Let’s learn by example.
Throughout this tutorial, we’ll walk you through the creation of a basic poll application.
It’ll consist of two parts:
We’ll assume you have Django installed already. You can tell Django is installed and which version by running the following command in a shell prompt (indicated by the $ prefix):
$ python -m django --version
If Django is installed, you should see the version of your installation. If it isn’t, you’ll get an error telling “No module named django”.
This tutorial is written for Django 2.0, which supports Python 3.4 and later. If the Django version doesn’t match, you can refer to the tutorial for your version of Django by using the version switcher at the bottom right corner of this page, or update Django to the newest version. If you’re using an older version of Python, check What Python version can I use with Django? to find a compatible version of Django.
See How to install Django for advice on how to remove older versions of Django and install a newer one.
Where to get help:
If this is your first time using Django, you’ll have to take care of some initial setup. Namely, you’ll need to auto-generate some code that establishes a Django project – a collection of settings for an instance of Django, including database configuration, Django-specific options and application-specific settings.
From the command line,
cd into a directory where you’d like to store your code, then run the following command:
$ django-admin startproject mysite
This will create a
mysite directory in your current directory. If it didn’t work, see Problems running django-admin.
You’ll need to avoid naming projects after built-in Python or Django components. In particular, this means you should avoid using names like
django (which will conflict with Django itself) or
test (which conflicts with a built-in Python package).
Where should this code live?
If your background is in plain old PHP (with no use of modern frameworks), you’re probably used to putting code under the Web server’s document root (in a place such as
/var/www). With Django, you don’t do that. It’s not a good idea to put any of this Python code within your Web server’s document root, because it risks the possibility that people may be able to view your code over the Web. That’s not good for security.
Put your code in some directory outside of the document root, such as
Let’s look at what
mysite/ manage.py mysite/ __init__.py settings.py urls.py wsgi.py
These files are:
mysite/root directory is just a container for your project. Its name doesn’t matter to Django; you can rename it to anything you like.
manage.py: A command-line utility that lets you interact with this Django project in various ways. You can read all the details about
manage.pyin django-admin and manage.py.
mysite/directory is the actual Python package for your project. Its name is the Python package name you’ll need to use to import anything inside it (e.g.
mysite/__init__.py: An empty file that tells Python that this directory should be considered a Python package. If you’re a Python beginner, read more about packages in the official Python docs.
mysite/settings.py: Settings/configuration for this Django project. Django settings will tell you all about how settings work.
mysite/urls.py: The URL declarations for this Django project; a “table of contents” of your Django-powered site. You can read more about URLs in URL dispatcher.
mysite/wsgi.py: An entry-point for WSGI-compatible web servers to serve your project. See How to deploy with WSGI for more details.
Let’s verify your Django project works. Change into the outer
mysite directory, if you haven’t already, and run the following commands:
$ python manage.py runserver
You’ll see the following output on the command line:
Performing system checks... System check identified no issues (0 silenced). You have unapplied migrations; your app may not work properly until they are applied. Run 'python manage.py migrate' to apply them. January 13, 2018 - 15:50:53 Django version 2.0, using settings 'mysite.settings' Starting development server at http://127.0.0.1:8000/ Quit the server with CONTROL-C.
Ignore the warning about unapplied database migrations for now; we’ll deal with the database shortly.
You’ve started the Django development server, a lightweight Web server written purely in Python. We’ve included this with Django so you can develop things rapidly, without having to deal with configuring a production server – such as Apache – until you’re ready for production.
Now’s a good time to note: don’t use this server in anything resembling a production environment. It’s intended only for use while developing. (We’re in the business of making Web frameworks, not Web servers.)
Now that the server’s running, visit http://127.0.0.1:8000/ with your Web browser. You’ll see a “Congratulations!” page, with a rocket taking off. It worked!
Changing the port
By default, the
runserver command starts the development server on the internal IP at port 8000.
If you want to change the server’s port, pass it as a command-line argument. For instance, this command starts the server on port 8080:
$ python manage.py runserver 8080
If you want to change the server’s IP, pass it along with the port. For example, to listen on all available public IPs (which is useful if you are running Vagrant or want to show off your work on other computers on the network), use:
$ python manage.py runserver 0:8000
0 is a shortcut for 0.0.0.0. Full docs for the development server can be found in the
Automatic reloading of
The development server automatically reloads Python code for each request as needed. You don’t need to restart the server for code changes to take effect. However, some actions like adding files don’t trigger a restart, so you’ll have to restart the server in these cases.
Now that your environment – a “project” – is set up, you’re set to start doing work.
Each application you write in Django consists of a Python package that follows a certain convention. Django comes with a utility that automatically generates the basic directory structure of an app, so you can focus on writing code rather than creating directories.
Projects vs. apps
What’s the difference between a project and an app? An app is a Web application that does something – e.g., a Weblog system, a database of public records or a simple poll app. A project is a collection of configuration and apps for a particular website. A project can contain multiple apps. An app can be in multiple projects.
Your apps can live anywhere on your Python path. In this tutorial, we’ll create our poll app right next to your
manage.py file so that it can be imported as its own top-level module, rather than a submodule of
To create your app, make sure you’re in the same directory as
manage.py and type this command:
$ python manage.py startapp polls
That’ll create a directory
polls, which is laid out like this:
polls/ __init__.py admin.py apps.py migrations/ __init__.py models.py tests.py views.py
This directory structure will house the poll application.
Let’s write the first view. Open the file
polls/views.py and put the following Python code in it:
from django.http import HttpResponse def index(request): return HttpResponse("Hello, world. You're at the polls index.")
This is the simplest view possible in Django. To call the view, we need to map it to a URL - and for this we need a URLconf.
To create a URLconf in the polls directory, create a file called
urls.py. Your app directory should now look like:
polls/ __init__.py admin.py apps.py migrations/ __init__.py models.py tests.py urls.py views.py
polls/urls.py file include the following code:
from django.urls import path from . import views urlpatterns = [ path('', views.index, name='index'), ]
The next step is to point the root URLconf at the
polls.urls module. In
mysite/urls.py, add an import for
django.urls.include and insert an
include() in the
urlpatterns list, so you have:
from django.urls import include, path from django.contrib import admin urlpatterns = [ path('polls/', include('polls.urls')), path('admin/', admin.site.urls), ]
include() function allows referencing other URLconfs. Whenever Django encounters
include(), it chops off whatever part of the URL matched up to that point and sends the remaining string to the included URLconf for further processing.
The idea behind
include() is to make it easy to plug-and-play URLs. Since polls are in their own URLconf (
polls/urls.py), they can be placed under “/polls/”, or under “/fun_polls/”, or under “/content/polls/”, or any other path root, and the app will still work.
When to use
You should always use
include() when you include other URL patterns.
admin.site.urls is the only exception to this.
You have now wired an
index view into the URLconf. Lets verify it’s working, run the following command:
$ python manage.py runserver
Go to http://localhost:8000/polls/ in your browser, and you should see the text “Hello, world. You’re at the polls index.”, which you defined in the
path() function is passed four arguments, two required:
view, and two optional:
name. At this point, it’s worth reviewing what these arguments are for.
route is a string that contains a URL pattern. When processing a request, Django starts at the first pattern in
urlpatterns and makes its way down the list, comparing the requested URL against each pattern until it finds one that matches.
Patterns don’t search GET and POST parameters, or the domain name. For example, in a request to
https://www.example.com/myapp/, the URLconf will look for
myapp/. In a request to
https://www.example.com/myapp/?page=3, the URLconf will also look for
When Django finds a matching pattern, it calls the specified view function with an
HttpRequest object as the first argument and any “captured” values from the route as keyword arguments. We’ll give an example of this in a bit.
Arbitrary keyword arguments can be passed in a dictionary to the target view. We aren’t going to use this feature of Django in the tutorial.
Naming your URL lets you refer to it unambiguously from elsewhere in Django, especially from within templates. This powerful feature allows you to make global changes to the URL patterns of your project while only touching a single file.
When you’re comfortable with the basic request and response flow, read part 2 of this tutorial to start working with the database.
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