Inspired by the question series 'Hidden features of ...', I am curious to hear about your favorite Django tips or lesser known but useful features you know of.

  • Please, include only one tip per answer.
  • Add Django version requirements if there are any.

55 Answers 55


Just found this link: http://lincolnloop.com/django-best-practices/#table-of-contents - "Django Best Practices".

  • Interesting site, but all that jumping of the page up and down makes me cringe.
    – rslite
    Commented Jul 22, 2009 at 8:06

Instead of evaluating whole queryset to check whether you got back any results, use .exists() in Django 1.2+ and .count() for previous versions.

Both exists() and count() clears order by clauses and retrieves a single integer from DB. However exists() will always return 1 where as count may return higher values on which limits will be applied manually. Source for has_result used in exists() and get_count used in count() for the curious.

Since they both return a single integer, there's no model instantiation, loading model attributes in memory and no large TextFields being passed between your DB and app.

If you have already evaluated the query, .count() computes len(cached_result) and .exists() computes bool(cached_result)

Not efficient - Example 1

books = Books.objects.filter(author__last_name='Brown')
if books:
    # Do something

Not efficient - Example 2

books = Books.objects.filter(author__last_name='Brown')
if len(books):
    # Do something

Efficient - Example 1

books = Books.objects.filter(author__last_name='Brown')
if books.count():
    # Do something

Efficient - Example 2

books = Books.objects.filter(author__last_name='Brown')
if books.exists():
    # Do something
  • Considering that DB interaction is the crust of most Django apps, even minor improvements such as this one make a big difference. Commented Apr 22, 2011 at 8:36

If you make changes into model

./manage.py dumpdata appname > appname_data.json  
./manage.py reset appname
django-admin.py loaddata appname_data.json
  • 5
    It will do if you work alone. But if you work in a team and/or have fixtures you don't want to modify by hand - then use South. It's the proper way to handle model modifications. Commented Jun 24, 2011 at 20:57

Use signals to add accessor-methods on-the-fly.

I saw this technique in django-photologue: For any Size object added, the post_init signal will add the corresponding methods to the Image model. If you add a site giant, the methods to retrieve the picture in giant resolution will be image.get_giant_url().

The methods are generated by calling add_accessor_methods from the post_init signal:

def add_accessor_methods(self, *args, **kwargs):
    for size in PhotoSizeCache().sizes.keys():
        setattr(self, 'get_%s_size' % size,
                curry(self._get_SIZE_size, size=size))
        setattr(self, 'get_%s_photosize' % size,
                curry(self._get_SIZE_photosize, size=size))
        setattr(self, 'get_%s_url' % size,
                curry(self._get_SIZE_url, size=size))
        setattr(self, 'get_%s_filename' % size,
                curry(self._get_SIZE_filename, size=size))

See the source code of photologue.models for real-world usage.


Remove Database Access Information from settings.py

One thing I've done in my Django site's settings.py is load database access info from a file in /etc. This way the access setup (database host, port, username, password) can be different for each machine, and sensitive info like the password isn't in my project's repository. You might want to restrict access to the workers in a similar manner, by making them connect with a different username.

You could also pass in the database connection information, or even just a key or path to a configuration file, via environment variables, and handle it in settings.py.

For example, here's how I pull in my database configuration file:

g = {}
dbSetup = {}
execfile(os.environ['DB_CONFIG'], g, dbSetup)
if 'databases' in dbSetup:
    DATABASES = dbSetup['databases']
        'default': {
            'ENGINE': 'django.db.backends.mysql',
            # ...

Needless to say, you need to make sure that the file in DB_CONFIG is not accessible to any user besides the db admins and Django itself. The default case should refer Django to a developer's own test database. There may also be a better solution using the ast module instead of execfile, but I haven't researched it yet.

Another thing I do is use separate users for DB admin tasks vs. everything else. In my manage.py, I added the following preamble:

# Find a database configuration, if there is one, and set it in the environment.
adminDBConfFile = '/etc/django/db_admin.py'
dbConfFile = '/etc/django/db_regular.py'
import sys
import os
def goodFile(path):
    return os.path.isfile(path) and os.access(path, os.R_OK)
if len(sys.argv) >= 2 and sys.argv[1] in ["syncdb", "dbshell", "migrate"] \
    and goodFile(adminDBConfFile):
    os.environ['DB_CONFIG'] = adminDBConfFile
elif goodFile(dbConfFile):
    os.environ['DB_CONFIG'] = dbConfFile

Where the config in /etc/django/db_regular.py is for a user with access to only the Django database with SELECT, INSERT, UPDATE, and DELETE, and /etc/django/db_admin.py is for a user with these permissions plus CREATE, DROP, INDEX, ALTER, and LOCK TABLES. (The migrate command is from South.) This gives me some protection from Django code messing with my schema at runtime, and it limits the damage an SQL injection attack can cause (though you should still check and filter all user input).

(Copied from my answer to another question)


Instead of running the Django dev server on localhost, run it on a proper network interface. For example:

python manage.py runserver


python manage.py runserver

Then you can not only easily use Fiddler (http://www.fiddler2.com/fiddler2/) or another tool like HTTP Debugger (http://www.httpdebugger.com/) to inspect your HTTP headers, but you can also access your dev site from other machines on your LAN to test.

Make sure you are protected by a firewall though, although the dev server is minimal and relatively safe.

  • "Relatively" is a good word, once I exposed the built-in static assets serving to the outer word and regret it. While technically it's not devserver-related, it's within the same piece of code - Django, so I would extrapolate this experience to the devserver as well. Commented Sep 9, 2010 at 8:47

The Django Debug Toolbar is really fantastic. Not really a toolbar, it actually brings up a sidepane that tells you all sorts of information about what brought you the page you're looking at - DB queries, the context variables sent to the template, signals, and more.


Use wraps decorator in custom views decorators to preserve view's name, module and docstring. E.g.

    from functools import wraps
except ImportError:
    from django.utils.functional import wraps  # Python 2.3, 2.4 fallback.

def view_decorator(fun):
    def wrapper():
        # here goes your decorator's code
    return wrapper

Beware: will not work on a class-based views (those with __call__ method definition), if the author hasn't defined a __name__ property. As a workaround use:

from django.utils.decorators import available_attrs
    @wraps(fun, assigned=available_attrs(fun))

Using an 'apps' folder to organize your applications without editing PYTHONPATH

This has come handy when I want to organize my folders like this:


without overwritting PYTHONPATH or having to add apps to every import like:

from apps.foo.model import *
from apps.bar.forms import *

In your settings.py add

import os
import sys
PROJECT_ROOT = os.path.abspath(os.path.dirname(__file__))
sys.path.insert(0, os.path.join(PROJECT_ROOT, "apps"))

and you are ready to go :-)

I saw this at http://codespatter.com/2009/04/10/how-to-add-locations-to-python-path-for-reusable-django-apps/


Render form via django template instead of as_(ul|table|p)().

This article shows, how to use template to render CusstomForms instead of as_p(), as_table()...

To make it work change

  • from django import newforms as forms to from django import forms
  • from django.newforms.forms import BoundField to from django.forms.forms import BoundField

Use djangorecipe to manage your project

  • If you're writing a new app, this recipe makes testing it outside of a project really easy
  • It allows you to manage dependencies for a project (e.g. what version of some app it should depend on)

All you have to do to get started is this:

  1. Create a folder for your new website (or library)
  2. Create a buildout.cfg with following content in it:

  3. Grab a bootstrap.py to get a local installation of buildout and place it within your directory. You can either go with the official one (sorry, Markdown didn't like part of the full link :-/ ) or with one that uses distribute instead of setuptools as described by Reinout van Rees.
  4. python bootstrap.py (or python bootstrap_dev.py if you want to use distribute).
  5. ./bin/buildout

That's it. You should now have a new folder "my_new_site", which is your new django 1.1.1 project, and in ./bin you will find the django-script which replaces the manage.py on a normal installation.

What's the benefit? Let's say you want to use something like django-comment-spamfighter in your project. All you'd have to do is change your buildout.cfg to something like this:



Note that all I did was to add the last 2 lines which say, that the django-part should also have the django-comments-spamfighter package in version 0.4. The next time you run ./bin/buildout, buildout will download that package and modify ./bin/django to add it to its PYTHONPATH.

djangorecipe is also suited for deploying your project with mod_wsgi. Just add the wsgi=true setting to the django-part of your buildout.cfg and a "django.wsgi" will appear in your ./bin folder :-)

And if you set the test option to a list of applications, the djangorecipe will create a nice wrapper for you that runs all the tests for the listed application in your project.

If you want to develop a single app in a standalone environment for debugging etc., Jakob Kaplan-Moss has a quite complete tutorial on his blog


Use reverse in your urlconf.

This is one of those tricks where I don't understand why it isn't the default.

Here's a link to where I picked it up: http://andr.in/2009/11/21/calling-reverse-in-django/

Here's the code snippet:

from django.conf.urls.defaults import *
from django.core.urlresolvers import reverse
from django.utils.functional import lazy
from django.http import HttpResponse

reverse_lazy = lazy(reverse, str)

urlpatterns = patterns('',
url(r'^comehere/', lambda request: HttpResponse('Welcome!'), name='comehere'),
url(r'^$', 'django.views.generic.simple.redirect_to',
{'url': reverse_lazy('comehere')}, name='root')
  • 4
    What does that mean and why would I want to do it? Commented Jul 16, 2010 at 9:04
  • 1
    Reverse is like the URL tag, which "Returns an absolute URL (i.e., a URL without the domain name) matching a given view function and optional parameters." I avoid harding code absolute URLs. When I go to deploy on a web server, the app may not be the root mount point, so in the test server a URL like /app/url/ might work, but on the deploy server it might be /mountpoint/app/url. Reverse works in views.py. But it doesn't work in urls.py. It gives the error: "The included urlconf foo.urls doesn’t have any patterns in it". This trick saves you from needing to wrap the URLconf in a view.
    – jfenwick
    Commented Jul 16, 2010 at 14:25
  • 2
    -1, this is a horrible hack to solve the root url problem. PythonOption django.root is the correct way. See the relevant documentation here: docs.djangoproject.com/en/1.2/howto/deployment/modpython/…
    – Agos
    Commented Dec 1, 2010 at 12:39

Automatically set 'DEBUG' attribute on production environment (settings.py)

import socket

if socket.gethostname() == 'productionserver.com':
    DEBUG = False
    DEBUG = True

By: http://nicksergeant.com/2008/automatically-setting-debug-in-your-django-app-based-on-server-hostname/


This is a really easy way to never have to import another one of your models again in your python shell.

First, install IPython (If you don't use IPython, what's wrong with you?). Next, create a python script, ipythonrc.py, in your django project directory with the following code in it:

from django.db.models.loading import get_models 
for m in get_models(): 
     globals()[m.__name__] = m 
#NOTE: if you have two models with the same name you'll only end up with one of them

Then, in your ~/.ipython/ipythonrc file, put the following code in the "Python files to load and execute" section:

execfile /path/to/project/ipythonrc.py

Now every time you start up IPython or run ./manage.py shell you will have all your models already imported and ready to use. No need to ever import another model again.

You can also put any other code you execute a lot in your ipythonrc.py file to save yourself time.

  • 7
    consider using "django command extensions" which which adds the ./manage.py shell_plus command which does this for you (several other cool stuff, too.)
    – Carl G
    Commented Feb 14, 2010 at 6:24

Changing Django form field properties on init

Sometimes it's useful to pass extra arguments to a Form class.

from django import forms
from mymodels import Group

class MyForm(forms.Form):

    def __init__(self,my_var,*args,**kwrds):
        self.fields['some_choices']=[[x,x] for x in list_of_stuff]

source: Dzone snippets

  • Brilliant! I've just been wrapping my Form classes in functions which doesn't seem as Pythonic as this.
    – Spike
    Commented Mar 10, 2011 at 22:33

django_extensions from https://github.com/django-extensions/django-extensions is just great.

Few nice ./manage.py commands:

  • shell_plus - autoimports models from all INSTALLED_APPS
  • show_urls - prints all urls defined in all apps in project
  • runscript - runs any script in project context (you can use models and other Django-related modules)

PyCharm and Wingware IDE is great tool if you have money to pay for the license.

Since I am a poor developer, I use PyDev with Eclipse.


Use isapi-wsgi and django-pyodbc to run Django on Windows using IIS and SQL Server!


Create dynamic models for sets of legacy tables with the same structure:

class BaseStructure(models.Model):
    name = models.CharField(max_length=100)
    address = models.CharField(max_length=100)

    class Meta:

class DynamicTable(models.Model):
    table_name = models.CharField(max_length=20)

    def get_model(self):
        class Meta:

        attrs = {}
        attrs['Meta'] = Meta

        # type(new_class_name, (base,classes), {extra: attributes})
        dynamic_class = type(self.table_name, (BaseStructure,), attrs) 
        return dynamic_class

customers = DynamicTable.objects.get(table_name='Customers').get_model()
me = customers.objects.get(name='Josh Smeaton')
me.address = 'Over the rainbow'

This assumes that you have legacy tables with the same structure. Instead of creating a model to wrap each of the tables, you define one base model, and dynamically construct the class needed to interact with a specific table.


A bit late to the party. But Django Canvas has recently come out and it deserves a place here.

Don't start your project with django-admin.py startproject. Instead you can use something like Django Canvas to help piece together a blank project with the modules you need.

You go to that site, tick some options and then download a blank project, so simple.

It has all the common things like South schema migrations and Command Extensions as well as a lot of other best practices mentioned here. Plus it has a great start.sh/shart.bat script that will install python, virtualenv, pip, django and whatever you need to start from a fresh copy of windows, osx or linux.


Use asynchronous tasks. Use Celery


Read Unbreaking Django if you haven't already. It contains lots of useful information regarding django pitfalls.


When passing variables from a view to a template the response dictionary can become tedious to type out. I find it nice to just pass all the local variables at once using locals() .

def show_thing(request, thing_id):
    thing = Thing.objects.get(pk=thing_id)
    return render_to_response('templates/things/show.html', locals())

(Not a hidden feature per se but nevertheless helpful when new to Python and or Django.)

Edit: Obviously it's better to be explicit than implicit but this approach can be helpful during development.


dir() & raise ValueError()

For debugging / exploring the state of things during development, I use the following trick:

  to_see = dir(inspect_this_thing)
  to_see2 = inspect_this_thing.some_attribute
  raise ValueError("Debugging")

This is especially helpful when you're working on parts of django that aren't particularly well documented (form.changed_fields is one I used this on recently).


Instead of writing out every variable for the template context, use the python builtin locals() command which creates a dictionary for you:

#This is tedious and not very DRY
return render_to_response('template.html', {"var1": var1, "var2":var2}, context_instance=RequestContext(request))

#95% of the time this works perfectly
return render_to_response('template.html', locals(), context_instance=RequestContext(request))

#The other 4.99%
render_dict = locals()
render_dict['also_needs'] = "this value"
return render_to_response('template.html', render_dict, context_instance=RequestContext(request))

Django hasn't got app settings, so i made my own app_settings.py detection. At the bottom of the settings.py i added this code:

import sys, os
# Append application settings without triggering the __init__.
for installed_app in INSTALLED_APPS:
    # Ignore django applications
    if not installed_app.startswith('django.'):
        # Find the app (and the settings file)
        for path in sys.path:
            path = os.path.join(path, installed_app, 'app_settings.py')
            if os.path.isfile(path):
                # Application settings found
                exec open(path).read()

It detects app_settings.py in all the INSTALLED_APPS. Instead of importing it, it will read the contents of the app_settings file and will execute it inline. If app_settings is imported directly all sort of Django import errors will be raised (because Django isn't initialized yet).

So my app/app_settings.py will look like this:


Now the application only has to be added to the INSTALLED_APPS, instead of finding all application settings and add them to the settings.py (middleware, urls...)

Note: It would be better if Django had a hook to append extra settings, so application settings could be added on startup (or in runtime).


Not the answer you're looking for? Browse other questions tagged or ask your own question.