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django/docs/model-api.txt
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===============
Model reference
===============
A model is the single, definitive source of data 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.
The basics:
* Each model is a Python class that subclasses ``django.core.meta.Model``.
* Each attribute of the model represents a database field.
* Model metadata (non-field information) goes in an inner class named ``META``.
A companion to this document is the `official repository of model examples`_.
.. _`official repository of model examples`: http://www.djangoproject.com/documentation/models/
Field objects
=============
The most important part of a model is the list of database fields it defines.
Fields are defined by class attributes. Each class attribute in a model, aside
from the optional inner ``class META``, should be an instance of a
``meta.Field`` subclass.
In this example, there are two fields, ``first_name`` and ``last_name`` ::
class Person(meta.Model):
first_name = meta.CharField(maxlength=30)
last_name = meta.CharField(maxlength=30)
Django will use ``first_name`` and ``last_name`` as the database column names.
Each field type, except for ``ForeignKey``, ``ManyToManyField`` and
``OneToOneField``, takes an optional first positional argument -- a
human-readable name. If the human-readable name isn't given, Django will
automatically create the human-readable name by using the machine-readable
name, converting underscores to spaces.
In this example, the human-readable name is ``"Person's first name"``::
first_name = meta.CharField("Person's first name", maxlength=30)
In this example, the human-readable name is ``"first name"``::
first_name = meta.CharField(maxlength=30)
``ForeignKey``, ``ManyToManyField`` and ``OneToOneField`` require the first
argument to be a model class, so use the ``verbose_name`` keyword argument to
specify the human-readable name::
poll = meta.ForeignKey(Poll, verbose_name="the related poll")
sites = meta.ManyToManyField(Site, verbose_name="list of sites")
place = meta.OneToOneField(Place, verbose_name="related place")
Convention is not to capitalize the first letter of the ``verbose_name``.
Django will automatically capitalize the first letter where it needs to.
General field options
---------------------
The following arguments are available to all field types. All are optional.
``null``
If ``True``, Django will store empty values as ``NULL`` in the database.
Default is ``False``.
Note that empty string values will always get stored as empty strings, not
as ``NULL`` -- so use ``null=True`` for non-string fields such as integers,
booleans and dates.
Avoid using ``null`` on string-based fields such as ``CharField`` and
``TextField`` unless you have an excellent reason. If a string-based field
has ``null=True``, that means it has two possible values for "no data":
``NULL``, and the empty string. In most cases, it's redundant to have two
possible values for "no data;" Django convention is to use the empty
string, not ``NULL``.
``blank``
If ``True``, the field is allowed to be blank.
Note that this is different than ``null``. ``null`` is purely
database-related, whereas ``blank`` is validation-related. If a field has
``blank=True``, validation on Django's admin site will allow entry of an
empty value. If a field has ``blank=False``, the field will be required.
``choices``
A list of 2-tuples to use as choices for this field.
If this is given, Django's admin will use a select box instead of the
standard text field and will limit choices to the choices given.
A choices list looks like this::
YEAR_IN_SCHOOL_CHOICES = (
('FR', 'Freshman'),
('SO', 'Sophomore'),
('JR', 'Junior'),
('SR', 'Senior'),
('GR', 'Graduate'),
)
The first element in each tuple is the actual value to be stored. The
second element is the human-readable name for the option.
Define the choices list **outside** of your model class, not inside it.
For example, this is not valid::
class Foo(meta.Model):
GENDER_CHOICES = (
('M', 'Male'),
('F', 'Female'),
)
gender = meta.CharField(maxlength=1, choices=GENDER_CHOICES)
But this is valid::
GENDER_CHOICES = (
('M', 'Male'),
('F', 'Female'),
)
class Foo(meta.Model):
gender = meta.CharField(maxlength=1, choices=GENDER_CHOICES)
``core``
For objects that are edited inline to a related object.
In the Django admin, if all "core" fields in an inline-edited object are
cleared, the object will be deleted.
It is an error to have an inline-editable relation without at least one
``core=True`` field.
``db_column``
The name of the database column to use for this field. If this isn't given,
Django will use the field's name.
If your database column name is an SQL reserved word, or contains
characters that aren't allowed in Python variable names -- notably, the
hyphen -- that's OK. Django quotes column and table names behind the
scenes.
``db_index``
If ``True``, ``django-admin.py sqlindexes`` will output a ``CREATE INDEX``
statement for this field.
``default``
The default value for the field.
``editable``
If ``False``, the field will not be editable in the admin. Default is ``True``.
``help_text``
Extra "help" text to be displayed under the field on the object's admin
form. It's useful for documentation even if your object doesn't have an
admin form.
``primary_key``
If ``True``, this field is the primary key for the model.
If you don't specify ``primary_key=True`` for any fields in your model,
Django will automatically add this field::
id = meta.AutoField('ID', primary_key=True)
Thus, you don't need to set ``primary_key=True`` on any of your fields
unless you want to override the default primary-key behavior.
``primary_key=True`` implies ``blank=False``, ``null=False`` and
``unique=True``. Only one primary key is allowed on an object.
``radio_admin``
By default, Django's admin uses a select-box interface (<select>) for
fields that are ``ForeignKey`` or have ``choices`` set. If ``radio_admin``
is set to ``True``, Django will use a radio-button interface instead.
Don't use this for a field unless it's a ``ForeignKey`` or has ``choices``
set.
``unique``
If ``True``, this field must be unique throughout the table.
This is enforced at the database level and at the Django admin-form level.
``unique_for_date``
Set this to the name of a ``DateField`` or ``DateTimeField`` to require
that this field be unique for the value of the date field.
For example, if you have a field ``title`` that has
``unique_for_date="pub_date"``, then Django wouldn't allow the entry of
two records with the same ``title`` and ``pub_date``.
This is enforced at the Django admin-form level but not at the database level.
``unique_for_month``
Like ``unique_for_date``, but requires the field to be unique with respect
to the month.
``unique_for_year``
Like ``unique_for_date`` and ``unique_for_month``.
``validator_list``
A list of extra validators to apply to the field. Each should be a callable
that takes the parameters ``field_data, all_data`` and raises
``django.core.validators.ValidationError`` for errors. (See the
`validator docs`_.)
Django comes with quite a few validators. They're in ``django.core.validators``.
.. _validator docs: http://www.djangoproject.com/documentation/forms/#validators
Field types
-----------
Each field in your model should be an instance of the appropriate ``Field``
class. Django uses the field class types to determine a few things:
* The database column type (e.g. ``INTEGER``, ``VARCHAR``).
* The widget to use in Django's admin (e.g. ``<input type="text">``, ``<select>``).
* The minimal validation requirements, used in Django's admin and in manipulators.
Here are all available field types:
``AutoField``
An ``IntegerField`` that automatically increments according to available
IDs. You usually won't need to use this directly; a primary key field will
automatically be added to your model if you don't specify otherwise. (See
``primary_key`` in ``General field options`` above.)
``BooleanField``
A true/false field.
The admin represents this as a checkbox.
``CharField``
A string field, for small- to large-sized strings.
For large amounts of text, use ``TextField``.
The admin represents this as an ``<input type="text">`` (a single-line input).
``CharField`` has an extra required argument, ``maxlength``, the maximum
length (in characters) of the field. The maxlength is enforced at the
database level and in Django's validation.
``CommaSeparatedIntegerField``
A field of integers separated by commas. As in ``CharField``, the
``maxlength`` argument is required.
``DateField``
A date field. Has a few extra optional arguments:
====================== ===================================================
Argument Description
====================== ===================================================
``auto_now`` Automatically set the field to now every time the
object is saved. Useful for "last-modified"
timestamps.
``auto_now_add`` Automatically set the field to now when the object
is first created. Useful for creation of
timestamps.
====================== ===================================================
The admin represents this as an ``<input type="text">`` with a JavaScript
calendar and a shortcut for "Today."
``DateTimeField``
A date and time field. Takes the same extra options as ``DateField``.
The admin represents this as two ``<input type="text">`` fields, with
JavaScript shortcuts.
``EmailField``
A ``CharField`` that checks that the value is a valid e-mail address.
This doesn't accept ``maxlength``.
``FileField``
A file-upload field.
Has an extra required argument, ``upload_to``, a local filesystem path to
which files should be upload. This path may contain `strftime formatting`_,
which will be replaced by the date/time of the file upload (so that
uploaded files don't fill up the given directory).
The admin represents this as an ``<input type="file">`` (a file-upload widget).
Using a ``FileField` or an ``ImageField`` (see below) in a model takes a few
steps:
1. In your settings file, you'll need to define ``MEDIA_ROOT`` as the
full path to a directory where you'd like Django to store uploaded
files. (For performance, these files are not stored in the database.)
Define ``MEDIA_URL`` as the base public URL of that directory. Make
sure that this directory is writable by the Web server's user
account.
2. Add the ``FileField`` or ``ImageField`` to your model, making sure
to define the ``upload_to`` option to tell Django to which
subdirectory of ``MEDIA_ROOT`` it should upload files.
3. All that will be stored in your database is a path to the file
(relative to ``MEDIA_ROOT``). You'll must likely want to use the
convenience ``get_<fieldname>_url`` function provided by Django. For
example, if your ``ImageField`` is called ``mug_shot``, you can get
the absolute URL to your image in a template with ``{{
object.get_mug_shot_url }}``.
.. _`strftime formatting`: http://docs.python.org/lib/module-time.html#l2h-1941
``FilePathField``
A field whose choices are limited to the filenames in a certain directory
on the filesystem. Has three special arguments, of which the first is
required:
====================== ===================================================
Argument Description
====================== ===================================================
``path`` Required. The absolute filesystem path to a
directory from which this ``FilePathField`` should
get its choices. Example: ``"/home/images"``.
``match`` Optional. A regular expression, as a string, that
``FilePathField`` will use to filter filenames.
Note that the regex will be applied to the
base filename, not the full path. Example:
``"foo.*\.txt^"``, which will match a file called
``foo23.txt`` but not ``bar.txt`` or ``foo23.gif``.
``recursive`` Optional. Either ``True`` or ``False``. Default is
``False``. Specifies whether all subdirectories of
``path`` should be included.
====================== ===================================================
Of course, these arguments can be used together.
The one potential gotcha is that ``match`` applies to the base filename,
not the full path. So, this example::
FilePathField(path="/home/images", match="foo.*", recursive=True)
...will match ``/home/images/foo.gif`` but not ``/home/images/foo/bar.gif``
because the ``match`` applies to the base filename (``foo.gif`` and
``bar.gif``).
``FloatField``
A floating-point number. Has two **required** arguments:
====================== ===================================================
Argument Description
====================== ===================================================
``max_digits`` The maximum number of digits allowed in the number.
``decimal_places`` The number of decimal places to store with the
number.
====================== ===================================================
For example, to store numbers up to 999 with a resolution of 2 decimal places,
you'd use::
meta.FloatField(..., max_digits=5, decimal_places=2)
And to store numbers up to approximately one billion with a resolution of 10
decimal places::
meta.FloatField(..., max_digits=19, decimal_places=10)
The admin represents this as an ``<input type="text">`` (a single-line input).
``ImageField``
Like ``FileField``, but validates that the uploaded object is a valid
image. Has two extra optional arguments, ``height_field`` and
``width_field``, which, if set, will be auto-populated with the height and
width of the image each time a model instance is saved.
Requires the `Python Imaging Library`_.
.. _Python Imaging Library: http://www.pythonware.com/products/pil/
``IntegerField``
An integer.
The admin represents this as an ``<input type="text">`` (a single-line input).
``IPAddressField``
An IP address, in string format (i.e. "24.124.1.30").
The admin represents this as an ``<input type="text">`` (a single-line input).
``NullBooleanField``
Like a ``BooleanField``, but allows ``NULL`` as one of the options. Use this
instead of a ``BooleanField`` with ``null=True``.
The admin represents this as a ``<select>`` box with "Unknown", "Yes" and "No" choices.
``PhoneNumberField``
A ``CharField`` that checks that the value is a valid U.S.A.-style phone
number (in the format ``XXX-XXX-XXXX``).
``PositiveIntegerField``
Like an ``IntegerField``, but must be positive.
``PositiveSmallIntegerField``
Like a ``PositiveIntegerField``, but only allows values under a certain
(database-dependent) point.
``SlugField``
"Slug" is a newspaper term. A slug is a short label for something,
containing only letters, numbers, underscores or hyphens. They're generally
used in URLs.
In the Django development version, you can specify ``maxlength``. If
``maxlength`` is not specified, Django will use a default length of 50. In
previous Django versions, there's no way to override the length of 50.
Implies ``db_index=True``.
Accepts an extra option, ``prepopulate_from``, which is a list of fields
from which to auto-populate the slug, via JavaScript, in the object's admin
form::
meta.SlugField(prepopulate_from=("pre_name", "name"))
``prepopulate_from`` doesn't accept DateTimeFields.
The admin represents ``SlugField`` as an ``<input type="text">`` (a
single-line input).
``SmallIntegerField``
Like an ``IntegerField``, but only allows values under a certain
(database-dependent) point.
``TextField``
A large text field.
The admin represents this as a ``<textarea>`` (a multi-line input).
``TimeField``
A time. Accepts the same auto-population options as ``DateField`` and
``DateTimeField``.
The admin represents this as an ``<input type="text">`` with some
JavaScript shortcuts.
``URLField``
A field for a URL. If the ``verify_exists`` option is ``True`` (default),
the URL given will be checked for existence (i.e., the URL actually loads
and doesn't give a 404 response).
The admin represents this as an ``<input type="text">`` (a single-line input).
``USStateField``
A two-letter U.S. state abbreviation.
The admin represents this as an ``<input type="text">`` (a single-line input).
``XMLField``
A ``TextField`` that checks that the value is valid XML that matches a
given schema. Takes one required argument, ``schema_path``, which is the
filesystem path to a RelaxNG_ schema against which to validate the field.
.. _RelaxNG: http://www.relaxng.org/
Relationships
-------------
Clearly, the power of relational databases lies in relating tables to each
other. Django offers ways to define the most common types of database
relationships: Many-to-one, many-to-many and one-to-one.
Many-to-one relationships
~~~~~~~~~~~~~~~~~~~~~~~~~
To define a many-to-one relationship, use ``ForeignKey``. You use it just like
any other ``Field`` type: by including it as a class attribute of your model.
``ForeignKey`` requires a positional argument: The class to which the model is
related.
For example, if a ``Place`` model is in a ``City`` -- that is, a ``City``
contains multiple places but each ``Place`` is only in one ``City`` -- here's
how you'd represent that::
class City(meta.Model):
# ...
class Place(meta.Model):
# ...
city = meta.ForeignKey(City)
To create a recursive relationship -- an object that has a many-to-one
relationship with itself -- use ``meta.ForeignKey("self")``.
The name of a ``ForeignKey`` (``city`` in the example above) generally should
be the name of the model, singular. Behind the scenes, Django appends "_id" to
the field name to create its database column name. But your code should never
have to deal with the database column name, unless you write custom SQL.
See the `Many-to-one relationship model example`_ for a full example.
.. _Many-to-one relationship model example: http://www.djangoproject.com/documentation/models/many_to_one/
``ForeignKey`` fields take a number of extra arguments for defining how the
relationship should work. All are optional:
======================= ============================================================
Argument Description
======================= ============================================================
``edit_inline`` If not ``False``, this related object is edited
"inline" on the related object's page. This means
that the object will not have its own admin
interface. Use either ``meta.TABULAR`` or ``meta.STACKED``,
which, respectively, designate whether the inline-editable
objects are displayed as a table or as a "stack" of
fieldsets.
``limit_choices_to`` A dictionary of lookup arguments and values (see
the `Database API reference`_) that limit the
available admin choices for this object. Use this
with ``meta.LazyDate`` to limit choices of objects
by date. For example::
limit_choices_to = {'pub_date__lte' : meta.LazyDate()}
only allows the choice of related objects with a
``pub_date`` before the current date/time to be
chosen.
Not compatible with ``edit_inline``.
``max_num_in_admin`` For inline-edited objects, this is the maximum
number of related objects to display in the admin.
Thus, if a pizza could only have up to 10
toppings, ``max_num_in_admin=10`` would ensure
that a user never enters more than 10 toppings.
Note that this doesn't ensure more than 10 related
toppings ever get created. It just controls the
interface.
``min_num_in_admin`` The minimum number of related objects displayed in
the admin. Normally, at the creation stage,
``num_in_admin`` inline objects are shown, and at
the edit stage ``num_extra_on_change`` blank
objects are shown in addition to all pre-existing
related objects. However, no fewer than
``min_num_in_admin`` related objects will ever be
displayed.
``num_extra_on_change`` The number of extra blank related-object fields to
show at the change stage.
``num_in_admin`` The default number of inline objects to display
on the object page at the add stage.
``raw_id_admin`` Only display a field for the integer to be entered
instead of a drop-down menu. This is useful when
related to an object type that will have too many
rows to make a select box practical.
Not used with ``edit_inline``.
``related_name`` The name to use for the relation from the related
object back to this one. For example, when if
``Topping`` has this field::
meta.ForeignKey(Pizza)
the ``related_name`` will be "topping" (taken from
the class name), which will in turn give ``Pizza``
the methods ``get_topping_list()`` and
``get_topping_count()``.
If you instead were to use::
meta.ForeignKey(Pizza, related_name="munchie")
then the methods would be called
``get_munchie_list()``, ``get_munchie_count()``,
etc.
This is only really useful when you have a single
object that relates to the same object more than
once. For example, if a ``Story`` object has both
``primary_category`` and ``secondary_category``
fields, to make sure that the ``Category`` objects
have the correct methods, you'd use fields like::
meta.ForeignKey(Category, related_name="primary_story")
meta.ForeignKey(Category, related_name="secondary_story")
...which would give the ``Category`` objects
methods named ``get_primary_story_list()`` and
``get_secondary_story_list()``.
``to_field`` The field on the related object that the relation
is to. By default, Django uses the primary key of
the related object.
======================= ============================================================
.. _`Database API reference`: http://www.djangoproject.com/documentation/db_api/
Many-to-many relationships
~~~~~~~~~~~~~~~~~~~~~~~~~~
To define a many-to-many relationship, use ``ManyToManyField``. You use it just
like any other ``Field`` type: by including it as a class attribute of your
model.
``ManyToManyField`` requires a positional argument: The class to which the
model is related.
For example, if a ``Pizza`` has multiple ``Topping`` objects -- that is, a
``Topping`` can be on multiple pizzas and each ``Pizza`` has multiple toppings --
here's how you'd represent that::
class Topping(meta.Model):
# ...
class Pizza(meta.Model):
# ...
toppings = meta.ManyToManyField(Topping)
The name of a ``ManyToManyField`` (``toppings`` in the example above) generally
should be the name of the model, plural.
Behind the scenes, Django creates an intermediary join table to represent the
many-to-many relationship.
It doesn't matter which model gets the ``ManyToManyField``, but you only need
it in one of the models -- not in both.
Generally, ``ManyToManyField`` instances should go in the object that's going
to be edited in the admin. In the above example, ``toppings`` is in ``Pizza``
(rather than ``Topping`` having a ``pizzas`` ``ManyToManyField`` ) because it's
more natural to think about a ``Pizza`` having toppings than a topping being on
multiple pizzas. The way it's set up above, the ``Pizza`` admin form would let
users select the toppings.
See the `Many-to-many relationship model example`_ for a full example.
.. _Many-to-many relationship model example: http://www.djangoproject.com/documentation/models/many_to_many/
``ManyToManyField`` objects take a number of extra arguments for defining how
the relationship should work. All are optional:
======================= ============================================================
Argument Description
======================= ============================================================
``related_name`` See the description of ``related_name`` in
``ForeignKey`` above.
``filter_interface`` Use a nifty unobtrusive Javascript "filter" interface
instead of the usability-challenged ``<select multiple>``
in the admin form for this object. The value should be
``meta.HORIZONTAL`` or ``meta.VERTICAL`` (i.e.
should the interface be stacked horizontally or
vertically).
``limit_choices_to`` See the description under ``ForeignKey`` above.
``singular`` The singular name of the field. Use to name the ``get_*``
methods: in the example above, Django gives the ``Pizza``
objects a ``get_topping_list()`` method, where ``topping``
is the default ``singular`` value derived from the lowercase
version of the class being linked to. Use the singular
parameter to change this, which is if you want one model to
have multiple ``ManyToMany`` relationships to another model.
======================= ============================================================
One-to-one relationships
~~~~~~~~~~~~~~~~~~~~~~~~
To define a one-to-one relationship, use ``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.
``OneToOneField`` requires a positional argument: The class to which the
model is related.
For example, if you're 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 ``OneToOneField`` to ``Place`` (because a
restaurant "is-a" place).
This ``OneToOneField`` will actually replace the primary key ``id`` field
(since one-to-one relations share the same primary key), and has a few
differences in the admin interface:
* No ``Place`` selection interface is displayed on ``Restaurant`` pages.
There will be one (and only one) ``Restaurant`` for each ``Place``.
* On the ``Restaurant`` change list, every ``Place`` -- whether it has an
associated ``Restaurant`` or not -- will be displayed. Adding a
``Restaurant`` to a ``Place`` just means filling out the required
``Restaurant`` fields.
See the `One-to-one relationship model example`_ for a full example.
.. _One-to-one relationship model example: http://www.djangoproject.com/documentation/models/one_to_one/
META options
============
Give your model metadata by using an inner ``"class META"``, like so::
class Foo(meta.Model):
bar = meta.CharField(maxlength=30)
# ...
class META:
admin = meta.Admin()
# ...
Model metadata is "anything that's not a field" -- ordering options, admin
options, etc.
Here's a list of all possible ``META`` options. No options are required. Adding
``class META`` to a model is completely optional.
``admin``
A ``meta.Admin`` object; see `Admin options`_. If this field is given, the
object will have an admin interface. If it isn't given, the object won't
have one.
``db_table``
The name of the database table to use for the module::
db_table = "pizza_orders"
If this isn't given, Django will use ``app_label + '_' + module_name``.
If your database table name is an SQL reserved word, or contains characters
that aren't allowed in Python variable names -- notably, the hyphen --
that's OK. Django quotes column and table names behind the scenes.
``exceptions``
Names of extra exception subclasses to include in the generated module.
These exceptions are available from instance methods and from module-level
methods::
exceptions = ("DisgustingToppingsException", "BurntCrust")
``get_latest_by``
The name of a ``DateField`` or ``DateTimeField``. If given, the module will
have a ``get_latest()`` function that fetches the "latest" object according
to that field::
get_latest_by = "order_date"
See `Getting the "latest" object`_ for a full example.
.. _Getting the "latest" object: http://www.djangoproject.com/documentation/models/get_latest/
``module_constants``
A dictionary of names/values to use as extra module-level constants::
module_constants = {
'MEAT_TYPE_PEPPERONI' : 1,
'MEAT_TYPE_SAUSAGE' : 2,
}
``module_name``
The name of the module::
module_name = "pizza_orders"
If this isn't given, Django will use a lowercased version of the class
name, plus ``"s"``. This "poor man's pluralization" is intentional: Any
other level of magic pluralization would get confusing.
``order_with_respect_to``
Marks this object as "orderable" with respect to the given field. This is
almost always used with related objects to allow them to be ordered with
respect to a parent object. For example, if a ``PizzaToppping`` relates to
a ``Pizza`` object, you might use::
order_with_respect_to = 'pizza'
to allow the toppings to be ordered with respect to the associated pizza.
``ordering``
The default ordering for the object, for use by ``get_list`` and the admin::
ordering = ['-order_date']
This is a tuple or list of strings. Each string is a field name with an
optional "-" prefix, which indicates descending order. Fields without a
leading "-" will be ordered ascending. Use the string "?" to order randomly.
See `Specifying ordering`_ for a full example.
.. _Specifying ordering: http://www.djangoproject.com/documentation/models/ordering/
``permissions``
Extra permissions to enter into the permissions table when creating this
object. Add, delete and change permissions are automatically created for
each object that has ``admin`` set. This example specifies an extra
permission, ``can_deliver_pizzas``::
permissions = (("can_deliver_pizzas", "Can deliver pizzas"),)
This is a list or tuple of 2-tuples in the format
``(permission_code, human_readable_permission_name)``.
``unique_together``
Sets of field names that, taken together, must be unique::
unique_together = (("driver", "restaurant"),)
This is a list of lists of fields that must be unique when considered
together. It's used in the Django admin and is enforced at the database
level (i.e., the appropriate ``UNIQUE`` statements are included in the
``CREATE TABLE`` statement).
``verbose_name``
A human-readable name for the object, singular::
verbose_name = "pizza"
If this isn't given, Django will use a munged version of the class name:
``CamelCase`` becomes ``camel case``.
``verbose_name_plural``
The plural name for the object::
verbose_name_plural = "stories"
If this isn't given, Django will use ``verbose_name + "s"``.
Admin options
=============
The ``admin`` field in the model tells Django how to construct the admin
interface for the object. The field is an instance of the ``meta.Admin``
object, which takes the following parameters. All are optional.
``date_hierarchy``
To allow filtering of objects in the admin by date, set ``date_hierarchy``
to the name of the field to filter by::
date_hierarchy = 'order_date'
``fields``
A list of fieldsets to display on the admin page. Each fieldset is a 2-tuple:
``(name, field_options)``. The ``name`` is a string to name the field set,
and ``field_options`` is a dictionary of information about the fields to be
displayed in that fieldset. This dictionary has the following keys:
``fields``
A tuple of field names to display in this fieldset. To display
multiple fields on the same line, wrap those fields in their
own tuple.
This key is required in the dictionary.
``classes``
Extra CSS classes to apply to the fieldset. This is a simple
string. You can apply multiple classes by separating them with
spaces.
Two useful classes defined by the default stylesheet are
``collapse`` and ``wide``. Fieldsets with the ``collapse`` style
will be initially collapsed in the admin and replaced with a small
"click to expand" link. Fieldsets with the ``wide`` style will be
given extra horizontal space.
For example (taken from the ``django.contrib.flatpages`` model)::
fields = (
(None, {
'fields': ('url', 'title', 'content', 'sites')
}),
('Advanced options', {
'classes': 'collapse',
'fields' : ('enable_comments', 'registration_required', 'template_name')
}),
),
results in an admin that looks like:
.. image:: http://media.djangoproject.com/img/doc/flatfiles_admin.png
If ``fields`` isn't given but a model does define ``admin`` as a
``meta.Admin`` object, Django will default to displaying each field that
isn't an ``AutoField`` and has ``editable=True``, in a single fieldset, in
the same order as the fields are defined in the model.
``js``
A list of strings representing URLs of JavaScript files to link into the
admin screen. This can be used to tweak a given type of admin page in JS or
to provide "quick links" to fill in default values for certain fields.
``list_display``
List of fields to display on the list page in the admin.
There are a few special cases that do other things besides displaying the
contents of the given fields:
* If the field given is a ``ForeignKey``, the ``repr()`` of the related
object will be displayed.
* ``ManyToManyField`` fields aren't supported, because that would
entail executing a separate SQL statement for each row in the table.
* If the field is a ``BooleanField``, a "on" or "off" icon will
be displayed instead of ``True`` or ``False``.
* If the field name is a method of the model, it'll be called, and the
output will be displayed. This method should have a
``short_description`` function attribute, for use as the header for
the field.
* Use the string ``"__repr__"`` to output the representation of the
object, according to your model's ``__repr__()`` function. If you
don't define ``list_display``, Django will use the ``__repr__`` by
default.
See the example below.
``list_filter``
List of fields to filter by. Each field should either be a ``BooleanField``
or else a field with a ``ManyToOne`` relation.
Here's an example of how ``list_display`` and ``list_filter`` work (taken
from the ``auth.user`` model)::
list_display = ('username', 'email', 'first_name', 'last_name', 'is_staff'),
list_filter = ('is_staff', 'is_superuser'),
The above code results in an admin that looks like this:
.. image:: http://media.djangoproject.com/img/doc/users_changelist.png
(This example also has ``search_fields`` defined; see below).
``list_select_related``
Either ``True`` or ``False``. Default is ``False``. If ``True``, the admin
change list page will use the ``select_related`` database-API parameter in
its query that retrieves the list of items.
Note that Django will use ``select_related``, regardless of this setting,
if one of the ``list_display`` fields is a ``ForeignKey``.
``ordering``
A list or tuple (see the `META options`_, above) that gives a
different ordering for the admin change list. If this isn't given, the
model's default ordering will be used.
``save_as``
Enables a "save as" feature on object pages. Normally, objects have three
save options: "Save", "Save and continue editing" and "Save and add
another". If ``save_as`` is ``True``, "Save and add another" will be
replaced by a "Save as" button.
"Save as" means the object will be saved as a new object (with a new ID),
rather than the old object.
``save_on_top``
If this option is ``True``, object pages will have the save buttons across
the top as well as at the bottom of the page.
``search_fields``
A list of field names to provide a text search for. These fields should,
obviously, be some kind of text field, such as ``CharField`` or
``TextField``.
Model methods
=============
There are a number of methods you can define on model objects to control the
object's behavior. First, any methods you define will be available as methods
of object instances. For example::
class Pizza(meta.Model):
# ...
def is_disgusting(self):
return "anchovies" in [topping.name for topping in self.get_topping_list()]
Now, every ``Pizza`` object will have a ``is_disgusting()`` method.
Note that the scope of custom methods is modified to be the same as the module
scope. These methods do NOT have access to globals within your model's module.
Additionally, custom methods have access to a few commonly-used objects for
convenience:
* The ``datetime`` module from Python's standard library.
* The ``db`` object from ``django.core.db``. This represents the database
connection, so you can do custom queries via a cursor object. See
"Executing custom SQL" below.
See `Giving models custom methods`_ for a full example.
.. _Giving models custom methods: http://www.djangoproject.com/documentation/models/custom_methods/
A few object methods have special meaning:
``__repr__``
Django uses ``repr(obj)`` in a number of places, most notably as the value
inserted into a template when it displays an object. Thus, you should always
return a nice, human-readable string for the object's ``__repr__``.
Although defining ``__repr__()`` isn't required, it's strongly encouraged.
See `Adding repr`_ for a full example.
.. _Adding repr: http://www.djangoproject.com/documentation/models/repr/
``get_absolute_url``
Define a ``get_absolute_url`` method to tell Django how to calculate the
URL for an object. For example::
def get_absolute_url(self):
return "/pizzas/%i/" % self.id
Django uses this in its admin interface. If an object defines
``get_absolute_url``, the object detail page will have a "View on site"
link that will jump you directly to the object's public view.
It's good practice to use ``get_absolute_url()`` in templates, instead of
hard-coding your objects' URLs.
``_pre_save``
This method is called just before an object is saved to the database. For
example, you can use it to calculate aggregate values from other fields
before the object is saved.
See `Adding hooks before/after saving and deleting`_ for a full example.
.. _Adding hooks before/after saving and deleting: http://www.djangoproject.com/documentation/models/save_delete_hooks/
``_post_save``
This method is called just after the object is saved to the database. This
could be used to update other tables, update cached information, etc.
``_pre_delete``
Like ``_pre_save``, but for deletion.
``_post_delete``
Like ``_post_save``, but for deletion.
Module-level methods
--------------------
Since each data class effectively turns into a "magic" Python module under
``django.models``, there are times you'll want to write methods that live in
that module. Any model method that begins with "_module_" is turned into a
module-level function::
class Pizza(meta.Model):
# ...
def _module_get_pizzas_to_deliver():
return get_list(delivered__exact=False)
This will make the top-level ``pizzas`` module have a ``get_pizzas_to_deliver()``
method::
>>> from django.models.pizza_hut import pizzas
>>> pizzas.get_pizzas_to_deliver()
[ ... ]
Note that the scope of these methods is modified to be the same as the module
scope. These methods do NOT have access to globals within your model's module.
Manipulator methods
-------------------
Similarly, you can add methods to the object's manipulators by defining methods
that being with "_manipulator_". This is most useful for providing custom
validators for certain fields, because manipulators automatically call any
method that begins with "validate"::
class Pizza(meta.Model):
# ...
def _manipulator_validate_customer_id(self, field_data, all_data):
from django.core import validators
from django.conf.settings import BAD_CUSTOMER_IDS
if int(field_data) in BAD_CUSTOMER_IDS:
raise validators.ValidationError, "We don't deliver to this customer."
Executing custom SQL
--------------------
Feel free to write custom SQL statements in custom model methods and
module-level methods. Each custom method automatically has access to the
variable ``db``, which is the current database connection. To use it, call
``db.cursor()`` to get a cursor object. Then, call ``cursor.execute(sql, [params])``
to execute the SQL and ``cursor.fetchone()`` or ``cursor.fetchall()`` to return
the resulting rows. Example::
def my_custom_sql(self):
cursor = db.cursor()
cursor.execute("SELECT foo FROM bar WHERE baz = %s", [self.baz])
row = cursor.fetchone()
return row
If your custom SQL statement alters the data in your database -- for example,
via a ``DELETE`` or ``UPDATE`` -- you'll need to call ``db.commit()``. Example::
def my_custom_sql2(self):
cursor = db.cursor()
cursor.execute("DELETE FROM bar WHERE baz = %s", [self.baz])
db.commit()
``db`` and ``cursor`` simply use the standard `Python DB-API`_. If you're not
familiar with the Python DB-API, note that the SQL statement in
``cursor.execute()`` uses placeholders, ``"%s"``, rather than adding parameters
directly within the SQL. If you use this technique, the underlying database
library will automatically add quotes and escaping to your parameter(s) as
necessary.
.. _Python DB-API: http://www.python.org/peps/pep-0249.html
Using models
============
Once you've defined a model, you'll need to "enable" it in Django. This section
explains how Django searches for available models.
Save your models in a normal Python module. Put this module within a package
called "models", which should itself be a subpackage of some other package on
your Python path. The ``__init__.py`` in your ``models`` package should contain
an ``__all__`` variable that is set to a list of all model module names within
the ``models`` directory.
If this sounds confusing, just use ``django-admin.py startapp`` -- it'll create
the proper directory structure and ``__init__.py`` files. (See the
`django-admin.py documentation`_ .)
For example, if you save your models in a module called ``mymodels.py``, here's
a directory layout you might use::
myapp/
__init__.py # Empty file
models/
__init__.py # Contains "__all__ = ['mymodels']"
mymodels.py # Contains your models
Then, you'll have to tell Django that the ``myapp`` application is installed.
Do this by editing your settings file and adding ``"myapp"`` to the
``INSTALLED_APPS`` tuple.
Again, if this sounds confusing, use ``django-admin.py startapp`` to take care
of package creation for you. This documentation exists only to explain how
Django works.
Once you've added your app to ``INSTALLED_APPS``, you can open a Python
interactive interpreter and play with your model::
>>> from django.models.mymodels import pizzas
>>> pizzas.get_list()
Note that the import is from ``django.models``, not ``myapp.models``. Django
creates a "magic" module within ``django.models`` for every installed
application. Each of those magic modules has a dynamic API. See the
`database API reference`_ for full information on how to use this API.
.. admonition:: Why is the INSTALLED_APPS setting necessary?
Model relationships work both ways, and the dynamically-generated Django API
creates API lookups in both directions. Thus, for Django to figure out all
the other models related to a particular model, it has to know the complete
spectrum of installed apps.
.. _`django-admin.py documentation`: http://www.djangoproject.com/documentation/django_admin/
.. _`database API reference`: http://www.djangoproject.com/documentation/db_api/
Models across files
===================
It's perfectly OK to relate a model to one from another module. To do this,
just import the model module at the top of your model module, like so::
from django.models import core
Make sure you're importing from ``django.models``, not directly from your model
module.
Then, just refer to the other model class wherever needed. For example::
class MyModel(meta.Model):
# ...
sites = meta.ManyToManyField(core.Site)
Models in multiple files
========================
If you want to have multiple model modules in a ``"models"`` directory, make
sure you edit ``"models/__init__.py"`` and add the name of your model module
to the ``__all__`` variable. If your ``models`` package doesn't have your model
module in ``__all__``, Django won't see any of the models in that module.