# -*- encoding: utf-8 -*- from __future__ import unicode_literals import warnings from django.core.checks import Error, Warning as DjangoWarning from django.db import models from django.db.models.fields.related import ForeignObject from django.test import ignore_warnings from django.test.testcases import skipIfDBFeature from django.test.utils import override_settings from django.utils import six from django.utils.deprecation import RemovedInDjango20Warning from django.utils.version import get_docs_version from .base import IsolatedModelsTestCase class RelativeFieldTests(IsolatedModelsTestCase): def test_valid_foreign_key_without_accessor(self): class Target(models.Model): # There would be a clash if Model.field installed an accessor. model = models.IntegerField() class Model(models.Model): field = models.ForeignKey(Target, models.CASCADE, related_name='+') field = Model._meta.get_field('field') errors = field.check() self.assertEqual(errors, []) @ignore_warnings(category=RemovedInDjango20Warning) def test_valid_foreign_key_without_on_delete(self): class Target(models.Model): model = models.IntegerField() class Model(models.Model): field = models.ForeignKey(Target, related_name='+') def test_foreign_key_without_on_delete_warning(self): with warnings.catch_warnings(record=True) as warns: warnings.simplefilter('always') # prevent warnings from appearing as errors class Target(models.Model): model = models.IntegerField() class Model(models.Model): field = models.ForeignKey(Target, related_name='+') self.assertEqual(len(warns), 1) self.assertEqual( str(warns[0].message), 'on_delete will be a required arg for ForeignKey in Django ' '2.0. Set it to models.CASCADE if you want to maintain the ' 'current default behavior. See ' 'https://docs.djangoproject.com/en/%s/ref/models/fields/' '#django.db.models.ForeignKey.on_delete' % get_docs_version(), ) def test_foreign_key_to_field_as_arg(self): with warnings.catch_warnings(record=True) as warns: warnings.simplefilter('always') # prevent warnings from appearing as errors class Target(models.Model): model = models.IntegerField() class Model(models.Model): field = models.ForeignKey(Target, 'id') self.assertEqual(len(warns), 1) self.assertEqual( str(warns[0].message), "The signature for ForeignKey will change in Django 2.0. " "Pass to_field='id' as a kwarg instead of as an arg." ) def test_one_to_one_field_without_on_delete_warning(self): with warnings.catch_warnings(record=True) as warns: warnings.simplefilter('always') # prevent warnings from appearing as errors class Target(models.Model): model = models.IntegerField() class Model(models.Model): field = models.OneToOneField(Target, related_name='+') self.assertEqual(len(warns), 1) self.assertEqual( str(warns[0].message), 'on_delete will be a required arg for OneToOneField in Django ' '2.0. Set it to models.CASCADE if you want to maintain the ' 'current default behavior. See ' 'https://docs.djangoproject.com/en/%s/ref/models/fields/' '#django.db.models.ForeignKey.on_delete' % get_docs_version(), ) def test_one_to_one_field_to_field_as_arg(self): with warnings.catch_warnings(record=True) as warns: warnings.simplefilter('always') # prevent warnings from appearing as errors class Target(models.Model): model = models.IntegerField() class Model(models.Model): field = models.OneToOneField(Target, 'id') self.assertEqual(len(warns), 1) self.assertEqual( str(warns[0].message), "The signature for OneToOneField will change in Django 2.0. " "Pass to_field='id' as a kwarg instead of as an arg." ) def test_foreign_key_to_missing_model(self): # Model names are resolved when a model is being created, so we cannot # test relative fields in isolation and we need to attach them to a # model. class Model(models.Model): foreign_key = models.ForeignKey('Rel1', models.CASCADE) field = Model._meta.get_field('foreign_key') errors = field.check() expected = [ Error( ("Field defines a relation with model 'Rel1', " "which is either not installed, or is abstract."), hint=None, obj=field, id='fields.E300', ), ] self.assertEqual(errors, expected) def test_many_to_many_to_missing_model(self): class Model(models.Model): m2m = models.ManyToManyField("Rel2") field = Model._meta.get_field('m2m') errors = field.check(from_model=Model) expected = [ Error( ("Field defines a relation with model 'Rel2', " "which is either not installed, or is abstract."), hint=None, obj=field, id='fields.E300', ), ] self.assertEqual(errors, expected) def test_many_to_many_with_useless_options(self): class Model(models.Model): name = models.CharField(max_length=20) class ModelM2M(models.Model): m2m = models.ManyToManyField(Model, null=True, validators=['']) errors = ModelM2M.check() field = ModelM2M._meta.get_field('m2m') expected = [ DjangoWarning( 'null has no effect on ManyToManyField.', hint=None, obj=field, id='fields.W340', ) ] expected.append( DjangoWarning( 'ManyToManyField does not support validators.', hint=None, obj=field, id='fields.W341', ) ) self.assertEqual(errors, expected) def test_ambiguous_relationship_model(self): class Person(models.Model): pass class Group(models.Model): field = models.ManyToManyField('Person', through="AmbiguousRelationship", related_name='tertiary') class AmbiguousRelationship(models.Model): # Too much foreign keys to Person. first_person = models.ForeignKey(Person, models.CASCADE, related_name="first") second_person = models.ForeignKey(Person, models.CASCADE, related_name="second") second_model = models.ForeignKey(Group, models.CASCADE) field = Group._meta.get_field('field') errors = field.check(from_model=Group) expected = [ Error( ("The model is used as an intermediate model by " "'invalid_models_tests.Group.field', but it has more than one " "foreign key to 'Person', which is ambiguous. You must specify " "which foreign key Django should use via the through_fields " "keyword argument."), hint=('If you want to create a recursive relationship, use ' 'ForeignKey("self", symmetrical=False, ' 'through="AmbiguousRelationship").'), obj=field, id='fields.E335', ), ] self.assertEqual(errors, expected) def test_relationship_model_with_foreign_key_to_wrong_model(self): class WrongModel(models.Model): pass class Person(models.Model): pass class Group(models.Model): members = models.ManyToManyField('Person', through="InvalidRelationship") class InvalidRelationship(models.Model): person = models.ForeignKey(Person, models.CASCADE) wrong_foreign_key = models.ForeignKey(WrongModel, models.CASCADE) # The last foreign key should point to Group model. field = Group._meta.get_field('members') errors = field.check(from_model=Group) expected = [ Error( ("The model is used as an intermediate model by " "'invalid_models_tests.Group.members', but it does not " "have a foreign key to 'Group' or 'Person'."), hint=None, obj=InvalidRelationship, id='fields.E336', ), ] self.assertEqual(errors, expected) def test_relationship_model_missing_foreign_key(self): class Person(models.Model): pass class Group(models.Model): members = models.ManyToManyField('Person', through="InvalidRelationship") class InvalidRelationship(models.Model): group = models.ForeignKey(Group, models.CASCADE) # No foreign key to Person field = Group._meta.get_field('members') errors = field.check(from_model=Group) expected = [ Error( ("The model is used as an intermediate model by " "'invalid_models_tests.Group.members', but it does not have " "a foreign key to 'Group' or 'Person'."), hint=None, obj=InvalidRelationship, id='fields.E336', ), ] self.assertEqual(errors, expected) def test_missing_relationship_model(self): class Person(models.Model): pass class Group(models.Model): members = models.ManyToManyField('Person', through="MissingM2MModel") field = Group._meta.get_field('members') errors = field.check(from_model=Group) expected = [ Error( ("Field specifies a many-to-many relation through model " "'MissingM2MModel', which has not been installed."), hint=None, obj=field, id='fields.E331', ), ] self.assertEqual(errors, expected) def test_symmetrical_self_referential_field(self): class Person(models.Model): # Implicit symmetrical=False. friends = models.ManyToManyField('self', through="Relationship") class Relationship(models.Model): first = models.ForeignKey(Person, models.CASCADE, related_name="rel_from_set") second = models.ForeignKey(Person, models.CASCADE, related_name="rel_to_set") field = Person._meta.get_field('friends') errors = field.check(from_model=Person) expected = [ Error( 'Many-to-many fields with intermediate tables must not be symmetrical.', hint=None, obj=field, id='fields.E332', ), ] self.assertEqual(errors, expected) def test_too_many_foreign_keys_in_self_referential_model(self): class Person(models.Model): friends = models.ManyToManyField('self', through="InvalidRelationship", symmetrical=False) class InvalidRelationship(models.Model): first = models.ForeignKey(Person, models.CASCADE, related_name="rel_from_set_2") second = models.ForeignKey(Person, models.CASCADE, related_name="rel_to_set_2") third = models.ForeignKey(Person, models.CASCADE, related_name="too_many_by_far") field = Person._meta.get_field('friends') errors = field.check(from_model=Person) expected = [ Error( ("The model is used as an intermediate model by " "'invalid_models_tests.Person.friends', but it has more than two " "foreign keys to 'Person', which is ambiguous. You must specify " "which two foreign keys Django should use via the through_fields " "keyword argument."), hint='Use through_fields to specify which two foreign keys Django should use.', obj=InvalidRelationship, id='fields.E333', ), ] self.assertEqual(errors, expected) def test_symmetric_self_reference_with_intermediate_table(self): class Person(models.Model): # Explicit symmetrical=True. friends = models.ManyToManyField('self', through="Relationship", symmetrical=True) class Relationship(models.Model): first = models.ForeignKey(Person, models.CASCADE, related_name="rel_from_set") second = models.ForeignKey(Person, models.CASCADE, related_name="rel_to_set") field = Person._meta.get_field('friends') errors = field.check(from_model=Person) expected = [ Error( 'Many-to-many fields with intermediate tables must not be symmetrical.', hint=None, obj=field, id='fields.E332', ), ] self.assertEqual(errors, expected) def test_symmetric_self_reference_with_intermediate_table_and_through_fields(self): """ Using through_fields in a m2m with an intermediate model shouldn't mask its incompatibility with symmetry. """ class Person(models.Model): # Explicit symmetrical=True. friends = models.ManyToManyField('self', symmetrical=True, through="Relationship", through_fields=('first', 'second')) class Relationship(models.Model): first = models.ForeignKey(Person, models.CASCADE, related_name="rel_from_set") second = models.ForeignKey(Person, models.CASCADE, related_name="rel_to_set") referee = models.ForeignKey(Person, models.CASCADE, related_name="referred") field = Person._meta.get_field('friends') errors = field.check(from_model=Person) expected = [ Error( 'Many-to-many fields with intermediate tables must not be symmetrical.', hint=None, obj=field, id='fields.E332', ), ] self.assertEqual(errors, expected) def test_foreign_key_to_abstract_model(self): class AbstractModel(models.Model): class Meta: abstract = True class Model(models.Model): rel_string_foreign_key = models.ForeignKey('AbstractModel', models.CASCADE) rel_class_foreign_key = models.ForeignKey(AbstractModel, models.CASCADE) fields = [ Model._meta.get_field('rel_string_foreign_key'), Model._meta.get_field('rel_class_foreign_key'), ] expected_error = Error( "Field defines a relation with model 'AbstractModel', " "which is either not installed, or is abstract.", id='fields.E300', ) for field in fields: expected_error.obj = field errors = field.check() self.assertEqual(errors, [expected_error]) def test_m2m_to_abstract_model(self): class AbstractModel(models.Model): class Meta: abstract = True class Model(models.Model): rel_string_m2m = models.ManyToManyField('AbstractModel') rel_class_m2m = models.ManyToManyField(AbstractModel) fields = [ Model._meta.get_field('rel_string_m2m'), Model._meta.get_field('rel_class_m2m'), ] expected_error = Error( "Field defines a relation with model 'AbstractModel', " "which is either not installed, or is abstract.", id='fields.E300', ) for field in fields: expected_error.obj = field errors = field.check(from_model=Model) self.assertEqual(errors, [expected_error]) def test_unique_m2m(self): class Person(models.Model): name = models.CharField(max_length=5) class Group(models.Model): members = models.ManyToManyField('Person', unique=True) field = Group._meta.get_field('members') errors = field.check(from_model=Group) expected = [ Error( 'ManyToManyFields cannot be unique.', hint=None, obj=field, id='fields.E330', ), ] self.assertEqual(errors, expected) def test_foreign_key_to_non_unique_field(self): class Target(models.Model): bad = models.IntegerField() # No unique=True class Model(models.Model): foreign_key = models.ForeignKey('Target', models.CASCADE, to_field='bad') field = Model._meta.get_field('foreign_key') errors = field.check() expected = [ Error( "'Target.bad' must set unique=True because it is referenced by a foreign key.", hint=None, obj=field, id='fields.E311', ), ] self.assertEqual(errors, expected) def test_foreign_key_to_non_unique_field_under_explicit_model(self): class Target(models.Model): bad = models.IntegerField() class Model(models.Model): field = models.ForeignKey(Target, models.CASCADE, to_field='bad') field = Model._meta.get_field('field') errors = field.check() expected = [ Error( "'Target.bad' must set unique=True because it is referenced by a foreign key.", hint=None, obj=field, id='fields.E311', ), ] self.assertEqual(errors, expected) def test_foreign_object_to_non_unique_fields(self): class Person(models.Model): # Note that both fields are not unique. country_id = models.IntegerField() city_id = models.IntegerField() class MMembership(models.Model): person_country_id = models.IntegerField() person_city_id = models.IntegerField() person = models.ForeignObject(Person, on_delete=models.CASCADE, from_fields=['person_country_id', 'person_city_id'], to_fields=['country_id', 'city_id']) field = MMembership._meta.get_field('person') errors = field.check() expected = [ Error( "No subset of the fields 'country_id', 'city_id' on model 'Person' is unique.", hint=( "Add unique=True on any of those fields or add at least " "a subset of them to a unique_together constraint." ), obj=field, id='fields.E310', ) ] self.assertEqual(errors, expected) def test_on_delete_set_null_on_non_nullable_field(self): class Person(models.Model): pass class Model(models.Model): foreign_key = models.ForeignKey('Person', models.SET_NULL) field = Model._meta.get_field('foreign_key') errors = field.check() expected = [ Error( 'Field specifies on_delete=SET_NULL, but cannot be null.', hint='Set null=True argument on the field, or change the on_delete rule.', obj=field, id='fields.E320', ), ] self.assertEqual(errors, expected) def test_on_delete_set_default_without_default_value(self): class Person(models.Model): pass class Model(models.Model): foreign_key = models.ForeignKey('Person', models.SET_DEFAULT) field = Model._meta.get_field('foreign_key') errors = field.check() expected = [ Error( 'Field specifies on_delete=SET_DEFAULT, but has no default value.', hint='Set a default value, or change the on_delete rule.', obj=field, id='fields.E321', ), ] self.assertEqual(errors, expected) @skipIfDBFeature('interprets_empty_strings_as_nulls') def test_nullable_primary_key(self): class Model(models.Model): field = models.IntegerField(primary_key=True, null=True) field = Model._meta.get_field('field') errors = field.check() expected = [ Error( 'Primary keys must not have null=True.', hint='Set null=False on the field, or remove primary_key=True argument.', obj=field, id='fields.E007', ), ] self.assertEqual(errors, expected) def test_not_swapped_model(self): class SwappableModel(models.Model): # A model that can be, but isn't swapped out. References to this # model should *not* raise any validation error. class Meta: swappable = 'TEST_SWAPPABLE_MODEL' class Model(models.Model): explicit_fk = models.ForeignKey(SwappableModel, models.CASCADE, related_name='explicit_fk') implicit_fk = models.ForeignKey('invalid_models_tests.SwappableModel', models.CASCADE, related_name='implicit_fk') explicit_m2m = models.ManyToManyField(SwappableModel, related_name='explicit_m2m') implicit_m2m = models.ManyToManyField( 'invalid_models_tests.SwappableModel', related_name='implicit_m2m') explicit_fk = Model._meta.get_field('explicit_fk') self.assertEqual(explicit_fk.check(), []) implicit_fk = Model._meta.get_field('implicit_fk') self.assertEqual(implicit_fk.check(), []) explicit_m2m = Model._meta.get_field('explicit_m2m') self.assertEqual(explicit_m2m.check(from_model=Model), []) implicit_m2m = Model._meta.get_field('implicit_m2m') self.assertEqual(implicit_m2m.check(from_model=Model), []) @override_settings(TEST_SWAPPED_MODEL='invalid_models_tests.Replacement') def test_referencing_to_swapped_model(self): class Replacement(models.Model): pass class SwappedModel(models.Model): class Meta: swappable = 'TEST_SWAPPED_MODEL' class Model(models.Model): explicit_fk = models.ForeignKey(SwappedModel, models.CASCADE, related_name='explicit_fk') implicit_fk = models.ForeignKey('invalid_models_tests.SwappedModel', models.CASCADE, related_name='implicit_fk') explicit_m2m = models.ManyToManyField(SwappedModel, related_name='explicit_m2m') implicit_m2m = models.ManyToManyField( 'invalid_models_tests.SwappedModel', related_name='implicit_m2m') fields = [ Model._meta.get_field('explicit_fk'), Model._meta.get_field('implicit_fk'), Model._meta.get_field('explicit_m2m'), Model._meta.get_field('implicit_m2m'), ] expected_error = Error( ("Field defines a relation with the model " "'invalid_models_tests.SwappedModel', which has been swapped out."), hint="Update the relation to point at 'settings.TEST_SWAPPED_MODEL'.", id='fields.E301', ) for field in fields: expected_error.obj = field errors = field.check(from_model=Model) self.assertEqual(errors, [expected_error]) def test_related_field_has_invalid_related_name(self): digit = 0 illegal_non_alphanumeric = '!' whitespace = '\t' invalid_related_names = [ '%s_begins_with_digit' % digit, '%s_begins_with_illegal_non_alphanumeric' % illegal_non_alphanumeric, '%s_begins_with_whitespace' % whitespace, 'contains_%s_illegal_non_alphanumeric' % illegal_non_alphanumeric, 'contains_%s_whitespace' % whitespace, 'ends_with_with_illegal_non_alphanumeric_%s' % illegal_non_alphanumeric, 'ends_with_whitespace_%s' % whitespace, 'with', # a Python keyword 'related_name\n', '', ] # Python 2 crashes on non-ASCII strings. if six.PY3: invalid_related_names.append(',') class Parent(models.Model): pass for invalid_related_name in invalid_related_names: Child = type(str('Child_%s') % str(invalid_related_name), (models.Model,), { 'parent': models.ForeignKey('Parent', models.CASCADE, related_name=invalid_related_name), '__module__': Parent.__module__, }) field = Child._meta.get_field('parent') errors = Child.check() expected = [ Error( "The name '%s' is invalid related_name for field Child_%s.parent" % (invalid_related_name, invalid_related_name), hint="Related name must be a valid Python identifier or end with a '+'", obj=field, id='fields.E306', ), ] self.assertEqual(errors, expected) def test_related_field_has_valid_related_name(self): lowercase = 'a' uppercase = 'A' digit = 0 related_names = [ '%s_starts_with_lowercase' % lowercase, '%s_tarts_with_uppercase' % uppercase, '_starts_with_underscore', 'contains_%s_digit' % digit, 'ends_with_plus+', '_', '_+', '+', ] # Python 2 crashes on non-ASCII strings. if six.PY3: related_names.extend(['試', '試驗+']) class Parent(models.Model): pass for related_name in related_names: Child = type(str('Child_%s') % str(related_name), (models.Model,), { 'parent': models.ForeignKey('Parent', models.CASCADE, related_name=related_name), '__module__': Parent.__module__, }) errors = Child.check() self.assertFalse(errors) class AccessorClashTests(IsolatedModelsTestCase): def test_fk_to_integer(self): self._test_accessor_clash( target=models.IntegerField(), relative=models.ForeignKey('Target', models.CASCADE)) def test_fk_to_fk(self): self._test_accessor_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ForeignKey('Target', models.CASCADE)) def test_fk_to_m2m(self): self._test_accessor_clash( target=models.ManyToManyField('Another'), relative=models.ForeignKey('Target', models.CASCADE)) def test_m2m_to_integer(self): self._test_accessor_clash( target=models.IntegerField(), relative=models.ManyToManyField('Target')) def test_m2m_to_fk(self): self._test_accessor_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ManyToManyField('Target')) def test_m2m_to_m2m(self): self._test_accessor_clash( target=models.ManyToManyField('Another'), relative=models.ManyToManyField('Target')) def _test_accessor_clash(self, target, relative): class Another(models.Model): pass class Target(models.Model): model_set = target class Model(models.Model): rel = relative errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.rel' clashes with field name 'Target.model_set'.", hint=("Rename field 'Target.model_set', or add/change " "a related_name argument to the definition " "for field 'Model.rel'."), obj=Model._meta.get_field('rel'), id='fields.E302', ), ] self.assertEqual(errors, expected) def test_clash_between_accessors(self): class Target(models.Model): pass class Model(models.Model): foreign = models.ForeignKey(Target, models.CASCADE) m2m = models.ManyToManyField(Target) errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.foreign' clashes with reverse accessor for 'Model.m2m'.", hint=("Add or change a related_name argument to the definition " "for 'Model.foreign' or 'Model.m2m'."), obj=Model._meta.get_field('foreign'), id='fields.E304', ), Error( "Reverse accessor for 'Model.m2m' clashes with reverse accessor for 'Model.foreign'.", hint=("Add or change a related_name argument to the definition " "for 'Model.m2m' or 'Model.foreign'."), obj=Model._meta.get_field('m2m'), id='fields.E304', ), ] self.assertEqual(errors, expected) def test_m2m_to_m2m_with_inheritance(self): """ Ref #22047. """ class Target(models.Model): pass class Model(models.Model): children = models.ManyToManyField('Child', related_name="m2m_clash", related_query_name="no_clash") class Parent(models.Model): m2m_clash = models.ManyToManyField('Target') class Child(Parent): pass errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.children' clashes with field name 'Child.m2m_clash'.", hint=("Rename field 'Child.m2m_clash', or add/change " "a related_name argument to the definition " "for field 'Model.children'."), obj=Model._meta.get_field('children'), id='fields.E302', ) ] self.assertEqual(errors, expected) class ReverseQueryNameClashTests(IsolatedModelsTestCase): def test_fk_to_integer(self): self._test_reverse_query_name_clash( target=models.IntegerField(), relative=models.ForeignKey('Target', models.CASCADE)) def test_fk_to_fk(self): self._test_reverse_query_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ForeignKey('Target', models.CASCADE)) def test_fk_to_m2m(self): self._test_reverse_query_name_clash( target=models.ManyToManyField('Another'), relative=models.ForeignKey('Target', models.CASCADE)) def test_m2m_to_integer(self): self._test_reverse_query_name_clash( target=models.IntegerField(), relative=models.ManyToManyField('Target')) def test_m2m_to_fk(self): self._test_reverse_query_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ManyToManyField('Target')) def test_m2m_to_m2m(self): self._test_reverse_query_name_clash( target=models.ManyToManyField('Another'), relative=models.ManyToManyField('Target')) def _test_reverse_query_name_clash(self, target, relative): class Another(models.Model): pass class Target(models.Model): model = target class Model(models.Model): rel = relative errors = Model.check() expected = [ Error( "Reverse query name for 'Model.rel' clashes with field name 'Target.model'.", hint=("Rename field 'Target.model', or add/change " "a related_name argument to the definition " "for field 'Model.rel'."), obj=Model._meta.get_field('rel'), id='fields.E303', ), ] self.assertEqual(errors, expected) class ExplicitRelatedNameClashTests(IsolatedModelsTestCase): def test_fk_to_integer(self): self._test_explicit_related_name_clash( target=models.IntegerField(), relative=models.ForeignKey('Target', models.CASCADE, related_name='clash')) def test_fk_to_fk(self): self._test_explicit_related_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ForeignKey('Target', models.CASCADE, related_name='clash')) def test_fk_to_m2m(self): self._test_explicit_related_name_clash( target=models.ManyToManyField('Another'), relative=models.ForeignKey('Target', models.CASCADE, related_name='clash')) def test_m2m_to_integer(self): self._test_explicit_related_name_clash( target=models.IntegerField(), relative=models.ManyToManyField('Target', related_name='clash')) def test_m2m_to_fk(self): self._test_explicit_related_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ManyToManyField('Target', related_name='clash')) def test_m2m_to_m2m(self): self._test_explicit_related_name_clash( target=models.ManyToManyField('Another'), relative=models.ManyToManyField('Target', related_name='clash')) def _test_explicit_related_name_clash(self, target, relative): class Another(models.Model): pass class Target(models.Model): clash = target class Model(models.Model): rel = relative errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.rel' clashes with field name 'Target.clash'.", hint=("Rename field 'Target.clash', or add/change " "a related_name argument to the definition " "for field 'Model.rel'."), obj=Model._meta.get_field('rel'), id='fields.E302', ), Error( "Reverse query name for 'Model.rel' clashes with field name 'Target.clash'.", hint=("Rename field 'Target.clash', or add/change " "a related_name argument to the definition " "for field 'Model.rel'."), obj=Model._meta.get_field('rel'), id='fields.E303', ), ] self.assertEqual(errors, expected) class ExplicitRelatedQueryNameClashTests(IsolatedModelsTestCase): def test_fk_to_integer(self): self._test_explicit_related_query_name_clash( target=models.IntegerField(), relative=models.ForeignKey('Target', models.CASCADE, related_query_name='clash')) def test_fk_to_fk(self): self._test_explicit_related_query_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ForeignKey('Target', models.CASCADE, related_query_name='clash')) def test_fk_to_m2m(self): self._test_explicit_related_query_name_clash( target=models.ManyToManyField('Another'), relative=models.ForeignKey('Target', models.CASCADE, related_query_name='clash')) def test_m2m_to_integer(self): self._test_explicit_related_query_name_clash( target=models.IntegerField(), relative=models.ManyToManyField('Target', related_query_name='clash')) def test_m2m_to_fk(self): self._test_explicit_related_query_name_clash( target=models.ForeignKey('Another', models.CASCADE), relative=models.ManyToManyField('Target', related_query_name='clash')) def test_m2m_to_m2m(self): self._test_explicit_related_query_name_clash( target=models.ManyToManyField('Another'), relative=models.ManyToManyField('Target', related_query_name='clash')) def _test_explicit_related_query_name_clash(self, target, relative): class Another(models.Model): pass class Target(models.Model): clash = target class Model(models.Model): rel = relative errors = Model.check() expected = [ Error( "Reverse query name for 'Model.rel' clashes with field name 'Target.clash'.", hint=("Rename field 'Target.clash', or add/change a related_name " "argument to the definition for field 'Model.rel'."), obj=Model._meta.get_field('rel'), id='fields.E303', ), ] self.assertEqual(errors, expected) class SelfReferentialM2MClashTests(IsolatedModelsTestCase): def test_clash_between_accessors(self): class Model(models.Model): first_m2m = models.ManyToManyField('self', symmetrical=False) second_m2m = models.ManyToManyField('self', symmetrical=False) errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.first_m2m' clashes with reverse accessor for 'Model.second_m2m'.", hint=("Add or change a related_name argument to the definition " "for 'Model.first_m2m' or 'Model.second_m2m'."), obj=Model._meta.get_field('first_m2m'), id='fields.E304', ), Error( "Reverse accessor for 'Model.second_m2m' clashes with reverse accessor for 'Model.first_m2m'.", hint=("Add or change a related_name argument to the definition " "for 'Model.second_m2m' or 'Model.first_m2m'."), obj=Model._meta.get_field('second_m2m'), id='fields.E304', ), ] self.assertEqual(errors, expected) def test_accessor_clash(self): class Model(models.Model): model_set = models.ManyToManyField("self", symmetrical=False) errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.model_set' clashes with field name 'Model.model_set'.", hint=("Rename field 'Model.model_set', or add/change " "a related_name argument to the definition " "for field 'Model.model_set'."), obj=Model._meta.get_field('model_set'), id='fields.E302', ), ] self.assertEqual(errors, expected) def test_reverse_query_name_clash(self): class Model(models.Model): model = models.ManyToManyField("self", symmetrical=False) errors = Model.check() expected = [ Error( "Reverse query name for 'Model.model' clashes with field name 'Model.model'.", hint=("Rename field 'Model.model', or add/change a related_name " "argument to the definition for field 'Model.model'."), obj=Model._meta.get_field('model'), id='fields.E303', ), ] self.assertEqual(errors, expected) def test_clash_under_explicit_related_name(self): class Model(models.Model): clash = models.IntegerField() m2m = models.ManyToManyField("self", symmetrical=False, related_name='clash') errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.m2m' clashes with field name 'Model.clash'.", hint=("Rename field 'Model.clash', or add/change a related_name " "argument to the definition for field 'Model.m2m'."), obj=Model._meta.get_field('m2m'), id='fields.E302', ), Error( "Reverse query name for 'Model.m2m' clashes with field name 'Model.clash'.", hint=("Rename field 'Model.clash', or add/change a related_name " "argument to the definition for field 'Model.m2m'."), obj=Model._meta.get_field('m2m'), id='fields.E303', ), ] self.assertEqual(errors, expected) def test_valid_model(self): class Model(models.Model): first = models.ManyToManyField("self", symmetrical=False, related_name='first_accessor') second = models.ManyToManyField("self", symmetrical=False, related_name='second_accessor') errors = Model.check() self.assertEqual(errors, []) class SelfReferentialFKClashTests(IsolatedModelsTestCase): def test_accessor_clash(self): class Model(models.Model): model_set = models.ForeignKey("Model", models.CASCADE) errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.model_set' clashes with field name 'Model.model_set'.", hint=("Rename field 'Model.model_set', or add/change " "a related_name argument to the definition " "for field 'Model.model_set'."), obj=Model._meta.get_field('model_set'), id='fields.E302', ), ] self.assertEqual(errors, expected) def test_reverse_query_name_clash(self): class Model(models.Model): model = models.ForeignKey("Model", models.CASCADE) errors = Model.check() expected = [ Error( "Reverse query name for 'Model.model' clashes with field name 'Model.model'.", hint=("Rename field 'Model.model', or add/change " "a related_name argument to the definition " "for field 'Model.model'."), obj=Model._meta.get_field('model'), id='fields.E303', ), ] self.assertEqual(errors, expected) def test_clash_under_explicit_related_name(self): class Model(models.Model): clash = models.CharField(max_length=10) foreign = models.ForeignKey("Model", models.CASCADE, related_name='clash') errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.foreign' clashes with field name 'Model.clash'.", hint=("Rename field 'Model.clash', or add/change " "a related_name argument to the definition " "for field 'Model.foreign'."), obj=Model._meta.get_field('foreign'), id='fields.E302', ), Error( "Reverse query name for 'Model.foreign' clashes with field name 'Model.clash'.", hint=("Rename field 'Model.clash', or add/change " "a related_name argument to the definition " "for field 'Model.foreign'."), obj=Model._meta.get_field('foreign'), id='fields.E303', ), ] self.assertEqual(errors, expected) class ComplexClashTests(IsolatedModelsTestCase): # New tests should not be included here, because this is a single, # self-contained sanity check, not a test of everything. def test_complex_clash(self): class Target(models.Model): tgt_safe = models.CharField(max_length=10) clash = models.CharField(max_length=10) model = models.CharField(max_length=10) clash1_set = models.CharField(max_length=10) class Model(models.Model): src_safe = models.CharField(max_length=10) foreign_1 = models.ForeignKey(Target, models.CASCADE, related_name='id') foreign_2 = models.ForeignKey(Target, models.CASCADE, related_name='src_safe') m2m_1 = models.ManyToManyField(Target, related_name='id') m2m_2 = models.ManyToManyField(Target, related_name='src_safe') errors = Model.check() expected = [ Error( "Reverse accessor for 'Model.foreign_1' clashes with field name 'Target.id'.", hint=("Rename field 'Target.id', or add/change a related_name " "argument to the definition for field 'Model.foreign_1'."), obj=Model._meta.get_field('foreign_1'), id='fields.E302', ), Error( "Reverse query name for 'Model.foreign_1' clashes with field name 'Target.id'.", hint=("Rename field 'Target.id', or add/change a related_name " "argument to the definition for field 'Model.foreign_1'."), obj=Model._meta.get_field('foreign_1'), id='fields.E303', ), Error( "Reverse accessor for 'Model.foreign_1' clashes with reverse accessor for 'Model.m2m_1'.", hint=("Add or change a related_name argument to " "the definition for 'Model.foreign_1' or 'Model.m2m_1'."), obj=Model._meta.get_field('foreign_1'), id='fields.E304', ), Error( "Reverse query name for 'Model.foreign_1' clashes with reverse query name for 'Model.m2m_1'.", hint=("Add or change a related_name argument to " "the definition for 'Model.foreign_1' or 'Model.m2m_1'."), obj=Model._meta.get_field('foreign_1'), id='fields.E305', ), Error( "Reverse accessor for 'Model.foreign_2' clashes with reverse accessor for 'Model.m2m_2'.", hint=("Add or change a related_name argument " "to the definition for 'Model.foreign_2' or 'Model.m2m_2'."), obj=Model._meta.get_field('foreign_2'), id='fields.E304', ), Error( "Reverse query name for 'Model.foreign_2' clashes with reverse query name for 'Model.m2m_2'.", hint=("Add or change a related_name argument to " "the definition for 'Model.foreign_2' or 'Model.m2m_2'."), obj=Model._meta.get_field('foreign_2'), id='fields.E305', ), Error( "Reverse accessor for 'Model.m2m_1' clashes with field name 'Target.id'.", hint=("Rename field 'Target.id', or add/change a related_name " "argument to the definition for field 'Model.m2m_1'."), obj=Model._meta.get_field('m2m_1'), id='fields.E302', ), Error( "Reverse query name for 'Model.m2m_1' clashes with field name 'Target.id'.", hint=("Rename field 'Target.id', or add/change a related_name " "argument to the definition for field 'Model.m2m_1'."), obj=Model._meta.get_field('m2m_1'), id='fields.E303', ), Error( "Reverse accessor for 'Model.m2m_1' clashes with reverse accessor for 'Model.foreign_1'.", hint=("Add or change a related_name argument to the definition " "for 'Model.m2m_1' or 'Model.foreign_1'."), obj=Model._meta.get_field('m2m_1'), id='fields.E304', ), Error( "Reverse query name for 'Model.m2m_1' clashes with reverse query name for 'Model.foreign_1'.", hint=("Add or change a related_name argument to " "the definition for 'Model.m2m_1' or 'Model.foreign_1'."), obj=Model._meta.get_field('m2m_1'), id='fields.E305', ), Error( "Reverse accessor for 'Model.m2m_2' clashes with reverse accessor for 'Model.foreign_2'.", hint=("Add or change a related_name argument to the definition " "for 'Model.m2m_2' or 'Model.foreign_2'."), obj=Model._meta.get_field('m2m_2'), id='fields.E304', ), Error( "Reverse query name for 'Model.m2m_2' clashes with reverse query name for 'Model.foreign_2'.", hint=("Add or change a related_name argument to the definition " "for 'Model.m2m_2' or 'Model.foreign_2'."), obj=Model._meta.get_field('m2m_2'), id='fields.E305', ), ] self.assertEqual(errors, expected) class M2mThroughFieldsTests(IsolatedModelsTestCase): def test_m2m_field_argument_validation(self): """ Tests that ManyToManyField accepts the ``through_fields`` kwarg only if an intermediary table is specified. """ class Fan(models.Model): pass self.assertRaisesMessage( ValueError, 'Cannot specify through_fields without a through model', models.ManyToManyField, Fan, through_fields=('f1', 'f2')) def test_invalid_order(self): """ Tests that mixing up the order of link fields to ManyToManyField.through_fields triggers validation errors. """ class Fan(models.Model): pass class Event(models.Model): invitees = models.ManyToManyField(Fan, through='Invitation', through_fields=('invitee', 'event')) class Invitation(models.Model): event = models.ForeignKey(Event, models.CASCADE) invitee = models.ForeignKey(Fan, models.CASCADE) inviter = models.ForeignKey(Fan, models.CASCADE, related_name='+') field = Event._meta.get_field('invitees') errors = field.check(from_model=Event) expected = [ Error( ("'Invitation.invitee' is not a foreign key to 'Event'."), hint="Did you mean one of the following foreign keys to 'Event': event?", obj=field, id='fields.E339'), Error( ("'Invitation.event' is not a foreign key to 'Fan'."), hint="Did you mean one of the following foreign keys to 'Fan': invitee, inviter?", obj=field, id='fields.E339'), ] self.assertEqual(expected, errors) def test_invalid_field(self): """ Tests that providing invalid field names to ManyToManyField.through_fields triggers validation errors. """ class Fan(models.Model): pass class Event(models.Model): invitees = models.ManyToManyField( Fan, through='Invitation', through_fields=('invalid_field_1', 'invalid_field_2'), ) class Invitation(models.Model): event = models.ForeignKey(Event, models.CASCADE) invitee = models.ForeignKey(Fan, models.CASCADE) inviter = models.ForeignKey(Fan, models.CASCADE, related_name='+') field = Event._meta.get_field('invitees') errors = field.check(from_model=Event) expected = [ Error( "The intermediary model 'invalid_models_tests.Invitation' has no field 'invalid_field_1'.", hint="Did you mean one of the following foreign keys to 'Event': event?", obj=field, id='fields.E338'), Error( "The intermediary model 'invalid_models_tests.Invitation' has no field 'invalid_field_2'.", hint="Did you mean one of the following foreign keys to 'Fan': invitee, inviter?", obj=field, id='fields.E338'), ] self.assertEqual(expected, errors) def test_explicit_field_names(self): """ Tests that if ``through_fields`` kwarg is given, it must specify both link fields of the intermediary table. """ class Fan(models.Model): pass class Event(models.Model): invitees = models.ManyToManyField(Fan, through='Invitation', through_fields=(None, 'invitee')) class Invitation(models.Model): event = models.ForeignKey(Event, models.CASCADE) invitee = models.ForeignKey(Fan, models.CASCADE) inviter = models.ForeignKey(Fan, models.CASCADE, related_name='+') field = Event._meta.get_field('invitees') errors = field.check(from_model=Event) expected = [ Error( "Field specifies 'through_fields' but does not provide the names " "of the two link fields that should be used for the relation " "through model 'invalid_models_tests.Invitation'.", hint=("Make sure you specify 'through_fields' as " "through_fields=('field1', 'field2')"), obj=field, id='fields.E337')] self.assertEqual(expected, errors) def test_superset_foreign_object(self): class Parent(models.Model): a = models.PositiveIntegerField() b = models.PositiveIntegerField() c = models.PositiveIntegerField() class Meta: unique_together = (('a', 'b', 'c'),) class Child(models.Model): a = models.PositiveIntegerField() b = models.PositiveIntegerField() value = models.CharField(max_length=255) parent = ForeignObject( Parent, on_delete=models.SET_NULL, from_fields=('a', 'b'), to_fields=('a', 'b'), related_name='children', ) field = Child._meta.get_field('parent') errors = field.check(from_model=Child) expected = [ Error( "No subset of the fields 'a', 'b' on model 'Parent' is unique.", hint=( "Add unique=True on any of those fields or add at least " "a subset of them to a unique_together constraint." ), obj=field, id='fields.E310', ), ] self.assertEqual(expected, errors) def test_insersection_foreign_object(self): class Parent(models.Model): a = models.PositiveIntegerField() b = models.PositiveIntegerField() c = models.PositiveIntegerField() d = models.PositiveIntegerField() class Meta: unique_together = (('a', 'b', 'c'),) class Child(models.Model): a = models.PositiveIntegerField() b = models.PositiveIntegerField() d = models.PositiveIntegerField() value = models.CharField(max_length=255) parent = ForeignObject( Parent, on_delete=models.SET_NULL, from_fields=('a', 'b', 'd'), to_fields=('a', 'b', 'd'), related_name='children', ) field = Child._meta.get_field('parent') errors = field.check(from_model=Child) expected = [ Error( "No subset of the fields 'a', 'b', 'd' on model 'Parent' is unique.", hint=( "Add unique=True on any of those fields or add at least " "a subset of them to a unique_together constraint." ), obj=field, id='fields.E310', ), ] self.assertEqual(expected, errors)