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django/tests/managers_regress/tests.py

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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 .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}
)
def test_manager_class_getitem(self):
self.assertIs(models.Manager[Child1], models.Manager)