check the capabilities of the database, and skip the test if the database doesn’t support a specific named feature.
The decorators use a string identifier to describe database features. This string corresponds to attributes of the database connection features class. See django.db.backends.BaseDatabaseFeatures
class for a full list of database features that can be used as a basis for skipping tests.
-
skipIfDBFeature(*feature_name_strings)
Skip the decorated test or TestCase
if all of the named database features are supported.
For example, the following test will not be executed if the database supports transactions (e.g., it would not run under PostgreSQL, but it would under MySQL with MyISAM tables):
class MyTests(TestCase): @skipIfDBFeature('supports_transactions') def test_transaction_behavior(self): # ... conditional test code pass
-
skipUnlessDBFeature(*feature_name_strings)
Skip the decorated test or TestCase
if any of the named database features are not supported.
For example, the following test will only be executed if the database supports transactions (e.g., it would run under PostgreSQL, but not under MySQL with MyISAM tables):
class MyTests(TestCase): @skipUnlessDBFeature('supports_transactions') def test_transaction_behavior(self): # ... conditional test code pass
© Django Software Foundation and individual contributors
Licensed under the BSD License.
https://docs.djangoproject.com/en/3.0/topics/testing/tools/