The centerpiece of the Django object-relational mapping scheme is the Model. A model is the single, definitive source of information about your data. It contains the essential fields and behaviors of the data you’re storing. Generally, each model maps to a single database table, in a way that is mostly decoupled from the vendor-specific implementation details of the chosen database.

The basics:

  • Each model is a Python class that subclasses django.db.models.Model.
  • Instances of models correspond to table rows.
  • Models contain field attributes, which correspond to table columns.
  • Model methods correspond to SQL queries and procedures on those queries.
  • Arguments to model fields and attributes of inner Meta classes correspond to DDL properties on the underlying database tables.

Django imbues models with an automatically-generated database-access API, which in most cases allows data to be accessed and modified in a Pythonic paradigm, as opposed to writing raw SQL.

Altering the format of your models (that is, changing the fields of your models, or adding new models, as opposed to adding or altering model instances) is known as schema migration. The main tool used to manage this process is South.

In addition to defining the relational schema of your data, standard practice for coding Django applications is to include the business logic for queries and actions on your model entities within your model classes (for instance- or row-level operations) and in associated Managers (for class- or table-level operations).

Some examples

There is a "dumb" sort of way to retrieve data from a database in a view. It’s simple: just use any existing Python library to execute an SQL query and do something with the results.

This is achieved by using the MySQLdb to connect to a MySQL database, retrieve some records, and feed them to a template for display as a Web page:

from django.shortcuts import render
import MySQLdb

def book_list(request):
    db = MySQLdb.connect(user='me', db='mydb', passwd='secret', host='localhost')
    cursor = db.cursor()
    cursor.execute('SELECT name FROM books ORDER BY name')
    names = [row[0] for row in cursor.fetchall()]
    return render(request, 'book_list.html', {'names': names})

This approach works, but some problems should jump out at you immediately:

  • We’re hard-coding the database connection parameters. Ideally, these parameters would be stored in the Django configuration.
  • We’re having to write a fair bit of boilerplate code: creating a connection, creating a cursor, executing a statement, and closing the connection. Ideally, all we’d have to do is specify which results we wanted.
  • It ties us to MySQL. If, down the road, we switch from MySQL to PostgreSQL, we’ll have to use a different database adapter (e.g., psycopg rather than MySQLdb), alter the connection parameters, and – depending on the nature of the SQL statement – possibly rewrite the SQL. Ideally, the database server we’re using would be abstracted, so that a database server change could be made in a single place. (This feature is particularly relevant if you’re building an open-source Django application that you want to be used by as many people as possible.)

As you might expect, Django’s database layer aims to solve these problems. Here’s a sneak preview of how the previous view can be rewritten using Django’s database API:

from django.shortcuts import render
from mysite.books.models import Book

def book_list(request):
    books = Book.objects.order_by('name')
    return render(request, 'book_list.html', {'books': books})
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