django1/django/db/models/deletion.py

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from functools import wraps
from operator import attrgetter
from django.db import connections, transaction, IntegrityError
from django.db.models import signals, sql
from django.utils.datastructures import SortedDict
from django.utils import six
class ProtectedError(IntegrityError):
def __init__(self, msg, protected_objects):
self.protected_objects = protected_objects
super(ProtectedError, self).__init__(msg, protected_objects)
def CASCADE(collector, field, sub_objs, using):
collector.collect(sub_objs, source=field.rel.to,
source_attr=field.name, nullable=field.null)
if field.null and not connections[using].features.can_defer_constraint_checks:
collector.add_field_update(field, None, sub_objs)
def PROTECT(collector, field, sub_objs, using):
raise ProtectedError("Cannot delete some instances of model '%s' because "
"they are referenced through a protected foreign key: '%s.%s'" % (
field.rel.to.__name__, sub_objs[0].__class__.__name__, field.name
),
sub_objs
)
def SET(value):
if callable(value):
def set_on_delete(collector, field, sub_objs, using):
collector.add_field_update(field, value(), sub_objs)
else:
def set_on_delete(collector, field, sub_objs, using):
collector.add_field_update(field, value, sub_objs)
return set_on_delete
SET_NULL = SET(None)
def SET_DEFAULT(collector, field, sub_objs, using):
collector.add_field_update(field, field.get_default(), sub_objs)
def DO_NOTHING(collector, field, sub_objs, using):
pass
def force_managed(func):
@wraps(func)
def decorated(self, *args, **kwargs):
if not transaction.is_managed(using=self.using):
transaction.enter_transaction_management(using=self.using)
forced_managed = True
else:
forced_managed = False
try:
func(self, *args, **kwargs)
if forced_managed:
transaction.commit(using=self.using)
else:
transaction.commit_unless_managed(using=self.using)
finally:
if forced_managed:
transaction.leave_transaction_management(using=self.using)
return decorated
class Collector(object):
def __init__(self, using):
self.using = using
# Initially, {model: set([instances])}, later values become lists.
self.data = {}
self.batches = {} # {model: {field: set([instances])}}
self.field_updates = {} # {model: {(field, value): set([instances])}}
# Tracks deletion-order dependency for databases without transactions
# or ability to defer constraint checks. Only concrete model classes
# should be included, as the dependencies exist only between actual
# database tables; proxy models are represented here by their concrete
# parent.
self.dependencies = {} # {model: set([models])}
def add(self, objs, source=None, nullable=False, reverse_dependency=False):
"""
Adds 'objs' to the collection of objects to be deleted. If the call is
the result of a cascade, 'source' should be the model that caused it,
and 'nullable' should be set to True if the relation can be null.
Returns a list of all objects that were not already collected.
"""
if not objs:
return []
new_objs = []
model = objs[0].__class__
instances = self.data.setdefault(model, set())
for obj in objs:
if obj not in instances:
new_objs.append(obj)
instances.update(new_objs)
# Nullable relationships can be ignored -- they are nulled out before
# deleting, and therefore do not affect the order in which objects have
# to be deleted.
if source is not None and not nullable:
if reverse_dependency:
source, model = model, source
self.dependencies.setdefault(
source._meta.concrete_model, set()).add(model._meta.concrete_model)
return new_objs
def add_batch(self, model, field, objs):
"""
Schedules a batch delete. Every instance of 'model' that is related to
an instance of 'obj' through 'field' will be deleted.
"""
self.batches.setdefault(model, {}).setdefault(field, set()).update(objs)
def add_field_update(self, field, value, objs):
"""
Schedules a field update. 'objs' must be a homogenous iterable
collection of model instances (e.g. a QuerySet).
"""
if not objs:
return
model = objs[0].__class__
self.field_updates.setdefault(
model, {}).setdefault(
(field, value), set()).update(objs)
def collect(self, objs, source=None, nullable=False, collect_related=True,
source_attr=None, reverse_dependency=False):
"""
Adds 'objs' to the collection of objects to be deleted as well as all
parent instances. 'objs' must be a homogenous iterable collection of
model instances (e.g. a QuerySet). If 'collect_related' is True,
related objects will be handled by their respective on_delete handler.
If the call is the result of a cascade, 'source' should be the model
that caused it and 'nullable' should be set to True, if the relation
can be null.
If 'reverse_dependency' is True, 'source' will be deleted before the
current model, rather than after. (Needed for cascading to parent
models, the one case in which the cascade follows the forwards
direction of an FK rather than the reverse direction.)
"""
new_objs = self.add(objs, source, nullable,
reverse_dependency=reverse_dependency)
if not new_objs:
return
model = new_objs[0].__class__
# Recursively collect concrete model's parent models, but not their
# related objects. These will be found by meta.get_all_related_objects()
concrete_model = model._meta.concrete_model
for ptr in six.itervalues(concrete_model._meta.parents):
if ptr:
parent_objs = [getattr(obj, ptr.name) for obj in new_objs]
self.collect(parent_objs, source=model,
source_attr=ptr.rel.related_name,
collect_related=False,
reverse_dependency=True)
if collect_related:
for related in model._meta.get_all_related_objects(
include_hidden=True, include_proxy_eq=True):
field = related.field
if related.model._meta.auto_created:
self.add_batch(related.model, field, new_objs)
else:
sub_objs = self.related_objects(related, new_objs)
if not sub_objs:
continue
field.rel.on_delete(self, field, sub_objs, self.using)
# TODO This entire block is only needed as a special case to
# support cascade-deletes for GenericRelation. It should be
# removed/fixed when the ORM gains a proper abstraction for virtual
# or composite fields, and GFKs are reworked to fit into that.
for relation in model._meta.many_to_many:
if not relation.rel.through:
sub_objs = relation.bulk_related_objects(new_objs, self.using)
self.collect(sub_objs,
source=model,
source_attr=relation.rel.related_name,
nullable=True)
def related_objects(self, related, objs):
"""
Gets a QuerySet of objects related to ``objs`` via the relation ``related``.
"""
return related.model._base_manager.using(self.using).filter(
**{"%s__in" % related.field.name: objs}
)
def instances_with_model(self):
for model, instances in six.iteritems(self.data):
for obj in instances:
yield model, obj
def sort(self):
sorted_models = []
concrete_models = set()
models = list(six.iterkeys(self.data))
while len(sorted_models) < len(models):
found = False
for model in models:
if model in sorted_models:
continue
dependencies = self.dependencies.get(model._meta.concrete_model)
if not (dependencies and dependencies.difference(concrete_models)):
sorted_models.append(model)
concrete_models.add(model._meta.concrete_model)
found = True
if not found:
return
self.data = SortedDict([(model, self.data[model])
for model in sorted_models])
@force_managed
def delete(self):
# sort instance collections
for model, instances in self.data.items():
self.data[model] = sorted(instances, key=attrgetter("pk"))
# if possible, bring the models in an order suitable for databases that
# don't support transactions or cannot defer constraint checks until the
# end of a transaction.
self.sort()
# send pre_delete signals
for model, obj in self.instances_with_model():
if not model._meta.auto_created:
signals.pre_delete.send(
sender=model, instance=obj, using=self.using
)
# update fields
for model, instances_for_fieldvalues in six.iteritems(self.field_updates):
query = sql.UpdateQuery(model)
for (field, value), instances in six.iteritems(instances_for_fieldvalues):
query.update_batch([obj.pk for obj in instances],
{field.name: value}, self.using)
# reverse instance collections
for instances in six.itervalues(self.data):
instances.reverse()
# delete batches
for model, batches in six.iteritems(self.batches):
query = sql.DeleteQuery(model)
for field, instances in six.iteritems(batches):
query.delete_batch([obj.pk for obj in instances], self.using, field)
# delete instances
for model, instances in six.iteritems(self.data):
query = sql.DeleteQuery(model)
pk_list = [obj.pk for obj in instances]
query.delete_batch(pk_list, self.using)
# send post_delete signals
for model, obj in self.instances_with_model():
if not model._meta.auto_created:
signals.post_delete.send(
sender=model, instance=obj, using=self.using
)
# update collected instances
for model, instances_for_fieldvalues in six.iteritems(self.field_updates):
for (field, value), instances in six.iteritems(instances_for_fieldvalues):
for obj in instances:
setattr(obj, field.attname, value)
for model, instances in six.iteritems(self.data):
for instance in instances:
setattr(instance, model._meta.pk.attname, None)