A view function, or view for short, is a Python function that takes a
web request and returns a web response. This response can be the HTML contents
of a web page, or a redirect, or a 404 error, or an XML document, or an image .
. . or anything, really. The view itself contains whatever arbitrary logic is
necessary to return that response. This code can live anywhere you want, as long
as it’s on your Python path. There’s no other requirement–no “magic,” so to
speak. For the sake of putting the code somewhere, the convention is to
put views in a file called views.py
, placed in your project or
application directory.
Here’s a view that returns the current date and time, as an HTML document:
from django.http import HttpResponse
import datetime
def current_datetime(request):
now = datetime.datetime.now()
html = "<html><body>It is now %s.</body></html>" % now
return HttpResponse(html)
Let’s step through this code one line at a time:
First, we import the class HttpResponse
from the
django.http
module, along with Python’s datetime
library.
Next, we define a function called current_datetime
. This is the view
function. Each view function takes an HttpRequest
object as its first parameter, which is typically named request
.
Note that the name of the view function doesn’t matter; it doesn’t have to
be named in a certain way in order for Django to recognize it. We’re
calling it current_datetime
here, because that name clearly indicates
what it does.
The view returns an HttpResponse
object that
contains the generated response. Each view function is responsible for
returning an HttpResponse
object. (There are
exceptions, but we’ll get to those later.)
Django’s Time Zone
Django includes a TIME_ZONE
setting that defaults to
America/Chicago
. This probably isn’t where you live, so you might want
to change it in your settings file.
So, to recap, this view function returns an HTML page that includes the current date and time. To display this view at a particular URL, you’ll need to create a URLconf; see URL dispatcher for instructions.
Django provides help for returning HTTP error codes. There are subclasses of
HttpResponse
for a number of common HTTP status codes
other than 200 (which means “OK”). You can find the full list of available
subclasses in the request/response
documentation. Return an instance of one of those subclasses instead of a
normal HttpResponse
in order to signify an error. For
example:
from django.http import HttpResponse, HttpResponseNotFound
def my_view(request):
# ...
if foo:
return HttpResponseNotFound("<h1>Page not found</h1>")
else:
return HttpResponse("<h1>Page was found</h1>")
There isn’t a specialized subclass for every possible HTTP response code,
since many of them aren’t going to be that common. However, as documented in
the HttpResponse
documentation, you can also pass the
HTTP status code into the constructor for HttpResponse
to create a return class for any status code you like. For example:
from django.http import HttpResponse
def my_view(request):
# ...
# Return a "created" (201) response code.
return HttpResponse(status=201)
Because 404 errors are by far the most common HTTP error, there’s an easier way to handle those errors.
Http404
exception¶When you return an error such as HttpResponseNotFound
,
you’re responsible for defining the HTML of the resulting error page:
return HttpResponseNotFound("<h1>Page not found</h1>")
For convenience, and because it’s a good idea to have a consistent 404 error page
across your site, Django provides an Http404
exception. If you raise
Http404
at any point in a view function, Django will catch it and return the
standard error page for your application, along with an HTTP error code 404.
Example usage:
from django.http import Http404
from django.shortcuts import render
from polls.models import Poll
def detail(request, poll_id):
try:
p = Poll.objects.get(pk=poll_id)
except Poll.DoesNotExist:
raise Http404("Poll does not exist")
return render(request, "polls/detail.html", {"poll": p})
In order to show customized HTML when Django returns a 404, you can create an
HTML template named 404.html
and place it in the top level of your
template tree. This template will then be served when DEBUG
is set
to False
.
When DEBUG
is True
, you can provide a message to Http404
and
it will appear in the standard 404 debug template. Use these messages for
debugging purposes; they generally aren’t suitable for use in a production 404
template.
The default error views in Django should suffice for most web applications, but can easily be overridden if you need any custom behavior. Specify the handlers as seen below in your URLconf (setting them anywhere else will have no effect).
The page_not_found()
view is overridden by
handler404
:
handler404 = "mysite.views.my_custom_page_not_found_view"
The server_error()
view is overridden by
handler500
:
handler500 = "mysite.views.my_custom_error_view"
The permission_denied()
view is overridden by
handler403
:
handler403 = "mysite.views.my_custom_permission_denied_view"
The bad_request()
view is overridden by
handler400
:
handler400 = "mysite.views.my_custom_bad_request_view"
See also
Use the CSRF_FAILURE_VIEW
setting to override the CSRF error
view.
To test the response of a custom error handler, raise the appropriate exception in a test view. For example:
from django.core.exceptions import PermissionDenied
from django.http import HttpResponse
from django.test import SimpleTestCase, override_settings
from django.urls import path
def response_error_handler(request, exception=None):
return HttpResponse("Error handler content", status=403)
def permission_denied_view(request):
raise PermissionDenied
urlpatterns = [
path("403/", permission_denied_view),
]
handler403 = response_error_handler
# ROOT_URLCONF must specify the module that contains handler403 = ...
@override_settings(ROOT_URLCONF=__name__)
class CustomErrorHandlerTests(SimpleTestCase):
def test_handler_renders_template_response(self):
response = self.client.get("/403/")
# Make assertions on the response here. For example:
self.assertContains(response, "Error handler content", status_code=403)
As well as being synchronous functions, views can also be asynchronous
(“async”) functions, normally defined using Python’s async def
syntax.
Django will automatically detect these and run them in an async context.
However, you will need to use an async server based on ASGI to get their
performance benefits.
Here’s an example of an async view:
import datetime
from django.http import HttpResponse
async def current_datetime(request):
now = datetime.datetime.now()
html = "<html><body>It is now %s.</body></html>" % now
return HttpResponse(html)
You can read more about Django’s async support, and how to best use async views, in Asynchronous support.
Jul 24, 2023