python/lib/Lib/site-packages/django/contrib/contenttypes/generic.py - platform/tools/idea - Git at Google

 """
 Classes allowing "generic" relations through ContentType and object-id fields.
 """

 from django.core.exceptions import ObjectDoesNotExist
 from django.db import connection
 from django.db.models import signals
 from django.db import models, router, DEFAULT_DB_ALIAS
 from django.db.models.fields.related import RelatedField, Field, ManyToManyRel
 from django.db.models.loading import get_model
 from django.forms import ModelForm
 from django.forms.models import BaseModelFormSet, modelformset_factory, save_instance
 from django.contrib.admin.options import InlineModelAdmin, flatten_fieldsets
 from django.utils.encoding import smart_unicode
 from django.utils.functional import curry

 from django.contrib.contenttypes.models import ContentType


 class GenericForeignKey(object):
     """
     Provides a generic relation to any object through content-type/object-id
     fields.
     """

     def __init__(self, ct_field="content_type", fk_field="object_id"):
         self.ct_field = ct_field
         self.fk_field = fk_field

     def contribute_to_class(self, cls, name):
         self.name = name
         self.model = cls
         self.cache_attr = "_%s_cache" % name
         cls._meta.add_virtual_field(self)

         # For some reason I don't totally understand, using weakrefs here doesn't work.
         signals.pre_init.connect(self.instance_pre_init, sender=cls, weak=False)

         # Connect myself as the descriptor for this field
         setattr(cls, name, self)

     def instance_pre_init(self, signal, sender, args, kwargs, **_kwargs):
         """
         Handles initializing an object with the generic FK instaed of
         content-type/object-id fields.
         """
         if self.name in kwargs:
             value = kwargs.pop(self.name)
             kwargs[self.ct_field] = self.get_content_type(obj=value)
             kwargs[self.fk_field] = value._get_pk_val()

     def get_content_type(self, obj=None, id=None, using=None):
         # Convenience function using get_model avoids a circular import when
         # using this model
         ContentType = get_model("contenttypes", "contenttype")
         if obj:
              return ContentType.objects.db_manager(obj._state.db).get_for_model(obj)
         elif id:
              return ContentType.objects.db_manager(using).get_for_id(id)
         else:
             # This should never happen. I love comments like this, don't you?
             raise Exception("Impossible arguments to GFK.get_content_type!")

     def __get__(self, instance, instance_type=None):
         if instance is None:
             return self

         try:
             return getattr(instance, self.cache_attr)
         except AttributeError:
             rel_obj = None

             # Make sure to use ContentType.objects.get_for_id() to ensure that
             # lookups are cached (see ticket #5570). This takes more code than
             # the naive ``getattr(instance, self.ct_field)``, but has better
             # performance when dealing with GFKs in loops and such.
             f = self.model._meta.get_field(self.ct_field)
             ct_id = getattr(instance, f.get_attname(), None)
             if ct_id:
                 ct = self.get_content_type(id=ct_id, using=instance._state.db)
                 try:
                     rel_obj = ct.get_object_for_this_type(pk=getattr(instance, self.fk_field))
                 except ObjectDoesNotExist:
                     pass
             setattr(instance, self.cache_attr, rel_obj)
             return rel_obj

     def __set__(self, instance, value):
         if instance is None:
             raise AttributeError(u"%s must be accessed via instance" % self.related.opts.object_name)

         ct = None
         fk = None
         if value is not None:
             ct = self.get_content_type(obj=value)
             fk = value._get_pk_val()

         setattr(instance, self.ct_field, ct)
         setattr(instance, self.fk_field, fk)
         setattr(instance, self.cache_attr, value)

 class GenericRelation(RelatedField, Field):
     """Provides an accessor to generic related objects (e.g. comments)"""

     def __init__(self, to, **kwargs):
         kwargs['verbose_name'] = kwargs.get('verbose_name', None)
         kwargs['rel'] = GenericRel(to,
                             related_name=kwargs.pop('related_name', None),
                             limit_choices_to=kwargs.pop('limit_choices_to', None),
                             symmetrical=kwargs.pop('symmetrical', True))


         # Override content-type/object-id field names on the related class
         self.object_id_field_name = kwargs.pop("object_id_field", "object_id")
         self.content_type_field_name = kwargs.pop("content_type_field", "content_type")

         kwargs['blank'] = True
         kwargs['editable'] = False
         kwargs['serialize'] = False
         Field.__init__(self, **kwargs)

     def get_choices_default(self):
         return Field.get_choices(self, include_blank=False)

     def value_to_string(self, obj):
         qs = getattr(obj, self.name).all()
         return smart_unicode([instance._get_pk_val() for instance in qs])

     def m2m_db_table(self):
         return self.rel.to._meta.db_table

     def m2m_column_name(self):
         return self.object_id_field_name

     def m2m_reverse_name(self):
         return self.rel.to._meta.pk.column

     def contribute_to_class(self, cls, name):
         super(GenericRelation, self).contribute_to_class(cls, name)

         # Save a reference to which model this class is on for future use
         self.model = cls

         # Add the descriptor for the m2m relation
         setattr(cls, self.name, ReverseGenericRelatedObjectsDescriptor(self))

     def contribute_to_related_class(self, cls, related):
         pass

     def set_attributes_from_rel(self):
         pass

     def get_internal_type(self):
         return "ManyToManyField"

     def db_type(self, connection):
         # Since we're simulating a ManyToManyField, in effect, best return the
         # same db_type as well.
         return None

     def extra_filters(self, pieces, pos, negate):
         """
         Return an extra filter to the queryset so that the results are filtered
         on the appropriate content type.
         """
         if negate:
             return []
         ContentType = get_model("contenttypes", "contenttype")
         content_type = ContentType.objects.get_for_model(self.model)
         prefix = "__".join(pieces[:pos + 1])
         return [("%s__%s" % (prefix, self.content_type_field_name),
             content_type)]

     def bulk_related_objects(self, objs, using=DEFAULT_DB_ALIAS):
         """
         Return all objects related to ``objs`` via this ``GenericRelation``.

         """
         return self.rel.to._base_manager.db_manager(using).filter(**{
                 "%s__pk" % self.content_type_field_name:
                     ContentType.objects.db_manager(using).get_for_model(self.model).pk,
                 "%s__in" % self.object_id_field_name:
                     [obj.pk for obj in objs]
                 })


 class ReverseGenericRelatedObjectsDescriptor(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 GenericRelation defined in their model
     (rather than having another model pointed *at* them). In the example
     "article.publications", the publications attribute is a
     ReverseGenericRelatedObjectsDescriptor instance.
     """
     def __init__(self, field):
         self.field = field

     def __get__(self, instance, instance_type=None):
         if instance is None:
             return self

         # This import is done here to avoid circular import importing this module
         from django.contrib.contenttypes.models import ContentType

         # 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_generic_related_manager(superclass)

         qn = connection.ops.quote_name

         manager = RelatedManager(
             model = rel_model,
             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()),
             content_type = ContentType.objects.db_manager(instance._state.db).get_for_model(instance),
             content_type_field_name = self.field.content_type_field_name,
             object_id_field_name = self.field.object_id_field_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()
         for obj in value:
             manager.add(obj)

 def create_generic_related_manager(superclass):
     """
     Factory function for a manager that subclasses 'superclass' (which is a
     Manager) and adds behavior for generic related objects.
     """

     class GenericRelatedObjectManager(superclass):
         def __init__(self, model=None, core_filters=None, instance=None, symmetrical=None,
                      join_table=None, source_col_name=None, target_col_name=None, content_type=None,
                      content_type_field_name=None, object_id_field_name=None):

             super(GenericRelatedObjectManager, self).__init__()
             self.core_filters = core_filters or {}
             self.model = model
             self.content_type = content_type
             self.symmetrical = symmetrical
             self.instance = instance
             self.join_table = join_table
             self.join_table = model._meta.db_table
             self.source_col_name = source_col_name
             self.target_col_name = target_col_name
             self.content_type_field_name = content_type_field_name
             self.object_id_field_name = object_id_field_name
             self.pk_val = self.instance._get_pk_val()

         def get_query_set(self):
             db = self._db or router.db_for_read(self.model, instance=self.instance)
             query = {
                 '%s__pk' % self.content_type_field_name : self.content_type.id,
                 '%s__exact' % self.object_id_field_name : self.pk_val,
             }
             return superclass.get_query_set(self).using(db).filter(**query)

         def add(self, *objs):
             for obj in objs:
                 if not isinstance(obj, self.model):
                     raise TypeError("'%s' instance expected" % self.model._meta.object_name)
                 setattr(obj, self.content_type_field_name, self.content_type)
                 setattr(obj, self.object_id_field_name, self.pk_val)
                 obj.save()
         add.alters_data = True

         def remove(self, *objs):
             db = router.db_for_write(self.model, instance=self.instance)
             for obj in objs:
                 obj.delete(using=db)
         remove.alters_data = True

         def clear(self):
             db = router.db_for_write(self.model, instance=self.instance)
             for obj in self.all():
                 obj.delete(using=db)
         clear.alters_data = True

         def create(self, **kwargs):
             kwargs[self.content_type_field_name] = self.content_type
             kwargs[self.object_id_field_name] = self.pk_val
             db = router.db_for_write(self.model, instance=self.instance)
             return super(GenericRelatedObjectManager, self).using(db).create(**kwargs)
         create.alters_data = True

     return GenericRelatedObjectManager

 class GenericRel(ManyToManyRel):
     def __init__(self, to, related_name=None, limit_choices_to=None, symmetrical=True):
         self.to = to
         self.related_name = related_name
         self.limit_choices_to = limit_choices_to or {}
         self.symmetrical = symmetrical
         self.multiple = True
         self.through = None

 class BaseGenericInlineFormSet(BaseModelFormSet):
     """
     A formset for generic inline objects to a parent.
     """

     def __init__(self, data=None, files=None, instance=None, save_as_new=None,
                  prefix=None, queryset=None):
         # Avoid a circular import.
         from django.contrib.contenttypes.models import ContentType
         opts = self.model._meta
         self.instance = instance
         self.rel_name = '-'.join((
             opts.app_label, opts.object_name.lower(),
             self.ct_field.name, self.ct_fk_field.name,
         ))
         if self.instance is None or self.instance.pk is None:
             qs = self.model._default_manager.none()
         else:
             if queryset is None:
                 queryset = self.model._default_manager
             qs = queryset.filter(**{
                 self.ct_field.name: ContentType.objects.get_for_model(self.instance),
                 self.ct_fk_field.name: self.instance.pk,
             })
         super(BaseGenericInlineFormSet, self).__init__(
             queryset=qs, data=data, files=files,
             prefix=prefix
         )

     #@classmethod
     def get_default_prefix(cls):
         opts = cls.model._meta
         return '-'.join((opts.app_label, opts.object_name.lower(),
                         cls.ct_field.name, cls.ct_fk_field.name,
         ))
     get_default_prefix = classmethod(get_default_prefix)

     def save_new(self, form, commit=True):
         # Avoid a circular import.
         from django.contrib.contenttypes.models import ContentType
         kwargs = {
             self.ct_field.get_attname(): ContentType.objects.get_for_model(self.instance).pk,
             self.ct_fk_field.get_attname(): self.instance.pk,
         }
         new_obj = self.model(**kwargs)
         return save_instance(form, new_obj, commit=commit)

 def generic_inlineformset_factory(model, form=ModelForm,
                                   formset=BaseGenericInlineFormSet,
                                   ct_field="content_type", fk_field="object_id",
                                   fields=None, exclude=None,
                                   extra=3, can_order=False, can_delete=True,
                                   max_num=None,
                                   formfield_callback=lambda f: f.formfield()):
     """
     Returns an ``GenericInlineFormSet`` for the given kwargs.

     You must provide ``ct_field`` and ``object_id`` if they different from the
     defaults ``content_type`` and ``object_id`` respectively.
     """
     opts = model._meta
     # Avoid a circular import.
     from django.contrib.contenttypes.models import ContentType
     # if there is no field called `ct_field` let the exception propagate
     ct_field = opts.get_field(ct_field)
     if not isinstance(ct_field, models.ForeignKey) or ct_field.rel.to != ContentType:
         raise Exception("fk_name '%s' is not a ForeignKey to ContentType" % ct_field)
     fk_field = opts.get_field(fk_field) # let the exception propagate
     if exclude is not None:
         exclude = list(exclude)
         exclude.extend([ct_field.name, fk_field.name])
     else:
         exclude = [ct_field.name, fk_field.name]
     FormSet = modelformset_factory(model, form=form,
                                    formfield_callback=formfield_callback,
                                    formset=formset,
                                    extra=extra, can_delete=can_delete, can_order=can_order,
                                    fields=fields, exclude=exclude, max_num=max_num)
     FormSet.ct_field = ct_field
     FormSet.ct_fk_field = fk_field
     return FormSet

 class GenericInlineModelAdmin(InlineModelAdmin):
     ct_field = "content_type"
     ct_fk_field = "object_id"
     formset = BaseGenericInlineFormSet

     def get_formset(self, request, obj=None):
         if self.declared_fieldsets:
             fields = flatten_fieldsets(self.declared_fieldsets)
         else:
             fields = None
         if self.exclude is None:
             exclude = []
         else:
             exclude = list(self.exclude)
         exclude.extend(self.get_readonly_fields(request, obj))
         exclude = exclude or None
         defaults = {
             "ct_field": self.ct_field,
             "fk_field": self.ct_fk_field,
             "form": self.form,
             "formfield_callback": curry(self.formfield_for_dbfield, request=request),
             "formset": self.formset,
             "extra": self.extra,
             "can_delete": self.can_delete,
             "can_order": False,
             "fields": fields,
             "max_num": self.max_num,
             "exclude": exclude
         }
         return generic_inlineformset_factory(self.model, **defaults)

 class GenericStackedInline(GenericInlineModelAdmin):
     template = 'admin/edit_inline/stacked.html'

 class GenericTabularInline(GenericInlineModelAdmin):
     template = 'admin/edit_inline/tabular.html'
	"""
	Classes allowing "generic" relations through ContentType and object-id fields.
	"""

	from django.core.exceptions import ObjectDoesNotExist
	from django.db import connection
	from django.db.models import signals
	from django.db import models, router, DEFAULT_DB_ALIAS
	from django.db.models.fields.related import RelatedField, Field, ManyToManyRel
	from django.db.models.loading import get_model
	from django.forms import ModelForm
	from django.forms.models import BaseModelFormSet, modelformset_factory, save_instance
	from django.contrib.admin.options import InlineModelAdmin, flatten_fieldsets
	from django.utils.encoding import smart_unicode
	from django.utils.functional import curry

	from django.contrib.contenttypes.models import ContentType


	class GenericForeignKey(object):
	"""
	Provides a generic relation to any object through content-type/object-id
	fields.
	"""

	def __init__(self, ct_field="content_type", fk_field="object_id"):
	self.ct_field = ct_field
	self.fk_field = fk_field

	def contribute_to_class(self, cls, name):
	self.name = name
	self.model = cls
	self.cache_attr = "_%s_cache" % name
	cls._meta.add_virtual_field(self)

	# For some reason I don't totally understand, using weakrefs here doesn't work.
	signals.pre_init.connect(self.instance_pre_init, sender=cls, weak=False)

	# Connect myself as the descriptor for this field
	setattr(cls, name, self)

	def instance_pre_init(self, signal, sender, args, kwargs, **_kwargs):
	"""
	Handles initializing an object with the generic FK instaed of
	content-type/object-id fields.
	"""
	if self.name in kwargs:
	value = kwargs.pop(self.name)
	kwargs[self.ct_field] = self.get_content_type(obj=value)
	kwargs[self.fk_field] = value._get_pk_val()

	def get_content_type(self, obj=None, id=None, using=None):
	# Convenience function using get_model avoids a circular import when
	# using this model
	ContentType = get_model("contenttypes", "contenttype")
	if obj:
	return ContentType.objects.db_manager(obj._state.db).get_for_model(obj)
	elif id:
	return ContentType.objects.db_manager(using).get_for_id(id)
	else:
	# This should never happen. I love comments like this, don't you?
	raise Exception("Impossible arguments to GFK.get_content_type!")

	def __get__(self, instance, instance_type=None):
	if instance is None:
	return self

	try:
	return getattr(instance, self.cache_attr)
	except AttributeError:
	rel_obj = None

	# Make sure to use ContentType.objects.get_for_id() to ensure that
	# lookups are cached (see ticket #5570). This takes more code than
	# the naive ``getattr(instance, self.ct_field)``, but has better
	# performance when dealing with GFKs in loops and such.
	f = self.model._meta.get_field(self.ct_field)
	ct_id = getattr(instance, f.get_attname(), None)
	if ct_id:
	ct = self.get_content_type(id=ct_id, using=instance._state.db)
	try:
	rel_obj = ct.get_object_for_this_type(pk=getattr(instance, self.fk_field))
	except ObjectDoesNotExist:
	pass
	setattr(instance, self.cache_attr, rel_obj)
	return rel_obj

	def __set__(self, instance, value):
	if instance is None:
	raise AttributeError(u"%s must be accessed via instance" % self.related.opts.object_name)

	ct = None
	fk = None
	if value is not None:
	ct = self.get_content_type(obj=value)
	fk = value._get_pk_val()

	setattr(instance, self.ct_field, ct)
	setattr(instance, self.fk_field, fk)
	setattr(instance, self.cache_attr, value)

	class GenericRelation(RelatedField, Field):
	"""Provides an accessor to generic related objects (e.g. comments)"""

	def __init__(self, to, **kwargs):
	kwargs['verbose_name'] = kwargs.get('verbose_name', None)
	kwargs['rel'] = GenericRel(to,
	related_name=kwargs.pop('related_name', None),
	limit_choices_to=kwargs.pop('limit_choices_to', None),
	symmetrical=kwargs.pop('symmetrical', True))


	# Override content-type/object-id field names on the related class
	self.object_id_field_name = kwargs.pop("object_id_field", "object_id")
	self.content_type_field_name = kwargs.pop("content_type_field", "content_type")

	kwargs['blank'] = True
	kwargs['editable'] = False
	kwargs['serialize'] = False
	Field.__init__(self, **kwargs)

	def get_choices_default(self):
	return Field.get_choices(self, include_blank=False)

	def value_to_string(self, obj):
	qs = getattr(obj, self.name).all()
	return smart_unicode([instance._get_pk_val() for instance in qs])

	def m2m_db_table(self):
	return self.rel.to._meta.db_table

	def m2m_column_name(self):
	return self.object_id_field_name

	def m2m_reverse_name(self):
	return self.rel.to._meta.pk.column

	def contribute_to_class(self, cls, name):
	super(GenericRelation, self).contribute_to_class(cls, name)

	# Save a reference to which model this class is on for future use
	self.model = cls

	# Add the descriptor for the m2m relation
	setattr(cls, self.name, ReverseGenericRelatedObjectsDescriptor(self))

	def contribute_to_related_class(self, cls, related):
	pass

	def set_attributes_from_rel(self):
	pass

	def get_internal_type(self):
	return "ManyToManyField"

	def db_type(self, connection):
	# Since we're simulating a ManyToManyField, in effect, best return the
	# same db_type as well.
	return None

	def extra_filters(self, pieces, pos, negate):
	"""
	Return an extra filter to the queryset so that the results are filtered
	on the appropriate content type.
	"""
	if negate:
	return []
	ContentType = get_model("contenttypes", "contenttype")
	content_type = ContentType.objects.get_for_model(self.model)
	prefix = "__".join(pieces[:pos + 1])
	return [("%s__%s" % (prefix, self.content_type_field_name),
	content_type)]

	def bulk_related_objects(self, objs, using=DEFAULT_DB_ALIAS):
	"""
	Return all objects related to ``objs`` via this ``GenericRelation``.

	"""
	return self.rel.to._base_manager.db_manager(using).filter(**{
	"%s__pk" % self.content_type_field_name:
	ContentType.objects.db_manager(using).get_for_model(self.model).pk,
	"%s__in" % self.object_id_field_name:
	[obj.pk for obj in objs]
	})


	class ReverseGenericRelatedObjectsDescriptor(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 GenericRelation defined in their model
	(rather than having another model pointed at them). In the example
	"article.publications", the publications attribute is a
	ReverseGenericRelatedObjectsDescriptor instance.
	"""
	def __init__(self, field):
	self.field = field

	def __get__(self, instance, instance_type=None):
	if instance is None:
	return self

	# This import is done here to avoid circular import importing this module
	from django.contrib.contenttypes.models import ContentType

	# 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_generic_related_manager(superclass)

	qn = connection.ops.quote_name

	manager = RelatedManager(
	model = rel_model,
	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()),
	content_type = ContentType.objects.db_manager(instance._state.db).get_for_model(instance),
	content_type_field_name = self.field.content_type_field_name,
	object_id_field_name = self.field.object_id_field_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()
	for obj in value:
	manager.add(obj)

	def create_generic_related_manager(superclass):
	"""
	Factory function for a manager that subclasses 'superclass' (which is a
	Manager) and adds behavior for generic related objects.
	"""

	class GenericRelatedObjectManager(superclass):
	def __init__(self, model=None, core_filters=None, instance=None, symmetrical=None,
	join_table=None, source_col_name=None, target_col_name=None, content_type=None,
	content_type_field_name=None, object_id_field_name=None):

	super(GenericRelatedObjectManager, self).__init__()
	self.core_filters = core_filters or {}
	self.model = model
	self.content_type = content_type
	self.symmetrical = symmetrical
	self.instance = instance
	self.join_table = join_table
	self.join_table = model._meta.db_table
	self.source_col_name = source_col_name
	self.target_col_name = target_col_name
	self.content_type_field_name = content_type_field_name
	self.object_id_field_name = object_id_field_name
	self.pk_val = self.instance._get_pk_val()

	def get_query_set(self):
	db = self._db or router.db_for_read(self.model, instance=self.instance)
	query = {
	'%s__pk' % self.content_type_field_name : self.content_type.id,
	'%s__exact' % self.object_id_field_name : self.pk_val,
	}
	return superclass.get_query_set(self).using(db).filter(**query)

	def add(self, *objs):
	for obj in objs:
	if not isinstance(obj, self.model):
	raise TypeError("'%s' instance expected" % self.model._meta.object_name)
	setattr(obj, self.content_type_field_name, self.content_type)
	setattr(obj, self.object_id_field_name, self.pk_val)
	obj.save()
	add.alters_data = True

	def remove(self, *objs):
	db = router.db_for_write(self.model, instance=self.instance)
	for obj in objs:
	obj.delete(using=db)
	remove.alters_data = True

	def clear(self):
	db = router.db_for_write(self.model, instance=self.instance)
	for obj in self.all():
	obj.delete(using=db)
	clear.alters_data = True

	def create(self, **kwargs):
	kwargs[self.content_type_field_name] = self.content_type
	kwargs[self.object_id_field_name] = self.pk_val
	db = router.db_for_write(self.model, instance=self.instance)
	return super(GenericRelatedObjectManager, self).using(db).create(**kwargs)
	create.alters_data = True

	return GenericRelatedObjectManager

	class GenericRel(ManyToManyRel):
	def __init__(self, to, related_name=None, limit_choices_to=None, symmetrical=True):
	self.to = to
	self.related_name = related_name
	self.limit_choices_to = limit_choices_to or {}
	self.symmetrical = symmetrical
	self.multiple = True
	self.through = None

	class BaseGenericInlineFormSet(BaseModelFormSet):
	"""
	A formset for generic inline objects to a parent.
	"""

	def __init__(self, data=None, files=None, instance=None, save_as_new=None,
	prefix=None, queryset=None):
	# Avoid a circular import.
	from django.contrib.contenttypes.models import ContentType
	opts = self.model._meta
	self.instance = instance
	self.rel_name = '-'.join((
	opts.app_label, opts.object_name.lower(),
	self.ct_field.name, self.ct_fk_field.name,
	))
	if self.instance is None or self.instance.pk is None:
	qs = self.model._default_manager.none()
	else:
	if queryset is None:
	queryset = self.model._default_manager
	qs = queryset.filter(**{
	self.ct_field.name: ContentType.objects.get_for_model(self.instance),
	self.ct_fk_field.name: self.instance.pk,
	})
	super(BaseGenericInlineFormSet, self).__init__(
	queryset=qs, data=data, files=files,
	prefix=prefix
	)

	#@classmethod
	def get_default_prefix(cls):
	opts = cls.model._meta
	return '-'.join((opts.app_label, opts.object_name.lower(),
	cls.ct_field.name, cls.ct_fk_field.name,
	))
	get_default_prefix = classmethod(get_default_prefix)

	def save_new(self, form, commit=True):
	# Avoid a circular import.
	from django.contrib.contenttypes.models import ContentType
	kwargs = {
	self.ct_field.get_attname(): ContentType.objects.get_for_model(self.instance).pk,
	self.ct_fk_field.get_attname(): self.instance.pk,
	}
	new_obj = self.model(**kwargs)
	return save_instance(form, new_obj, commit=commit)

	def generic_inlineformset_factory(model, form=ModelForm,
	formset=BaseGenericInlineFormSet,
	ct_field="content_type", fk_field="object_id",
	fields=None, exclude=None,
	extra=3, can_order=False, can_delete=True,
	max_num=None,
	formfield_callback=lambda f: f.formfield()):
	"""
	Returns an ``GenericInlineFormSet`` for the given kwargs.

	You must provide ``ct_field`` and ``object_id`` if they different from the
	defaults ``content_type`` and ``object_id`` respectively.
	"""
	opts = model._meta
	# Avoid a circular import.
	from django.contrib.contenttypes.models import ContentType
	# if there is no field called `ct_field` let the exception propagate
	ct_field = opts.get_field(ct_field)
	if not isinstance(ct_field, models.ForeignKey) or ct_field.rel.to != ContentType:
	raise Exception("fk_name '%s' is not a ForeignKey to ContentType" % ct_field)
	fk_field = opts.get_field(fk_field) # let the exception propagate
	if exclude is not None:
	exclude = list(exclude)
	exclude.extend([ct_field.name, fk_field.name])
	else:
	exclude = [ct_field.name, fk_field.name]
	FormSet = modelformset_factory(model, form=form,
	formfield_callback=formfield_callback,
	formset=formset,
	extra=extra, can_delete=can_delete, can_order=can_order,
	fields=fields, exclude=exclude, max_num=max_num)
	FormSet.ct_field = ct_field
	FormSet.ct_fk_field = fk_field
	return FormSet

	class GenericInlineModelAdmin(InlineModelAdmin):
	ct_field = "content_type"
	ct_fk_field = "object_id"
	formset = BaseGenericInlineFormSet

	def get_formset(self, request, obj=None):
	if self.declared_fieldsets:
	fields = flatten_fieldsets(self.declared_fieldsets)
	else:
	fields = None
	if self.exclude is None:
	exclude = []
	else:
	exclude = list(self.exclude)
	exclude.extend(self.get_readonly_fields(request, obj))
	exclude = exclude or None
	defaults = {
	"ct_field": self.ct_field,
	"fk_field": self.ct_fk_field,
	"form": self.form,
	"formfield_callback": curry(self.formfield_for_dbfield, request=request),
	"formset": self.formset,
	"extra": self.extra,
	"can_delete": self.can_delete,
	"can_order": False,
	"fields": fields,
	"max_num": self.max_num,
	"exclude": exclude
	}
	return generic_inlineformset_factory(self.model, **defaults)

	class GenericStackedInline(GenericInlineModelAdmin):
	template = 'admin/edit_inline/stacked.html'

	class GenericTabularInline(GenericInlineModelAdmin):
	template = 'admin/edit_inline/tabular.html'