import pytest import re import uuid from django.contrib.contenttypes.models import ContentType from django.db import models from django.db.models import Case, Count, FilteredRelation, Q, When from django.db.utils import IntegrityError from django.test import TransactionTestCase from polymorphic import query_translate from polymorphic.managers import PolymorphicManager from polymorphic.models import PolymorphicTypeInvalid, PolymorphicTypeUndefined from polymorphic.tests.models import ( ArtProject, Base, BlogA, BlogB, BlogBase, BlogEntry, BlogEntry_limit_choices_to, ChildModelWithManager, CustomPkBase, CustomPkInherit, Duck, Enhance_Base, Enhance_Inherit, InitTestModelSubclass, Model2A, Model2B, Model2C, Model2D, ModelExtraA, ModelExtraB, ModelExtraC, ModelExtraExternal, ModelFieldNameTest, ModelShow1, ModelShow1_plain, ModelShow2, ModelShow2_plain, ModelShow3, ModelUnderRelChild, ModelUnderRelParent, ModelWithMyManager, ModelWithMyManager2, ModelWithMyManagerDefault, ModelWithMyManagerNoDefault, ModelX, ModelY, MRODerived, MultiTableDerived, MyManager, MyManagerQuerySet, NonPolymorphicParent, NonProxyChild, One2OneRelatingModel, One2OneRelatingModelDerived, ParentModelWithManager, PlainA, PlainB, PlainC, PlainChildModelWithManager, PlainMyManager, PlainMyManagerQuerySet, PlainParentModelWithManager, ProxiedBase, ProxyBase, ProxyChild, ProxyModelA, ProxyModelB, ProxyModelBase, RedheadDuck, RelatingModel, RelationA, RelationB, RelationBase, RelationBC, RubberDuck, SubclassSelectorAbstractBaseModel, SubclassSelectorAbstractConcreteModel, SubclassSelectorProxyBaseModel, SubclassSelectorProxyConcreteModel, TestParentLinkAndRelatedName, UUIDArtProject, UUIDPlainA, UUIDPlainB, UUIDPlainC, UUIDProject, UUIDResearchProject, ) class PolymorphicTests(TransactionTestCase): """ The test suite """ def test_annotate_aggregate_order(self): # create a blog of type BlogA # create two blog entries in BlogA # create some blogs of type BlogB to make the BlogBase table data really polymorphic blog = BlogA.objects.create(name="B1", info="i1") blog.blogentry_set.create(text="bla") BlogEntry.objects.create(blog=blog, text="bla2") BlogB.objects.create(name="Bb1") BlogB.objects.create(name="Bb2") BlogB.objects.create(name="Bb3") qs = BlogBase.objects.annotate(entrycount=Count("BlogA___blogentry")) assert len(qs) == 4 for o in qs: if o.name == "B1": assert o.entrycount == 2 else: assert o.entrycount == 0 x = BlogBase.objects.aggregate(entrycount=Count("BlogA___blogentry")) assert x["entrycount"] == 2 # create some more blogs for next test BlogA.objects.create(name="B2", info="i2") BlogA.objects.create(name="B3", info="i3") BlogA.objects.create(name="B4", info="i4") BlogA.objects.create(name="B5", info="i5") # test ordering for field in all entries expected = """ [ , , , , , , , ]""" assert repr(BlogBase.objects.order_by("-name")).strip() == expected.strip() # test ordering for field in one subclass only # MySQL and SQLite return this order expected1 = """ [ , , , , , , , ]""" # PostgreSQL returns this order expected2 = """ [ , , , , , , , ]""" assert repr(BlogBase.objects.order_by("-BlogA___info")).strip() in ( expected1.strip(), expected2.strip(), ) def test_limit_choices_to(self): """ this is not really a testcase, as limit_choices_to only affects the Django admin """ # create a blog of type BlogA blog_a = BlogA.objects.create(name="aa", info="aa") blog_b = BlogB.objects.create(name="bb") # create two blog entries entry1 = BlogEntry_limit_choices_to.objects.create(blog=blog_b, text="bla2") entry2 = BlogEntry_limit_choices_to.objects.create(blog=blog_b, text="bla2") def test_primary_key_custom_field_problem(self): """ object retrieval problem occuring with some custom primary key fields (UUIDField as test case) """ UUIDProject.objects.create(topic="John's gathering") UUIDArtProject.objects.create(topic="Sculpting with Tim", artist="T. Turner") UUIDResearchProject.objects.create(topic="Swallow Aerodynamics", supervisor="Dr. Winter") qs = UUIDProject.objects.all() ol = list(qs) a = qs[0] b = qs[1] c = qs[2] assert len(qs) == 3 assert isinstance(a.uuid_primary_key, uuid.UUID) assert isinstance(a.pk, uuid.UUID) res = re.sub(' "(.*?)..", topic', ", topic", repr(qs)) res_exp = """[ , , ]""" assert res == res_exp a = UUIDPlainA.objects.create(field1="A1") b = UUIDPlainB.objects.create(field1="B1", field2="B2") c = UUIDPlainC.objects.create(field1="C1", field2="C2", field3="C3") qs = UUIDPlainA.objects.all() # Test that primary key values are valid UUIDs assert uuid.UUID(f"urn:uuid:{a.pk}", version=1) == a.pk assert uuid.UUID(f"urn:uuid:{c.pk}", version=1) == c.pk def create_model2abcd(self): """ Create the chain of objects of Model2, this is reused in various tests. """ a = Model2A.objects.create(field1="A1") b = Model2B.objects.create(field1="B1", field2="B2") c = Model2C.objects.create(field1="C1", field2="C2", field3="C3") d = Model2D.objects.create(field1="D1", field2="D2", field3="D3", field4="D4") return a, b, c, d def test_simple_inheritance(self): self.create_model2abcd() objects = Model2A.objects.all() self.assertQuerySetEqual( objects, [Model2A, Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ordered=False, ) def test_defer_fields(self): self.create_model2abcd() objects_deferred = Model2A.objects.defer("field1").order_by("id") assert "field1" not in objects_deferred[0].__dict__, ( "field1 was not deferred (using defer())" ) # Check that we have exactly one deferred field ('field1') per resulting object. for obj in objects_deferred: deferred_fields = obj.get_deferred_fields() assert len(deferred_fields) == 1 assert "field1" in deferred_fields objects_only = Model2A.objects.only("pk", "polymorphic_ctype", "field1") assert "field1" in objects_only[0].__dict__, ( 'qs.only("field1") was used, but field1 was incorrectly deferred' ) assert "field1" in objects_only[3].__dict__, ( 'qs.only("field1") was used, but field1 was incorrectly deferred on a child model' ) assert "field4" not in objects_only[3].__dict__, "field4 was not deferred (using only())" assert "field1" not in objects_only[0].get_deferred_fields() assert "field2" in objects_only[1].get_deferred_fields() # objects_only[2] has several deferred fields, ensure they are all set as such. model2c_deferred = objects_only[2].get_deferred_fields() assert "field2" in model2c_deferred assert "field3" in model2c_deferred assert "model2a_ptr_id" in model2c_deferred # objects_only[3] has a few more fields that should be set as deferred. model2d_deferred = objects_only[3].get_deferred_fields() assert "field2" in model2d_deferred assert "field3" in model2d_deferred assert "field4" in model2d_deferred assert "model2a_ptr_id" in model2d_deferred assert "model2b_ptr_id" in model2d_deferred ModelX.objects.create(field_b="A1", field_x="A2") ModelY.objects.create(field_b="B1", field_y="B2") # If we defer a field on a descendent, the parent's field is not deferred. objects_deferred = Base.objects.defer("ModelY___field_y") assert "field_y" not in objects_deferred[0].get_deferred_fields() assert "field_y" in objects_deferred[1].get_deferred_fields() objects_only = Base.objects.only( "polymorphic_ctype", "ModelY___field_y", "ModelX___field_x" ) assert "field_b" in objects_only[0].get_deferred_fields() assert "field_b" in objects_only[1].get_deferred_fields() def test_defer_related_fields(self): self.create_model2abcd() objects_deferred_field4 = Model2A.objects.defer("Model2D___field4") assert "field4" not in objects_deferred_field4[3].__dict__, ( "field4 was not deferred (using defer(), traversing inheritance)" ) assert objects_deferred_field4[0].__class__ == Model2A assert objects_deferred_field4[1].__class__ == Model2B assert objects_deferred_field4[2].__class__ == Model2C assert objects_deferred_field4[3].__class__ == Model2D objects_only_field4 = Model2A.objects.only( "polymorphic_ctype", "field1", "Model2B___id", "Model2B___field2", "Model2B___model2a_ptr", "Model2C___id", "Model2C___field3", "Model2C___model2b_ptr", "Model2D___id", "Model2D___model2c_ptr", ) assert objects_only_field4[0].__class__ == Model2A assert objects_only_field4[1].__class__ == Model2B assert objects_only_field4[2].__class__ == Model2C assert objects_only_field4[3].__class__ == Model2D def test_manual_get_real_instance(self): self.create_model2abcd() o = Model2A.objects.non_polymorphic().get(field1="C1") assert o.get_real_instance().__class__ == Model2C def test_non_polymorphic(self): self.create_model2abcd() objects = list(Model2A.objects.all().non_polymorphic()) self.assertQuerySetEqual( objects, [Model2A, Model2A, Model2A, Model2A], transform=lambda o: o.__class__, ) def test_get_real_instances(self): self.create_model2abcd() qs = Model2A.objects.all().non_polymorphic() # from queryset objects = qs.get_real_instances() self.assertQuerySetEqual( objects, [Model2A, Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ) # from a manual list objects = Model2A.objects.get_real_instances(list(qs)) self.assertQuerySetEqual( objects, [Model2A, Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ) # from empty list objects = Model2A.objects.get_real_instances([]) self.assertQuerySetEqual(objects, [], transform=lambda o: o.__class__) def test_queryset_missing_derived(self): a = Model2A.objects.create(field1="A1") b = Model2B.objects.create(field1="B1", field2="B2") c = Model2C.objects.create(field1="C1", field2="C2", field3="C3") b_base = Model2A.objects.non_polymorphic().get(pk=b.pk) c_base = Model2A.objects.non_polymorphic().get(pk=c.pk) b.delete(keep_parents=True) # e.g. table was truncated qs_base = Model2A.objects.order_by("field1").non_polymorphic() qs_polymorphic = Model2A.objects.order_by("field1").all() assert list(qs_base) == [a, b_base, c_base] assert list(qs_polymorphic) == [a, c] def test_queryset_missing_contenttype(self): stale_ct = ContentType.objects.create(app_label="tests", model="nonexisting") a1 = Model2A.objects.create(field1="A1") a2 = Model2A.objects.create(field1="A2") c = Model2C.objects.create(field1="C1", field2="C2", field3="C3") c_base = Model2A.objects.non_polymorphic().get(pk=c.pk) Model2B.objects.filter(pk=a2.pk).update(polymorphic_ctype=stale_ct) qs_base = Model2A.objects.order_by("field1").non_polymorphic() qs_polymorphic = Model2A.objects.order_by("field1").all() assert list(qs_base) == [a1, a2, c_base] assert list(qs_polymorphic) == [a1, a2, c] def test_translate_polymorphic_q_object(self): self.create_model2abcd() q = Model2A.translate_polymorphic_Q_object(Q(instance_of=Model2C)) objects = Model2A.objects.filter(q) self.assertQuerySetEqual( objects, [Model2C, Model2D], transform=lambda o: o.__class__, ordered=False ) def test_create_instanceof_q(self): q = query_translate.create_instanceof_q([Model2B]) expected = sorted( ContentType.objects.get_for_model(m).pk for m in [Model2B, Model2C, Model2D] ) assert dict(q.children) == dict(polymorphic_ctype__in=expected) def test_base_manager(self): def base_manager(model): return (type(model._base_manager), model._base_manager.model) assert base_manager(PlainA) == (models.Manager, PlainA) assert base_manager(PlainB) == (models.Manager, PlainB) assert base_manager(PlainC) == (models.Manager, PlainC) assert base_manager(Model2A) == (PolymorphicManager, Model2A) assert base_manager(Model2B) == (PolymorphicManager, Model2B) assert base_manager(Model2C) == (PolymorphicManager, Model2C) assert base_manager(One2OneRelatingModel) == (PolymorphicManager, One2OneRelatingModel) assert base_manager(One2OneRelatingModelDerived) == ( PolymorphicManager, One2OneRelatingModelDerived, ) def test_instance_default_manager(self): def default_manager(instance): return ( type(instance.__class__._default_manager), instance.__class__._default_manager.model, ) plain_a = PlainA(field1="C1") plain_b = PlainB(field2="C1") plain_c = PlainC(field3="C1") model_2a = Model2A(field1="C1") model_2b = Model2B(field2="C1") model_2c = Model2C(field3="C1") assert default_manager(plain_a) == (models.Manager, PlainA) assert default_manager(plain_b) == (models.Manager, PlainB) assert default_manager(plain_c) == (models.Manager, PlainC) assert default_manager(model_2a) == (PolymorphicManager, Model2A) assert default_manager(model_2b) == (PolymorphicManager, Model2B) assert default_manager(model_2c) == (PolymorphicManager, Model2C) def test_foreignkey_field(self): self.create_model2abcd() object2a = Model2A.objects.get(field1="C1") assert object2a.model2b.__class__ == Model2B object2b = Model2B.objects.get(field1="C1") assert object2b.model2c.__class__ == Model2C def test_onetoone_field(self): self.create_model2abcd() # FIXME: We should not use base_objects here. a = Model2A.base_objects.get(field1="C1") b = One2OneRelatingModelDerived.objects.create(one2one=a, field1="f1", field2="f2") # FIXME: this result is basically wrong, probably due to Django cacheing (we used base_objects), but should not be a problem assert b.one2one.__class__ == Model2A assert b.one2one_id == b.one2one.id c = One2OneRelatingModelDerived.objects.get(field1="f1") assert c.one2one.__class__ == Model2C assert a.one2onerelatingmodel.__class__ == One2OneRelatingModelDerived def test_manytomany_field(self): # Model 1 o = ModelShow1.objects.create(field1="abc") o.m2m.add(o) o.save() assert ( repr(ModelShow1.objects.all()) == "[ ]" ) # Model 2 o = ModelShow2.objects.create(field1="abc") o.m2m.add(o) o.save() assert repr(ModelShow2.objects.all()) == '[ ]' # Model 3 o = ModelShow3.objects.create(field1="abc") o.m2m.add(o) o.save() assert ( repr(ModelShow3.objects.all()) == '[ ]' ) assert ( repr(ModelShow1.objects.all().annotate(Count("m2m"))) == "[ ]" ) assert ( repr(ModelShow2.objects.all().annotate(Count("m2m"))) == '[ ]' ) assert ( repr(ModelShow3.objects.all().annotate(Count("m2m"))) == '[ ]' ) # no pretty printing ModelShow1_plain.objects.create(field1="abc") ModelShow2_plain.objects.create(field1="abc", field2="def") self.assertQuerySetEqual( ModelShow1_plain.objects.all(), [ModelShow1_plain, ModelShow2_plain], transform=lambda o: o.__class__, ordered=False, ) def test_extra_method(self): a, b, c, d = self.create_model2abcd() objects = Model2A.objects.extra(where=[f"id IN ({b.id}, {c.id})"]) self.assertQuerySetEqual( objects, [Model2B, Model2C], transform=lambda o: o.__class__, ordered=False ) objects = Model2A.objects.extra( select={"select_test": "field1 = 'A1'"}, where=["field1 = 'A1' OR field1 = 'B1'"], order_by=["-id"], ) self.assertQuerySetEqual(objects, [Model2B, Model2A], transform=lambda o: o.__class__) ModelExtraA.objects.create(field1="A1") ModelExtraB.objects.create(field1="B1", field2="B2") ModelExtraC.objects.create(field1="C1", field2="C2", field3="C3") ModelExtraExternal.objects.create(topic="extra1") ModelExtraExternal.objects.create(topic="extra2") ModelExtraExternal.objects.create(topic="extra3") objects = ModelExtraA.objects.extra( tables=["tests_modelextraexternal"], select={"topic": "tests_modelextraexternal.topic"}, where=["tests_modelextraa.id = tests_modelextraexternal.id"], ) assert ( repr(objects[0]) == '' ) assert ( repr(objects[1]) == '' ) assert ( repr(objects[2]) == '' ) assert len(objects) == 3 def test_instance_of_filter(self): self.create_model2abcd() objects = Model2A.objects.instance_of(Model2B) self.assertQuerySetEqual( objects, [Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ordered=False, ) objects = Model2A.objects.filter(instance_of=Model2B) self.assertQuerySetEqual( objects, [Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ordered=False, ) objects = Model2A.objects.filter(Q(instance_of=Model2B)) self.assertQuerySetEqual( objects, [Model2B, Model2C, Model2D], transform=lambda o: o.__class__, ordered=False, ) objects = Model2A.objects.not_instance_of(Model2B) self.assertQuerySetEqual( objects, [Model2A], transform=lambda o: o.__class__, ordered=False ) def test_polymorphic___filter(self): self.create_model2abcd() objects = Model2A.objects.filter(Q(Model2B___field2="B2") | Q(Model2C___field3="C3")) self.assertQuerySetEqual( objects, [Model2B, Model2C], transform=lambda o: o.__class__, ordered=False ) def test_polymorphic_applabel___filter(self): self.create_model2abcd() assert Model2B._meta.app_label == "tests" objects = Model2A.objects.filter( Q(tests__Model2B___field2="B2") | Q(tests__Model2C___field3="C3") ) self.assertQuerySetEqual( objects, [Model2B, Model2C], transform=lambda o: o.__class__, ordered=False ) def test_query_filter_exclude_is_immutable(self): # given q_to_reuse = Q(Model2B___field2="something") untouched_q_object = Q(Model2B___field2="something") # when Model2A.objects.filter(q_to_reuse).all() # then assert q_to_reuse.children == untouched_q_object.children # given q_to_reuse = Q(Model2B___field2="something") untouched_q_object = Q(Model2B___field2="something") # when Model2B.objects.filter(q_to_reuse).all() # then assert q_to_reuse.children == untouched_q_object.children def test_polymorphic___filter_field(self): p = ModelUnderRelParent.objects.create(_private=True, field1="AA") ModelUnderRelChild.objects.create(parent=p, _private2=True) # The "___" filter should also parse to "parent" -> "_private" as fallback. objects = ModelUnderRelChild.objects.filter(parent___private=True) assert len(objects) == 1 def test_polymorphic___filter_reverse_field(self): p = ModelUnderRelParent.objects.create(_private=True, field1="BB") ModelUnderRelChild.objects.create(parent=p, _private2=True) # Also test for reverse relations objects = ModelUnderRelParent.objects.filter(children___private2=True) assert len(objects) == 1 def test_delete(self): a, b, c, d = self.create_model2abcd() oa = Model2A.objects.get(id=b.id) assert oa.__class__ == Model2B assert Model2A.objects.count() == 4 oa.delete() objects = Model2A.objects.all() self.assertQuerySetEqual( objects, [Model2A, Model2C, Model2D], transform=lambda o: o.__class__, ordered=False, ) def test_combine_querysets(self): ModelX.objects.create(field_x="x", field_b="1") ModelY.objects.create(field_y="y", field_b="2") qs = Base.objects.instance_of(ModelX) | Base.objects.instance_of(ModelY) qs = qs.order_by("field_b") assert repr(qs[0]) == "" assert repr(qs[1]) == "" assert len(qs) == 2 def test_multiple_inheritance(self): # multiple inheritance, subclassing third party models (mix PolymorphicModel with models.Model) Enhance_Base.objects.create(field_b="b-base") Enhance_Inherit.objects.create(field_b="b-inherit", field_p="p", field_i="i") qs = Enhance_Base.objects.all() assert len(qs) == 2 assert ( repr(qs[0]) == '' ) assert ( repr(qs[1]) == '' ) def test_relation_base(self): # ForeignKey, ManyToManyField obase = RelationBase.objects.create(field_base="base") oa = RelationA.objects.create(field_base="A1", field_a="A2", fk=obase) ob = RelationB.objects.create(field_base="B1", field_b="B2", fk=oa) oc = RelationBC.objects.create(field_base="C1", field_b="C2", field_c="C3", fk=oa) oa.m2m.add(oa) oa.m2m.add(ob) objects = RelationBase.objects.all() assert ( repr(objects[0]) == '' ) assert ( repr(objects[1]) == '' ) assert ( repr(objects[2]) == '' ) assert ( repr(objects[3]) == '' ) assert len(objects) == 4 oa = RelationBase.objects.get(id=2) assert ( repr(oa.fk) == '' ) objects = oa.relationbase_set.all() assert ( repr(objects[0]) == '' ) assert ( repr(objects[1]) == '' ) assert len(objects) == 2 ob = RelationBase.objects.get(id=3) assert ( repr(ob.fk) == '' ) oa = RelationA.objects.get() objects = oa.m2m.all() assert ( repr(objects[0]) == '' ) assert ( repr(objects[1]) == '' ) assert len(objects) == 2 def test_user_defined_manager(self): self.create_model2abcd() ModelWithMyManager.objects.create(field1="D1a", field4="D4a") ModelWithMyManager.objects.create(field1="D1b", field4="D4b") # MyManager should reverse the sorting of field1 objects = ModelWithMyManager.objects.all() self.assertQuerySetEqual( objects, [(ModelWithMyManager, "D1b", "D4b"), (ModelWithMyManager, "D1a", "D4a")], transform=lambda o: (o.__class__, o.field1, o.field4), ) assert type(ModelWithMyManager.objects) is MyManager assert type(ModelWithMyManager._default_manager) is MyManager def test_user_defined_manager_as_secondary(self): self.create_model2abcd() ModelWithMyManagerNoDefault.objects.create(field1="D1a", field4="D4a") ModelWithMyManagerNoDefault.objects.create(field1="D1b", field4="D4b") # MyManager should reverse the sorting of field1 objects = ModelWithMyManagerNoDefault.my_objects.all() self.assertQuerySetEqual( objects, [ (ModelWithMyManagerNoDefault, "D1b", "D4b"), (ModelWithMyManagerNoDefault, "D1a", "D4a"), ], transform=lambda o: (o.__class__, o.field1, o.field4), ) assert type(ModelWithMyManagerNoDefault.my_objects) is MyManager assert type(ModelWithMyManagerNoDefault.objects) is PolymorphicManager assert type(ModelWithMyManagerNoDefault._default_manager) is PolymorphicManager def test_user_objects_manager_as_secondary(self): self.create_model2abcd() ModelWithMyManagerDefault.objects.create(field1="D1a", field4="D4a") ModelWithMyManagerDefault.objects.create(field1="D1b", field4="D4b") assert type(ModelWithMyManagerDefault.my_objects) is MyManager assert type(ModelWithMyManagerDefault.objects) is PolymorphicManager assert type(ModelWithMyManagerDefault._default_manager) is MyManager def test_user_defined_queryset_as_manager(self): self.create_model2abcd() ModelWithMyManager2.objects.create(field1="D1a", field4="D4a") ModelWithMyManager2.objects.create(field1="D1b", field4="D4b") objects = ModelWithMyManager2.objects.all() self.assertQuerySetEqual( objects, [(ModelWithMyManager2, "D1a", "D4a"), (ModelWithMyManager2, "D1b", "D4b")], transform=lambda o: (o.__class__, o.field1, o.field4), ordered=False, ) assert ( type(ModelWithMyManager2.objects).__name__ == "PolymorphicManagerFromMyManagerQuerySet" ) assert ( type(ModelWithMyManager2._default_manager).__name__ == "PolymorphicManagerFromMyManagerQuerySet" ) def test_manager_inheritance(self): # by choice of MRO, should be MyManager from MROBase1. assert type(MRODerived.objects) is MyManager def test_queryset_assignment(self): # This is just a consistency check for now, testing standard Django behavior. parent = PlainParentModelWithManager.objects.create() child = PlainChildModelWithManager.objects.create(fk=parent) assert type(PlainParentModelWithManager._default_manager) is models.Manager assert type(PlainChildModelWithManager._default_manager) is PlainMyManager assert type(PlainChildModelWithManager.objects) is PlainMyManager assert type(PlainChildModelWithManager.objects.all()) is PlainMyManagerQuerySet # A related set is created using the model's _default_manager, so does gain extra methods. assert type(parent.childmodel_set.my_queryset_foo()) is PlainMyManagerQuerySet # For polymorphic models, the same should happen. parent = ParentModelWithManager.objects.create() child = ChildModelWithManager.objects.create(fk=parent) assert type(ParentModelWithManager._default_manager) is PolymorphicManager assert type(ChildModelWithManager._default_manager) is MyManager assert type(ChildModelWithManager.objects) is MyManager assert type(ChildModelWithManager.objects.my_queryset_foo()) is MyManagerQuerySet # A related set is created using the model's _default_manager, so does gain extra methods. assert type(parent.childmodel_set.my_queryset_foo()) is MyManagerQuerySet def test_proxy_models(self): # prepare some data for data in ("bleep bloop", "I am a", "computer"): ProxyChild.objects.create(some_data=data) # this caches ContentType queries so they don't interfere with our query counts later list(ProxyBase.objects.all()) # one query per concrete class with self.assertNumQueries(1): items = list(ProxyBase.objects.all()) assert isinstance(items[0], ProxyChild) def test_queryset_on_proxy_model_does_not_return_superclasses(self): ProxyBase.objects.create(some_data="Base1") ProxyBase.objects.create(some_data="Base2") ProxyChild.objects.create(some_data="Child1") ProxyChild.objects.create(some_data="Child2") ProxyChild.objects.create(some_data="Child3") assert ProxyBase.objects.count() == 5 assert ProxyChild.objects.count() == 3 def test_proxy_get_real_instance_class(self): """ The call to ``get_real_instance()`` also checks whether the returned model is of the correct type. This unit test guards that this check is working properly. For instance, proxy child models need to be handled separately. """ name = "Item1" nonproxychild = NonProxyChild.objects.create(name=name) pb = ProxyBase.objects.get(id=1) assert pb.get_real_instance_class() == NonProxyChild assert pb.get_real_instance() == nonproxychild assert pb.name == name pbm = NonProxyChild.objects.get(id=1) assert pbm.get_real_instance_class() == NonProxyChild assert pbm.get_real_instance() == nonproxychild assert pbm.name == name def test_content_types_for_proxy_models(self): """Checks if ContentType is capable of returning proxy models.""" from django.contrib.contenttypes.models import ContentType ct = ContentType.objects.get_for_model(ProxyChild, for_concrete_model=False) assert ProxyChild == ct.model_class() def test_proxy_model_inheritance(self): """ Polymorphic abilities should also work when the base model is a proxy object. """ # The managers should point to the proper objects. # otherwise, the whole excersise is pointless. assert ProxiedBase.objects.model == ProxiedBase assert ProxyModelBase.objects.model == ProxyModelBase assert ProxyModelA.objects.model == ProxyModelA assert ProxyModelB.objects.model == ProxyModelB # Create objects object1_pk = ProxyModelA.objects.create(name="object1").pk object2_pk = ProxyModelB.objects.create(name="object2", field2="bb").pk # Getting single objects object1 = ProxyModelBase.objects.get(name="object1") object2 = ProxyModelBase.objects.get(name="object2") assert repr(object1) == ( f'' ) assert repr(object2) == ( '' % object2_pk ) assert isinstance(object1, ProxyModelA) assert isinstance(object2, ProxyModelB) # Same for lists objects = list(ProxyModelBase.objects.all().order_by("name")) assert repr(objects[0]) == ( f'' ) assert repr(objects[1]) == ( '' % object2_pk ) assert isinstance(objects[0], ProxyModelA) assert isinstance(objects[1], ProxyModelB) def test_custom_pk(self): CustomPkBase.objects.create(b="b") CustomPkInherit.objects.create(b="b", i="i") qs = CustomPkBase.objects.all() assert len(qs) == 2 assert repr(qs[0]) == '' assert ( repr(qs[1]) == '' ) def test_fix_getattribute(self): # fixed issue in PolymorphicModel.__getattribute__: field name same as model name o = ModelFieldNameTest.objects.create(modelfieldnametest="1") assert repr(o) == "" # if subclass defined __init__ and accessed class members, # __getattribute__ had a problem: "...has no attribute 'sub_and_superclass_dict'" o = InitTestModelSubclass.objects.create() assert o.bar == "XYZ" def test_parent_link_and_related_name(self): t = TestParentLinkAndRelatedName(field1="TestParentLinkAndRelatedName") t.save() p = ModelShow1_plain.objects.get(field1="TestParentLinkAndRelatedName") # check that p is equal to the assert isinstance(p, TestParentLinkAndRelatedName) assert p == t # check that the accessors to parent and sublass work correctly and return the right object p = ModelShow1_plain.objects.non_polymorphic().get(field1="TestParentLinkAndRelatedName") # p should be Plain1 and t TestParentLinkAndRelatedName, so not equal assert p != t assert p == t.superclass assert p.related_name_subclass == t # test that we can delete the object t.delete() def test_polymorphic__aggregate(self): """test ModelX___field syntax on aggregate (should work for annotate either)""" Model2A.objects.create(field1="A1") Model2B.objects.create(field1="A1", field2="B2") Model2B.objects.create(field1="A1", field2="B2") # aggregate using **kwargs result = Model2A.objects.aggregate(cnt=Count("Model2B___field2")) assert result == {"cnt": 2} # aggregate using **args with pytest.raises( AssertionError, match="model lookup supported for keyword arguments only", ): Model2A.objects.aggregate(Count("Model2B___field2")) def test_polymorphic__complex_aggregate(self): """test (complex expression on) aggregate (should work for annotate either)""" Model2A.objects.create(field1="A1") Model2B.objects.create(field1="A1", field2="B2") Model2B.objects.create(field1="A1", field2="B2") # aggregate using **kwargs result = Model2A.objects.aggregate( cnt_a1=Count(Case(When(field1="A1", then=1))), cnt_b2=Count(Case(When(Model2B___field2="B2", then=1))), ) assert result == {"cnt_b2": 2, "cnt_a1": 3} # aggregate using **args # we have to set the defaul alias or django won't except a complex expression # on aggregate/annotate def ComplexAgg(expression): complexagg = Count(expression) * 10 complexagg.default_alias = "complexagg" return complexagg with pytest.raises( AssertionError, match="model lookup supported for keyword arguments only", ): Model2A.objects.aggregate(ComplexAgg("Model2B___field2")) def test_polymorphic__filtered_relation(self): """test annotation using FilteredRelation""" blog = BlogA.objects.create(name="Ba1", info="i1 joined") blog.blogentry_set.create(text="bla1 joined") blog.blogentry_set.create(text="bla2 joined") blog.blogentry_set.create(text="bla3 joined") blog.blogentry_set.create(text="bla4") blog.blogentry_set.create(text="bla5") BlogA.objects.create(name="Ba2", info="i2 joined") BlogA.objects.create(name="Ba3", info="i3") BlogB.objects.create(name="Bb3") result = BlogA.objects.annotate( text_joined=FilteredRelation( "blogentry", condition=Q(blogentry__text__contains="joined") ), ).aggregate(Count("text_joined")) assert result == {"text_joined__count": 3} result = BlogA.objects.annotate( text_joined=FilteredRelation( "blogentry", condition=Q(blogentry__text__contains="joined") ), ).aggregate(count=Count("text_joined")) assert result == {"count": 3} result = BlogBase.objects.annotate( info_joined=FilteredRelation("bloga", condition=Q(BlogA___info__contains="joined")), ).aggregate(Count("info_joined")) assert result == {"info_joined__count": 2} result = BlogBase.objects.annotate( info_joined=FilteredRelation("bloga", condition=Q(BlogA___info__contains="joined")), ).aggregate(count=Count("info_joined")) assert result == {"count": 2} # We should get a BlogA and a BlogB result = BlogBase.objects.annotate( info_joined=FilteredRelation("bloga", condition=Q(BlogA___info__contains="joined")), ).filter(info_joined__isnull=True) assert result.count() == 2 assert isinstance(result.first(), BlogA) assert isinstance(result.last(), BlogB) def test_polymorphic__expressions(self): from django.db.models.functions import Concat # no exception raised result = Model2B.objects.annotate(val=Concat("field1", "field2")) assert list(result) == [] def test_null_polymorphic_id(self): """Test that a proper error message is displayed when the database lacks the ``polymorphic_ctype_id``""" Model2A.objects.create(field1="A1") Model2B.objects.create(field1="A1", field2="B2") Model2B.objects.create(field1="A1", field2="B2") Model2A.objects.all().update(polymorphic_ctype_id=None) with pytest.raises(PolymorphicTypeUndefined): list(Model2A.objects.all()) def test_invalid_polymorphic_id(self): """Test that a proper error message is displayed when the database ``polymorphic_ctype_id`` is invalid""" Model2A.objects.create(field1="A1") Model2B.objects.create(field1="A1", field2="B2") Model2B.objects.create(field1="A1", field2="B2") invalid = ContentType.objects.get_for_model(PlainA).pk Model2A.objects.all().update(polymorphic_ctype_id=invalid) with pytest.raises(PolymorphicTypeInvalid): list(Model2A.objects.all()) def test_bulk_create_abstract_inheritance(self): ArtProject.objects.bulk_create( [ ArtProject(topic="Painting with Tim", artist="T. Turner"), ArtProject(topic="Sculpture with Tim", artist="T. Turner"), ] ) assert sorted(ArtProject.objects.values_list("topic", "artist")) == [ ("Painting with Tim", "T. Turner"), ("Sculpture with Tim", "T. Turner"), ] def test_bulk_create_proxy_inheritance(self): RedheadDuck.objects.bulk_create( [ RedheadDuck(name="redheadduck1"), Duck(name="duck1"), RubberDuck(name="rubberduck1"), ] ) RubberDuck.objects.bulk_create( [ RedheadDuck(name="redheadduck2"), RubberDuck(name="rubberduck2"), Duck(name="duck2"), ] ) assert sorted(RedheadDuck.objects.values_list("name", flat=True)) == [ "redheadduck1", "redheadduck2", ] assert sorted(RubberDuck.objects.values_list("name", flat=True)) == [ "rubberduck1", "rubberduck2", ] assert sorted(Duck.objects.values_list("name", flat=True)) == [ "duck1", "duck2", "redheadduck1", "redheadduck2", "rubberduck1", "rubberduck2", ] def test_bulk_create_unsupported_multi_table_inheritance(self): with pytest.raises(ValueError): MultiTableDerived.objects.bulk_create( [MultiTableDerived(field1="field1", field2="field2")] ) def test_bulk_create_ignore_conflicts(self): ArtProject.objects.bulk_create( [ ArtProject(topic="Painting with Tim", artist="T. Turner"), ArtProject.objects.create(topic="Sculpture with Tim", artist="T. Turner"), ], ignore_conflicts=True, ) assert ArtProject.objects.count() == 2 def test_bulk_create_no_ignore_conflicts(self): with pytest.raises(IntegrityError): ArtProject.objects.bulk_create( [ ArtProject(topic="Painting with Tim", artist="T. Turner"), ArtProject.objects.create(topic="Sculpture with Tim", artist="T. Turner"), ], ignore_conflicts=False, ) assert ArtProject.objects.count() == 1 def test_can_query_using_subclass_selector_on_abstract_model(self): obj = SubclassSelectorAbstractConcreteModel.objects.create(concrete_field="abc") queried_obj = SubclassSelectorAbstractBaseModel.objects.filter( SubclassSelectorAbstractConcreteModel___concrete_field="abc" ).get() assert obj.pk == queried_obj.pk def test_can_query_using_subclass_selector_on_proxy_model(self): obj = SubclassSelectorProxyConcreteModel.objects.create(concrete_field="abc") queried_obj = SubclassSelectorProxyBaseModel.objects.filter( SubclassSelectorProxyConcreteModel___concrete_field="abc" ).get() assert obj.pk == queried_obj.pk def test_prefetch_related_behaves_normally_with_polymorphic_model(self): b1 = RelatingModel.objects.create() b2 = RelatingModel.objects.create() a = b1.many2many.create() # create Model2A b2.many2many.add(a) # add same to second relating model qs = RelatingModel.objects.prefetch_related("many2many") for obj in qs: assert len(obj.many2many.all()) == 1 def test_prefetch_related_with_missing(self): b1 = RelatingModel.objects.create() b2 = RelatingModel.objects.create() rel1 = Model2A.objects.create(field1="A1") rel2 = Model2B.objects.create(field1="A2", field2="B2") b1.many2many.add(rel1) b2.many2many.add(rel2) rel2.delete(keep_parents=True) qs = RelatingModel.objects.order_by("pk").prefetch_related("many2many") objects = list(qs) assert len(objects[0].many2many.all()) == 1 # derived object was not fetched assert len(objects[1].many2many.all()) == 0 # base object does exist assert len(objects[1].many2many.non_polymorphic()) == 1 def test_refresh_from_db_fields(self): """Test whether refresh_from_db(fields=..) works as it performs .only() queries""" obj = Model2B.objects.create(field1="aa", field2="bb") Model2B.objects.filter(pk=obj.pk).update(field1="aa1", field2="bb2") obj.refresh_from_db(fields=["field2"]) assert obj.field1 == "aa" assert obj.field2 == "bb2" obj.refresh_from_db(fields=["field1"]) assert obj.field1 == "aa1" def test_non_polymorphic_parent(self): obj = NonPolymorphicParent.objects.create() assert obj.delete()