django1/django/db/models/fields/related.py

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from django.db import backend, transaction
from django.db.models import signals, get_model
from django.db.models.fields import AutoField, Field, IntegerField, get_ul_class
from django.db.models.related import RelatedObject
from django.utils.text import capfirst
from django.utils.translation import ugettext_lazy, string_concat, ungettext, ugettext as _
from django.utils.functional import curry
from django.utils.encoding import smart_unicode
from django.core import validators
from django import oldforms
from django import newforms as forms
from django.dispatch import dispatcher
try:
set
except NameError:
from sets import Set as set # Python 2.3 fallback
# Values for Relation.edit_inline.
TABULAR, STACKED = 1, 2
RECURSIVE_RELATIONSHIP_CONSTANT = 'self'
pending_lookups = {}
def add_lookup(rel_cls, field):
name = field.rel.to
module = rel_cls.__module__
key = (module, name)
# Has the model already been loaded?
# If so, resolve the string reference right away
model = get_model(rel_cls._meta.app_label, field.rel.to, False)
if model:
field.rel.to = model
field.do_related_class(model, rel_cls)
else:
# Mark the related field for later lookup
pending_lookups.setdefault(key, []).append((rel_cls, field))
def do_pending_lookups(sender):
other_cls = sender
key = (other_cls.__module__, other_cls.__name__)
for rel_cls, field in pending_lookups.setdefault(key, []):
field.rel.to = other_cls
field.do_related_class(other_cls, rel_cls)
dispatcher.connect(do_pending_lookups, signal=signals.class_prepared)
def manipulator_valid_rel_key(f, self, field_data, all_data):
"Validates that the value is a valid foreign key"
klass = f.rel.to
try:
klass._default_manager.get(**{f.rel.field_name: field_data})
except klass.DoesNotExist:
raise validators.ValidationError, _("Please enter a valid %s.") % f.verbose_name
#HACK
class RelatedField(object):
def contribute_to_class(self, cls, name):
sup = super(RelatedField, self)
# Add an accessor to allow easy determination of the related query path for this field
self.related_query_name = curry(self._get_related_query_name, cls._meta)
if hasattr(sup, 'contribute_to_class'):
sup.contribute_to_class(cls, name)
other = self.rel.to
if isinstance(other, basestring):
if other == RECURSIVE_RELATIONSHIP_CONSTANT:
self.rel.to = cls.__name__
add_lookup(cls, self)
else:
self.do_related_class(other, cls)
def set_attributes_from_rel(self):
self.name = self.name or (self.rel.to._meta.object_name.lower() + '_' + self.rel.to._meta.pk.name)
self.verbose_name = self.verbose_name or self.rel.to._meta.verbose_name
self.rel.field_name = self.rel.field_name or self.rel.to._meta.pk.name
def do_related_class(self, other, cls):
self.set_attributes_from_rel()
related = RelatedObject(other, cls, self)
self.contribute_to_related_class(other, related)
def get_db_prep_lookup(self, lookup_type, value):
# If we are doing a lookup on a Related Field, we must be
# comparing object instances. The value should be the PK of value,
# not value itself.
def pk_trace(value):
# Value may be a primary key, or an object held in a relation.
# If it is an object, then we need to get the primary key value for
# that object. In certain conditions (especially one-to-one relations),
# the primary key may itself be an object - so we need to keep drilling
# down until we hit a value that can be used for a comparison.
v = value
try:
while True:
v = getattr(v, v._meta.pk.name)
except AttributeError:
pass
return v
if lookup_type == 'exact':
return [pk_trace(value)]
if lookup_type == 'in':
return [pk_trace(v) for v in value]
elif lookup_type == 'isnull':
return []
raise TypeError, "Related Field has invalid lookup: %s" % lookup_type
def _get_related_query_name(self, opts):
# This method defines the name that can be used to identify this related object
# in a table-spanning query. It uses the lower-cased object_name by default,
# but this can be overridden with the "related_name" option.
return self.rel.related_name or opts.object_name.lower()
class SingleRelatedObjectDescriptor(object):
# This class provides the functionality that makes the related-object
# managers available as attributes on a model class, for fields that have
# a single "remote" value, on the class pointed to by a related field.
# In the example "place.restaurant", the restaurant attribute is a
# SingleRelatedObjectDescriptor instance.
def __init__(self, related):
self.related = related
def __get__(self, instance, instance_type=None):
if instance is None:
raise AttributeError, "%s must be accessed via instance" % self.related.opts.object_name
params = {'%s__pk' % self.related.field.name: instance._get_pk_val()}
rel_obj = self.related.model._default_manager.get(**params)
return rel_obj
def __set__(self, instance, value):
if instance is None:
raise AttributeError, "%s must be accessed via instance" % self.related.opts.object_name
# Set the value of the related field
setattr(value, self.related.field.rel.get_related_field().attname, instance)
# Clear the cache, if it exists
try:
delattr(value, self.related.field.get_cache_name())
except AttributeError:
pass
class ReverseSingleRelatedObjectDescriptor(object):
# This class provides the functionality that makes the related-object
# managers available as attributes on a model class, for fields that have
# a single "remote" value, on the class that defines the related field.
# In the example "choice.poll", the poll attribute is a
# ReverseSingleRelatedObjectDescriptor instance.
def __init__(self, field_with_rel):
self.field = field_with_rel
def __get__(self, instance, instance_type=None):
if instance is None:
raise AttributeError, "%s must be accessed via instance" % self.field.name
cache_name = self.field.get_cache_name()
try:
return getattr(instance, cache_name)
except AttributeError:
val = getattr(instance, self.field.attname)
if val is None:
# If NULL is an allowed value, return it.
if self.field.null:
return None
raise self.field.rel.to.DoesNotExist
other_field = self.field.rel.get_related_field()
if other_field.rel:
params = {'%s__pk' % self.field.rel.field_name: val}
else:
params = {'%s__exact' % self.field.rel.field_name: val}
rel_obj = self.field.rel.to._default_manager.get(**params)
setattr(instance, cache_name, rel_obj)
return rel_obj
def __set__(self, instance, value):
if instance is None:
raise AttributeError, "%s must be accessed via instance" % self._field.name
# Set the value of the related field
try:
val = getattr(value, self.field.rel.get_related_field().attname)
except AttributeError:
val = None
setattr(instance, self.field.attname, val)
# Clear the cache, if it exists
try:
delattr(instance, self.field.get_cache_name())
except AttributeError:
pass
class ForeignRelatedObjectsDescriptor(object):
# This class provides the functionality that makes the related-object
# managers available as attributes on a model class, for fields that have
# multiple "remote" values and have a ForeignKey pointed at them by
# some other model. In the example "poll.choice_set", the choice_set
# attribute is a ForeignRelatedObjectsDescriptor instance.
def __init__(self, related):
self.related = related # RelatedObject instance
def __get__(self, instance, instance_type=None):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
rel_field = self.related.field
rel_model = self.related.model
# Dynamically create a class that subclasses the related
# model's default manager.
superclass = self.related.model._default_manager.__class__
class RelatedManager(superclass):
def get_query_set(self):
return superclass.get_query_set(self).filter(**(self.core_filters))
def add(self, *objs):
for obj in objs:
setattr(obj, rel_field.name, instance)
obj.save()
add.alters_data = True
def create(self, **kwargs):
new_obj = self.model(**kwargs)
self.add(new_obj)
return new_obj
create.alters_data = True
# remove() and clear() are only provided if the ForeignKey can have a value of null.
if rel_field.null:
def remove(self, *objs):
val = getattr(instance, rel_field.rel.get_related_field().attname)
for obj in objs:
# Is obj actually part of this descriptor set?
if getattr(obj, rel_field.attname) == val:
setattr(obj, rel_field.name, None)
obj.save()
else:
raise rel_field.rel.to.DoesNotExist, "%r is not related to %r." % (obj, instance)
remove.alters_data = True
def clear(self):
for obj in self.all():
setattr(obj, rel_field.name, None)
obj.save()
clear.alters_data = True
manager = RelatedManager()
manager.core_filters = {'%s__pk' % rel_field.name: getattr(instance, rel_field.rel.get_related_field().attname)}
manager.model = self.related.model
return manager
def __set__(self, instance, value):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
manager = self.__get__(instance)
# If the foreign key can support nulls, then completely clear the related set.
# Otherwise, just move the named objects into the set.
if self.related.field.null:
manager.clear()
manager.add(*value)
def create_many_related_manager(superclass):
"""Creates a manager that subclasses 'superclass' (which is a Manager)
and adds behavior for many-to-many related objects."""
class ManyRelatedManager(superclass):
def __init__(self, model=None, core_filters=None, instance=None, symmetrical=None,
join_table=None, source_col_name=None, target_col_name=None):
super(ManyRelatedManager, self).__init__()
self.core_filters = core_filters
self.model = model
self.symmetrical = symmetrical
self.instance = instance
self.join_table = join_table
self.source_col_name = source_col_name
self.target_col_name = target_col_name
self._pk_val = self.instance._get_pk_val()
if self._pk_val is None:
raise ValueError("%r instance needs to have a primary key value before a many-to-many relationship can be used." % model)
def get_query_set(self):
return superclass.get_query_set(self).filter(**(self.core_filters))
def add(self, *objs):
self._add_items(self.source_col_name, self.target_col_name, *objs)
# If this is a symmetrical m2m relation to self, add the mirror entry in the m2m table
if self.symmetrical:
self._add_items(self.target_col_name, self.source_col_name, *objs)
add.alters_data = True
def remove(self, *objs):
self._remove_items(self.source_col_name, self.target_col_name, *objs)
# If this is a symmetrical m2m relation to self, remove the mirror entry in the m2m table
if self.symmetrical:
self._remove_items(self.target_col_name, self.source_col_name, *objs)
remove.alters_data = True
def clear(self):
self._clear_items(self.source_col_name)
# If this is a symmetrical m2m relation to self, clear the mirror entry in the m2m table
if self.symmetrical:
self._clear_items(self.target_col_name)
clear.alters_data = True
def create(self, **kwargs):
new_obj = self.model(**kwargs)
new_obj.save()
self.add(new_obj)
return new_obj
create.alters_data = True
def _add_items(self, source_col_name, target_col_name, *objs):
# join_table: name of the m2m link table
# source_col_name: the PK colname in join_table for the source object
# target_col_name: the PK colname in join_table for the target object
# *objs - objects to add. Either object instances, or primary keys of object instances.
from django.db import connection
# If there aren't any objects, there is nothing to do.
if objs:
# Check that all the objects are of the right type
new_ids = set()
for obj in objs:
if isinstance(obj, self.model):
new_ids.add(obj._get_pk_val())
else:
new_ids.add(obj)
# Add the newly created or already existing objects to the join table.
# First find out which items are already added, to avoid adding them twice
cursor = connection.cursor()
cursor.execute("SELECT %s FROM %s WHERE %s = %%s AND %s IN (%s)" % \
(target_col_name, self.join_table, source_col_name,
target_col_name, ",".join(['%s'] * len(new_ids))),
[self._pk_val] + list(new_ids))
existing_ids = set([row[0] for row in cursor.fetchall()])
# Add the ones that aren't there already
for obj_id in (new_ids - existing_ids):
cursor.execute("INSERT INTO %s (%s, %s) VALUES (%%s, %%s)" % \
(self.join_table, source_col_name, target_col_name),
[self._pk_val, obj_id])
transaction.commit_unless_managed()
def _remove_items(self, source_col_name, target_col_name, *objs):
# source_col_name: the PK colname in join_table for the source object
# target_col_name: the PK colname in join_table for the target object
# *objs - objects to remove
from django.db import connection
# If there aren't any objects, there is nothing to do.
if objs:
# Check that all the objects are of the right type
old_ids = set()
for obj in objs:
if isinstance(obj, self.model):
old_ids.add(obj._get_pk_val())
else:
old_ids.add(obj)
# Remove the specified objects from the join table
cursor = connection.cursor()
cursor.execute("DELETE FROM %s WHERE %s = %%s AND %s IN (%s)" % \
(self.join_table, source_col_name,
target_col_name, ",".join(['%s'] * len(old_ids))),
[self._pk_val] + list(old_ids))
transaction.commit_unless_managed()
def _clear_items(self, source_col_name):
# source_col_name: the PK colname in join_table for the source object
from django.db import connection
cursor = connection.cursor()
cursor.execute("DELETE FROM %s WHERE %s = %%s" % \
(self.join_table, source_col_name),
[self._pk_val])
transaction.commit_unless_managed()
return ManyRelatedManager
class ManyRelatedObjectsDescriptor(object):
# This class provides the functionality that makes the related-object
# managers available as attributes on a model class, for fields that have
# multiple "remote" values and have a ManyToManyField pointed at them by
# some other model (rather than having a ManyToManyField themselves).
# In the example "publication.article_set", the article_set attribute is a
# ManyRelatedObjectsDescriptor instance.
def __init__(self, related):
self.related = related # RelatedObject instance
def __get__(self, instance, instance_type=None):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
# Dynamically create a class that subclasses the related
# model's default manager.
rel_model = self.related.model
superclass = rel_model._default_manager.__class__
RelatedManager = create_many_related_manager(superclass)
qn = backend.quote_name
manager = RelatedManager(
model=rel_model,
core_filters={'%s__pk' % self.related.field.name: instance._get_pk_val()},
instance=instance,
symmetrical=False,
join_table=qn(self.related.field.m2m_db_table()),
source_col_name=qn(self.related.field.m2m_reverse_name()),
target_col_name=qn(self.related.field.m2m_column_name())
)
return manager
def __set__(self, instance, value):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
manager = self.__get__(instance)
manager.clear()
manager.add(*value)
class ReverseManyRelatedObjectsDescriptor(object):
# This class provides the functionality that makes the related-object
# managers available as attributes on a model class, for fields that have
# multiple "remote" values and have a ManyToManyField defined in their
# model (rather than having another model pointed *at* them).
# In the example "article.publications", the publications attribute is a
# ReverseManyRelatedObjectsDescriptor instance.
def __init__(self, m2m_field):
self.field = m2m_field
def __get__(self, instance, instance_type=None):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
# Dynamically create a class that subclasses the related
# model's default manager.
rel_model=self.field.rel.to
superclass = rel_model._default_manager.__class__
RelatedManager = create_many_related_manager(superclass)
qn = backend.quote_name
manager = RelatedManager(
model=rel_model,
core_filters={'%s__pk' % self.field.related_query_name(): instance._get_pk_val()},
instance=instance,
symmetrical=(self.field.rel.symmetrical and instance.__class__ == rel_model),
join_table=qn(self.field.m2m_db_table()),
source_col_name=qn(self.field.m2m_column_name()),
target_col_name=qn(self.field.m2m_reverse_name())
)
return manager
def __set__(self, instance, value):
if instance is None:
raise AttributeError, "Manager must be accessed via instance"
manager = self.__get__(instance)
manager.clear()
manager.add(*value)
class ForeignKey(RelatedField, Field):
empty_strings_allowed = False
def __init__(self, to, to_field=None, **kwargs):
try:
to_name = to._meta.object_name.lower()
except AttributeError: # to._meta doesn't exist, so it must be RECURSIVE_RELATIONSHIP_CONSTANT
assert isinstance(to, basestring), "ForeignKey(%r) is invalid. First parameter to ForeignKey must be either a model, a model name, or the string %r" % (to, RECURSIVE_RELATIONSHIP_CONSTANT)
else:
to_field = to_field or to._meta.pk.name
kwargs['verbose_name'] = kwargs.get('verbose_name', '')
if 'edit_inline_type' in kwargs:
import warnings
warnings.warn("edit_inline_type is deprecated. Use edit_inline instead.")
kwargs['edit_inline'] = kwargs.pop('edit_inline_type')
kwargs['rel'] = ManyToOneRel(to, to_field,
num_in_admin=kwargs.pop('num_in_admin', 3),
min_num_in_admin=kwargs.pop('min_num_in_admin', None),
max_num_in_admin=kwargs.pop('max_num_in_admin', None),
num_extra_on_change=kwargs.pop('num_extra_on_change', 1),
edit_inline=kwargs.pop('edit_inline', False),
related_name=kwargs.pop('related_name', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
lookup_overrides=kwargs.pop('lookup_overrides', None),
raw_id_admin=kwargs.pop('raw_id_admin', False))
Field.__init__(self, **kwargs)
self.db_index = True
def get_attname(self):
return '%s_id' % self.name
def get_validator_unique_lookup_type(self):
return '%s__%s__exact' % (self.name, self.rel.get_related_field().name)
def prepare_field_objs_and_params(self, manipulator, name_prefix):
params = {'validator_list': self.validator_list[:], 'member_name': name_prefix + self.attname}
if self.rel.raw_id_admin:
field_objs = self.get_manipulator_field_objs()
params['validator_list'].append(curry(manipulator_valid_rel_key, self, manipulator))
else:
if self.radio_admin:
field_objs = [oldforms.RadioSelectField]
params['ul_class'] = get_ul_class(self.radio_admin)
else:
if self.null:
field_objs = [oldforms.NullSelectField]
else:
field_objs = [oldforms.SelectField]
params['choices'] = self.get_choices_default()
return field_objs, params
def get_manipulator_field_objs(self):
rel_field = self.rel.get_related_field()
if self.rel.raw_id_admin and not isinstance(rel_field, AutoField):
return rel_field.get_manipulator_field_objs()
else:
return [oldforms.IntegerField]
def get_db_prep_save(self, value):
if value == '' or value == None:
return None
else:
return self.rel.get_related_field().get_db_prep_save(value)
def flatten_data(self, follow, obj=None):
if not obj:
# In required many-to-one fields with only one available choice,
# select that one available choice. Note: For SelectFields
# (radio_admin=False), we have to check that the length of choices
# is *2*, not 1, because SelectFields always have an initial
# "blank" value. Otherwise (radio_admin=True), we check that the
# length is 1.
if not self.blank and (not self.rel.raw_id_admin or self.choices):
choice_list = self.get_choices_default()
if self.radio_admin and len(choice_list) == 1:
return {self.attname: choice_list[0][0]}
if not self.radio_admin and len(choice_list) == 2:
return {self.attname: choice_list[1][0]}
return Field.flatten_data(self, follow, obj)
def contribute_to_class(self, cls, name):
super(ForeignKey, self).contribute_to_class(cls, name)
setattr(cls, self.name, ReverseSingleRelatedObjectDescriptor(self))
def contribute_to_related_class(self, cls, related):
setattr(cls, related.get_accessor_name(), ForeignRelatedObjectsDescriptor(related))
def formfield(self, **kwargs):
defaults = {'form_class': forms.ModelChoiceField, 'queryset': self.rel.to._default_manager.all()}
defaults.update(kwargs)
return super(ForeignKey, self).formfield(**defaults)
class OneToOneField(RelatedField, IntegerField):
def __init__(self, to, to_field=None, **kwargs):
try:
to_name = to._meta.object_name.lower()
except AttributeError: # to._meta doesn't exist, so it must be RECURSIVE_RELATIONSHIP_CONSTANT
assert isinstance(to, basestring), "OneToOneField(%r) is invalid. First parameter to OneToOneField must be either a model, a model name, or the string %r" % (to, RECURSIVE_RELATIONSHIP_CONSTANT)
else:
to_field = to_field or to._meta.pk.name
kwargs['verbose_name'] = kwargs.get('verbose_name', '')
if 'edit_inline_type' in kwargs:
import warnings
warnings.warn("edit_inline_type is deprecated. Use edit_inline instead.")
kwargs['edit_inline'] = kwargs.pop('edit_inline_type')
kwargs['rel'] = OneToOneRel(to, to_field,
num_in_admin=kwargs.pop('num_in_admin', 0),
edit_inline=kwargs.pop('edit_inline', False),
related_name=kwargs.pop('related_name', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
lookup_overrides=kwargs.pop('lookup_overrides', None),
raw_id_admin=kwargs.pop('raw_id_admin', False))
kwargs['primary_key'] = True
IntegerField.__init__(self, **kwargs)
self.db_index = True
def get_attname(self):
return '%s_id' % self.name
def get_validator_unique_lookup_type(self):
return '%s__%s__exact' % (self.name, self.rel.get_related_field().name)
# TODO: Copied from ForeignKey... putting this in RelatedField adversely affects
# ManyToManyField. This works for now.
def prepare_field_objs_and_params(self, manipulator, name_prefix):
params = {'validator_list': self.validator_list[:], 'member_name': name_prefix + self.attname}
if self.rel.raw_id_admin:
field_objs = self.get_manipulator_field_objs()
params['validator_list'].append(curry(manipulator_valid_rel_key, self, manipulator))
else:
if self.radio_admin:
field_objs = [oldforms.RadioSelectField]
params['ul_class'] = get_ul_class(self.radio_admin)
else:
if self.null:
field_objs = [oldforms.NullSelectField]
else:
field_objs = [oldforms.SelectField]
params['choices'] = self.get_choices_default()
return field_objs, params
def contribute_to_class(self, cls, name):
super(OneToOneField, self).contribute_to_class(cls, name)
setattr(cls, self.name, ReverseSingleRelatedObjectDescriptor(self))
def contribute_to_related_class(self, cls, related):
setattr(cls, related.get_accessor_name(), SingleRelatedObjectDescriptor(related))
if not cls._meta.one_to_one_field:
cls._meta.one_to_one_field = self
def formfield(self, **kwargs):
defaults = {'form_class': forms.ModelChoiceField, 'queryset': self.rel.to._default_manager.all()}
defaults.update(kwargs)
return super(OneToOneField, self).formfield(**defaults)
class ManyToManyField(RelatedField, Field):
def __init__(self, to, **kwargs):
kwargs['verbose_name'] = kwargs.get('verbose_name', None)
kwargs['rel'] = ManyToManyRel(to,
num_in_admin=kwargs.pop('num_in_admin', 0),
related_name=kwargs.pop('related_name', None),
filter_interface=kwargs.pop('filter_interface', None),
limit_choices_to=kwargs.pop('limit_choices_to', None),
raw_id_admin=kwargs.pop('raw_id_admin', False),
symmetrical=kwargs.pop('symmetrical', True))
self.db_table = kwargs.pop('db_table', None)
if kwargs["rel"].raw_id_admin:
kwargs.setdefault("validator_list", []).append(self.isValidIDList)
Field.__init__(self, **kwargs)
if self.rel.raw_id_admin:
msg = ugettext_lazy('Separate multiple IDs with commas.')
else:
msg = ugettext_lazy('Hold down "Control", or "Command" on a Mac, to select more than one.')
self.help_text = string_concat(self.help_text, ' ', msg)
def get_manipulator_field_objs(self):
if self.rel.raw_id_admin:
return [oldforms.RawIdAdminField]
else:
choices = self.get_choices_default()
return [curry(oldforms.SelectMultipleField, size=min(max(len(choices), 5), 15), choices=choices)]
def get_choices_default(self):
return Field.get_choices(self, include_blank=False)
def _get_m2m_db_table(self, opts):
"Function that can be curried to provide the m2m table name for this relation"
if self.db_table:
return self.db_table
else:
return '%s_%s' % (opts.db_table, self.name)
def _get_m2m_column_name(self, related):
"Function that can be curried to provide the source column name for the m2m table"
# If this is an m2m relation to self, avoid the inevitable name clash
if related.model == related.parent_model:
return 'from_' + related.model._meta.object_name.lower() + '_id'
else:
return related.model._meta.object_name.lower() + '_id'
def _get_m2m_reverse_name(self, related):
"Function that can be curried to provide the related column name for the m2m table"
# If this is an m2m relation to self, avoid the inevitable name clash
if related.model == related.parent_model:
return 'to_' + related.parent_model._meta.object_name.lower() + '_id'
else:
return related.parent_model._meta.object_name.lower() + '_id'
def isValidIDList(self, field_data, all_data):
"Validates that the value is a valid list of foreign keys"
mod = self.rel.to
try:
pks = map(int, field_data.split(','))
except ValueError:
# the CommaSeparatedIntegerField validator will catch this error
return
objects = mod._default_manager.in_bulk(pks)
if len(objects) != len(pks):
badkeys = [k for k in pks if k not in objects]
raise validators.ValidationError, ungettext("Please enter valid %(self)s IDs. The value %(value)r is invalid.",
"Please enter valid %(self)s IDs. The values %(value)r are invalid.", len(badkeys)) % {
'self': self.verbose_name,
'value': len(badkeys) == 1 and badkeys[0] or tuple(badkeys),
}
def flatten_data(self, follow, obj = None):
new_data = {}
if obj:
instance_ids = [instance._get_pk_val() for instance in getattr(obj, self.name).all()]
if self.rel.raw_id_admin:
new_data[self.name] = u",".join([smart_unicode(id) for id in instance_ids])
else:
new_data[self.name] = instance_ids
else:
# In required many-to-many fields with only one available choice,
# select that one available choice.
if not self.blank and not self.rel.edit_inline and not self.rel.raw_id_admin:
choices_list = self.get_choices_default()
if len(choices_list) == 1:
new_data[self.name] = [choices_list[0][0]]
return new_data
def contribute_to_class(self, cls, name):
super(ManyToManyField, self).contribute_to_class(cls, name)
# Add the descriptor for the m2m relation
setattr(cls, self.name, ReverseManyRelatedObjectsDescriptor(self))
# Set up the accessor for the m2m table name for the relation
self.m2m_db_table = curry(self._get_m2m_db_table, cls._meta)
def contribute_to_related_class(self, cls, related):
# m2m relations to self do not have a ManyRelatedObjectsDescriptor,
# as it would be redundant - unless the field is non-symmetrical.
if related.model != related.parent_model or not self.rel.symmetrical:
# Add the descriptor for the m2m relation
setattr(cls, related.get_accessor_name(), ManyRelatedObjectsDescriptor(related))
# Set up the accessors for the column names on the m2m table
self.m2m_column_name = curry(self._get_m2m_column_name, related)
self.m2m_reverse_name = curry(self._get_m2m_reverse_name, related)
def set_attributes_from_rel(self):
pass
def value_from_object(self, obj):
"Returns the value of this field in the given model instance."
return getattr(obj, self.attname).all()
def formfield(self, **kwargs):
defaults = {'form_class': forms.ModelMultipleChoiceField, 'queryset': self.rel.to._default_manager.all()}
defaults.update(kwargs)
# If initial is passed in, it's a list of related objects, but the
# MultipleChoiceField takes a list of IDs.
if defaults.get('initial') is not None:
defaults['initial'] = [i._get_pk_val() for i in defaults['initial']]
return super(ManyToManyField, self).formfield(**defaults)
class ManyToOneRel(object):
def __init__(self, to, field_name, num_in_admin=3, min_num_in_admin=None,
max_num_in_admin=None, num_extra_on_change=1, edit_inline=False,
related_name=None, limit_choices_to=None, lookup_overrides=None, raw_id_admin=False):
try:
to._meta
except AttributeError: # to._meta doesn't exist, so it must be RECURSIVE_RELATIONSHIP_CONSTANT
assert isinstance(to, basestring), "'to' must be either a model, a model name or the string %r" % RECURSIVE_RELATIONSHIP_CONSTANT
self.to, self.field_name = to, field_name
self.num_in_admin, self.edit_inline = num_in_admin, edit_inline
self.min_num_in_admin, self.max_num_in_admin = min_num_in_admin, max_num_in_admin
self.num_extra_on_change, self.related_name = num_extra_on_change, related_name
if limit_choices_to is None:
limit_choices_to = {}
self.limit_choices_to = limit_choices_to
self.lookup_overrides = lookup_overrides or {}
self.raw_id_admin = raw_id_admin
self.multiple = True
def get_related_field(self):
"Returns the Field in the 'to' object to which this relationship is tied."
return self.to._meta.get_field(self.field_name)
class OneToOneRel(ManyToOneRel):
def __init__(self, to, field_name, num_in_admin=0, edit_inline=False,
related_name=None, limit_choices_to=None, lookup_overrides=None,
raw_id_admin=False):
self.to, self.field_name = to, field_name
self.num_in_admin, self.edit_inline = num_in_admin, edit_inline
self.related_name = related_name
if limit_choices_to is None:
limit_choices_to = {}
self.limit_choices_to = limit_choices_to
self.lookup_overrides = lookup_overrides or {}
self.raw_id_admin = raw_id_admin
self.multiple = False
class ManyToManyRel(object):
def __init__(self, to, num_in_admin=0, related_name=None,
filter_interface=None, limit_choices_to=None, raw_id_admin=False, symmetrical=True):
self.to = to
self.num_in_admin = num_in_admin
self.related_name = related_name
self.filter_interface = filter_interface
if limit_choices_to is None:
limit_choices_to = {}
self.limit_choices_to = limit_choices_to
self.edit_inline = False
self.raw_id_admin = raw_id_admin
self.symmetrical = symmetrical
self.multiple = True
assert not (self.raw_id_admin and self.filter_interface), "ManyToManyRels may not use both raw_id_admin and filter_interface"