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1280 lines
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1280 lines
50 KiB
Plaintext
======
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Models
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======
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.. module:: django.db.models
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A model is the single, definitive source of data about your data. It contains
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the essential fields and behaviors of the data you're storing. Generally, each
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model maps to a single database table.
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The basics:
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* Each model is a Python class that subclasses
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:class:`django.db.models.Model`.
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* Each attribute of the model represents a database field.
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* With all of this, Django gives you an automatically-generated
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database-access API; see :doc:`/topics/db/queries`.
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Quick example
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=============
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This example model defines a ``Person``, which has a ``first_name`` and
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``last_name``::
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from django.db import models
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class Person(models.Model):
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first_name = models.CharField(max_length=30)
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last_name = models.CharField(max_length=30)
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``first_name`` and ``last_name`` are fields_ of the model. Each field is
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specified as a class attribute, and each attribute maps to a database column.
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The above ``Person`` model would create a database table like this:
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.. code-block:: sql
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CREATE TABLE myapp_person (
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"id" serial NOT NULL PRIMARY KEY,
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"first_name" varchar(30) NOT NULL,
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"last_name" varchar(30) NOT NULL
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);
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Some technical notes:
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* The name of the table, ``myapp_person``, is automatically derived from
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some model metadata but can be overridden. See :ref:`table-names` for more
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details..
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* An ``id`` field is added automatically, but this behavior can be
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overridden. See :ref:`automatic-primary-key-fields`.
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* The ``CREATE TABLE`` SQL in this example is formatted using PostgreSQL
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syntax, but it's worth noting Django uses SQL tailored to the database
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backend specified in your :doc:`settings file </topics/settings>`.
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Using models
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============
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Once you have defined your models, you need to tell Django you're going to *use*
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those models. Do this by editing your settings file and changing the
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:setting:`INSTALLED_APPS` setting to add the name of the module that contains
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your ``models.py``.
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For example, if the models for your application live in the module
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``myapp.models`` (the package structure that is created for an
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application by the :djadmin:`manage.py startapp <startapp>` script),
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:setting:`INSTALLED_APPS` should read, in part::
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INSTALLED_APPS = (
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#...
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'myapp',
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#...
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)
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When you add new apps to :setting:`INSTALLED_APPS`, be sure to run
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:djadmin:`manage.py syncdb <syncdb>`.
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Fields
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======
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The most important part of a model -- and the only required part of a model --
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is the list of database fields it defines. Fields are specified by class
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attributes. Be careful not to choose field names that conflict with the
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:doc:`models API </ref/models/instances>` like ``clean``, ``save``, or
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``delete``.
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Example::
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from django.db import models
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class Musician(models.Model):
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first_name = models.CharField(max_length=50)
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last_name = models.CharField(max_length=50)
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instrument = models.CharField(max_length=100)
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class Album(models.Model):
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artist = models.ForeignKey(Musician)
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name = models.CharField(max_length=100)
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release_date = models.DateField()
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num_stars = models.IntegerField()
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Field types
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-----------
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Each field in your model should be an instance of the appropriate
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:class:`~django.db.models.Field` class. Django uses the field class types to
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determine a few things:
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* The database column type (e.g. ``INTEGER``, ``VARCHAR``).
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* The default :doc:`widget </ref/forms/widgets>` to use when rendering a form
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field (e.g. ``<input type="text">``, ``<select>``).
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* The minimal validation requirements, used in Django's admin and in
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automatically-generated forms.
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Django ships with dozens of built-in field types; you can find the complete list
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in the :ref:`model field reference <model-field-types>`. You can easily write
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your own fields if Django's built-in ones don't do the trick; see
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:doc:`/howto/custom-model-fields`.
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Field options
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-------------
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Each field takes a certain set of field-specific arguments (documented in the
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:ref:`model field reference <model-field-types>`). For example,
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:class:`~django.db.models.CharField` (and its subclasses) require a
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:attr:`~django.db.models.CharField.max_length` argument which specifies the size
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of the ``VARCHAR`` database field used to store the data.
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There's also a set of common arguments available to all field types. All are
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optional. They're fully explained in the :ref:`reference
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<common-model-field-options>`, but here's a quick summary of the most often-used
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ones:
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:attr:`~Field.null`
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If ``True``, Django will store empty values as ``NULL`` in the database.
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Default is ``False``.
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:attr:`~Field.blank`
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If ``True``, the field is allowed to be blank. Default is ``False``.
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Note that this is different than :attr:`~Field.null`.
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:attr:`~Field.null` is purely database-related, whereas
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:attr:`~Field.blank` is validation-related. If a field has
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:attr:`blank=True <Field.blank>`, form validation will
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allow entry of an empty value. If a field has :attr:`blank=False
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<Field.blank>`, the field will be required.
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:attr:`~Field.choices`
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An iterable (e.g., a list or tuple) of 2-tuples to use as choices for
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this field. If this is given, the default form widget will be a select box
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instead of the standard text field and will limit choices to the choices
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given.
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A choices list looks like this::
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YEAR_IN_SCHOOL_CHOICES = (
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('FR', 'Freshman'),
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('SO', 'Sophomore'),
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('JR', 'Junior'),
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('SR', 'Senior'),
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('GR', 'Graduate'),
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)
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The first element in each tuple is the value that will be stored in the
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database, the second element will be displayed by the default form widget
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or in a ModelChoiceField. Given an instance of a model object, the
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display value for a choices field can be accessed using the
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``get_FOO_display`` method. For example::
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from django.db import models
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class Person(models.Model):
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SHIRT_SIZES = (
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('S', 'Small'),
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('M', 'Medium'),
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('L', 'Large'),
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)
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name = models.CharField(max_length=60)
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shirt_size = models.CharField(max_length=1, choices=SHIRT_SIZES)
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::
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>>> p = Person(name="Fred Flintstone", shirt_size="L")
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>>> p.save()
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>>> p.shirt_size
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u'L'
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>>> p.get_shirt_size_display()
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u'Large'
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:attr:`~Field.default`
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The default value for the field. This can be a value or a callable
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object. If callable it will be called every time a new object is
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created.
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:attr:`~Field.help_text`
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Extra "help" text to be displayed with the form widget. It's useful for
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documentation even if your field isn't used on a form.
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:attr:`~Field.primary_key`
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If ``True``, this field is the primary key for the model.
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If you don't specify :attr:`primary_key=True <Field.primary_key>` for
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any fields in your model, Django will automatically add an
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:class:`IntegerField` to hold the primary key, so you don't need to set
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:attr:`primary_key=True <Field.primary_key>` on any of your fields
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unless you want to override the default primary-key behavior. For more,
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see :ref:`automatic-primary-key-fields`.
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:attr:`~Field.unique`
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If ``True``, this field must be unique throughout the table.
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Again, these are just short descriptions of the most common field options. Full
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details can be found in the :ref:`common model field option reference
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<common-model-field-options>`.
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.. _automatic-primary-key-fields:
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Automatic primary key fields
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----------------------------
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By default, Django gives each model the following field::
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id = models.AutoField(primary_key=True)
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This is an auto-incrementing primary key.
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If you'd like to specify a custom primary key, just specify
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:attr:`primary_key=True <Field.primary_key>` on one of your fields. If Django
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sees you've explicitly set :attr:`Field.primary_key`, it won't add the automatic
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``id`` column.
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Each model requires exactly one field to have :attr:`primary_key=True
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<Field.primary_key>`.
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.. _verbose-field-names:
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Verbose field names
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-------------------
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Each field type, except for :class:`~django.db.models.ForeignKey`,
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:class:`~django.db.models.ManyToManyField` and
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:class:`~django.db.models.OneToOneField`, takes an optional first positional
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argument -- a verbose name. If the verbose name isn't given, Django will
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automatically create it using the field's attribute name, converting underscores
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to spaces.
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In this example, the verbose name is ``"person's first name"``::
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first_name = models.CharField("person's first name", max_length=30)
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In this example, the verbose name is ``"first name"``::
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first_name = models.CharField(max_length=30)
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:class:`~django.db.models.ForeignKey`,
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:class:`~django.db.models.ManyToManyField` and
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:class:`~django.db.models.OneToOneField` require the first argument to be a
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model class, so use the :attr:`~Field.verbose_name` keyword argument::
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poll = models.ForeignKey(Poll, verbose_name="the related poll")
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sites = models.ManyToManyField(Site, verbose_name="list of sites")
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place = models.OneToOneField(Place, verbose_name="related place")
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The convention is not to capitalize the first letter of the
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:attr:`~Field.verbose_name`. Django will automatically capitalize the first
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letter where it needs to.
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Relationships
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-------------
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Clearly, the power of relational databases lies in relating tables to each
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other. Django offers ways to define the three most common types of database
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relationships: many-to-one, many-to-many and one-to-one.
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Many-to-one relationships
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~~~~~~~~~~~~~~~~~~~~~~~~~
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To define a many-to-one relationship, use :class:`django.db.models.ForeignKey`.
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You use it just like any other :class:`~django.db.models.Field` type: by
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including it as a class attribute of your model.
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:class:`~django.db.models.ForeignKey` requires a positional argument: the class
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to which the model is related.
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For example, if a ``Car`` model has a ``Manufacturer`` -- that is, a
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``Manufacturer`` makes multiple cars but each ``Car`` only has one
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``Manufacturer`` -- use the following definitions::
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from django.db import models
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class Manufacturer(models.Model):
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# ...
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pass
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class Car(models.Model):
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manufacturer = models.ForeignKey(Manufacturer)
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# ...
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You can also create :ref:`recursive relationships <recursive-relationships>` (an
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object with a many-to-one relationship to itself) and :ref:`relationships to
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models not yet defined <lazy-relationships>`; see :ref:`the model field
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reference <ref-foreignkey>` for details.
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It's suggested, but not required, that the name of a
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:class:`~django.db.models.ForeignKey` field (``manufacturer`` in the example
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above) be the name of the model, lowercase. You can, of course, call the field
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whatever you want. For example::
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class Car(models.Model):
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company_that_makes_it = models.ForeignKey(Manufacturer)
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# ...
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.. seealso::
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:class:`~django.db.models.ForeignKey` fields accept a number of extra
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arguments which are explained in :ref:`the model field reference
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<foreign-key-arguments>`. These options help define how the relationship
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should work; all are optional.
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For details on accessing backwards-related objects, see the
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:ref:`Following relationships backward example <backwards-related-objects>`.
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For sample code, see the :doc:`Many-to-one relationship model example
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</topics/db/examples/many_to_one>`.
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Many-to-many relationships
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~~~~~~~~~~~~~~~~~~~~~~~~~~
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To define a many-to-many relationship, use
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:class:`~django.db.models.ManyToManyField`. You use it just like any other
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:class:`~django.db.models.Field` type: by including it as a class attribute of
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your model.
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:class:`~django.db.models.ManyToManyField` requires a positional argument: the
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class to which the model is related.
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For example, if a ``Pizza`` has multiple ``Topping`` objects -- that is, a
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``Topping`` can be on multiple pizzas and each ``Pizza`` has multiple toppings
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-- here's how you'd represent that::
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from django.db import models
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class Topping(models.Model):
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# ...
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pass
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class Pizza(models.Model):
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# ...
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toppings = models.ManyToManyField(Topping)
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As with :class:`~django.db.models.ForeignKey`, you can also create
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:ref:`recursive relationships <recursive-relationships>` (an object with a
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many-to-many relationship to itself) and :ref:`relationships to models not yet
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defined <lazy-relationships>`; see :ref:`the model field reference
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<ref-manytomany>` for details.
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It's suggested, but not required, that the name of a
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:class:`~django.db.models.ManyToManyField` (``toppings`` in the example above)
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be a plural describing the set of related model objects.
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It doesn't matter which model has the
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:class:`~django.db.models.ManyToManyField`, but you should only put it in one
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of the models -- not both.
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Generally, :class:`~django.db.models.ManyToManyField` instances should go in
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the object that's going to be edited on a form. In the above example,
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``toppings`` is in ``Pizza`` (rather than ``Topping`` having a ``pizzas``
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:class:`~django.db.models.ManyToManyField` ) because it's more natural to think
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about a pizza having toppings than a topping being on multiple pizzas. The way
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it's set up above, the ``Pizza`` form would let users select the toppings.
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.. seealso::
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See the :doc:`Many-to-many relationship model example
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</topics/db/examples/many_to_many>` for a full example.
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:class:`~django.db.models.ManyToManyField` fields also accept a number of
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extra arguments which are explained in :ref:`the model field reference
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<manytomany-arguments>`. These options help define how the relationship
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should work; all are optional.
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.. _intermediary-manytomany:
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Extra fields on many-to-many relationships
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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When you're only dealing with simple many-to-many relationships such as
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mixing and matching pizzas and toppings, a standard
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:class:`~django.db.models.ManyToManyField` is all you need. However, sometimes
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you may need to associate data with the relationship between two models.
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For example, consider the case of an application tracking the musical groups
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which musicians belong to. There is a many-to-many relationship between a person
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and the groups of which they are a member, so you could use a
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:class:`~django.db.models.ManyToManyField` to represent this relationship.
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However, there is a lot of detail about the membership that you might want to
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collect, such as the date at which the person joined the group.
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For these situations, Django allows you to specify the model that will be used
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to govern the many-to-many relationship. You can then put extra fields on the
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intermediate model. The intermediate model is associated with the
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:class:`~django.db.models.ManyToManyField` using the
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:attr:`through <ManyToManyField.through>` argument to point to the model
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that will act as an intermediary. For our musician example, the code would look
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something like this::
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from django.db import models
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class Person(models.Model):
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name = models.CharField(max_length=128)
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def __unicode__(self):
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return self.name
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class Group(models.Model):
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name = models.CharField(max_length=128)
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members = models.ManyToManyField(Person, through='Membership')
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def __unicode__(self):
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return self.name
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class Membership(models.Model):
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person = models.ForeignKey(Person)
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group = models.ForeignKey(Group)
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date_joined = models.DateField()
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invite_reason = models.CharField(max_length=64)
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When you set up the intermediary model, you explicitly specify foreign
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keys to the models that are involved in the ManyToMany relation. This
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explicit declaration defines how the two models are related.
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There are a few restrictions on the intermediate model:
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* Your intermediate model must contain one - and *only* one - foreign key
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to the target model (this would be ``Person`` in our example). If you
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have more than one foreign key, a validation error will be raised.
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* Your intermediate model must contain one - and *only* one - foreign key
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to the source model (this would be ``Group`` in our example). If you
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have more than one foreign key, a validation error will be raised.
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* The only exception to this is a model which has a many-to-many
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relationship to itself, through an intermediary model. In this
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case, two foreign keys to the same model are permitted, but they
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will be treated as the two (different) sides of the many-to-many
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relation.
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* When defining a many-to-many relationship from a model to
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itself, using an intermediary model, you *must* use
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:attr:`symmetrical=False <ManyToManyField.symmetrical>` (see
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:ref:`the model field reference <manytomany-arguments>`).
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Now that you have set up your :class:`~django.db.models.ManyToManyField` to use
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your intermediary model (``Membership``, in this case), you're ready to start
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creating some many-to-many relationships. You do this by creating instances of
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the intermediate model::
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>>> ringo = Person.objects.create(name="Ringo Starr")
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>>> paul = Person.objects.create(name="Paul McCartney")
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>>> beatles = Group.objects.create(name="The Beatles")
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>>> m1 = Membership(person=ringo, group=beatles,
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... date_joined=date(1962, 8, 16),
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... invite_reason= "Needed a new drummer.")
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>>> m1.save()
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>>> beatles.members.all()
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[<Person: Ringo Starr>]
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>>> ringo.group_set.all()
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[<Group: The Beatles>]
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>>> m2 = Membership.objects.create(person=paul, group=beatles,
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... date_joined=date(1960, 8, 1),
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... invite_reason= "Wanted to form a band.")
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>>> beatles.members.all()
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[<Person: Ringo Starr>, <Person: Paul McCartney>]
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Unlike normal many-to-many fields, you *can't* use ``add``, ``create``,
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or assignment (i.e., ``beatles.members = [...]``) to create relationships::
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# THIS WILL NOT WORK
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>>> beatles.members.add(john)
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# NEITHER WILL THIS
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>>> beatles.members.create(name="George Harrison")
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# AND NEITHER WILL THIS
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>>> beatles.members = [john, paul, ringo, george]
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|
|
Why? You can't just create a relationship between a ``Person`` and a ``Group``
|
|
- you need to specify all the detail for the relationship required by the
|
|
``Membership`` model. The simple ``add``, ``create`` and assignment calls
|
|
don't provide a way to specify this extra detail. As a result, they are
|
|
disabled for many-to-many relationships that use an intermediate model.
|
|
The only way to create this type of relationship is to create instances of the
|
|
intermediate model.
|
|
|
|
The :meth:`~django.db.models.fields.related.RelatedManager.remove` method is
|
|
disabled for similar reasons. However, the
|
|
:meth:`~django.db.models.fields.related.RelatedManager.clear` method can be
|
|
used to remove all many-to-many relationships for an instance::
|
|
|
|
# Beatles have broken up
|
|
>>> beatles.members.clear()
|
|
|
|
Once you have established the many-to-many relationships by creating instances
|
|
of your intermediate model, you can issue queries. Just as with normal
|
|
many-to-many relationships, you can query using the attributes of the
|
|
many-to-many-related model::
|
|
|
|
# Find all the groups with a member whose name starts with 'Paul'
|
|
>>> Group.objects.filter(members__name__startswith='Paul')
|
|
[<Group: The Beatles>]
|
|
|
|
As you are using an intermediate model, you can also query on its attributes::
|
|
|
|
# Find all the members of the Beatles that joined after 1 Jan 1961
|
|
>>> Person.objects.filter(
|
|
... group__name='The Beatles',
|
|
... membership__date_joined__gt=date(1961,1,1))
|
|
[<Person: Ringo Starr]
|
|
|
|
If you need to access a membership's information you may do so by directly
|
|
querying the ``Membership`` model::
|
|
|
|
>>> ringos_membership = Membership.objects.get(group=beatles, person=ringo)
|
|
>>> ringos_membership.date_joined
|
|
datetime.date(1962, 8, 16)
|
|
>>> ringos_membership.invite_reason
|
|
u'Needed a new drummer.'
|
|
|
|
Another way to access the same information is by querying the
|
|
:ref:`many-to-many reverse relationship<m2m-reverse-relationships>` from a
|
|
``Person`` object::
|
|
|
|
>>> ringos_membership = ringo.membership_set.get(group=beatles)
|
|
>>> ringos_membership.date_joined
|
|
datetime.date(1962, 8, 16)
|
|
>>> ringos_membership.invite_reason
|
|
u'Needed a new drummer.'
|
|
|
|
|
|
One-to-one relationships
|
|
~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
To define a one-to-one relationship, use
|
|
:class:`~django.db.models.OneToOneField`. You use it just like any other
|
|
``Field`` type: by including it as a class attribute of your model.
|
|
|
|
This is most useful on the primary key of an object when that object "extends"
|
|
another object in some way.
|
|
|
|
:class:`~django.db.models.OneToOneField` requires a positional argument: the
|
|
class to which the model is related.
|
|
|
|
For example, if you were building a database of "places", you would
|
|
build pretty standard stuff such as address, phone number, etc. in the
|
|
database. Then, if you wanted to build a database of restaurants on
|
|
top of the places, instead of repeating yourself and replicating those
|
|
fields in the ``Restaurant`` model, you could make ``Restaurant`` have
|
|
a :class:`~django.db.models.OneToOneField` to ``Place`` (because a
|
|
restaurant "is a" place; in fact, to handle this you'd typically use
|
|
:ref:`inheritance <model-inheritance>`, which involves an implicit
|
|
one-to-one relation).
|
|
|
|
As with :class:`~django.db.models.ForeignKey`, a
|
|
:ref:`recursive relationship <recursive-relationships>`
|
|
can be defined and
|
|
:ref:`references to as-yet undefined models <lazy-relationships>`
|
|
can be made; see :ref:`the model field reference <ref-onetoone>` for details.
|
|
|
|
.. seealso::
|
|
|
|
See the :doc:`One-to-one relationship model example
|
|
</topics/db/examples/one_to_one>` for a full example.
|
|
|
|
:class:`~django.db.models.OneToOneField` fields also accept one specific,
|
|
optional ``parent_link`` argument described in the :ref:`model field
|
|
reference <ref-onetoone>`.
|
|
|
|
:class:`~django.db.models.OneToOneField` classes used to automatically become
|
|
the primary key on a model. This is no longer true (although you can manually
|
|
pass in the :attr:`~django.db.models.Field.primary_key` argument if you like).
|
|
Thus, it's now possible to have multiple fields of type
|
|
:class:`~django.db.models.OneToOneField` on a single model.
|
|
|
|
Models across files
|
|
-------------------
|
|
|
|
It's perfectly OK to relate a model to one from another app. To do this, import
|
|
the related model at the top of the file where your model is defined. Then,
|
|
just refer to the other model class wherever needed. For example::
|
|
|
|
from django.db import models
|
|
from geography.models import ZipCode
|
|
|
|
class Restaurant(models.Model):
|
|
# ...
|
|
zip_code = models.ForeignKey(ZipCode)
|
|
|
|
Field name restrictions
|
|
-----------------------
|
|
|
|
Django places only two restrictions on model field names:
|
|
|
|
1. A field name cannot be a Python reserved word, because that would result
|
|
in a Python syntax error. For example::
|
|
|
|
class Example(models.Model):
|
|
pass = models.IntegerField() # 'pass' is a reserved word!
|
|
|
|
2. A field name cannot contain more than one underscore in a row, due to
|
|
the way Django's query lookup syntax works. For example::
|
|
|
|
class Example(models.Model):
|
|
foo__bar = models.IntegerField() # 'foo__bar' has two underscores!
|
|
|
|
These limitations can be worked around, though, because your field name doesn't
|
|
necessarily have to match your database column name. See the
|
|
:attr:`~Field.db_column` option.
|
|
|
|
SQL reserved words, such as ``join``, ``where`` or ``select``, *are* allowed as
|
|
model field names, because Django escapes all database table names and column
|
|
names in every underlying SQL query. It uses the quoting syntax of your
|
|
particular database engine.
|
|
|
|
Custom field types
|
|
------------------
|
|
|
|
If one of the existing model fields cannot be used to fit your purposes, or if
|
|
you wish to take advantage of some less common database column types, you can
|
|
create your own field class. Full coverage of creating your own fields is
|
|
provided in :doc:`/howto/custom-model-fields`.
|
|
|
|
.. _meta-options:
|
|
|
|
Meta options
|
|
============
|
|
|
|
Give your model metadata by using an inner ``class Meta``, like so::
|
|
|
|
from django.db import models
|
|
|
|
class Ox(models.Model):
|
|
horn_length = models.IntegerField()
|
|
|
|
class Meta:
|
|
ordering = ["horn_length"]
|
|
verbose_name_plural = "oxen"
|
|
|
|
Model metadata is "anything that's not a field", such as ordering options
|
|
(:attr:`~Options.ordering`), database table name (:attr:`~Options.db_table`), or
|
|
human-readable singular and plural names (:attr:`~Options.verbose_name` and
|
|
:attr:`~Options.verbose_name_plural`). None are required, and adding ``class
|
|
Meta`` to a model is completely optional.
|
|
|
|
A complete list of all possible ``Meta`` options can be found in the :doc:`model
|
|
option reference </ref/models/options>`.
|
|
|
|
.. _model-methods:
|
|
|
|
Model methods
|
|
=============
|
|
|
|
Define custom methods on a model to add custom "row-level" functionality to your
|
|
objects. Whereas :class:`~django.db.models.Manager` methods are intended to do
|
|
"table-wide" things, model methods should act on a particular model instance.
|
|
|
|
This is a valuable technique for keeping business logic in one place -- the
|
|
model.
|
|
|
|
For example, this model has a few custom methods::
|
|
|
|
from django.db import models
|
|
|
|
class Person(models.Model):
|
|
first_name = models.CharField(max_length=50)
|
|
last_name = models.CharField(max_length=50)
|
|
birth_date = models.DateField()
|
|
address = models.CharField(max_length=100)
|
|
city = models.CharField(max_length=50)
|
|
state = models.CharField(max_length=2) # yes, this is America-centric
|
|
|
|
def baby_boomer_status(self):
|
|
"Returns the person's baby-boomer status."
|
|
import datetime
|
|
if self.birth_date < datetime.date(1945, 8, 1):
|
|
return "Pre-boomer"
|
|
elif self.birth_date < datetime.date(1965, 1, 1):
|
|
return "Baby boomer"
|
|
else:
|
|
return "Post-boomer"
|
|
|
|
def is_midwestern(self):
|
|
"Returns True if this person is from the Midwest."
|
|
return self.state in ('IL', 'WI', 'MI', 'IN', 'OH', 'IA', 'MO')
|
|
|
|
def _get_full_name(self):
|
|
"Returns the person's full name."
|
|
return '%s %s' % (self.first_name, self.last_name)
|
|
full_name = property(_get_full_name)
|
|
|
|
The last method in this example is a :term:`property`.
|
|
|
|
The :doc:`model instance reference </ref/models/instances>` has a complete list
|
|
of :ref:`methods automatically given to each model <model-instance-methods>`.
|
|
You can override most of these -- see `overriding predefined model methods`_,
|
|
below -- but there are a couple that you'll almost always want to define:
|
|
|
|
:meth:`~Model.__unicode__`
|
|
A Python "magic method" that returns a unicode "representation" of any
|
|
object. This is what Python and Django will use whenever a model
|
|
instance needs to be coerced and displayed as a plain string. Most
|
|
notably, this happens when you display an object in an interactive
|
|
console or in the admin.
|
|
|
|
You'll always want to define this method; the default isn't very helpful
|
|
at all.
|
|
|
|
:meth:`~Model.get_absolute_url`
|
|
This tells Django how to calculate the URL for an object. Django uses
|
|
this in its admin interface, and any time it needs to figure out a URL
|
|
for an object.
|
|
|
|
Any object that has a URL that uniquely identifies it should define this
|
|
method.
|
|
|
|
.. _overriding-model-methods:
|
|
|
|
Overriding predefined model methods
|
|
-----------------------------------
|
|
|
|
There's another set of :ref:`model methods <model-instance-methods>` that
|
|
encapsulate a bunch of database behavior that you'll want to customize. In
|
|
particular you'll often want to change the way :meth:`~Model.save` and
|
|
:meth:`~Model.delete` work.
|
|
|
|
You're free to override these methods (and any other model method) to alter
|
|
behavior.
|
|
|
|
A classic use-case for overriding the built-in methods is if you want something
|
|
to happen whenever you save an object. For example (see
|
|
:meth:`~Model.save` for documentation of the parameters it accepts)::
|
|
|
|
from django.db import models
|
|
|
|
class Blog(models.Model):
|
|
name = models.CharField(max_length=100)
|
|
tagline = models.TextField()
|
|
|
|
def save(self, *args, **kwargs):
|
|
do_something()
|
|
super(Blog, self).save(*args, **kwargs) # Call the "real" save() method.
|
|
do_something_else()
|
|
|
|
You can also prevent saving::
|
|
|
|
from django.db import models
|
|
|
|
class Blog(models.Model):
|
|
name = models.CharField(max_length=100)
|
|
tagline = models.TextField()
|
|
|
|
def save(self, *args, **kwargs):
|
|
if self.name == "Yoko Ono's blog":
|
|
return # Yoko shall never have her own blog!
|
|
else:
|
|
super(Blog, self).save(*args, **kwargs) # Call the "real" save() method.
|
|
|
|
It's important to remember to call the superclass method -- that's
|
|
that ``super(Blog, self).save(*args, **kwargs)`` business -- to ensure
|
|
that the object still gets saved into the database. If you forget to
|
|
call the superclass method, the default behavior won't happen and the
|
|
database won't get touched.
|
|
|
|
It's also important that you pass through the arguments that can be
|
|
passed to the model method -- that's what the ``*args, **kwargs`` bit
|
|
does. Django will, from time to time, extend the capabilities of
|
|
built-in model methods, adding new arguments. If you use ``*args,
|
|
**kwargs`` in your method definitions, you are guaranteed that your
|
|
code will automatically support those arguments when they are added.
|
|
|
|
.. admonition:: Overridden model methods are not called on bulk operations
|
|
|
|
Note that the :meth:`~Model.delete()` method for an object is not
|
|
necessarily called when :ref:`deleting objects in bulk using a
|
|
QuerySet<topics-db-queries-delete>`. To ensure customized delete logic
|
|
gets executed, you can use :data:`~django.db.models.signals.pre_delete`
|
|
and/or :data:`~django.db.models.signals.post_delete` signals.
|
|
|
|
Unfortunately, there isn't a workaround when
|
|
:meth:`creating<django.db.models.query.QuerySet.bulk_create>` or
|
|
:meth:`updating<django.db.models.query.QuerySet.update>` objects in bulk,
|
|
since none of :meth:`~Model.save()`,
|
|
:data:`~django.db.models.signals.pre_save`, and
|
|
:data:`~django.db.models.signals.post_save` are called.
|
|
|
|
Executing custom SQL
|
|
--------------------
|
|
|
|
Another common pattern is writing custom SQL statements in model methods and
|
|
module-level methods. For more details on using raw SQL, see the documentation
|
|
on :doc:`using raw SQL</topics/db/sql>`.
|
|
|
|
.. _model-inheritance:
|
|
|
|
Model inheritance
|
|
=================
|
|
|
|
Model inheritance in Django works almost identically to the way normal
|
|
class inheritance works in Python. The only decision you have to make
|
|
is whether you want the parent models to be models in their own right
|
|
(with their own database tables), or if the parents are just holders
|
|
of common information that will only be visible through the child
|
|
models.
|
|
|
|
There are three styles of inheritance that are possible in Django.
|
|
|
|
1. Often, you will just want to use the parent class to hold information that
|
|
you don't want to have to type out for each child model. This class isn't
|
|
going to ever be used in isolation, so :ref:`abstract-base-classes` are
|
|
what you're after.
|
|
2. If you're subclassing an existing model (perhaps something from another
|
|
application entirely) and want each model to have its own database table,
|
|
:ref:`multi-table-inheritance` is the way to go.
|
|
3. Finally, if you only want to modify the Python-level behavior of a model,
|
|
without changing the models fields in any way, you can use
|
|
:ref:`proxy-models`.
|
|
|
|
.. _abstract-base-classes:
|
|
|
|
Abstract base classes
|
|
---------------------
|
|
|
|
Abstract base classes are useful when you want to put some common
|
|
information into a number of other models. You write your base class
|
|
and put ``abstract=True`` in the :ref:`Meta <meta-options>`
|
|
class. This model will then not be used to create any database
|
|
table. Instead, when it is used as a base class for other models, its
|
|
fields will be added to those of the child class. It is an error to
|
|
have fields in the abstract base class with the same name as those in
|
|
the child (and Django will raise an exception).
|
|
|
|
An example::
|
|
|
|
from django.db import models
|
|
|
|
class CommonInfo(models.Model):
|
|
name = models.CharField(max_length=100)
|
|
age = models.PositiveIntegerField()
|
|
|
|
class Meta:
|
|
abstract = True
|
|
|
|
class Student(CommonInfo):
|
|
home_group = models.CharField(max_length=5)
|
|
|
|
The ``Student`` model will have three fields: ``name``, ``age`` and
|
|
``home_group``. The ``CommonInfo`` model cannot be used as a normal Django
|
|
model, since it is an abstract base class. It does not generate a database
|
|
table or have a manager, and cannot be instantiated or saved directly.
|
|
|
|
For many uses, this type of model inheritance will be exactly what you want.
|
|
It provides a way to factor out common information at the Python level, whilst
|
|
still only creating one database table per child model at the database level.
|
|
|
|
``Meta`` inheritance
|
|
~~~~~~~~~~~~~~~~~~~~
|
|
|
|
When an abstract base class is created, Django makes any :ref:`Meta <meta-options>`
|
|
inner class you declared in the base class available as an
|
|
attribute. If a child class does not declare its own :ref:`Meta <meta-options>`
|
|
class, it will inherit the parent's :ref:`Meta <meta-options>`. If the child wants to
|
|
extend the parent's :ref:`Meta <meta-options>` class, it can subclass it. For example::
|
|
|
|
from django.db import models
|
|
|
|
class CommonInfo(models.Model):
|
|
# ...
|
|
class Meta:
|
|
abstract = True
|
|
ordering = ['name']
|
|
|
|
class Student(CommonInfo):
|
|
# ...
|
|
class Meta(CommonInfo.Meta):
|
|
db_table = 'student_info'
|
|
|
|
Django does make one adjustment to the :ref:`Meta <meta-options>` class of an abstract base
|
|
class: before installing the :ref:`Meta <meta-options>` attribute, it sets ``abstract=False``.
|
|
This means that children of abstract base classes don't automatically become
|
|
abstract classes themselves. Of course, you can make an abstract base class
|
|
that inherits from another abstract base class. You just need to remember to
|
|
explicitly set ``abstract=True`` each time.
|
|
|
|
Some attributes won't make sense to include in the :ref:`Meta <meta-options>` class of an
|
|
abstract base class. For example, including ``db_table`` would mean that all
|
|
the child classes (the ones that don't specify their own :ref:`Meta <meta-options>`) would use
|
|
the same database table, which is almost certainly not what you want.
|
|
|
|
.. _abstract-related-name:
|
|
|
|
Be careful with ``related_name``
|
|
~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
|
|
|
|
If you are using the :attr:`~django.db.models.ForeignKey.related_name` attribute on a ``ForeignKey`` or
|
|
``ManyToManyField``, you must always specify a *unique* reverse name for the
|
|
field. This would normally cause a problem in abstract base classes, since the
|
|
fields on this class are included into each of the child classes, with exactly
|
|
the same values for the attributes (including :attr:`~django.db.models.ForeignKey.related_name`) each time.
|
|
|
|
To work around this problem, when you are using :attr:`~django.db.models.ForeignKey.related_name` in an
|
|
abstract base class (only), part of the name should contain
|
|
``'%(app_label)s'`` and ``'%(class)s'``.
|
|
|
|
- ``'%(class)s'`` is replaced by the lower-cased name of the child class
|
|
that the field is used in.
|
|
- ``'%(app_label)s'`` is replaced by the lower-cased name of the app the child
|
|
class is contained within. Each installed application name must be unique
|
|
and the model class names within each app must also be unique, therefore the
|
|
resulting name will end up being different.
|
|
|
|
For example, given an app ``common/models.py``::
|
|
|
|
from django.db import models
|
|
|
|
class Base(models.Model):
|
|
m2m = models.ManyToManyField(OtherModel, related_name="%(app_label)s_%(class)s_related")
|
|
|
|
class Meta:
|
|
abstract = True
|
|
|
|
class ChildA(Base):
|
|
pass
|
|
|
|
class ChildB(Base):
|
|
pass
|
|
|
|
Along with another app ``rare/models.py``::
|
|
|
|
from common.models import Base
|
|
|
|
class ChildB(Base):
|
|
pass
|
|
|
|
The reverse name of the ``common.ChildA.m2m`` field will be
|
|
``common_childa_related``, whilst the reverse name of the
|
|
``common.ChildB.m2m`` field will be ``common_childb_related``, and finally the
|
|
reverse name of the ``rare.ChildB.m2m`` field will be ``rare_childb_related``.
|
|
It is up to you how you use the ``'%(class)s'`` and ``'%(app_label)s`` portion
|
|
to construct your related name, but if you forget to use it, Django will raise
|
|
errors when you validate your models (or run :djadmin:`syncdb`).
|
|
|
|
If you don't specify a :attr:`~django.db.models.ForeignKey.related_name`
|
|
attribute for a field in an abstract base class, the default reverse name will
|
|
be the name of the child class followed by ``'_set'``, just as it normally
|
|
would be if you'd declared the field directly on the child class. For example,
|
|
in the above code, if the :attr:`~django.db.models.ForeignKey.related_name`
|
|
attribute was omitted, the reverse name for the ``m2m`` field would be
|
|
``childa_set`` in the ``ChildA`` case and ``childb_set`` for the ``ChildB``
|
|
field.
|
|
|
|
.. _multi-table-inheritance:
|
|
|
|
Multi-table inheritance
|
|
-----------------------
|
|
|
|
The second type of model inheritance supported by Django is when each model in
|
|
the hierarchy is a model all by itself. Each model corresponds to its own
|
|
database table and can be queried and created individually. The inheritance
|
|
relationship introduces links between the child model and each of its parents
|
|
(via an automatically-created :class:`~django.db.models.OneToOneField`).
|
|
For example::
|
|
|
|
from django.db import models
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class Place(models.Model):
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name = models.CharField(max_length=50)
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address = models.CharField(max_length=80)
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class Restaurant(Place):
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serves_hot_dogs = models.BooleanField()
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serves_pizza = models.BooleanField()
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All of the fields of ``Place`` will also be available in ``Restaurant``,
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although the data will reside in a different database table. So these are both
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possible::
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>>> Place.objects.filter(name="Bob's Cafe")
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>>> Restaurant.objects.filter(name="Bob's Cafe")
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If you have a ``Place`` that is also a ``Restaurant``, you can get from the
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``Place`` object to the ``Restaurant`` object by using the lower-case version
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of the model name::
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>>> p = Place.objects.get(id=12)
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# If p is a Restaurant object, this will give the child class:
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>>> p.restaurant
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<Restaurant: ...>
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However, if ``p`` in the above example was *not* a ``Restaurant`` (it had been
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created directly as a ``Place`` object or was the parent of some other class),
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referring to ``p.restaurant`` would raise a Restaurant.DoesNotExist exception.
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``Meta`` and multi-table inheritance
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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In the multi-table inheritance situation, it doesn't make sense for a child
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class to inherit from its parent's :ref:`Meta <meta-options>` class. All the :ref:`Meta <meta-options>` options
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have already been applied to the parent class and applying them again would
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normally only lead to contradictory behavior (this is in contrast with the
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abstract base class case, where the base class doesn't exist in its own
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right).
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So a child model does not have access to its parent's :ref:`Meta
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<meta-options>` class. However, there are a few limited cases where the child
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inherits behavior from the parent: if the child does not specify an
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:attr:`~django.db.models.Options.ordering` attribute or a
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:attr:`~django.db.models.Options.get_latest_by` attribute, it will inherit
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these from its parent.
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If the parent has an ordering and you don't want the child to have any natural
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ordering, you can explicitly disable it::
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class ChildModel(ParentModel):
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# ...
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class Meta:
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# Remove parent's ordering effect
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ordering = []
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Inheritance and reverse relations
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Because multi-table inheritance uses an implicit
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:class:`~django.db.models.OneToOneField` to link the child and
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the parent, it's possible to move from the parent down to the child,
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as in the above example. However, this uses up the name that is the
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default :attr:`~django.db.models.ForeignKey.related_name` value for
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:class:`~django.db.models.ForeignKey` and
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:class:`~django.db.models.ManyToManyField` relations. If you
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are putting those types of relations on a subclass of another model,
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you **must** specify the
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:attr:`~django.db.models.ForeignKey.related_name` attribute on each
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such field. If you forget, Django will raise an error when you run
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:djadmin:`validate` or :djadmin:`syncdb`.
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For example, using the above ``Place`` class again, let's create another
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subclass with a :class:`~django.db.models.ManyToManyField`::
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class Supplier(Place):
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# Must specify related_name on all relations.
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customers = models.ManyToManyField(Restaurant, related_name='provider')
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Specifying the parent link field
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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As mentioned, Django will automatically create a
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:class:`~django.db.models.OneToOneField` linking your child
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class back any non-abstract parent models. If you want to control the
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name of the attribute linking back to the parent, you can create your
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own :class:`~django.db.models.OneToOneField` and set
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:attr:`parent_link=True <django.db.models.OneToOneField.parent_link>`
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to indicate that your field is the link back to the parent class.
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.. _proxy-models:
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Proxy models
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------------
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When using :ref:`multi-table inheritance <multi-table-inheritance>`, a new
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database table is created for each subclass of a model. This is usually the
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desired behavior, since the subclass needs a place to store any additional
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data fields that are not present on the base class. Sometimes, however, you
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only want to change the Python behavior of a model -- perhaps to change the
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default manager, or add a new method.
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This is what proxy model inheritance is for: creating a *proxy* for the
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original model. You can create, delete and update instances of the proxy model
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and all the data will be saved as if you were using the original (non-proxied)
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model. The difference is that you can change things like the default model
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ordering or the default manager in the proxy, without having to alter the
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original.
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Proxy models are declared like normal models. You tell Django that it's a
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proxy model by setting the :attr:`~django.db.models.Options.proxy` attribute of
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the ``Meta`` class to ``True``.
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For example, suppose you want to add a method to the ``Person`` model. You can do it like this::
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from django.db import models
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class Person(models.Model):
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first_name = models.CharField(max_length=30)
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last_name = models.CharField(max_length=30)
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class MyPerson(Person):
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class Meta:
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proxy = True
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def do_something(self):
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# ...
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pass
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The ``MyPerson`` class operates on the same database table as its parent
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``Person`` class. In particular, any new instances of ``Person`` will also be
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accessible through ``MyPerson``, and vice-versa::
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>>> p = Person.objects.create(first_name="foobar")
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>>> MyPerson.objects.get(first_name="foobar")
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<MyPerson: foobar>
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You could also use a proxy model to define a different default ordering on
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a model. You might not always want to order the ``Person`` model, but regularly
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order by the ``last_name`` attribute when you use the proxy. This is easy::
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class OrderedPerson(Person):
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class Meta:
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ordering = ["last_name"]
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proxy = True
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Now normal ``Person`` queries will be unordered
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and ``OrderedPerson`` queries will be ordered by ``last_name``.
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QuerySets still return the model that was requested
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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There is no way to have Django return, say, a ``MyPerson`` object whenever you
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query for ``Person`` objects. A queryset for ``Person`` objects will return
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those types of objects. The whole point of proxy objects is that code relying
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on the original ``Person`` will use those and your own code can use the
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extensions you included (that no other code is relying on anyway). It is not
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a way to replace the ``Person`` (or any other) model everywhere with something
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of your own creation.
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Base class restrictions
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~~~~~~~~~~~~~~~~~~~~~~~
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A proxy model must inherit from exactly one non-abstract model class. You
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can't inherit from multiple non-abstract models as the proxy model doesn't
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provide any connection between the rows in the different database tables. A
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proxy model can inherit from any number of abstract model classes, providing
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they do *not* define any model fields.
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Proxy models inherit any ``Meta`` options that they don't define from their
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non-abstract model parent (the model they are proxying for).
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Proxy model managers
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~~~~~~~~~~~~~~~~~~~~
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If you don't specify any model managers on a proxy model, it inherits the
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managers from its model parents. If you define a manager on the proxy model,
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it will become the default, although any managers defined on the parent
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classes will still be available.
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Continuing our example from above, you could change the default manager used
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when you query the ``Person`` model like this::
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from django.db import models
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class NewManager(models.Manager):
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# ...
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pass
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class MyPerson(Person):
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objects = NewManager()
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class Meta:
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proxy = True
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If you wanted to add a new manager to the Proxy, without replacing the
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existing default, you can use the techniques described in the :ref:`custom
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manager <custom-managers-and-inheritance>` documentation: create a base class
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containing the new managers and inherit that after the primary base class::
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# Create an abstract class for the new manager.
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class ExtraManagers(models.Model):
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secondary = NewManager()
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class Meta:
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abstract = True
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class MyPerson(Person, ExtraManagers):
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class Meta:
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proxy = True
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You probably won't need to do this very often, but, when you do, it's
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possible.
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.. _proxy-vs-unmanaged-models:
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Differences between proxy inheritance and unmanaged models
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~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
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Proxy model inheritance might look fairly similar to creating an unmanaged
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model, using the :attr:`~django.db.models.Options.managed` attribute on a
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model's ``Meta`` class. The two alternatives are not quite the same and it's
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worth considering which one you should use.
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One difference is that you can (and, in fact, must unless you want an empty
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model) specify model fields on models with ``Meta.managed=False``. You could,
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with careful setting of :attr:`Meta.db_table
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<django.db.models.Options.db_table>` create an unmanaged model that shadowed
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an existing model and add Python methods to it. However, that would be very
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repetitive and fragile as you need to keep both copies synchronized if you
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make any changes.
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The other difference that is more important for proxy models, is how model
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managers are handled. Proxy models are intended to behave exactly like the
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model they are proxying for. So they inherit the parent model's managers,
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including the default manager. In the normal multi-table model inheritance
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case, children do not inherit managers from their parents as the custom
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managers aren't always appropriate when extra fields are involved. The
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:ref:`manager documentation <custom-managers-and-inheritance>` has more
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details about this latter case.
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When these two features were implemented, attempts were made to squash them
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into a single option. It turned out that interactions with inheritance, in
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general, and managers, in particular, made the API very complicated and
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potentially difficult to understand and use. It turned out that two options
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were needed in any case, so the current separation arose.
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So, the general rules are:
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1. If you are mirroring an existing model or database table and don't want
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all the original database table columns, use ``Meta.managed=False``.
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That option is normally useful for modeling database views and tables
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not under the control of Django.
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2. If you are wanting to change the Python-only behavior of a model, but
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keep all the same fields as in the original, use ``Meta.proxy=True``.
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This sets things up so that the proxy model is an exact copy of the
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storage structure of the original model when data is saved.
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Multiple inheritance
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--------------------
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Just as with Python's subclassing, it's possible for a Django model to inherit
|
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from multiple parent models. Keep in mind that normal Python name resolution
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rules apply. The first base class that a particular name (e.g. :ref:`Meta
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<meta-options>`) appears in will be the one that is used; for example, this
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means that if multiple parents contain a :ref:`Meta <meta-options>` class,
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only the first one is going to be used, and all others will be ignored.
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Generally, you won't need to inherit from multiple parents. The main use-case
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where this is useful is for "mix-in" classes: adding a particular extra
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field or method to every class that inherits the mix-in. Try to keep your
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inheritance hierarchies as simple and straightforward as possible so that you
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won't have to struggle to work out where a particular piece of information is
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coming from.
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Field name "hiding" is not permitted
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-------------------------------------
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In normal Python class inheritance, it is permissible for a child class to
|
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override any attribute from the parent class. In Django, this is not permitted
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for attributes that are :class:`~django.db.models.Field` instances (at
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least, not at the moment). If a base class has a field called ``author``, you
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cannot create another model field called ``author`` in any class that inherits
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from that base class.
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|
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Overriding fields in a parent model leads to difficulties in areas such as
|
|
initializing new instances (specifying which field is being initialized in
|
|
``Model.__init__``) and serialization. These are features which normal Python
|
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class inheritance doesn't have to deal with in quite the same way, so the
|
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difference between Django model inheritance and Python class inheritance isn't
|
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arbitrary.
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This restriction only applies to attributes which are
|
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:class:`~django.db.models.Field` instances. Normal Python attributes
|
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can be overridden if you wish. It also only applies to the name of the
|
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attribute as Python sees it: if you are manually specifying the database
|
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column name, you can have the same column name appearing in both a child and
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an ancestor model for multi-table inheritance (they are columns in two
|
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different database tables).
|
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|
|
Django will raise a :exc:`~django.core.exceptions.FieldError` if you override
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any model field in any ancestor model.
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