1206 lines
53 KiB
Python
1206 lines
53 KiB
Python
"""
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Accessors for related objects.
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When a field defines a relation between two models, each model class provides
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an attribute to access related instances of the other model class (unless the
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reverse accessor has been disabled with related_name='+').
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Accessors are implemented as descriptors in order to customize access and
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assignment. This module defines the descriptor classes.
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Forward accessors follow foreign keys. Reverse accessors trace them back. For
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example, with the following models::
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class Parent(Model):
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pass
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class Child(Model):
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parent = ForeignKey(Parent, related_name='children')
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``child.parent`` is a forward many-to-one relation. ``parent.children`` is a
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reverse many-to-one relation.
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There are three types of relations (many-to-one, one-to-one, and many-to-many)
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and two directions (forward and reverse) for a total of six combinations.
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1. Related instance on the forward side of a many-to-one relation:
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``ForwardManyToOneDescriptor``.
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Uniqueness of foreign key values is irrelevant to accessing the related
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instance, making the many-to-one and one-to-one cases identical as far as
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the descriptor is concerned. The constraint is checked upstream (unicity
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validation in forms) or downstream (unique indexes in the database).
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2. Related instance on the forward side of a one-to-one
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relation: ``ForwardOneToOneDescriptor``.
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It avoids querying the database when accessing the parent link field in
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a multi-table inheritance scenario.
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3. Related instance on the reverse side of a one-to-one relation:
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``ReverseOneToOneDescriptor``.
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One-to-one relations are asymmetrical, despite the apparent symmetry of the
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name, because they're implemented in the database with a foreign key from
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one table to another. As a consequence ``ReverseOneToOneDescriptor`` is
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slightly different from ``ForwardManyToOneDescriptor``.
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4. Related objects manager for related instances on the reverse side of a
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many-to-one relation: ``ReverseManyToOneDescriptor``.
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Unlike the previous two classes, this one provides access to a collection
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of objects. It returns a manager rather than an instance.
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5. Related objects manager for related instances on the forward or reverse
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sides of a many-to-many relation: ``ManyToManyDescriptor``.
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Many-to-many relations are symmetrical. The syntax of Django models
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requires declaring them on one side but that's an implementation detail.
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They could be declared on the other side without any change in behavior.
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Therefore the forward and reverse descriptors can be the same.
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If you're looking for ``ForwardManyToManyDescriptor`` or
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``ReverseManyToManyDescriptor``, use ``ManyToManyDescriptor`` instead.
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"""
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from django.core.exceptions import FieldError
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from django.db import connections, router, transaction
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from django.db.models import Q, signals
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from django.db.models.query import QuerySet
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from django.db.models.query_utils import DeferredAttribute
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from django.db.models.utils import resolve_callables
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from django.utils.functional import cached_property
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class ForeignKeyDeferredAttribute(DeferredAttribute):
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def __set__(self, instance, value):
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if instance.__dict__.get(self.field.attname) != value and self.field.is_cached(instance):
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self.field.delete_cached_value(instance)
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instance.__dict__[self.field.attname] = value
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class ForwardManyToOneDescriptor:
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"""
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Accessor to the related object on the forward side of a many-to-one or
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one-to-one (via ForwardOneToOneDescriptor subclass) relation.
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In the example::
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class Child(Model):
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parent = ForeignKey(Parent, related_name='children')
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``Child.parent`` is a ``ForwardManyToOneDescriptor`` instance.
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"""
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def __init__(self, field_with_rel):
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self.field = field_with_rel
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@cached_property
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def RelatedObjectDoesNotExist(self):
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# The exception can't be created at initialization time since the
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# related model might not be resolved yet; `self.field.model` might
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# still be a string model reference.
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return type(
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'RelatedObjectDoesNotExist',
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(self.field.remote_field.model.DoesNotExist, AttributeError), {
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'__module__': self.field.model.__module__,
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'__qualname__': '%s.%s.RelatedObjectDoesNotExist' % (
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self.field.model.__qualname__,
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self.field.name,
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),
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}
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)
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def is_cached(self, instance):
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return self.field.is_cached(instance)
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def get_queryset(self, **hints):
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return self.field.remote_field.model._base_manager.db_manager(hints=hints).all()
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def get_prefetch_queryset(self, instances, queryset=None):
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if queryset is None:
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queryset = self.get_queryset()
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queryset._add_hints(instance=instances[0])
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rel_obj_attr = self.field.get_foreign_related_value
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instance_attr = self.field.get_local_related_value
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instances_dict = {instance_attr(inst): inst for inst in instances}
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related_field = self.field.foreign_related_fields[0]
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remote_field = self.field.remote_field
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# FIXME: This will need to be revisited when we introduce support for
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# composite fields. In the meantime we take this practical approach to
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# solve a regression on 1.6 when the reverse manager in hidden
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# (related_name ends with a '+'). Refs #21410.
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# The check for len(...) == 1 is a special case that allows the query
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# to be join-less and smaller. Refs #21760.
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if remote_field.is_hidden() or len(self.field.foreign_related_fields) == 1:
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query = {'%s__in' % related_field.name: {instance_attr(inst)[0] for inst in instances}}
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else:
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query = {'%s__in' % self.field.related_query_name(): instances}
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queryset = queryset.filter(**query)
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# Since we're going to assign directly in the cache,
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# we must manage the reverse relation cache manually.
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if not remote_field.multiple:
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for rel_obj in queryset:
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instance = instances_dict[rel_obj_attr(rel_obj)]
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remote_field.set_cached_value(rel_obj, instance)
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return queryset, rel_obj_attr, instance_attr, True, self.field.get_cache_name(), False
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def get_object(self, instance):
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qs = self.get_queryset(instance=instance)
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# Assuming the database enforces foreign keys, this won't fail.
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return qs.get(self.field.get_reverse_related_filter(instance))
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def __get__(self, instance, cls=None):
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"""
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Get the related instance through the forward relation.
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With the example above, when getting ``child.parent``:
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- ``self`` is the descriptor managing the ``parent`` attribute
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- ``instance`` is the ``child`` instance
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- ``cls`` is the ``Child`` class (we don't need it)
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"""
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if instance is None:
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return self
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# The related instance is loaded from the database and then cached
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# by the field on the model instance state. It can also be pre-cached
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# by the reverse accessor (ReverseOneToOneDescriptor).
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try:
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rel_obj = self.field.get_cached_value(instance)
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except KeyError:
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has_value = None not in self.field.get_local_related_value(instance)
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ancestor_link = instance._meta.get_ancestor_link(self.field.model) if has_value else None
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if ancestor_link and ancestor_link.is_cached(instance):
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# An ancestor link will exist if this field is defined on a
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# multi-table inheritance parent of the instance's class.
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ancestor = ancestor_link.get_cached_value(instance)
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# The value might be cached on an ancestor if the instance
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# originated from walking down the inheritance chain.
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rel_obj = self.field.get_cached_value(ancestor, default=None)
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else:
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rel_obj = None
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if rel_obj is None and has_value:
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rel_obj = self.get_object(instance)
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remote_field = self.field.remote_field
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# If this is a one-to-one relation, set the reverse accessor
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# cache on the related object to the current instance to avoid
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# an extra SQL query if it's accessed later on.
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if not remote_field.multiple:
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remote_field.set_cached_value(rel_obj, instance)
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self.field.set_cached_value(instance, rel_obj)
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if rel_obj is None and not self.field.null:
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raise self.RelatedObjectDoesNotExist(
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"%s has no %s." % (self.field.model.__name__, self.field.name)
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)
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else:
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return rel_obj
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def __set__(self, instance, value):
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"""
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Set the related instance through the forward relation.
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With the example above, when setting ``child.parent = parent``:
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- ``self`` is the descriptor managing the ``parent`` attribute
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- ``instance`` is the ``child`` instance
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- ``value`` is the ``parent`` instance on the right of the equal sign
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"""
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# An object must be an instance of the related class.
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if value is not None and not isinstance(value, self.field.remote_field.model._meta.concrete_model):
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raise ValueError(
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'Cannot assign "%r": "%s.%s" must be a "%s" instance.' % (
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value,
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instance._meta.object_name,
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self.field.name,
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self.field.remote_field.model._meta.object_name,
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)
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)
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elif value is not None:
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if instance._state.db is None:
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instance._state.db = router.db_for_write(instance.__class__, instance=value)
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if value._state.db is None:
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value._state.db = router.db_for_write(value.__class__, instance=instance)
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if not router.allow_relation(value, instance):
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raise ValueError('Cannot assign "%r": the current database router prevents this relation.' % value)
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remote_field = self.field.remote_field
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# If we're setting the value of a OneToOneField to None, we need to clear
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# out the cache on any old related object. Otherwise, deleting the
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# previously-related object will also cause this object to be deleted,
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# which is wrong.
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if value is None:
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# Look up the previously-related object, which may still be available
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# since we've not yet cleared out the related field.
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# Use the cache directly, instead of the accessor; if we haven't
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# populated the cache, then we don't care - we're only accessing
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# the object to invalidate the accessor cache, so there's no
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# need to populate the cache just to expire it again.
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related = self.field.get_cached_value(instance, default=None)
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# If we've got an old related object, we need to clear out its
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# cache. This cache also might not exist if the related object
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# hasn't been accessed yet.
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if related is not None:
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remote_field.set_cached_value(related, None)
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for lh_field, rh_field in self.field.related_fields:
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setattr(instance, lh_field.attname, None)
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# Set the values of the related field.
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else:
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for lh_field, rh_field in self.field.related_fields:
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setattr(instance, lh_field.attname, getattr(value, rh_field.attname))
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# Set the related instance cache used by __get__ to avoid an SQL query
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# when accessing the attribute we just set.
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self.field.set_cached_value(instance, value)
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# If this is a one-to-one relation, set the reverse accessor cache on
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# the related object to the current instance to avoid an extra SQL
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# query if it's accessed later on.
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if value is not None and not remote_field.multiple:
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remote_field.set_cached_value(value, instance)
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def __reduce__(self):
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"""
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Pickling should return the instance attached by self.field on the
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model, not a new copy of that descriptor. Use getattr() to retrieve
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the instance directly from the model.
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"""
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return getattr, (self.field.model, self.field.name)
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class ForwardOneToOneDescriptor(ForwardManyToOneDescriptor):
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"""
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Accessor to the related object on the forward side of a one-to-one relation.
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In the example::
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class Restaurant(Model):
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place = OneToOneField(Place, related_name='restaurant')
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``Restaurant.place`` is a ``ForwardOneToOneDescriptor`` instance.
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"""
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def get_object(self, instance):
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if self.field.remote_field.parent_link:
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deferred = instance.get_deferred_fields()
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# Because it's a parent link, all the data is available in the
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# instance, so populate the parent model with this data.
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rel_model = self.field.remote_field.model
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fields = [field.attname for field in rel_model._meta.concrete_fields]
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# If any of the related model's fields are deferred, fallback to
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# fetching all fields from the related model. This avoids a query
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# on the related model for every deferred field.
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if not any(field in fields for field in deferred):
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kwargs = {field: getattr(instance, field) for field in fields}
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obj = rel_model(**kwargs)
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obj._state.adding = instance._state.adding
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obj._state.db = instance._state.db
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return obj
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return super().get_object(instance)
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def __set__(self, instance, value):
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super().__set__(instance, value)
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# If the primary key is a link to a parent model and a parent instance
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# is being set, update the value of the inherited pk(s).
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if self.field.primary_key and self.field.remote_field.parent_link:
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opts = instance._meta
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# Inherited primary key fields from this object's base classes.
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inherited_pk_fields = [
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field for field in opts.concrete_fields
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if field.primary_key and field.remote_field
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]
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for field in inherited_pk_fields:
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rel_model_pk_name = field.remote_field.model._meta.pk.attname
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raw_value = getattr(value, rel_model_pk_name) if value is not None else None
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setattr(instance, rel_model_pk_name, raw_value)
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class ReverseOneToOneDescriptor:
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"""
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Accessor to the related object on the reverse side of a one-to-one
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relation.
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In the example::
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class Restaurant(Model):
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place = OneToOneField(Place, related_name='restaurant')
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``Place.restaurant`` is a ``ReverseOneToOneDescriptor`` instance.
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"""
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def __init__(self, related):
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# Following the example above, `related` is an instance of OneToOneRel
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# which represents the reverse restaurant field (place.restaurant).
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self.related = related
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@cached_property
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def RelatedObjectDoesNotExist(self):
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# The exception isn't created at initialization time for the sake of
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# consistency with `ForwardManyToOneDescriptor`.
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return type(
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'RelatedObjectDoesNotExist',
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(self.related.related_model.DoesNotExist, AttributeError), {
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'__module__': self.related.model.__module__,
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'__qualname__': '%s.%s.RelatedObjectDoesNotExist' % (
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self.related.model.__qualname__,
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self.related.name,
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)
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},
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)
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def is_cached(self, instance):
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return self.related.is_cached(instance)
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def get_queryset(self, **hints):
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return self.related.related_model._base_manager.db_manager(hints=hints).all()
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def get_prefetch_queryset(self, instances, queryset=None):
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if queryset is None:
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queryset = self.get_queryset()
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queryset._add_hints(instance=instances[0])
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rel_obj_attr = self.related.field.get_local_related_value
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instance_attr = self.related.field.get_foreign_related_value
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instances_dict = {instance_attr(inst): inst for inst in instances}
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query = {'%s__in' % self.related.field.name: instances}
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queryset = queryset.filter(**query)
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# Since we're going to assign directly in the cache,
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# we must manage the reverse relation cache manually.
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for rel_obj in queryset:
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instance = instances_dict[rel_obj_attr(rel_obj)]
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self.related.field.set_cached_value(rel_obj, instance)
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return queryset, rel_obj_attr, instance_attr, True, self.related.get_cache_name(), False
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def __get__(self, instance, cls=None):
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"""
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Get the related instance through the reverse relation.
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With the example above, when getting ``place.restaurant``:
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- ``self`` is the descriptor managing the ``restaurant`` attribute
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- ``instance`` is the ``place`` instance
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- ``cls`` is the ``Place`` class (unused)
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Keep in mind that ``Restaurant`` holds the foreign key to ``Place``.
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"""
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if instance is None:
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return self
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# The related instance is loaded from the database and then cached
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# by the field on the model instance state. It can also be pre-cached
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# by the forward accessor (ForwardManyToOneDescriptor).
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try:
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rel_obj = self.related.get_cached_value(instance)
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except KeyError:
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related_pk = instance.pk
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if related_pk is None:
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rel_obj = None
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else:
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filter_args = self.related.field.get_forward_related_filter(instance)
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try:
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rel_obj = self.get_queryset(instance=instance).get(**filter_args)
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except self.related.related_model.DoesNotExist:
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rel_obj = None
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else:
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# Set the forward accessor cache on the related object to
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# the current instance to avoid an extra SQL query if it's
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# accessed later on.
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self.related.field.set_cached_value(rel_obj, instance)
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self.related.set_cached_value(instance, rel_obj)
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if rel_obj is None:
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raise self.RelatedObjectDoesNotExist(
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"%s has no %s." % (
|
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instance.__class__.__name__,
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self.related.get_accessor_name()
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)
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)
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else:
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return rel_obj
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|
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def __set__(self, instance, value):
|
|
"""
|
|
Set the related instance through the reverse relation.
|
|
|
|
With the example above, when setting ``place.restaurant = restaurant``:
|
|
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|
- ``self`` is the descriptor managing the ``restaurant`` attribute
|
|
- ``instance`` is the ``place`` instance
|
|
- ``value`` is the ``restaurant`` instance on the right of the equal sign
|
|
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|
Keep in mind that ``Restaurant`` holds the foreign key to ``Place``.
|
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"""
|
|
# The similarity of the code below to the code in
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|
# ForwardManyToOneDescriptor is annoying, but there's a bunch
|
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# of small differences that would make a common base class convoluted.
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if value is None:
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# Update the cached related instance (if any) & clear the cache.
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# Following the example above, this would be the cached
|
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# ``restaurant`` instance (if any).
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rel_obj = self.related.get_cached_value(instance, default=None)
|
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if rel_obj is not None:
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# Remove the ``restaurant`` instance from the ``place``
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# instance cache.
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self.related.delete_cached_value(instance)
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# Set the ``place`` field on the ``restaurant``
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# instance to None.
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setattr(rel_obj, self.related.field.name, None)
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elif not isinstance(value, self.related.related_model):
|
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# An object must be an instance of the related class.
|
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raise ValueError(
|
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'Cannot assign "%r": "%s.%s" must be a "%s" instance.' % (
|
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value,
|
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instance._meta.object_name,
|
|
self.related.get_accessor_name(),
|
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self.related.related_model._meta.object_name,
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)
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)
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else:
|
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if instance._state.db is None:
|
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instance._state.db = router.db_for_write(instance.__class__, instance=value)
|
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if value._state.db is None:
|
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value._state.db = router.db_for_write(value.__class__, instance=instance)
|
|
if not router.allow_relation(value, instance):
|
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raise ValueError('Cannot assign "%r": the current database router prevents this relation.' % value)
|
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|
|
related_pk = tuple(getattr(instance, field.attname) for field in self.related.field.foreign_related_fields)
|
|
# Set the value of the related field to the value of the related object's related field
|
|
for index, field in enumerate(self.related.field.local_related_fields):
|
|
setattr(value, field.attname, related_pk[index])
|
|
|
|
# Set the related instance cache used by __get__ to avoid an SQL query
|
|
# when accessing the attribute we just set.
|
|
self.related.set_cached_value(instance, value)
|
|
|
|
# Set the forward accessor cache on the related object to the current
|
|
# instance to avoid an extra SQL query if it's accessed later on.
|
|
self.related.field.set_cached_value(value, instance)
|
|
|
|
def __reduce__(self):
|
|
# Same purpose as ForwardManyToOneDescriptor.__reduce__().
|
|
return getattr, (self.related.model, self.related.name)
|
|
|
|
|
|
class ReverseManyToOneDescriptor:
|
|
"""
|
|
Accessor to the related objects manager on the reverse side of a
|
|
many-to-one relation.
|
|
|
|
In the example::
|
|
|
|
class Child(Model):
|
|
parent = ForeignKey(Parent, related_name='children')
|
|
|
|
``Parent.children`` is a ``ReverseManyToOneDescriptor`` instance.
|
|
|
|
Most of the implementation is delegated to a dynamically defined manager
|
|
class built by ``create_forward_many_to_many_manager()`` defined below.
|
|
"""
|
|
|
|
def __init__(self, rel):
|
|
self.rel = rel
|
|
self.field = rel.field
|
|
|
|
@cached_property
|
|
def related_manager_cls(self):
|
|
related_model = self.rel.related_model
|
|
|
|
return create_reverse_many_to_one_manager(
|
|
related_model._default_manager.__class__,
|
|
self.rel,
|
|
)
|
|
|
|
def __get__(self, instance, cls=None):
|
|
"""
|
|
Get the related objects through the reverse relation.
|
|
|
|
With the example above, when getting ``parent.children``:
|
|
|
|
- ``self`` is the descriptor managing the ``children`` attribute
|
|
- ``instance`` is the ``parent`` instance
|
|
- ``cls`` is the ``Parent`` class (unused)
|
|
"""
|
|
if instance is None:
|
|
return self
|
|
|
|
return self.related_manager_cls(instance)
|
|
|
|
def _get_set_deprecation_msg_params(self):
|
|
return (
|
|
'reverse side of a related set',
|
|
self.rel.get_accessor_name(),
|
|
)
|
|
|
|
def __set__(self, instance, value):
|
|
raise TypeError(
|
|
'Direct assignment to the %s is prohibited. Use %s.set() instead.'
|
|
% self._get_set_deprecation_msg_params(),
|
|
)
|
|
|
|
|
|
def create_reverse_many_to_one_manager(superclass, rel):
|
|
"""
|
|
Create a manager for the reverse side of a many-to-one relation.
|
|
|
|
This manager subclasses another manager, generally the default manager of
|
|
the related model, and adds behaviors specific to many-to-one relations.
|
|
"""
|
|
|
|
class RelatedManager(superclass):
|
|
def __init__(self, instance):
|
|
super().__init__()
|
|
|
|
self.instance = instance
|
|
self.model = rel.related_model
|
|
self.field = rel.field
|
|
|
|
self.core_filters = {self.field.name: instance}
|
|
|
|
def __call__(self, *, manager):
|
|
manager = getattr(self.model, manager)
|
|
manager_class = create_reverse_many_to_one_manager(manager.__class__, rel)
|
|
return manager_class(self.instance)
|
|
do_not_call_in_templates = True
|
|
|
|
def _apply_rel_filters(self, queryset):
|
|
"""
|
|
Filter the queryset for the instance this manager is bound to.
|
|
"""
|
|
db = self._db or router.db_for_read(self.model, instance=self.instance)
|
|
empty_strings_as_null = connections[db].features.interprets_empty_strings_as_nulls
|
|
queryset._add_hints(instance=self.instance)
|
|
if self._db:
|
|
queryset = queryset.using(self._db)
|
|
queryset = queryset.filter(**self.core_filters)
|
|
for field in self.field.foreign_related_fields:
|
|
val = getattr(self.instance, field.attname)
|
|
if val is None or (val == '' and empty_strings_as_null):
|
|
return queryset.none()
|
|
if self.field.many_to_one:
|
|
# Guard against field-like objects such as GenericRelation
|
|
# that abuse create_reverse_many_to_one_manager() with reverse
|
|
# one-to-many relationships instead and break known related
|
|
# objects assignment.
|
|
try:
|
|
target_field = self.field.target_field
|
|
except FieldError:
|
|
# The relationship has multiple target fields. Use a tuple
|
|
# for related object id.
|
|
rel_obj_id = tuple([
|
|
getattr(self.instance, target_field.attname)
|
|
for target_field in self.field.get_path_info()[-1].target_fields
|
|
])
|
|
else:
|
|
rel_obj_id = getattr(self.instance, target_field.attname)
|
|
queryset._known_related_objects = {self.field: {rel_obj_id: self.instance}}
|
|
return queryset
|
|
|
|
def _remove_prefetched_objects(self):
|
|
try:
|
|
self.instance._prefetched_objects_cache.pop(self.field.remote_field.get_cache_name())
|
|
except (AttributeError, KeyError):
|
|
pass # nothing to clear from cache
|
|
|
|
def get_queryset(self):
|
|
try:
|
|
return self.instance._prefetched_objects_cache[self.field.remote_field.get_cache_name()]
|
|
except (AttributeError, KeyError):
|
|
queryset = super().get_queryset()
|
|
return self._apply_rel_filters(queryset)
|
|
|
|
def get_prefetch_queryset(self, instances, queryset=None):
|
|
if queryset is None:
|
|
queryset = super().get_queryset()
|
|
|
|
queryset._add_hints(instance=instances[0])
|
|
queryset = queryset.using(queryset._db or self._db)
|
|
|
|
rel_obj_attr = self.field.get_local_related_value
|
|
instance_attr = self.field.get_foreign_related_value
|
|
instances_dict = {instance_attr(inst): inst for inst in instances}
|
|
query = {'%s__in' % self.field.name: instances}
|
|
queryset = queryset.filter(**query)
|
|
|
|
# Since we just bypassed this class' get_queryset(), we must manage
|
|
# the reverse relation manually.
|
|
for rel_obj in queryset:
|
|
instance = instances_dict[rel_obj_attr(rel_obj)]
|
|
setattr(rel_obj, self.field.name, instance)
|
|
cache_name = self.field.remote_field.get_cache_name()
|
|
return queryset, rel_obj_attr, instance_attr, False, cache_name, False
|
|
|
|
def add(self, *objs, bulk=True):
|
|
self._remove_prefetched_objects()
|
|
objs = list(objs)
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
|
|
def check_and_update_obj(obj):
|
|
if not isinstance(obj, self.model):
|
|
raise TypeError("'%s' instance expected, got %r" % (
|
|
self.model._meta.object_name, obj,
|
|
))
|
|
setattr(obj, self.field.name, self.instance)
|
|
|
|
if bulk:
|
|
pks = []
|
|
for obj in objs:
|
|
check_and_update_obj(obj)
|
|
if obj._state.adding or obj._state.db != db:
|
|
raise ValueError(
|
|
"%r instance isn't saved. Use bulk=False or save "
|
|
"the object first." % obj
|
|
)
|
|
pks.append(obj.pk)
|
|
self.model._base_manager.using(db).filter(pk__in=pks).update(**{
|
|
self.field.name: self.instance,
|
|
})
|
|
else:
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
for obj in objs:
|
|
check_and_update_obj(obj)
|
|
obj.save()
|
|
add.alters_data = True
|
|
|
|
def create(self, **kwargs):
|
|
kwargs[self.field.name] = self.instance
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
return super(RelatedManager, self.db_manager(db)).create(**kwargs)
|
|
create.alters_data = True
|
|
|
|
def get_or_create(self, **kwargs):
|
|
kwargs[self.field.name] = self.instance
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
return super(RelatedManager, self.db_manager(db)).get_or_create(**kwargs)
|
|
get_or_create.alters_data = True
|
|
|
|
def update_or_create(self, **kwargs):
|
|
kwargs[self.field.name] = self.instance
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
return super(RelatedManager, self.db_manager(db)).update_or_create(**kwargs)
|
|
update_or_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, bulk=True):
|
|
if not objs:
|
|
return
|
|
val = self.field.get_foreign_related_value(self.instance)
|
|
old_ids = set()
|
|
for obj in objs:
|
|
if not isinstance(obj, self.model):
|
|
raise TypeError("'%s' instance expected, got %r" % (
|
|
self.model._meta.object_name, obj,
|
|
))
|
|
# Is obj actually part of this descriptor set?
|
|
if self.field.get_local_related_value(obj) == val:
|
|
old_ids.add(obj.pk)
|
|
else:
|
|
raise self.field.remote_field.model.DoesNotExist(
|
|
"%r is not related to %r." % (obj, self.instance)
|
|
)
|
|
self._clear(self.filter(pk__in=old_ids), bulk)
|
|
remove.alters_data = True
|
|
|
|
def clear(self, *, bulk=True):
|
|
self._clear(self, bulk)
|
|
clear.alters_data = True
|
|
|
|
def _clear(self, queryset, bulk):
|
|
self._remove_prefetched_objects()
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
queryset = queryset.using(db)
|
|
if bulk:
|
|
# `QuerySet.update()` is intrinsically atomic.
|
|
queryset.update(**{self.field.name: None})
|
|
else:
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
for obj in queryset:
|
|
setattr(obj, self.field.name, None)
|
|
obj.save(update_fields=[self.field.name])
|
|
_clear.alters_data = True
|
|
|
|
def set(self, objs, *, bulk=True, clear=False):
|
|
# Force evaluation of `objs` in case it's a queryset whose value
|
|
# could be affected by `manager.clear()`. Refs #19816.
|
|
objs = tuple(objs)
|
|
|
|
if self.field.null:
|
|
db = router.db_for_write(self.model, instance=self.instance)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
if clear:
|
|
self.clear(bulk=bulk)
|
|
self.add(*objs, bulk=bulk)
|
|
else:
|
|
old_objs = set(self.using(db).all())
|
|
new_objs = []
|
|
for obj in objs:
|
|
if obj in old_objs:
|
|
old_objs.remove(obj)
|
|
else:
|
|
new_objs.append(obj)
|
|
|
|
self.remove(*old_objs, bulk=bulk)
|
|
self.add(*new_objs, bulk=bulk)
|
|
else:
|
|
self.add(*objs, bulk=bulk)
|
|
set.alters_data = True
|
|
|
|
return RelatedManager
|
|
|
|
|
|
class ManyToManyDescriptor(ReverseManyToOneDescriptor):
|
|
"""
|
|
Accessor to the related objects manager on the forward and reverse sides of
|
|
a many-to-many relation.
|
|
|
|
In the example::
|
|
|
|
class Pizza(Model):
|
|
toppings = ManyToManyField(Topping, related_name='pizzas')
|
|
|
|
``Pizza.toppings`` and ``Topping.pizzas`` are ``ManyToManyDescriptor``
|
|
instances.
|
|
|
|
Most of the implementation is delegated to a dynamically defined manager
|
|
class built by ``create_forward_many_to_many_manager()`` defined below.
|
|
"""
|
|
|
|
def __init__(self, rel, reverse=False):
|
|
super().__init__(rel)
|
|
|
|
self.reverse = reverse
|
|
|
|
@property
|
|
def through(self):
|
|
# through is provided so that you have easy access to the through
|
|
# model (Book.authors.through) for inlines, etc. This is done as
|
|
# a property to ensure that the fully resolved value is returned.
|
|
return self.rel.through
|
|
|
|
@cached_property
|
|
def related_manager_cls(self):
|
|
related_model = self.rel.related_model if self.reverse else self.rel.model
|
|
|
|
return create_forward_many_to_many_manager(
|
|
related_model._default_manager.__class__,
|
|
self.rel,
|
|
reverse=self.reverse,
|
|
)
|
|
|
|
def _get_set_deprecation_msg_params(self):
|
|
return (
|
|
'%s side of a many-to-many set' % ('reverse' if self.reverse else 'forward'),
|
|
self.rel.get_accessor_name() if self.reverse else self.field.name,
|
|
)
|
|
|
|
|
|
def create_forward_many_to_many_manager(superclass, rel, reverse):
|
|
"""
|
|
Create a manager for the either side of a many-to-many relation.
|
|
|
|
This manager subclasses another manager, generally the default manager of
|
|
the related model, and adds behaviors specific to many-to-many relations.
|
|
"""
|
|
|
|
class ManyRelatedManager(superclass):
|
|
def __init__(self, instance=None):
|
|
super().__init__()
|
|
|
|
self.instance = instance
|
|
|
|
if not reverse:
|
|
self.model = rel.model
|
|
self.query_field_name = rel.field.related_query_name()
|
|
self.prefetch_cache_name = rel.field.name
|
|
self.source_field_name = rel.field.m2m_field_name()
|
|
self.target_field_name = rel.field.m2m_reverse_field_name()
|
|
self.symmetrical = rel.symmetrical
|
|
else:
|
|
self.model = rel.related_model
|
|
self.query_field_name = rel.field.name
|
|
self.prefetch_cache_name = rel.field.related_query_name()
|
|
self.source_field_name = rel.field.m2m_reverse_field_name()
|
|
self.target_field_name = rel.field.m2m_field_name()
|
|
self.symmetrical = False
|
|
|
|
self.through = rel.through
|
|
self.reverse = reverse
|
|
|
|
self.source_field = self.through._meta.get_field(self.source_field_name)
|
|
self.target_field = self.through._meta.get_field(self.target_field_name)
|
|
|
|
self.core_filters = {}
|
|
self.pk_field_names = {}
|
|
for lh_field, rh_field in self.source_field.related_fields:
|
|
core_filter_key = '%s__%s' % (self.query_field_name, rh_field.name)
|
|
self.core_filters[core_filter_key] = getattr(instance, rh_field.attname)
|
|
self.pk_field_names[lh_field.name] = rh_field.name
|
|
|
|
self.related_val = self.source_field.get_foreign_related_value(instance)
|
|
if None in self.related_val:
|
|
raise ValueError('"%r" needs to have a value for field "%s" before '
|
|
'this many-to-many relationship can be used.' %
|
|
(instance, self.pk_field_names[self.source_field_name]))
|
|
# Even if this relation is not to pk, we require still pk value.
|
|
# The wish is that the instance has been already saved to DB,
|
|
# although having a pk value isn't a guarantee of that.
|
|
if instance.pk is None:
|
|
raise ValueError("%r instance needs to have a primary key value before "
|
|
"a many-to-many relationship can be used." %
|
|
instance.__class__.__name__)
|
|
|
|
def __call__(self, *, manager):
|
|
manager = getattr(self.model, manager)
|
|
manager_class = create_forward_many_to_many_manager(manager.__class__, rel, reverse)
|
|
return manager_class(instance=self.instance)
|
|
do_not_call_in_templates = True
|
|
|
|
def _build_remove_filters(self, removed_vals):
|
|
filters = Q(**{self.source_field_name: self.related_val})
|
|
# No need to add a subquery condition if removed_vals is a QuerySet without
|
|
# filters.
|
|
removed_vals_filters = (not isinstance(removed_vals, QuerySet) or
|
|
removed_vals._has_filters())
|
|
if removed_vals_filters:
|
|
filters &= Q(**{'%s__in' % self.target_field_name: removed_vals})
|
|
if self.symmetrical:
|
|
symmetrical_filters = Q(**{self.target_field_name: self.related_val})
|
|
if removed_vals_filters:
|
|
symmetrical_filters &= Q(
|
|
**{'%s__in' % self.source_field_name: removed_vals})
|
|
filters |= symmetrical_filters
|
|
return filters
|
|
|
|
def _apply_rel_filters(self, queryset):
|
|
"""
|
|
Filter the queryset for the instance this manager is bound to.
|
|
"""
|
|
queryset._add_hints(instance=self.instance)
|
|
if self._db:
|
|
queryset = queryset.using(self._db)
|
|
queryset._defer_next_filter = True
|
|
return queryset._next_is_sticky().filter(**self.core_filters)
|
|
|
|
def _remove_prefetched_objects(self):
|
|
try:
|
|
self.instance._prefetched_objects_cache.pop(self.prefetch_cache_name)
|
|
except (AttributeError, KeyError):
|
|
pass # nothing to clear from cache
|
|
|
|
def get_queryset(self):
|
|
try:
|
|
return self.instance._prefetched_objects_cache[self.prefetch_cache_name]
|
|
except (AttributeError, KeyError):
|
|
queryset = super().get_queryset()
|
|
return self._apply_rel_filters(queryset)
|
|
|
|
def get_prefetch_queryset(self, instances, queryset=None):
|
|
if queryset is None:
|
|
queryset = super().get_queryset()
|
|
|
|
queryset._add_hints(instance=instances[0])
|
|
queryset = queryset.using(queryset._db or self._db)
|
|
|
|
query = {'%s__in' % self.query_field_name: instances}
|
|
queryset = queryset._next_is_sticky().filter(**query)
|
|
|
|
# M2M: need to annotate the query in order to get the primary model
|
|
# that the secondary model was actually related to. We know that
|
|
# there will already be a join on the join table, so we can just add
|
|
# the select.
|
|
|
|
# For non-autocreated 'through' models, can't assume we are
|
|
# dealing with PK values.
|
|
fk = self.through._meta.get_field(self.source_field_name)
|
|
join_table = fk.model._meta.db_table
|
|
connection = connections[queryset.db]
|
|
qn = connection.ops.quote_name
|
|
queryset = queryset.extra(select={
|
|
'_prefetch_related_val_%s' % f.attname:
|
|
'%s.%s' % (qn(join_table), qn(f.column)) for f in fk.local_related_fields})
|
|
return (
|
|
queryset,
|
|
lambda result: tuple(
|
|
getattr(result, '_prefetch_related_val_%s' % f.attname)
|
|
for f in fk.local_related_fields
|
|
),
|
|
lambda inst: tuple(
|
|
f.get_db_prep_value(getattr(inst, f.attname), connection)
|
|
for f in fk.foreign_related_fields
|
|
),
|
|
False,
|
|
self.prefetch_cache_name,
|
|
False,
|
|
)
|
|
|
|
def add(self, *objs, through_defaults=None):
|
|
self._remove_prefetched_objects()
|
|
db = router.db_for_write(self.through, instance=self.instance)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
self._add_items(
|
|
self.source_field_name, self.target_field_name, *objs,
|
|
through_defaults=through_defaults,
|
|
)
|
|
# 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_field_name,
|
|
self.source_field_name,
|
|
*objs,
|
|
through_defaults=through_defaults,
|
|
)
|
|
add.alters_data = True
|
|
|
|
def remove(self, *objs):
|
|
self._remove_prefetched_objects()
|
|
self._remove_items(self.source_field_name, self.target_field_name, *objs)
|
|
remove.alters_data = True
|
|
|
|
def clear(self):
|
|
db = router.db_for_write(self.through, instance=self.instance)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action="pre_clear",
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=None, using=db,
|
|
)
|
|
self._remove_prefetched_objects()
|
|
filters = self._build_remove_filters(super().get_queryset().using(db))
|
|
self.through._default_manager.using(db).filter(filters).delete()
|
|
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action="post_clear",
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=None, using=db,
|
|
)
|
|
clear.alters_data = True
|
|
|
|
def set(self, objs, *, clear=False, through_defaults=None):
|
|
# Force evaluation of `objs` in case it's a queryset whose value
|
|
# could be affected by `manager.clear()`. Refs #19816.
|
|
objs = tuple(objs)
|
|
|
|
db = router.db_for_write(self.through, instance=self.instance)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
if clear:
|
|
self.clear()
|
|
self.add(*objs, through_defaults=through_defaults)
|
|
else:
|
|
old_ids = set(self.using(db).values_list(self.target_field.target_field.attname, flat=True))
|
|
|
|
new_objs = []
|
|
for obj in objs:
|
|
fk_val = (
|
|
self.target_field.get_foreign_related_value(obj)[0]
|
|
if isinstance(obj, self.model)
|
|
else self.target_field.get_prep_value(obj)
|
|
)
|
|
if fk_val in old_ids:
|
|
old_ids.remove(fk_val)
|
|
else:
|
|
new_objs.append(obj)
|
|
|
|
self.remove(*old_ids)
|
|
self.add(*new_objs, through_defaults=through_defaults)
|
|
set.alters_data = True
|
|
|
|
def create(self, *, through_defaults=None, **kwargs):
|
|
db = router.db_for_write(self.instance.__class__, instance=self.instance)
|
|
new_obj = super(ManyRelatedManager, self.db_manager(db)).create(**kwargs)
|
|
self.add(new_obj, through_defaults=through_defaults)
|
|
return new_obj
|
|
create.alters_data = True
|
|
|
|
def get_or_create(self, *, through_defaults=None, **kwargs):
|
|
db = router.db_for_write(self.instance.__class__, instance=self.instance)
|
|
obj, created = super(ManyRelatedManager, self.db_manager(db)).get_or_create(**kwargs)
|
|
# We only need to add() if created because if we got an object back
|
|
# from get() then the relationship already exists.
|
|
if created:
|
|
self.add(obj, through_defaults=through_defaults)
|
|
return obj, created
|
|
get_or_create.alters_data = True
|
|
|
|
def update_or_create(self, *, through_defaults=None, **kwargs):
|
|
db = router.db_for_write(self.instance.__class__, instance=self.instance)
|
|
obj, created = super(ManyRelatedManager, self.db_manager(db)).update_or_create(**kwargs)
|
|
# We only need to add() if created because if we got an object back
|
|
# from get() then the relationship already exists.
|
|
if created:
|
|
self.add(obj, through_defaults=through_defaults)
|
|
return obj, created
|
|
update_or_create.alters_data = True
|
|
|
|
def _get_target_ids(self, target_field_name, objs):
|
|
"""
|
|
Return the set of ids of `objs` that the target field references.
|
|
"""
|
|
from django.db.models import Model
|
|
target_ids = set()
|
|
target_field = self.through._meta.get_field(target_field_name)
|
|
for obj in objs:
|
|
if isinstance(obj, self.model):
|
|
if not router.allow_relation(obj, self.instance):
|
|
raise ValueError(
|
|
'Cannot add "%r": instance is on database "%s", '
|
|
'value is on database "%s"' %
|
|
(obj, self.instance._state.db, obj._state.db)
|
|
)
|
|
target_id = target_field.get_foreign_related_value(obj)[0]
|
|
if target_id is None:
|
|
raise ValueError(
|
|
'Cannot add "%r": the value for field "%s" is None' %
|
|
(obj, target_field_name)
|
|
)
|
|
target_ids.add(target_id)
|
|
elif isinstance(obj, Model):
|
|
raise TypeError(
|
|
"'%s' instance expected, got %r" %
|
|
(self.model._meta.object_name, obj)
|
|
)
|
|
else:
|
|
target_ids.add(target_field.get_prep_value(obj))
|
|
return target_ids
|
|
|
|
def _get_missing_target_ids(self, source_field_name, target_field_name, db, target_ids):
|
|
"""
|
|
Return the subset of ids of `objs` that aren't already assigned to
|
|
this relationship.
|
|
"""
|
|
vals = self.through._default_manager.using(db).values_list(
|
|
target_field_name, flat=True
|
|
).filter(**{
|
|
source_field_name: self.related_val[0],
|
|
'%s__in' % target_field_name: target_ids,
|
|
})
|
|
return target_ids.difference(vals)
|
|
|
|
def _get_add_plan(self, db, source_field_name):
|
|
"""
|
|
Return a boolean triple of the way the add should be performed.
|
|
|
|
The first element is whether or not bulk_create(ignore_conflicts)
|
|
can be used, the second whether or not signals must be sent, and
|
|
the third element is whether or not the immediate bulk insertion
|
|
with conflicts ignored can be performed.
|
|
"""
|
|
# Conflicts can be ignored when the intermediary model is
|
|
# auto-created as the only possible collision is on the
|
|
# (source_id, target_id) tuple. The same assertion doesn't hold for
|
|
# user-defined intermediary models as they could have other fields
|
|
# causing conflicts which must be surfaced.
|
|
can_ignore_conflicts = (
|
|
connections[db].features.supports_ignore_conflicts and
|
|
self.through._meta.auto_created is not False
|
|
)
|
|
# Don't send the signal when inserting duplicate data row
|
|
# for symmetrical reverse entries.
|
|
must_send_signals = (self.reverse or source_field_name == self.source_field_name) and (
|
|
signals.m2m_changed.has_listeners(self.through)
|
|
)
|
|
# Fast addition through bulk insertion can only be performed
|
|
# if no m2m_changed listeners are connected for self.through
|
|
# as they require the added set of ids to be provided via
|
|
# pk_set.
|
|
return can_ignore_conflicts, must_send_signals, (can_ignore_conflicts and not must_send_signals)
|
|
|
|
def _add_items(self, source_field_name, target_field_name, *objs, through_defaults=None):
|
|
# source_field_name: the PK fieldname in join table for the source object
|
|
# target_field_name: the PK fieldname in join table for the target object
|
|
# *objs - objects to add. Either object instances, or primary keys of object instances.
|
|
if not objs:
|
|
return
|
|
|
|
through_defaults = dict(resolve_callables(through_defaults or {}))
|
|
target_ids = self._get_target_ids(target_field_name, objs)
|
|
db = router.db_for_write(self.through, instance=self.instance)
|
|
can_ignore_conflicts, must_send_signals, can_fast_add = self._get_add_plan(db, source_field_name)
|
|
if can_fast_add:
|
|
self.through._default_manager.using(db).bulk_create([
|
|
self.through(**{
|
|
'%s_id' % source_field_name: self.related_val[0],
|
|
'%s_id' % target_field_name: target_id,
|
|
})
|
|
for target_id in target_ids
|
|
], ignore_conflicts=True)
|
|
return
|
|
|
|
missing_target_ids = self._get_missing_target_ids(
|
|
source_field_name, target_field_name, db, target_ids
|
|
)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
if must_send_signals:
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action='pre_add',
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=missing_target_ids, using=db,
|
|
)
|
|
# Add the ones that aren't there already.
|
|
self.through._default_manager.using(db).bulk_create([
|
|
self.through(**through_defaults, **{
|
|
'%s_id' % source_field_name: self.related_val[0],
|
|
'%s_id' % target_field_name: target_id,
|
|
})
|
|
for target_id in missing_target_ids
|
|
], ignore_conflicts=can_ignore_conflicts)
|
|
|
|
if must_send_signals:
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action='post_add',
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=missing_target_ids, using=db,
|
|
)
|
|
|
|
def _remove_items(self, source_field_name, target_field_name, *objs):
|
|
# source_field_name: the PK colname in join table for the source object
|
|
# target_field_name: the PK colname in join table for the target object
|
|
# *objs - objects to remove. Either object instances, or primary
|
|
# keys of object instances.
|
|
if not objs:
|
|
return
|
|
|
|
# Check that all the objects are of the right type
|
|
old_ids = set()
|
|
for obj in objs:
|
|
if isinstance(obj, self.model):
|
|
fk_val = self.target_field.get_foreign_related_value(obj)[0]
|
|
old_ids.add(fk_val)
|
|
else:
|
|
old_ids.add(obj)
|
|
|
|
db = router.db_for_write(self.through, instance=self.instance)
|
|
with transaction.atomic(using=db, savepoint=False):
|
|
# Send a signal to the other end if need be.
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action="pre_remove",
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=old_ids, using=db,
|
|
)
|
|
target_model_qs = super().get_queryset()
|
|
if target_model_qs._has_filters():
|
|
old_vals = target_model_qs.using(db).filter(**{
|
|
'%s__in' % self.target_field.target_field.attname: old_ids})
|
|
else:
|
|
old_vals = old_ids
|
|
filters = self._build_remove_filters(old_vals)
|
|
self.through._default_manager.using(db).filter(filters).delete()
|
|
|
|
signals.m2m_changed.send(
|
|
sender=self.through, action="post_remove",
|
|
instance=self.instance, reverse=self.reverse,
|
|
model=self.model, pk_set=old_ids, using=db,
|
|
)
|
|
|
|
return ManyRelatedManager
|