This document explains all the possible metadata options that you can give your model in its internal class Meta
.
Meta
optionsabstract
Options.abstract
If abstract = True
, this model will be an abstract base class.
app_label
Options.app_label
If a model is defined outside of an application in INSTALLED_APPS
, it must declare which app it belongs to:
app_label = 'myapp'
If you want to represent a model with the format app_label.object_name
or app_label.model_name
you can use model._meta.label
or model._meta.label_lower
respectively.
base_manager_name
Options.base_manager_name
The attribute name of the manager, for example, 'objects'
, to use for the model’s _base_manager
.
db_table
Options.db_table
The name of the database table to use for the model:
db_table = 'music_album'
To save you time, Django automatically derives the name of the database table from the name of your model class and the app that contains it. A model’s database table name is constructed by joining the model’s “app label” – the name you used in manage.py startapp
– to the model’s class name, with an underscore between them.
For example, if you have an app bookstore
(as created by manage.py startapp bookstore
), a model defined as class Book
will have a database table named bookstore_book
.
To override the database table name, use the db_table
parameter in class Meta
.
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.
Use lowercase table names for MariaDB and MySQL
It is strongly advised that you use lowercase table names when you override the table name via db_table
, particularly if you are using the MySQL backend. See the MySQL notes for more details.
Table name quoting for Oracle
In order to meet the 30-char limitation Oracle has on table names, and match the usual conventions for Oracle databases, Django may shorten table names and turn them all-uppercase. To prevent such transformations, use a quoted name as the value for db_table
:
db_table = '"name_left_in_lowercase"'
Such quoted names can also be used with Django’s other supported database backends; except for Oracle, however, the quotes have no effect. See the Oracle notes for more details.
db_tablespace
Options.db_tablespace
The name of the database tablespace to use for this model. The default is the project’s DEFAULT_TABLESPACE
setting, if set. If the backend doesn’t support tablespaces, this option is ignored.
default_manager_name
Options.default_manager_name
The name of the manager to use for the model’s _default_manager
.
default_related_name
get_latest_by
Options.get_latest_by
The name of a field or a list of field names in the model, typically DateField
, DateTimeField
, or IntegerField
. This specifies the default field(s) to use in your model Manager
’s latest()
and earliest()
methods.
Example:
# Latest by ascending order_date. get_latest_by = "order_date" # Latest by priority descending, order_date ascending. get_latest_by = ['-priority', 'order_date']
See the latest()
docs for more.
managed
Options.managed
Defaults to True
, meaning Django will create the appropriate database tables in migrate
or as part of migrations and remove them as part of a flush
management command. That is, Django manages the database tables’ lifecycles.
If False
, no database table creation, modification, or deletion operations will be performed for this model. This is useful if the model represents an existing table or a database view that has been created by some other means. This is the only difference when managed=False
. All other aspects of model handling are exactly the same as normal. This includes
If a model with managed=False
contains a ManyToManyField
that points to another unmanaged model, then the intermediate table for the many-to-many join will also not be created. However, the intermediary table between one managed and one unmanaged model will be created.
If you need to change this default behavior, create the intermediary table as an explicit model (with managed
set as needed) and use the ManyToManyField.through
attribute to make the relation use your custom model.
For tests involving models with managed=False
, it’s up to you to ensure the correct tables are created as part of the test setup.
If you’re interested in changing the Python-level behavior of a model class, you could use managed=False
and create a copy of an existing model. However, there’s a better approach for that situation: Proxy models.
order_with_respect_to
Options.order_with_respect_to
Makes this object orderable with respect to the given field, usually a ForeignKey
. This can be used to make related objects orderable with respect to a parent object. For example, if an Answer
relates to a Question
object, and a question has more than one answer, and the order of answers matters, you’d do this:
from django.db import models class Question(models.Model): text = models.TextField() # ... class Answer(models.Model): question = models.ForeignKey(Question, on_delete=models.CASCADE) # ... class Meta: order_with_respect_to = 'question'
When order_with_respect_to
is set, two additional methods are provided to retrieve and to set the order of the related objects: get_RELATED_order()
and set_RELATED_order()
, where RELATED
is the lowercased model name. For example, assuming that a Question
object has multiple related Answer
objects, the list returned contains the primary keys of the related Answer
objects:
>>> question = Question.objects.get(id=1) >>> question.get_answer_order() [1, 2, 3]
The order of a Question
object’s related Answer
objects can be set by passing in a list of Answer
primary keys:
>>> question.set_answer_order([3, 1, 2])
The related objects also get two methods, get_next_in_order()
and get_previous_in_order()
, which can be used to access those objects in their proper order. Assuming the Answer
objects are ordered by id
:
>>> answer = Answer.objects.get(id=2) >>> answer.get_next_in_order() <Answer: 3> >>> answer.get_previous_in_order() <Answer: 1>
order_with_respect_to
implicitly sets the ordering
option
Internally, order_with_respect_to
adds an additional field/database column named _order
and sets the model’s ordering
option to this field. Consequently, order_with_respect_to
and ordering
cannot be used together, and the ordering added by order_with_respect_to
will apply whenever you obtain a list of objects of this model.
Changing order_with_respect_to
Because order_with_respect_to
adds a new database column, be sure to make and apply the appropriate migrations if you add or change order_with_respect_to
after your initial migrate
.
ordering
Options.ordering
The default ordering for the object, for use when obtaining lists of objects:
ordering = ['-order_date']
This is a tuple or list of strings and/or query expressions. 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.
For example, to order by a pub_date
field ascending, use this:
ordering = ['pub_date']
To order by pub_date
descending, use this:
ordering = ['-pub_date']
To order by pub_date
descending, then by author
ascending, use this:
ordering = ['-pub_date', 'author']
You can also use query expressions. To order by author
ascending and make null values sort last, use this:
from django.db.models import F ordering = [F('author').asc(nulls_last=True)]
Warning
Ordering is not a free operation. Each field you add to the ordering incurs a cost to your database. Each foreign key you add will implicitly include all of its default orderings as well.
If a query doesn’t have an ordering specified, results are returned from the database in an unspecified order. A particular ordering is guaranteed only when ordering by a set of fields that uniquely identify each object in the results. For example, if a name
field isn’t unique, ordering by it won’t guarantee objects with the same name always appear in the same order.
permissions
Options.permissions
Extra permissions to enter into the permissions table when creating this object. Add, change, delete, and view permissions are automatically created for each model. 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)
.
default_permissions
Options.default_permissions
Defaults to ('add', 'change', 'delete', 'view')
. You may customize this list, for example, by setting this to an empty list if your app doesn’t require any of the default permissions. It must be specified on the model before the model is created by migrate
in order to prevent any omitted permissions from being created.
proxy
Options.proxy
If proxy = True
, a model which subclasses another model will be treated as a proxy model.
required_db_features
Options.required_db_features
List of database features that the current connection should have so that the model is considered during the migration phase. For example, if you set this list to ['gis_enabled']
, the model will only be synchronized on GIS-enabled databases. It’s also useful to skip some models when testing with several database backends. Avoid relations between models that may or may not be created as the ORM doesn’t handle this.
required_db_vendor
Options.required_db_vendor
Name of a supported database vendor that this model is specific to. Current built-in vendor names are: sqlite
, postgresql
, mysql
, oracle
. If this attribute is not empty and the current connection vendor doesn’t match it, the model will not be synchronized.
select_on_save
Options.select_on_save
Determines if Django will use the pre-1.6 django.db.models.Model.save()
algorithm. The old algorithm uses SELECT
to determine if there is an existing row to be updated. The new algorithm tries an UPDATE
directly. In some rare cases the UPDATE
of an existing row isn’t visible to Django. An example is the PostgreSQL ON UPDATE
trigger which returns NULL
. In such cases the new algorithm will end up doing an INSERT
even when a row exists in the database.
Usually there is no need to set this attribute. The default is False
.
See django.db.models.Model.save()
for more about the old and new saving algorithm.
indexes
Options.indexes
A list of indexes that you want to define on the model:
from django.db import models class Customer(models.Model): first_name = models.CharField(max_length=100) last_name = models.CharField(max_length=100) class Meta: indexes = [ models.Index(fields=['last_name', 'first_name']), models.Index(fields=['first_name'], name='first_name_idx'), ]
unique_together
Options.unique_together
Sets of field names that, taken together, must be unique:
unique_together = [['driver', 'restaurant']]
This is a list of lists 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).
For convenience, unique_together
can be a single list when dealing with a single set of fields:
unique_together = ['driver', 'restaurant']
A ManyToManyField
cannot be included in unique_together. (It’s not clear what that would even mean!) If you need to validate uniqueness related to a ManyToManyField
, try using a signal or an explicit through
model.
The ValidationError
raised during model validation when the constraint is violated has the unique_together
error code.
index_together
Options.index_together
Sets of field names that, taken together, are indexed:
index_together = [ ["pub_date", "deadline"], ]
This list of fields will be indexed together (i.e. the appropriate CREATE INDEX
statement will be issued.)
For convenience, index_together
can be a single list when dealing with a single set of fields:
index_together = ["pub_date", "deadline"]
constraints
Options.constraints
A list of constraints that you want to define on the model:
from django.db import models class Customer(models.Model): age = models.IntegerField() class Meta: constraints = [ models.CheckConstraint(check=models.Q(age__gte=18), name='age_gte_18'), ]
verbose_name
Options.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
Options.verbose_name_plural
The plural name for the object:
verbose_name_plural = "stories"
If this isn’t given, Django will use verbose_name
+ "s"
.
Meta
attributeslabel
Options.label
Representation of the object, returns app_label.object_name
, e.g. 'polls.Question'
.
label_lower
Options.label_lower
Representation of the model, returns app_label.model_name
, e.g. 'polls.question'
.
© Django Software Foundation and individual contributors
Licensed under the BSD License.
https://docs.djangoproject.com/en/3.2/ref/models/options/