from unittest import skipUnless from django.db import models from django.template import Context, Template from django.test import SimpleTestCase, TestCase, override_settings from django.test.utils import isolate_apps from django.utils.version import PY37 from .models import ( AbstractBase1, AbstractBase2, AbstractBase3, Child1, Child2, Child3, Child4, Child5, Child6, Child7, RelatedModel, RelationModel, ) class ManagersRegressionTests(TestCase): def test_managers(self): a1 = Child1.objects.create(name='fred', data='a1') a2 = Child1.objects.create(name='barney', data='a2') b1 = Child2.objects.create(name='fred', data='b1', value=1) b2 = Child2.objects.create(name='barney', data='b2', value=42) c1 = Child3.objects.create(name='fred', data='c1', comment='yes') c2 = Child3.objects.create(name='barney', data='c2', comment='no') d1 = Child4.objects.create(name='fred', data='d1') d2 = Child4.objects.create(name='barney', data='d2') fred1 = Child5.objects.create(name='fred', comment='yes') Child5.objects.create(name='barney', comment='no') f1 = Child6.objects.create(name='fred', data='f1', value=42) f2 = Child6.objects.create(name='barney', data='f2', value=42) fred2 = Child7.objects.create(name='fred') barney = Child7.objects.create(name='barney') self.assertSequenceEqual(Child1.manager1.all(), [a1]) self.assertSequenceEqual(Child1.manager2.all(), [a2]) self.assertSequenceEqual(Child1._default_manager.all(), [a1]) self.assertSequenceEqual(Child2._default_manager.all(), [b1]) self.assertSequenceEqual(Child2.restricted.all(), [b2]) self.assertSequenceEqual(Child3._default_manager.all(), [c1]) self.assertSequenceEqual(Child3.manager1.all(), [c1]) self.assertSequenceEqual(Child3.manager2.all(), [c2]) # Since Child6 inherits from Child4, the corresponding rows from f1 and # f2 also appear here. This is the expected result. self.assertSequenceEqual( Child4._default_manager.order_by('data'), [d1, d2, f1.child4_ptr, f2.child4_ptr], ) self.assertCountEqual(Child4.manager1.all(), [d1, f1.child4_ptr]) self.assertCountEqual(Child5._default_manager.all(), [fred1]) self.assertCountEqual(Child6._default_manager.all(), [f1, f2]) self.assertSequenceEqual( Child7._default_manager.order_by('name'), [barney, fred2], ) def test_abstract_manager(self): # Accessing the manager on an abstract model should # raise an attribute error with an appropriate message. # This error message isn't ideal, but if the model is abstract and # a lot of the class instantiation logic isn't invoked; if the # manager is implied, then we don't get a hook to install the # error-raising manager. msg = "type object 'AbstractBase3' has no attribute 'objects'" with self.assertRaisesMessage(AttributeError, msg): AbstractBase3.objects.all() def test_custom_abstract_manager(self): # Accessing the manager on an abstract model with a custom # manager should raise an attribute error with an appropriate # message. msg = "Manager isn't available; AbstractBase2 is abstract" with self.assertRaisesMessage(AttributeError, msg): AbstractBase2.restricted.all() def test_explicit_abstract_manager(self): # Accessing the manager on an abstract model with an explicit # manager should raise an attribute error with an appropriate # message. msg = "Manager isn't available; AbstractBase1 is abstract" with self.assertRaisesMessage(AttributeError, msg): AbstractBase1.objects.all() @override_settings(TEST_SWAPPABLE_MODEL='managers_regress.Parent') @isolate_apps('managers_regress') def test_swappable_manager(self): class SwappableModel(models.Model): class Meta: swappable = 'TEST_SWAPPABLE_MODEL' # Accessing the manager on a swappable model should # raise an attribute error with a helpful message msg = ( "Manager isn't available; 'managers_regress.SwappableModel' " "has been swapped for 'managers_regress.Parent'" ) with self.assertRaisesMessage(AttributeError, msg): SwappableModel.objects.all() @override_settings(TEST_SWAPPABLE_MODEL='managers_regress.Parent') @isolate_apps('managers_regress') def test_custom_swappable_manager(self): class SwappableModel(models.Model): stuff = models.Manager() class Meta: swappable = 'TEST_SWAPPABLE_MODEL' # Accessing the manager on a swappable model with an # explicit manager should raise an attribute error with a # helpful message msg = ( "Manager isn't available; 'managers_regress.SwappableModel' " "has been swapped for 'managers_regress.Parent'" ) with self.assertRaisesMessage(AttributeError, msg): SwappableModel.stuff.all() @override_settings(TEST_SWAPPABLE_MODEL='managers_regress.Parent') @isolate_apps('managers_regress') def test_explicit_swappable_manager(self): class SwappableModel(models.Model): objects = models.Manager() class Meta: swappable = 'TEST_SWAPPABLE_MODEL' # Accessing the manager on a swappable model with an # explicit manager should raise an attribute error with a # helpful message msg = ( "Manager isn't available; 'managers_regress.SwappableModel' " "has been swapped for 'managers_regress.Parent'" ) with self.assertRaisesMessage(AttributeError, msg): SwappableModel.objects.all() def test_regress_3871(self): related = RelatedModel.objects.create() relation = RelationModel() relation.fk = related relation.gfk = related relation.save() relation.m2m.add(related) t = Template('{{ related.test_fk.all.0 }}{{ related.test_gfk.all.0 }}{{ related.test_m2m.all.0 }}') self.assertEqual( t.render(Context({'related': related})), ''.join([str(relation.pk)] * 3), ) def test_field_can_be_called_exact(self): # Make sure related managers core filters don't include an # explicit `__exact` lookup that could be interpreted as a # reference to a foreign `exact` field. refs #23940. related = RelatedModel.objects.create(exact=False) relation = related.test_fk.create() self.assertEqual(related.test_fk.get(), relation) @isolate_apps('managers_regress') class TestManagerInheritance(SimpleTestCase): def test_implicit_inheritance(self): class CustomManager(models.Manager): pass class AbstractModel(models.Model): custom_manager = CustomManager() class Meta: abstract = True class PlainModel(models.Model): custom_manager = CustomManager() self.assertIsInstance(PlainModel._base_manager, models.Manager) self.assertIsInstance(PlainModel._default_manager, CustomManager) class ModelWithAbstractParent(AbstractModel): pass self.assertIsInstance(ModelWithAbstractParent._base_manager, models.Manager) self.assertIsInstance(ModelWithAbstractParent._default_manager, CustomManager) class ProxyModel(PlainModel): class Meta: proxy = True self.assertIsInstance(ProxyModel._base_manager, models.Manager) self.assertIsInstance(ProxyModel._default_manager, CustomManager) class MTIModel(PlainModel): pass self.assertIsInstance(MTIModel._base_manager, models.Manager) self.assertIsInstance(MTIModel._default_manager, CustomManager) def test_default_manager_inheritance(self): class CustomManager(models.Manager): pass class AbstractModel(models.Model): another_manager = models.Manager() custom_manager = CustomManager() class Meta: default_manager_name = 'custom_manager' abstract = True class PlainModel(models.Model): another_manager = models.Manager() custom_manager = CustomManager() class Meta: default_manager_name = 'custom_manager' self.assertIsInstance(PlainModel._default_manager, CustomManager) class ModelWithAbstractParent(AbstractModel): pass self.assertIsInstance(ModelWithAbstractParent._default_manager, CustomManager) class ProxyModel(PlainModel): class Meta: proxy = True self.assertIsInstance(ProxyModel._default_manager, CustomManager) class MTIModel(PlainModel): pass self.assertIsInstance(MTIModel._default_manager, CustomManager) def test_base_manager_inheritance(self): class CustomManager(models.Manager): pass class AbstractModel(models.Model): another_manager = models.Manager() custom_manager = CustomManager() class Meta: base_manager_name = 'custom_manager' abstract = True class PlainModel(models.Model): another_manager = models.Manager() custom_manager = CustomManager() class Meta: base_manager_name = 'custom_manager' self.assertIsInstance(PlainModel._base_manager, CustomManager) class ModelWithAbstractParent(AbstractModel): pass self.assertIsInstance(ModelWithAbstractParent._base_manager, CustomManager) class ProxyModel(PlainModel): class Meta: proxy = True self.assertIsInstance(ProxyModel._base_manager, CustomManager) class MTIModel(PlainModel): pass self.assertIsInstance(MTIModel._base_manager, CustomManager) def test_manager_no_duplicates(self): class CustomManager(models.Manager): pass class AbstractModel(models.Model): custom_manager = models.Manager() class Meta: abstract = True class TestModel(AbstractModel): custom_manager = CustomManager() self.assertEqual(TestModel._meta.managers, (TestModel.custom_manager,)) self.assertEqual(TestModel._meta.managers_map, {'custom_manager': TestModel.custom_manager}) @skipUnless(PY37, '__class_getitem__() was added in Python 3.7') def test_manager_class_getitem(self): self.assertIs(models.Manager[Child1], models.Manager)