Setup a favicon.ico in Django

Up until a couple weeks ago, I had never installed a FavIcon on any of my Django sites. I never really thought about it until one day I enabled the SEND_BROKEN_LINK_EMAILS setting for one of my sites. As soon as I did that, I was able to track down links to broken pages very quickly. It also notified me that I didn't have a favicon.ico file setup anywhere on my site, and there are a great many programs out there that look for this file automatically.

At first I tried to go through Apache to get this working, but I'm no Apache guru so I was less than successful in taking this route. A couple of days ago I figured out a little trick to make the missing favicon.ico file stop sending me "broken link" e-mails hundreds of times a day. The solution? Put a favicon on my site, of course!

The approach I took was to simple add some information to my main urls.py file. Here's the line straight from my URLconf:

(r'^favicon\.ico$', 'django.views.generic.simple.redirect_to', {'url': '/static/images/favicon.ico'}),

Hah! Simple isn't it? This way Apache is still handling the actual serving of the static image file--Django just handles the redirect. Ever since I added this line to my URLconf, I've not received one "broken link" e-mail pertaining to the missing favicon.ico file. That leads me to believe that most applications can understand the redirect and plug the actual image file where it belongs.

Oh, and for those of you who might be curious... My favicon.ico is actually just a PNG image that I renamed to favicon.ico. Again, most things seem to understand this (but I could be wrong).

See below for a more complete example of my URLconf

from django.conf.urls.defaults import *

from django.contrib import admin
admin.autodiscover()

urlpatterns = patterns('',
    (r'^admin/(.*)', admin.site.root),
    (r'^robots\.txt$', 'django.views.generic.simple.direct_to_template', {'template': 'robots.txt', 'mimetype': 'text/plain'}),
    (r'^favicon\.ico$', 'django.views.generic.simple.redirect_to', {'url': '/static/images/favicon.ico'}),
    (r'^$', 'django.views.generic.simple.direct_to_template', {'template': 'base_home.html'}),
)

django-pendulum news

I've made several fun improvements to my Pendulum Django application. Perhaps the most noteworthy for most people is the addition of a default jQuery-powered date picker for adding and updating entries. I was hesitant to make anything like this be required because some people might prefer controls other than the one I chose. However, I tried to make it easy to override this default date picker if you so desire. Hopefully someone will report on how easy/difficult it is.

Also, I've added django-pendulum to the PyPI, which is Python's little package repository. You can think of it as an apt-get repository for those of you familiar with Debian/Ubuntu Linux or derivatives. There is a utility called easy_install, which obviously makes it easy to install packages that are found in the PyPI. The command to install django-pendulum with easy_install is easy_install django-pendulum. Good stuff!

There have been various other changes to the code, and I have some more changes planned. We'll see how long it takes me to get around to making these changes...

Python 2.6 Is Available

I haven't been following the development of Python very closely, so I will rely on someone else's information in this post.

The major theme of Python 2.6 is preparing the migration path to Python 3.0, a major redesign of the language. Whenever possible, Python 2.6 incorporates new features and syntax from 3.0 while remaining compatible with existing code by not removing older features or syntax. When it's not possible to do that, Python 2.6 tries to do what it can, adding compatibility functions in a future_builtins module and a -3 switch to warn about usages that will become unsupported in 3.0.

Some significant new packages have been added to the standard library, such as the multiprocessing and json modules, but there aren't many new features that aren't related to Python 3.0 in some way.

Python 2.6 also sees a number of improvements and bugfixes throughout the source. A search through the change logs finds there were 259 patches applied and 612 bugs fixed between Python 2.5 and 2.6. Both figures are likely to be underestimates.

So there you have it! Rock on Python!

Project Release: Seasonal Stylesheets

The other day at work I was involved in a humorous discussion about having our organization's Web site change colors depending on what day of the year it was. We threw around all sorts of fun ideas, knowing full well that it would never happen for our organization. It would be too unprofessional.

That night my allergies were bothering me to the point where I couldn't sleep, so I decided to see what I could do about making our discussion more possible, at least for others who can take a little more creative license than us. By morning, I had a working application that could effectively change the colors on a Web page depending on the date.

Today I released the source code on Google Code, hoping that someone more creative than me might take it and experiment to make something both attractive and useful.

You can learn more at the project's homepage: http://code.google.com/p/django-seasonal-stylesheets/

Installing Django on Shared Hosting (Site5)

This article is a related to my previously posted article about installing Django, an advanced Web framework for perfectionists, on your own computer. Now we will learn how to install Django on a shared hosting account, using Site5 and fastcgi as an example. Depending on your host, you may or may not have to request additional privileges from the support team in order to execute some of these commands.

Note: Django requires at least Python 2.3. Newer versions of Python are preferred.

Note: This HOWTO assumes familiarity with the UNIX/Linux command line.

Note: If the wget command doesn't work for you (as in you don't have permission to run it), you might try curl [url] -O instead. That's a -O as in upper-case o.

Install Python

Site5 (and many other shared hosting providers that offer SSH access) already has Python installed, but you will want to have your own copy so you can install various tools without affecting other users. So go ahead and download virtual python:

mkdir ~/downloads
cd ~/downloads
wget http://peak.telecommunity.com/dist/virtual-python.py

Virtual Python will make a local copy of the installed Python in your home directory. Now you want to make sure you execute this next command with the newest version of Python available on your host. For example, Site5 offers both Python 2.3.4 and Python 2.4.3. We want to use Python 2.4.3. To verify the version of your Python, execute the following command:

python -V

If that displays Python 2.3.x or anything earlier, try using python2.4 -V or python2.5 -V instead. Whichever command renders the most recent version of Python is the one you should use in place of python in the next command. Since python -V currently displays Python 2.4.3 on my Site5 sandbox, I will execute the following command:

python ~/downloads/virtual-python.py

Again, this is just making a local copy of the Python installation that you used to run the virtual-python.py script. Your local installation is likely in ~/lib/python2.4/ (version could vary).

Make Your Local Python Be Default

To reduce confusion and hassle, let's give our new local installation of Python precedence over the system-wide Python. To do that, open up your ~/.bashrc and make sure it contains a line similar to this:

export PATH=$HOME/bin:$PATH

If you're unfamiliar with UNIX-based text editors such as vi, here is what you would type to use vi to make the appropriate changes:

  • vi ~/.bashrc to edit the file
  • go to the end of the file by using the down arrow key or the j key
  • hit o (the letter) to tell vi you want to start typing stuff on the next line
  • type export PATH=$HOME/bin:$PATH
  • hit the escape key
  • type :x to save the changes and quit. Don't forget the : at the beginning. Alternatively, you can type :wq, which works exactly the same as :x.

Once you've made the appropriate changes to ~/.bashrc, you need to make those changes take effect in your current SSH session:

source ~/.bashrc

Now we should verify that our changes actually took place. Type the following command:

which python

If they output of that command is not something like ~/bin/python or /home/[your username]/bin/python, something probably didn't work. If that's the case, you can try again, or simply remember to use ~/bin/python instead of python throughout the rest of this HOWTO.

Install Python's setuptools

Now we should install Python's setuptools to make our lives easier down the road.

cd ~/downloads
wget http://peak.telecommunity.com/dist/ez_setup.py
python ez_setup.py

This gives us access to a script called easy_install, which makes it easy to install many useful Python tools. We will use this a bit later.

Download Django

Let's now download the most recent development version of Django. SSH into your account and execute the following commands (all commands shall be executed on your host).

svn co http://code.djangoproject.com/svn/django/trunk ~/downloads/django-trunk

Now we should make a symlink (or shortcut) to Django and put it somewhere on the Python Path. A sure-fire place is your ~/lib/python2.4/site-packages/ directory (again, that location could vary from host to host):

ln -s ~/downloads/django-trunk/django ~/lib/python2.4/site-packages
ln -s ~/downloads/django-trunk/django/bin/django-admin.py ~/bin

Now verify that Django is installed and working by executing the following command:

python -c "import django; print django.get_version()"

That command should return something like 1.0-final-SVN-8964. If you got something like that, you're good to move onto the next section. If, however, you get something more along the lines of...

Traceback (most recent call last):
    File "<string>", line 1, in ?
ImportError: No module named django

...then your Django installation didn't work. If this is the case, make sure that you have a ~/downloads/django-trunk/django directory, and also verify that ~/lib/python2.4/site-packages actually exists.

Installing Dependencies

In order for your Django projects to become useful, we need to install some other packages: PIL (Python Imaging Library, required if you want to use Django's ImageField), MySQL-python (a MySQL database driver for Python), and flup (a utility for fastcgi-powered sites).

easy_install -f http://www.pythonware.com/products/pil/ Imaging
easy_install mysql-python
easy_install flup

Sometimes, using easy_install to install PIL doesn't go over too well because of your (lack of) permissions. To circumvent this situation, you can always download the actual PIL source code and install it manually.

cd ~/downloads
wget http://effbot.org/downloads/Imaging-1.1.6.tar.gz
tar zxf Imaging-1.1.6.tar.gz
cd Imaging-1.1.6
ln -s ~/downloads/Imaging-1.1.6/PIL ~/lib/python2.4/site-packages

And to verify, you can try this command:

python -c "import PIL"

If that doesn't return anything, you're good to go. If it says something about "ImportError: No module named PIL", it didn't work. In that case, you have to come up with some other way of installing PIL.

Setting Up A Django Project

Let's attempt to setup a sample Django project.

mkdir -p ~/projects/django
cd ~/projects/django
django-admin.py startproject mysite
cd mysite
mkdir media templates

If that works, then you should be good to do the rest of your Django development on your server. If not, make sure that ~/downloads/django-trunk/django/bin/django-admin.py exists and that it has a functioning symlink (shortcut) in ~/bin. If not, you'll have to make adjustments according to your setup. Your directory structure should look something like:

  • projects
    • django
      • mysite
        • media
        • templates
        • __init__.py
        • manage.py
        • settings.py
        • urls.py

Making A Django Project Live

Now we need to make your Django project accessible from the Web. On Site5, I generally use either a subdomain or a brand new domain when setting up a Django project. If you plan on having other projects accessible on the same hosting account, I recommend you do the same. Let's assume you setup a subdomain such as mysite.mydomain.com. On Site5, you would go to ~/public_html/mysite for the next few commands. This could differ from host to host, so I won't go into much more detail than that.

Once you're in the proper place, you need to setup a few things: two symlinks, a django.fcgi, and a custom .htaccess file. Let's begin with the symlinks.

ln -s ~/projects/django/mysite/media ~/public_html/mysite/static
ln -s ~/lib/python2.4/site-packages/django/contrib/admin/media ~/public_html/mysite/media

This just makes it so you can have your media files (CSS, images, javascripts, etc) in a different location than in your public_html.

Now for the django.fcgi. This file is what tells the webserver to execute your Django project.

#!/home/[your username]/bin/python
import sys, os

# Add a custom Python path.
sys.path.insert(0, "/home/[your username]/projects/django")

# Switch to the directory of your project. (Optional.)
os.chdir("/home/[your username]/projects/django/mysite")

# Set the DJANGO_SETTINGS_MODULE environment variable.
os.environ['DJANGO_SETTINGS_MODULE'] = "mysite.settings"

from django.core.servers.fastcgi import runfastcgi
runfastcgi(method="threaded", daemonize="false")

And finally, the .htaccess file:

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RewriteEngine On
RewriteBase /
RewriteRule ^(media/.*)$ - [L]
RewriteRule ^(static/.*)$ - [L]
RewriteCond %{REQUEST_URI} !(django.fcgi)
RewriteRule ^(.*)$ django.fcgi/$1 [L]

The .htaccess file makes it so that requests to http://mysite.mydomain.com/ are properly directed to your Django project. So, now you should have a directory structure that something that looks like this:

  • public_html
    • mysite
      • media
      • static
      • .htaccess
      • django.fcgi

If that looks good, go ahead and make the django.fcgi executable and non-writable by others:

chmod 755 ~/public_html/mysite/django.fcgi

After that, head over to http://mysite.mydomain.com/ (obviously, replace the mydomain accordingly). If you see a page that says you've successfully setup your Django site, you're good to go!

Afterthoughts

I've noticed that I need to "restart" my Django sites on Site5 any time I change the .py files. There are a couple methods of doing this. One includes killing off all of your python processes (killall ~/bin/python) and the other simply updates the timestamp on your django.fcgi (touch ~/public_html/mysite/django.fcgi). I find the former to be more destructive and unreliable than the latter. So, my advice is to use the touch method unless it doesn't work, in which case you can try the killall method.

Good luck!

Django 1.0 Final!!

That's right folks! The amazing Django team has announced the immediate availability of Django 1.0 final!

This release is perhaps one of the most highly anticipated events in the Python community. More than three years in the making, the Django Web framework is something that perfectionist developers love and enjoy using. I've been using it for just over a year now, and I can't even remember doing things any other way! It's absolutely amazing!!!

So go ahead and download and install it today! What are you waiting for?!

Django's New Comment System

There are a lot of exciting changes happening with Django right now. A lot. Some of these changes cause a lot of things to break across my sites. One such change was the integration of Thejaswi Puthraya's Summer of Code project: an improved comment system.

The first, and most obvious problem, was the change in the URLconf. This took me a while to track down for one reason or another. Here's the situation: originally, the django.contrib.comments application used a URLconf such as:

(r'^comments/', include('django.contrib.comments.urls.comments')),

This makes any comments-powered pages blow up. To solve this particular problem, just make it:

(r'^comments/', include('django.contrib.comments.urls')),

The next thing that caught me dealt with the templates for comments. Now there are actually some default ones, which is nice, but they might interfere with your own templates. I found that all I need in my templates/comments/ directory now is a single simple template called base.html:

{% extends 'base.html' %}

All of the other templates aren't needed unless you do some customized stuff (which I don't bother with).

Finally, and probably the most frustrating of all, getting an error such as:

NoReverseMatch: Reverse for '<function post_comment at 0xb504a1b4>' not found.

I'm not really sure why this problem has arisen, but my solution for it is to remove the entire django/contrib/comments/ directory and bring it back down from SVN. My guess is that some .pyc file lingering from the original comments application is interfering with the new comments application.

Feel free to post here if you have any other advice or problems!

Project Release: django-tracking 0.1

I'm proud to announce the official release of yet another one of my side projects. I call it django-tracking, and it is a simple project capable of telling you how many users are currently on your site. If you look at the bottom of any page on codekoala.com, you will see a demonstration of what this project can be used for.

django-tracking also offers basic blacklisting capabilities. I had a chap who apparently setup a script to spam my blog with rubbish comments every 11 minutes recently. I devised a way to stop the comments from being posted, but I noticed from my logs that the script was still hitting my website consistently over the following days. As a result, I implemented the "Banned IP" feature in django-tracking, and any visitor (or script) accessing my site from that IP address receives an error page. Yay!

If you have "Big Brother"-like tendencies when it comes to your visitors, there is also a way for you to have a "live feed" of active users on your site. Works pretty well, if I do say so myself :)

For more information, hop on over to django-tracking's homepage. There you will also find installation instructions and details for configuration and usage.

Have fun!

Using Django to Design Your Database Schema

Last night I had a buddy of mine ask me how I would approach a particular database design problem. I get similar questions quite often from my peers--suggests there is something important lacking from the database classes out there. Instead of answering him directly, I decided to come up with this tutorial for using Django to design your database schema.

For those of you new to Django, this article might seem a bit advanced. In time I will have more introductory-level Django tutorials, but I hope this one is easy enough.

Create a Django Project

The first step is to create a Django project. If you already have a project that you can play with, you can skip this step. To create a project, go to a place where you want to keep your code (like C:\projects or /home/me/projects) in a command prompt/terminal and run the following command:

django-admin.py startproject myproject

This will create a new directory in your current location called myproject (you can replace myproject with whatever you'd like so long as you're consistent). This new directory will contain a few files:

  • __init__.py
  • manage.py
  • settings.py
  • urls.py

If you get an error message when running the above command, you might not have Django installed properly. See Step-by-Step: Installing Django for details on installing Django.

Create An Application

Once you have a Django project setup, you should create a new application.

Note: If you're using Windows, you will probably need to omit the ./ on the ./manage.py commands. I will include them here for everyone else who's using Linux or a Mac.

cd myproject
./manage.py startapp specialapp

This will create a new directory in your myproject directory. This new directory will contain three files: __init__.py, models.py, and views.py. We are only concerned with the models.py file in this article.

Create Your Models

Models are usually a direct representation of what your database will be. Django makes creating these models extremely easy, and Python's syntax makes them quite readable. The Django framework asks for models to be defined in the models.py file that was created in the last step. Here's an example (for my buddy who prompted the creation of this article):

from django.db import models

class Component(models.Model):
    item_number = models.CharField(max_length=20)
    name = models.CharField(max_length=50)
    size = models.CharField(max_length=10)
    quantity = models.IntegerField(default=1)
    price = models.DecimalField(max_digits=8, decimal_places=2)

class Project(models.Model):
    name = models.CharField(max_length=50)
    components = models.ManyToManyField(Component)
    instructions = models.TextField()

(for more information about models, see the Django Model API Reference)

I don't know about you, but that code seems pretty straightforward to me. I'll spare you all the details about what's going on (that can be a future article).

Install Your New Application

Once you have your models setup, we need to add our specialapp to our list of INSTALLED_APPS in order for Django to register these models. To do that, open up settings.py in your myproject directory, go to the bottom of the file, until you see something like

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INSTALLED_APPS = (
    'django.contrib.auth',
    'django.contrib.contenttypes',
    'django.contrib.sessions',
    'django.contrib.sites',
)

When you find that, add your specialapp to the list

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INSTALLED_APPS = (
    'django.contrib.auth',
    'django.contrib.contenttypes',
    'django.contrib.sessions',
    'django.contrib.sites',
    'specialapp'
)

Setup Your Database

Now you need to let Django know what kind of database you're using. Django currently supports MySQL, SQLite3, PostgreSQL, and Oracle natively, but you can get third-party tools that allow you to use other database (like SQL Server).

Still in your settings.py, go to the top until you see DATABASE_ENGINE and DATABASE_NAME. Set that to whatever type of database you are using:

DATABASE_ENGINE = 'sqlite3'
DATABASE_NAME = 'myproject.db'

Save your settings.py and go back to your command prompt/terminal.

Get Django's Opinion For Your Schema

Make sure you're in your myproject directory and run the following command:

./manage.py sqlall specialapp

This command will examine the models that we created previously and will generate the appropriate SQL to create the tables for your particular database. For SQLite, we get something like this for output:

BEGIN;
CREATE TABLE "specialapp_component" (
      "id" integer NOT NULL PRIMARY KEY,
      "item_number" varchar(20) NOT NULL,
      "name" varchar(50) NOT NULL,
      "size" varchar(10) NOT NULL,
      "quantity" integer NOT NULL,
      "price" decimal NOT NULL
)
;
CREATE TABLE "specialapp_project" (
      "id" integer NOT NULL PRIMARY KEY,
      "name" varchar(50) NOT NULL,
      "instructions" text NOT NULL
)
;
CREATE TABLE "specialapp_project_components" (
      "id" integer NOT NULL PRIMARY KEY,
      "project_id" integer NOT NULL REFERENCES "specialapp_project" ("id"),
      "component_id" integer NOT NULL REFERENCES "specialapp_component" ("id"),
      UNIQUE ("project_id", "component_id")
)
;
COMMIT;

Notice how Django does all sorts of nifty things, like wrapping the table creation queries in a transaction, setting up indexes, unique keys, and defining relationships between tables. The output also offers a solution to the original problem my buddy had: an intermediate table that just keeps track of relationships between projects and components (the specialapp_project_components table).

Notice that the SQL above may not work with database servers other than SQLite.

Enhancing The Intermediate Table

After my buddy reviewed this article, he asked a very interesting and valid question: What if a project needs 3 of one component? In response, I offer the following models (this requires a modern version of Django--it doesn't work on Django 0.96.1 or earlier):

from django.db import models

class Component(models.Model):
    item_number = models.CharField(max_length=20)
    name = models.CharField(max_length=50)
    size = models.CharField(max_length=10)
    quantity = models.IntegerField(default=1)
    price = models.DecimalField(max_digits=8, decimal_places=2)

class Project(models.Model):
    name = models.CharField(max_length=50)
    components = models.ManyToManyField(Component, through='ProjectComponent')
    instructions = models.TextField()

class ProjectComponent(models.Model):
    project = models.ForeignKey(Project)
    component = models.ForeignKey(Component)
    quantity = models.PositiveIntegerField()

    class Meta:
        unique_together = ['project', 'component']

Running ./manage.py sqlall specialapp now generates the following SQL:

BEGIN;
CREATE TABLE "specialapp_component" (
    "id" integer NOT NULL PRIMARY KEY,
    "item_number" varchar(20) NOT NULL,
    "name" varchar(50) NOT NULL,
    "size" varchar(10) NOT NULL,
    "quantity" integer NOT NULL,
    "price" decimal NOT NULL
)
;
CREATE TABLE "specialapp_project" (
    "id" integer NOT NULL PRIMARY KEY,
    "name" varchar(50) NOT NULL,
    "instructions" text NOT NULL
)
;
CREATE TABLE "specialapp_projectcomponent" (
    "id" integer NOT NULL PRIMARY KEY,
    "project_id" integer NOT NULL REFERENCES "specialapp_project" ("id"),
    "component_id" integer NOT NULL REFERENCES "specialapp_component" ("id"),
    "quantity" integer unsigned NOT NULL,
    UNIQUE ("project_id", "component_id")
)
;
CREATE INDEX "specialapp_projectcomponent_project_id" ON "specialapp_projectcomponent" ("project_id");
CREATE INDEX "specialapp_projectcomponent_component_id" ON "specialapp_projectcomponent" ("component_id");
COMMIT;

As you can see, most of the SQL is the same. The main difference is that the specialapp_project_components table has become specialapp_projectcomponent and it now has a quantity column. This can be used to keep track of the quantity of each component that a project requires. You can add however many fields you want to this new intermediate table's model.

Using This SQL

There are several ways you can use the SQL generated by Django. If you want to make your life really easy, you can have Django create the tables for you directly. Assuming that you have specified all of the appropriate database information in your settings.py file, you can simply run the following command:

./manage.py syncdb

This will execute the queries generated earlier directly on your database, creating the tables (if they don't already exist). Please note that this command currently will not update your schema if the table exists but is missing a column or two. You must either do that manually or drop the table in question and then execute the syncdb command.

Another option, if you want to keep your DDL(Data Definition Language) in a separate script (maybe if you want to keep it in some sort of version control) is something like:

./manage.py sqlall specialapp > specialapp-ddl-080813.sql

This just puts the output of the sqlall command into a file called specialapp-ddl-080813.sql for later use.

Benefits of Using Django To Create Your Schema

  • Simple: I personally find the syntax of Django models to be very simple and direct. There is a comprehensive API that explains and demonstrates what Django models are capable of.
  • Fast: Being that the syntax is so simple, I find that it makes designing and defining your schema much faster than trying to do it with raw SQL or using a database administration GUI.
  • Understandable: Looking at the model code in Django is not nearly as intimidating as similar solutions in other frameworks (think about Java Persistence API models).
  • Intelligent: Using the same model code, Django can generate proper Data Definition Language SQL for several popular database servers. It handles indexes, keys, relationships, transactions, etc. and can tell the difference between server types.

Downfalls of Using Django To Create Your Schema

  • The Table Prefix: Notice how all of the tables in the SQL above were prefixed with specialapp_. That's Django's safe way of making sure models from different applications in the same Django project do not interfere with each other. However, if you don't plan on using Django for your end project, the prefix could be a major annoyance. There are a couple solutions:
    • A simple "search and replace" before executing the SQL in your database
    • Define the db_table option in your models
  • Another Technology: Django (or even Python) may or may not be in your organization's current development stack. If it's not, using the methods described in this article would just become one more thing to support.

Other Thoughts

I first thought about doing the things mentioned in this application when I was working on a personal Java application. I like to use JPA when developing database-backed applications in Java because it abstracts away a lot of the database operations. However, I don't like coming up with the model classes directly, so I usually reverse engineer them from existing database tables.

Before thinking about the things discussed in this article, I created the tables by hand, making several modifications to the schema before I was satisfied with my JPA models. This proved to be quite bothersome and time-consuming.

After using Django to develop my tables, the JPA models turned out to be a lot more reliable, and they were usually designed properly from the get-go. I haven't created tables manually ever since.

If you find yourself designing database schemas often, and you find that you have to make several changes to your tables before you/the project requirements are satisfied, you might consider using Django to do the grunt work. It's worked for me, and I'm sure it will work for you too.

Good luck!

Step-by-Step: Installing Django

Being the Django and Python zealot that I am, I often find myself trying to convert those around me to this awesome development paradigm. Once I break them, these people often ask me a lot of questions about Django. Over the past few months I've noticed that one of the biggest sticking points for people who are new to Django is actually getting it up and running to begin with. In response, this is the first in a series of articles dedicated to getting Django up and running.

What is Django?

The Django Web site describes Django as "a high-level Python Web framework that encourages rapid development and clean, pragmatic design." Basically, Django is just about the most amazing thing for Web development. I have tinkered with several different Web technologies, but nothing seems to even come close to what Django can do for me.

What is Python?

Python is a programming language used in numerous aspects of computing these days. It has a very simple yet powerful syntax. It's an easy language for beginners to pick up, but it provides adequate levels of power for the more experienced developers out there. If you have never programmed anything before, or you have dabbled with something like BASIC, Python should be fairly straightforward. If you are a programming veteran, but have only worked with languages like C, C++, Java, etc, you might struggle a bit with the syntax of the language. It's not difficult to overcome the differences in a couple hours of hands-on development.

Let's get started.

Installing Python...

Having Python installed is critical--Django does not work without Python. I'm guessing that you're relatively familiar with the procedures for installing software packages on your particular operating system. However, I will share a few notes to point you in the proper direction if you're lost. If nothing else, just head over to the Python download page to download anything you need to install Python. I whole-heartedly recommend using the latest stable version of Python for Django, but you should be able to get by with as early a version as 2.3.

...On Windows

Simply grab the latest version of the Python installer. It is currently version 2.5.2. Once the installer has downloaded successfully, just run through the installation wizard like any other setup program.

...On Mac OS X

Recent Mac OS X computers come with Python pre-installed. To determine whether or not you actually have it, launch the Terminal (Applications > Utilities > Terminal) and type python -c "import sys; print sys.version". If Python is already installed, you will see the version you have installed. If you have a version that is less than 2.3, you should download the newest version. If you don't have Python installed, you will get a "command not found" error. If you're in this boat, just download the latest version of the Python Universal installer and install it.

...On Linux

Most Linux distributions also have Python pre-installed. Just like with Mac OS X, you can check to see by opening up a terminal/konsole session and running the command python -c "import sys; print sys.version". If you have Python installed, you will see its version. If you get an error message when running that command, or you have a version earlier than 2.3, you need to download and install the latest version of Python.

If you're running a Debian-based distribution (like Ubuntu, sidux, MEPIS, KNOPPIX, etc), you can probably use sudo apt-get install python to get Python. If you're running an RPM-based Distribution, you can probably use something like Yum or YaST to install Python.

A sure-fire way to install Python on any Linux system, however, is to install from source. If you need to do this, you simply:

  1. download the source for the latest version of Python
  2. extract it: tar jxf Python-2.5.2.tar.bz2
  3. go into the newly-extracted directory: cd python-2.5.2
  4. configure it: ./configure
  5. compile it: make
  6. install it: make install

(I've only installed Python from source one time, so I might be wrong)

Setting Up Your PYTHONPATH...

Generally speaking, if you didn't have Python installed before starting this tutorial, you will need to setup your PYTHONPATH environment variable. This is a variable that lets Python know where to find useful things (like Django).

...On Windows

  • Open up your System Properties (Win+Break or right click on "My Computer" on your desktop and select Properties)
  • Go to the "Advanced" tab
  • Click the "Environment Variables" button
  • If you have permission to change system variables, click the "New" button in the bottom pane. Otherwise, create the PYTHONPATH variable for your user account using the "New" button in the top (User variables for [username]) pane.
  • Set the variable name to PYTHONPATH
  • Set the variable value to C:\Python25\Lib\site-packages (replace C:\Python25\ with whatever it is on your system if needed)
  • Save it

You may also need to add the python executable to your PATH. If you can successfully run python from a command prompt window, you don't need to worry about it.

If you can't run python from a command prompt, follow the procedure above, but use the PATH variable instead of PYTHONPATH. PATH most likely already exists, so you just need to append/prepend the existing value with something like C:\Python25\ (again, this might need to change depending on where you installed Python)

...On Mac OS X

Your PYTHONPATH should already be setup for you.

...On Linux

Usually you just need to edit your ~/.bash_rc script to setup your PYTHONPATH environment variable. Go ahead and open that up in your preferred text editor and make sure there's something in it like:

export PYTHONPATH=/usr/lib/python2.5/site-packages:$PYTHONPATH

Save any changes necessary and run the following command:

source ~/.bash_rc

This will take care of updating your current session with any changes you made to your ~/.bash_rc.

Installing Django

Once you have Python and have verified that you have version 2.3 or later, you are ready to install Django. Currently, the latest stable release is 0.96.1, but this is grossly out-dated. Django 1.0 will be released on September 2nd 2008, so the "unstable" copy of Django is pretty close to what 1.0 will have to offer. There are some incredibly useful improvements in the unstable version that I don't think I could do without anymore, so that's what I'll talk about installing here.

First, you need to have a subversion client. On Windows, the most popular one is called TortoiseSVN. On Mac OS X, I have played with a few, but I think Versions is a pretty decent one. Linux also has several to choose from, but if you're using Linux, you're probably going to use the command line anyway (right?).

For brevity, I will just use the subversion commands necessary to accomplish this task (instead of discussing all GUI interfaces to subversion).

The exact location that Django should be installed differs from system to system, but here are some guidelines for typical setups:

  • Windows: C:\Python25\Lib\site-packages
  • Linux: /usr/lib/python2.5/site-packages
  • Mac OS X: /Library/Frameworks/Python.framework/Versions/2.5/lib/python2.5/site-packages

If you want a definite location, run the following command:

python -c "from distutils.sysconfig import get_python_lib; print get_python_lib()"

Once you know that location, go there in your command prompt or terminal session. Then execute this command svn co http://code.djangoproject.com/svn/django/trunk/django django. You will see loads of output, showing all of the files that you are downloading as you install Django.

As soon as that process completes, you should run python -c "import django" to make sure everything worked properly. If the command doesn't display an ImportError, you're good. Otherwise, you need to try again.

Getting Access to Django Scripts...

Once you can successfully import django, you might want to make sure you can run the django-admin.py script that comes with Django.

...On Windows

This process is very similar to what we did with the PYTHONPATH environment variable earlier.

  • Open your System Properties again
  • Go to the Advanced tab
  • Click the Environment Variables button
  • Find your PATH environment variable (either for your user or system-wide)
  • Make sure that the variable value contains something like C:\Python25\Lib\site-packages\django\bin
  • Save any changes
  • Open a fresh command prompt
  • Try to run django-admin.py. If you're successful, you're ready to get started with Django. Otherwise, you need to fix your path to django/bin or just call the django-admin.py script using an absolute path when needed.

...On Mac OS X

You can run a command similar to this:

sudo ln -s /Library/Frameworks/Python.framework/Versions/2.5/lib/python2.5/site-packages/django/bin/django-admin.py /usr/local/bin

...On Linux

If you have "root" privileges on your Linux system, you can execute a command like:

sudo ln -s /usr/lib/python2.5/site-packages/django/bin/django-admin.py /usr/local/bin

If you don't have "root" privileges, you can setup your own /usr/local/bin:

mkdir ~/bin

Make sure your ~/.bash_rc contains something like:

export PATH=$HOME/bin:$PATH

Then update your current session with any changes you made to ~/.bash_rc by running this command:

source ~/.bash_rc

And that should do it! Now you should be ready to get started with Django.

Feel free to leave a comment if you're having problems installing Django. Good luck!

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