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django/tests/custom_managers/tests.py

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from __future__ import unicode_literals
from django.db import models
from django.test import TestCase
from django.utils import six
from .models import (Book, Car, CustomManager, CustomQuerySet,
DeconstructibleCustomManager, FunPerson, OneToOneRestrictedModel, Person,
PersonManager, PublishedBookManager, RelatedModel, RestrictedModel)
class CustomManagerTests(TestCase):
custom_manager_names = [
'custom_queryset_default_manager',
'custom_queryset_custom_manager',
]
@classmethod
def setUpTestData(cls):
cls.b1 = Book.published_objects.create(
title="How to program", author="Rodney Dangerfield", is_published=True)
cls.b2 = Book.published_objects.create(
title="How to be smart", author="Albert Einstein", is_published=False)
cls.p1 = Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True)
cls.droopy = Person.objects.create(first_name="Droopy", last_name="Dog", fun=False)
def test_custom_manager_basic(self):
"""
Test a custom Manager method.
"""
self.assertQuerysetEqual(
Person.objects.get_fun_people(), [
"Bugs Bunny"
],
six.text_type
)
def test_queryset_copied_to_default(self):
"""
The methods of a custom QuerySet are properly copied onto the
default Manager.
"""
for manager_name in self.custom_manager_names:
manager = getattr(Person, manager_name)
# Public methods are copied
manager.public_method()
# Private methods are not copied
with self.assertRaises(AttributeError):
manager._private_method()
def test_manager_honors_queryset_only(self):
for manager_name in self.custom_manager_names:
manager = getattr(Person, manager_name)
# Methods with queryset_only=False are copied even if they are private.
manager._optin_private_method()
# Methods with queryset_only=True aren't copied even if they are public.
with self.assertRaises(AttributeError):
manager.optout_public_method()
def test_manager_use_queryset_methods(self):
"""
Custom manager will use the queryset methods
"""
for manager_name in self.custom_manager_names:
manager = getattr(Person, manager_name)
queryset = manager.filter()
self.assertQuerysetEqual(queryset, ["Bugs Bunny"], six.text_type)
self.assertEqual(queryset._filter_CustomQuerySet, True)
# Test that specialized querysets inherit from our custom queryset.
queryset = manager.values_list('first_name', flat=True).filter()
self.assertEqual(list(queryset), [six.text_type("Bugs")])
self.assertEqual(queryset._filter_CustomQuerySet, True)
def test_init_args(self):
"""
The custom manager __init__() argument has been set.
"""
self.assertEqual(Person.custom_queryset_custom_manager.init_arg, 'hello')
def test_manager_attributes(self):
"""
Custom manager method is only available on the manager and not on
querysets.
"""
Person.custom_queryset_custom_manager.manager_only()
with self.assertRaises(AttributeError):
Person.custom_queryset_custom_manager.all().manager_only()
def test_queryset_and_manager(self):
"""
Queryset method doesn't override the custom manager method.
"""
queryset = Person.custom_queryset_custom_manager.filter()
self.assertQuerysetEqual(queryset, ["Bugs Bunny"], six.text_type)
self.assertEqual(queryset._filter_CustomManager, True)
def test_related_manager(self):
"""
The related managers extend the default manager.
"""
self.assertIsInstance(self.droopy.books, PublishedBookManager)
self.assertIsInstance(self.b2.authors, PersonManager)
def test_no_objects(self):
"""
The default manager, "objects", doesn't exist, because a custom one
was provided.
"""
self.assertRaises(AttributeError, lambda: Book.objects)
def test_filtering(self):
"""
Custom managers respond to usual filtering methods
"""
self.assertQuerysetEqual(
Book.published_objects.all(), [
"How to program",
],
lambda b: b.title
)
def test_fk_related_manager(self):
Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_book=self.b1)
Person.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_book=self.b1)
FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_book=self.b1)
FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_book=self.b1)
self.assertQuerysetEqual(
self.b1.favorite_books.order_by('first_name').all(), [
"Bugs",
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.fun_people_favorite_books.all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='fun_people').all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
def test_gfk_related_manager(self):
Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_thing=self.b1)
Person.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_thing=self.b1)
FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_thing=self.b1)
FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_thing=self.b1)
self.assertQuerysetEqual(
self.b1.favorite_things.all(), [
"Bugs",
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.fun_people_favorite_things.all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='fun_people').all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
def test_m2m_related_manager(self):
bugs = Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True)
self.b1.authors.add(bugs)
droopy = Person.objects.create(first_name="Droopy", last_name="Dog", fun=False)
self.b1.authors.add(droopy)
bugs = FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True)
self.b1.fun_authors.add(bugs)
droopy = FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False)
self.b1.fun_authors.add(droopy)
self.assertQuerysetEqual(
self.b1.authors.order_by('first_name').all(), [
"Bugs",
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.fun_authors.order_by('first_name').all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.authors(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.authors(manager='fun_people').all(), [
"Bugs",
],
lambda c: c.first_name,
ordered=False,
)
def test_removal_through_default_fk_related_manager(self, bulk=True):
bugs = FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_book=self.b1)
droopy = FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_book=self.b1)
self.b1.fun_people_favorite_books.remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.filter(favorite_book=self.b1), [
"Bugs",
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.b1.fun_people_favorite_books.remove(bugs, bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.filter(favorite_book=self.b1), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
bugs.favorite_book = self.b1
bugs.save()
self.b1.fun_people_favorite_books.clear(bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.filter(favorite_book=self.b1), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
def test_slow_removal_through_default_fk_related_manager(self):
self.test_removal_through_default_fk_related_manager(bulk=False)
def test_removal_through_specified_fk_related_manager(self, bulk=True):
Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_book=self.b1)
droopy = Person.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_book=self.b1)
# Check that the fun manager DOESN'T remove boring people.
self.b1.favorite_books(manager='fun_people').remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
# Check that the boring manager DOES remove boring people.
self.b1.favorite_books(manager='boring_people').remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='boring_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
droopy.favorite_book = self.b1
droopy.save()
# Check that the fun manager ONLY clears fun people.
self.b1.favorite_books(manager='fun_people').clear(bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_books(manager='fun_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
def test_slow_removal_through_specified_fk_related_manager(self):
self.test_removal_through_specified_fk_related_manager(bulk=False)
def test_removal_through_default_gfk_related_manager(self, bulk=True):
bugs = FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_thing=self.b1)
droopy = FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_thing=self.b1)
self.b1.fun_people_favorite_things.remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.order_by('first_name').filter(favorite_thing_id=self.b1.pk), [
"Bugs",
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.b1.fun_people_favorite_things.remove(bugs, bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.order_by('first_name').filter(favorite_thing_id=self.b1.pk), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
bugs.favorite_book = self.b1
bugs.save()
self.b1.fun_people_favorite_things.clear(bulk=bulk)
self.assertQuerysetEqual(
FunPerson._base_manager.order_by('first_name').filter(favorite_thing_id=self.b1.pk), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
def test_slow_removal_through_default_gfk_related_manager(self):
self.test_removal_through_default_gfk_related_manager(bulk=False)
def test_removal_through_specified_gfk_related_manager(self, bulk=True):
Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True, favorite_thing=self.b1)
droopy = Person.objects.create(first_name="Droopy", last_name="Dog", fun=False, favorite_thing=self.b1)
# Check that the fun manager DOESN'T remove boring people.
self.b1.favorite_things(manager='fun_people').remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
# Check that the boring manager DOES remove boring people.
self.b1.favorite_things(manager='boring_people').remove(droopy, bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='boring_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
droopy.favorite_thing = self.b1
droopy.save()
# Check that the fun manager ONLY clears fun people.
self.b1.favorite_things(manager='fun_people').clear(bulk=bulk)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.favorite_things(manager='fun_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
def test_slow_removal_through_specified_gfk_related_manager(self):
self.test_removal_through_specified_gfk_related_manager(bulk=False)
def test_removal_through_default_m2m_related_manager(self):
bugs = FunPerson.objects.create(first_name="Bugs", last_name="Bunny", fun=True)
self.b1.fun_authors.add(bugs)
droopy = FunPerson.objects.create(first_name="Droopy", last_name="Dog", fun=False)
self.b1.fun_authors.add(droopy)
self.b1.fun_authors.remove(droopy)
self.assertQuerysetEqual(
self.b1.fun_authors.through._default_manager.all(), [
"Bugs",
"Droopy",
],
lambda c: c.funperson.first_name,
ordered=False,
)
self.b1.fun_authors.remove(bugs)
self.assertQuerysetEqual(
self.b1.fun_authors.through._default_manager.all(), [
"Droopy",
],
lambda c: c.funperson.first_name,
ordered=False,
)
self.b1.fun_authors.add(bugs)
self.b1.fun_authors.clear()
self.assertQuerysetEqual(
self.b1.fun_authors.through._default_manager.all(), [
"Droopy",
],
lambda c: c.funperson.first_name,
ordered=False,
)
def test_removal_through_specified_m2m_related_manager(self):
bugs = Person.objects.create(first_name="Bugs", last_name="Bunny", fun=True)
self.b1.authors.add(bugs)
droopy = Person.objects.create(first_name="Droopy", last_name="Dog", fun=False)
self.b1.authors.add(droopy)
# Check that the fun manager DOESN'T remove boring people.
self.b1.authors(manager='fun_people').remove(droopy)
self.assertQuerysetEqual(
self.b1.authors(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
# Check that the boring manager DOES remove boring people.
self.b1.authors(manager='boring_people').remove(droopy)
self.assertQuerysetEqual(
self.b1.authors(manager='boring_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
self.b1.authors.add(droopy)
# Check that the fun manager ONLY clears fun people.
self.b1.authors(manager='fun_people').clear()
self.assertQuerysetEqual(
self.b1.authors(manager='boring_people').all(), [
"Droopy",
],
lambda c: c.first_name,
ordered=False,
)
self.assertQuerysetEqual(
self.b1.authors(manager='fun_people').all(), [
],
lambda c: c.first_name,
ordered=False,
)
def test_deconstruct_default(self):
mgr = models.Manager()
as_manager, mgr_path, qs_path, args, kwargs = mgr.deconstruct()
self.assertFalse(as_manager)
self.assertEqual(mgr_path, 'django.db.models.manager.Manager')
self.assertEqual(args, ())
self.assertEqual(kwargs, {})
def test_deconstruct_as_manager(self):
mgr = CustomQuerySet.as_manager()
as_manager, mgr_path, qs_path, args, kwargs = mgr.deconstruct()
self.assertTrue(as_manager)
self.assertEqual(qs_path, 'custom_managers.models.CustomQuerySet')
def test_deconstruct_from_queryset(self):
mgr = DeconstructibleCustomManager('a', 'b')
as_manager, mgr_path, qs_path, args, kwargs = mgr.deconstruct()
self.assertFalse(as_manager)
self.assertEqual(mgr_path, 'custom_managers.models.DeconstructibleCustomManager')
self.assertEqual(args, ('a', 'b',))
self.assertEqual(kwargs, {})
mgr = DeconstructibleCustomManager('x', 'y', c=3, d=4)
as_manager, mgr_path, qs_path, args, kwargs = mgr.deconstruct()
self.assertFalse(as_manager)
self.assertEqual(mgr_path, 'custom_managers.models.DeconstructibleCustomManager')
self.assertEqual(args, ('x', 'y',))
self.assertEqual(kwargs, {'c': 3, 'd': 4})
def test_deconstruct_from_queryset_failing(self):
mgr = CustomManager('arg')
msg = ("Could not find manager BaseCustomManagerFromCustomQuerySet in "
"django.db.models.manager.\n"
"Please note that you need to inherit from managers you "
"dynamically generated with 'from_queryset()'.")
with self.assertRaisesMessage(ValueError, msg):
mgr.deconstruct()
class TestCars(TestCase):
def test_managers(self):
# Each model class gets a "_default_manager" attribute, which is a
# reference to the first manager defined in the class.
Car.cars.create(name="Corvette", mileage=21, top_speed=180)
Car.cars.create(name="Neon", mileage=31, top_speed=100)
self.assertQuerysetEqual(
Car._default_manager.order_by("name"), [
"Corvette",
"Neon",
],
lambda c: c.name
)
self.assertQuerysetEqual(
Car.cars.order_by("name"), [
"Corvette",
"Neon",
],
lambda c: c.name
)
# alternate manager
self.assertQuerysetEqual(
Car.fast_cars.all(), [
"Corvette",
],
lambda c: c.name
)
class CustomManagersRegressTestCase(TestCase):
def test_filtered_default_manager(self):
"""Even though the default manager filters out some records,
we must still be able to save (particularly, save by updating
existing records) those filtered instances. This is a
regression test for #8990, #9527"""
related = RelatedModel.objects.create(name="xyzzy")
obj = RestrictedModel.objects.create(name="hidden", related=related)
obj.name = "still hidden"
obj.save()
# If the hidden object wasn't seen during the save process,
# there would now be two objects in the database.
self.assertEqual(RestrictedModel.plain_manager.count(), 1)
def test_delete_related_on_filtered_manager(self):
"""Deleting related objects should also not be distracted by a
restricted manager on the related object. This is a regression
test for #2698."""
related = RelatedModel.objects.create(name="xyzzy")
for name, public in (('one', True), ('two', False), ('three', False)):
RestrictedModel.objects.create(name=name, is_public=public, related=related)
obj = RelatedModel.objects.get(name="xyzzy")
obj.delete()
# All of the RestrictedModel instances should have been
# deleted, since they *all* pointed to the RelatedModel. If
# the default manager is used, only the public one will be
# deleted.
self.assertEqual(len(RestrictedModel.plain_manager.all()), 0)
def test_delete_one_to_one_manager(self):
# The same test case as the last one, but for one-to-one
# models, which are implemented slightly different internally,
# so it's a different code path.
obj = RelatedModel.objects.create(name="xyzzy")
OneToOneRestrictedModel.objects.create(name="foo", is_public=False, related=obj)
obj = RelatedModel.objects.get(name="xyzzy")
obj.delete()
self.assertEqual(len(OneToOneRestrictedModel.plain_manager.all()), 0)