_meta
API¶The model _meta
API is at the core of the Django ORM. It enables other
parts of the system such as lookups, queries, forms, and the admin to
understand the capabilities of each model. The API is accessible through
the _meta
attribute of each model class, which is an instance of an
django.db.models.options.Options
object.
Methods that it provides can be used to:
Options.
get_field
(field_name)[source]¶Returns the field instance given a name of a field.
field_name
can be the name of a field on the model, a field
on an abstract or inherited model, or a field defined on another
model that points to the model. In the latter case, the field_name
will be (in order of preference) the related_query_name
set by the user, the related_name
set by the user, or
the name automatically generated by Django.
Hidden fields
cannot be retrieved
by name.
If a field with the given name is not found a
FieldDoesNotExist
exception will be
raised.
>>> from django.contrib.auth.models import User
# A field on the model
>>> User._meta.get_field('username')
<django.db.models.fields.CharField: username>
# A field from another model that has a relation with the current model
>>> User._meta.get_field('logentry')
<ManyToOneRel: admin.logentry>
# A non existent field
>>> User._meta.get_field('does_not_exist')
Traceback (most recent call last):
...
FieldDoesNotExist: User has no field named 'does_not_exist'
Options.
get_fields
(include_parents=True, include_hidden=False)[source]¶Returns a tuple of fields associated with a model. get_fields()
accepts
two parameters that can be used to control which fields are returned:
include_parents
True
by default. Recursively includes fields defined on parent
classes. If set to False
, get_fields()
will only search for
fields declared directly on the current model. Fields from models that
directly inherit from abstract models or proxy classes are considered
to be local, not on the parent.include_hidden
False
by default. If set to True
, get_fields()
will include
fields that are used to back other field’s functionality. This will
also include any fields that have a related_name
(such
as ManyToManyField
, or
ForeignKey
) that start with a “+”.>>> from django.contrib.auth.models import User
>>> User._meta.get_fields()
(<ManyToOneRel: admin.logentry>,
<django.db.models.fields.AutoField: id>,
<django.db.models.fields.CharField: password>,
<django.db.models.fields.DateTimeField: last_login>,
<django.db.models.fields.BooleanField: is_superuser>,
<django.db.models.fields.CharField: username>,
<django.db.models.fields.CharField: first_name>,
<django.db.models.fields.CharField: last_name>,
<django.db.models.fields.EmailField: email>,
<django.db.models.fields.BooleanField: is_staff>,
<django.db.models.fields.BooleanField: is_active>,
<django.db.models.fields.DateTimeField: date_joined>,
<django.db.models.fields.related.ManyToManyField: groups>,
<django.db.models.fields.related.ManyToManyField: user_permissions>)
# Also include hidden fields.
>>> User._meta.get_fields(include_hidden=True)
(<ManyToOneRel: auth.user_groups>,
<ManyToOneRel: auth.user_user_permissions>,
<ManyToOneRel: admin.logentry>,
<django.db.models.fields.AutoField: id>,
<django.db.models.fields.CharField: password>,
<django.db.models.fields.DateTimeField: last_login>,
<django.db.models.fields.BooleanField: is_superuser>,
<django.db.models.fields.CharField: username>,
<django.db.models.fields.CharField: first_name>,
<django.db.models.fields.CharField: last_name>,
<django.db.models.fields.EmailField: email>,
<django.db.models.fields.BooleanField: is_staff>,
<django.db.models.fields.BooleanField: is_active>,
<django.db.models.fields.DateTimeField: date_joined>,
<django.db.models.fields.related.ManyToManyField: groups>,
<django.db.models.fields.related.ManyToManyField: user_permissions>)
As part of the formalization of the Model._meta
API (from the
django.db.models.options.Options
class), a number of methods and
properties have been deprecated and will be removed in Django 1.10.
These old APIs can be replicated by either:
Options.get_field()
, or;Options.get_fields()
to retrieve a list of all
fields, and then filtering this list using the field attributes that describe (or retrieve, in the case of
_with_model
variants) the properties of the desired fields.Although it’s possible to make strictly equivalent replacements of the old methods, that might not be the best approach. Taking the time to refactor any field loops to make better use of the new API - and possibly include fields that were previously excluded - will almost certainly result in better code.
Assuming you have a model named MyModel
, the following substitutions
can be made to convert your code to the new API:
MyModel._meta.get_field(name)
becomes:
f = MyModel._meta.get_field(name)
then check if:
f.auto_created == False
, because the new get_field()
API will find “reverse” relations, and:f.is_relation and f.related_model is None
, because the new
get_field()
API will find
GenericForeignKey
relations.MyModel._meta.get_field_by_name(name)
returns a tuple of these four
values with the following replacements:
field
can be found by MyModel._meta.get_field(name)
model
can be found through the
model
attribute on the field.
direct
can be found by: not field.auto_created or field.concrete
The auto_created
check excludes
all “forward” and “reverse” relations that are created by Django, but
this also includes AutoField
and OneToOneField
on proxy models.
We avoid filtering out these attributes using the
concrete
attribute.
m2m
can be found through the
many_to_many
attribute on the field.
MyModel._meta.get_fields_with_model()
becomes:
[
(f, f.model if f.model != MyModel else None)
for f in MyModel._meta.get_fields()
if not f.is_relation
or f.one_to_one
or (f.many_to_one and f.related_model)
]
MyModel._meta.get_concrete_fields_with_model()
becomes:
[
(f, f.model if f.model != MyModel else None)
for f in MyModel._meta.get_fields()
if f.concrete and (
not f.is_relation
or f.one_to_one
or (f.many_to_one and f.related_model)
)
]
MyModel._meta.get_m2m_with_model()
becomes:
[
(f, f.model if f.model != MyModel else None)
for f in MyModel._meta.get_fields()
if f.many_to_many and not f.auto_created
]
MyModel._meta.get_all_related_objects()
becomes:
[
f for f in MyModel._meta.get_fields()
if (f.one_to_many or f.one_to_one)
and f.auto_created and not f.concrete
]
MyModel._meta.get_all_related_objects_with_model()
becomes:
[
(f, f.model if f.model != MyModel else None)
for f in MyModel._meta.get_fields()
if (f.one_to_many or f.one_to_one)
and f.auto_created and not f.concrete
]
MyModel._meta.get_all_related_many_to_many_objects()
becomes:
[
f for f in MyModel._meta.get_fields(include_hidden=True)
if f.many_to_many and f.auto_created
]
MyModel._meta.get_all_related_m2m_objects_with_model()
becomes:
[
(f, f.model if f.model != MyModel else None)
for f in MyModel._meta.get_fields(include_hidden=True)
if f.many_to_many and f.auto_created
]
MyModel._meta.get_all_field_names()
becomes:
from itertools import chain
list(set(chain.from_iterable(
(field.name, field.attname) if hasattr(field, 'attname') else (field.name,)
for field in MyModel._meta.get_fields()
# For complete backwards compatibility, you may want to exclude
# GenericForeignKey from the results.
if not (field.many_to_one and field.related_model is None)
)))
This provides a 100% backwards compatible replacement, ensuring that both
field names and attribute names ForeignKey
s are included, but fields
associated with GenericForeignKey
s are not. A simpler version would be:
[f.name for f in MyModel._meta.get_fields()]
While this isn’t 100% backwards compatible, it may be sufficient in many situations.
Jul 24, 2018