django1/tests/constraints/tests.py

878 lines
33 KiB
Python

from unittest import mock
from django.core.exceptions import ValidationError
from django.db import IntegrityError, connection, models
from django.db.models import F
from django.db.models.constraints import BaseConstraint
from django.db.models.functions import Lower
from django.db.transaction import atomic
from django.test import SimpleTestCase, TestCase, skipIfDBFeature, skipUnlessDBFeature
from .models import (
ChildModel,
ChildUniqueConstraintProduct,
Product,
UniqueConstraintConditionProduct,
UniqueConstraintDeferrable,
UniqueConstraintInclude,
UniqueConstraintProduct,
)
def get_constraints(table):
with connection.cursor() as cursor:
return connection.introspection.get_constraints(cursor, table)
class BaseConstraintTests(SimpleTestCase):
def test_constraint_sql(self):
c = BaseConstraint("name")
msg = "This method must be implemented by a subclass."
with self.assertRaisesMessage(NotImplementedError, msg):
c.constraint_sql(None, None)
def test_contains_expressions(self):
c = BaseConstraint("name")
self.assertIs(c.contains_expressions, False)
def test_create_sql(self):
c = BaseConstraint("name")
msg = "This method must be implemented by a subclass."
with self.assertRaisesMessage(NotImplementedError, msg):
c.create_sql(None, None)
def test_remove_sql(self):
c = BaseConstraint("name")
msg = "This method must be implemented by a subclass."
with self.assertRaisesMessage(NotImplementedError, msg):
c.remove_sql(None, None)
def test_validate(self):
c = BaseConstraint("name")
msg = "This method must be implemented by a subclass."
with self.assertRaisesMessage(NotImplementedError, msg):
c.validate(None, None)
def test_default_violation_error_message(self):
c = BaseConstraint("name")
self.assertEqual(
c.get_violation_error_message(), "Constraint “name” is violated."
)
def test_custom_violation_error_message(self):
c = BaseConstraint(
"base_name", violation_error_message="custom %(name)s message"
)
self.assertEqual(c.get_violation_error_message(), "custom base_name message")
def test_custom_violation_error_message_clone(self):
constraint = BaseConstraint(
"base_name",
violation_error_message="custom %(name)s message",
).clone()
self.assertEqual(
constraint.get_violation_error_message(),
"custom base_name message",
)
def test_deconstruction(self):
constraint = BaseConstraint(
"base_name",
violation_error_message="custom %(name)s message",
)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.BaseConstraint")
self.assertEqual(args, ())
self.assertEqual(
kwargs,
{"name": "base_name", "violation_error_message": "custom %(name)s message"},
)
class CheckConstraintTests(TestCase):
def test_eq(self):
check1 = models.Q(price__gt=models.F("discounted_price"))
check2 = models.Q(price__lt=models.F("discounted_price"))
self.assertEqual(
models.CheckConstraint(check=check1, name="price"),
models.CheckConstraint(check=check1, name="price"),
)
self.assertEqual(models.CheckConstraint(check=check1, name="price"), mock.ANY)
self.assertNotEqual(
models.CheckConstraint(check=check1, name="price"),
models.CheckConstraint(check=check1, name="price2"),
)
self.assertNotEqual(
models.CheckConstraint(check=check1, name="price"),
models.CheckConstraint(check=check2, name="price"),
)
self.assertNotEqual(models.CheckConstraint(check=check1, name="price"), 1)
self.assertNotEqual(
models.CheckConstraint(check=check1, name="price"),
models.CheckConstraint(
check=check1, name="price", violation_error_message="custom error"
),
)
self.assertNotEqual(
models.CheckConstraint(
check=check1, name="price", violation_error_message="custom error"
),
models.CheckConstraint(
check=check1, name="price", violation_error_message="other custom error"
),
)
self.assertEqual(
models.CheckConstraint(
check=check1, name="price", violation_error_message="custom error"
),
models.CheckConstraint(
check=check1, name="price", violation_error_message="custom error"
),
)
def test_repr(self):
constraint = models.CheckConstraint(
check=models.Q(price__gt=models.F("discounted_price")),
name="price_gt_discounted_price",
)
self.assertEqual(
repr(constraint),
"<CheckConstraint: check=(AND: ('price__gt', F(discounted_price))) "
"name='price_gt_discounted_price'>",
)
def test_invalid_check_types(self):
msg = "CheckConstraint.check must be a Q instance or boolean expression."
with self.assertRaisesMessage(TypeError, msg):
models.CheckConstraint(check=models.F("discounted_price"), name="check")
def test_deconstruction(self):
check = models.Q(price__gt=models.F("discounted_price"))
name = "price_gt_discounted_price"
constraint = models.CheckConstraint(check=check, name=name)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.CheckConstraint")
self.assertEqual(args, ())
self.assertEqual(kwargs, {"check": check, "name": name})
@skipUnlessDBFeature("supports_table_check_constraints")
def test_database_constraint(self):
Product.objects.create(price=10, discounted_price=5)
with self.assertRaises(IntegrityError):
Product.objects.create(price=10, discounted_price=20)
@skipUnlessDBFeature("supports_table_check_constraints")
def test_database_constraint_unicode(self):
Product.objects.create(price=10, discounted_price=5, unit="μg/mL")
with self.assertRaises(IntegrityError):
Product.objects.create(price=10, discounted_price=7, unit="l")
@skipUnlessDBFeature(
"supports_table_check_constraints", "can_introspect_check_constraints"
)
def test_name(self):
constraints = get_constraints(Product._meta.db_table)
for expected_name in (
"price_gt_discounted_price",
"constraints_product_price_gt_0",
):
with self.subTest(expected_name):
self.assertIn(expected_name, constraints)
@skipUnlessDBFeature(
"supports_table_check_constraints", "can_introspect_check_constraints"
)
def test_abstract_name(self):
constraints = get_constraints(ChildModel._meta.db_table)
self.assertIn("constraints_childmodel_adult", constraints)
def test_validate(self):
check = models.Q(price__gt=models.F("discounted_price"))
constraint = models.CheckConstraint(check=check, name="price")
# Invalid product.
invalid_product = Product(price=10, discounted_price=42)
with self.assertRaises(ValidationError):
constraint.validate(Product, invalid_product)
with self.assertRaises(ValidationError):
constraint.validate(Product, invalid_product, exclude={"unit"})
# Fields used by the check constraint are excluded.
constraint.validate(Product, invalid_product, exclude={"price"})
constraint.validate(Product, invalid_product, exclude={"discounted_price"})
constraint.validate(
Product,
invalid_product,
exclude={"discounted_price", "price"},
)
# Valid product.
constraint.validate(Product, Product(price=10, discounted_price=5))
def test_validate_boolean_expressions(self):
constraint = models.CheckConstraint(
check=models.expressions.ExpressionWrapper(
models.Q(price__gt=500) | models.Q(price__lt=500),
output_field=models.BooleanField(),
),
name="price_neq_500_wrap",
)
msg = f"Constraint “{constraint.name}” is violated."
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(Product, Product(price=500, discounted_price=5))
constraint.validate(Product, Product(price=501, discounted_price=5))
constraint.validate(Product, Product(price=499, discounted_price=5))
def test_validate_rawsql_expressions_noop(self):
constraint = models.CheckConstraint(
check=models.expressions.RawSQL(
"price < %s OR price > %s",
(500, 500),
output_field=models.BooleanField(),
),
name="price_neq_500_raw",
)
# RawSQL can not be checked and is always considered valid.
constraint.validate(Product, Product(price=500, discounted_price=5))
constraint.validate(Product, Product(price=501, discounted_price=5))
constraint.validate(Product, Product(price=499, discounted_price=5))
@skipUnlessDBFeature("supports_comparing_boolean_expr")
def test_validate_nullable_field_with_none(self):
# Nullable fields should be considered valid on None values.
constraint = models.CheckConstraint(
check=models.Q(price__gte=0),
name="positive_price",
)
constraint.validate(Product, Product())
@skipIfDBFeature("supports_comparing_boolean_expr")
def test_validate_nullable_field_with_isnull(self):
constraint = models.CheckConstraint(
check=models.Q(price__gte=0) | models.Q(price__isnull=True),
name="positive_price",
)
constraint.validate(Product, Product())
class UniqueConstraintTests(TestCase):
@classmethod
def setUpTestData(cls):
cls.p1 = UniqueConstraintProduct.objects.create(name="p1", color="red")
cls.p2 = UniqueConstraintProduct.objects.create(name="p2")
def test_eq(self):
self.assertEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
)
self.assertEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
mock.ANY,
)
self.assertNotEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
models.UniqueConstraint(fields=["foo", "bar"], name="unique2"),
)
self.assertNotEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
models.UniqueConstraint(fields=["foo", "baz"], name="unique"),
)
self.assertNotEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"), 1
)
self.assertNotEqual(
models.UniqueConstraint(fields=["foo", "bar"], name="unique"),
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
violation_error_message="custom error",
),
)
self.assertNotEqual(
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
violation_error_message="custom error",
),
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
violation_error_message="other custom error",
),
)
self.assertEqual(
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
violation_error_message="custom error",
),
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
violation_error_message="custom error",
),
)
def test_eq_with_condition(self):
self.assertEqual(
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
condition=models.Q(foo=models.F("bar")),
),
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
condition=models.Q(foo=models.F("bar")),
),
)
self.assertNotEqual(
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
condition=models.Q(foo=models.F("bar")),
),
models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
condition=models.Q(foo=models.F("baz")),
),
)
def test_eq_with_deferrable(self):
constraint_1 = models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
deferrable=models.Deferrable.DEFERRED,
)
constraint_2 = models.UniqueConstraint(
fields=["foo", "bar"],
name="unique",
deferrable=models.Deferrable.IMMEDIATE,
)
self.assertEqual(constraint_1, constraint_1)
self.assertNotEqual(constraint_1, constraint_2)
def test_eq_with_include(self):
constraint_1 = models.UniqueConstraint(
fields=["foo", "bar"],
name="include",
include=["baz_1"],
)
constraint_2 = models.UniqueConstraint(
fields=["foo", "bar"],
name="include",
include=["baz_2"],
)
self.assertEqual(constraint_1, constraint_1)
self.assertNotEqual(constraint_1, constraint_2)
def test_eq_with_opclasses(self):
constraint_1 = models.UniqueConstraint(
fields=["foo", "bar"],
name="opclasses",
opclasses=["text_pattern_ops", "varchar_pattern_ops"],
)
constraint_2 = models.UniqueConstraint(
fields=["foo", "bar"],
name="opclasses",
opclasses=["varchar_pattern_ops", "text_pattern_ops"],
)
self.assertEqual(constraint_1, constraint_1)
self.assertNotEqual(constraint_1, constraint_2)
def test_eq_with_expressions(self):
constraint = models.UniqueConstraint(
Lower("title"),
F("author"),
name="book_func_uq",
)
same_constraint = models.UniqueConstraint(
Lower("title"),
"author",
name="book_func_uq",
)
another_constraint = models.UniqueConstraint(
Lower("title"),
name="book_func_uq",
)
self.assertEqual(constraint, same_constraint)
self.assertEqual(constraint, mock.ANY)
self.assertNotEqual(constraint, another_constraint)
def test_repr(self):
fields = ["foo", "bar"]
name = "unique_fields"
constraint = models.UniqueConstraint(fields=fields, name=name)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: fields=('foo', 'bar') name='unique_fields'>",
)
def test_repr_with_condition(self):
constraint = models.UniqueConstraint(
fields=["foo", "bar"],
name="unique_fields",
condition=models.Q(foo=models.F("bar")),
)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: fields=('foo', 'bar') name='unique_fields' "
"condition=(AND: ('foo', F(bar)))>",
)
def test_repr_with_deferrable(self):
constraint = models.UniqueConstraint(
fields=["foo", "bar"],
name="unique_fields",
deferrable=models.Deferrable.IMMEDIATE,
)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: fields=('foo', 'bar') name='unique_fields' "
"deferrable=Deferrable.IMMEDIATE>",
)
def test_repr_with_include(self):
constraint = models.UniqueConstraint(
fields=["foo", "bar"],
name="include_fields",
include=["baz_1", "baz_2"],
)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: fields=('foo', 'bar') name='include_fields' "
"include=('baz_1', 'baz_2')>",
)
def test_repr_with_opclasses(self):
constraint = models.UniqueConstraint(
fields=["foo", "bar"],
name="opclasses_fields",
opclasses=["text_pattern_ops", "varchar_pattern_ops"],
)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: fields=('foo', 'bar') name='opclasses_fields' "
"opclasses=['text_pattern_ops', 'varchar_pattern_ops']>",
)
def test_repr_with_expressions(self):
constraint = models.UniqueConstraint(
Lower("title"),
F("author"),
name="book_func_uq",
)
self.assertEqual(
repr(constraint),
"<UniqueConstraint: expressions=(Lower(F(title)), F(author)) "
"name='book_func_uq'>",
)
def test_deconstruction(self):
fields = ["foo", "bar"]
name = "unique_fields"
constraint = models.UniqueConstraint(fields=fields, name=name)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, ())
self.assertEqual(kwargs, {"fields": tuple(fields), "name": name})
def test_deconstruction_with_condition(self):
fields = ["foo", "bar"]
name = "unique_fields"
condition = models.Q(foo=models.F("bar"))
constraint = models.UniqueConstraint(
fields=fields, name=name, condition=condition
)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, ())
self.assertEqual(
kwargs, {"fields": tuple(fields), "name": name, "condition": condition}
)
def test_deconstruction_with_deferrable(self):
fields = ["foo"]
name = "unique_fields"
constraint = models.UniqueConstraint(
fields=fields,
name=name,
deferrable=models.Deferrable.DEFERRED,
)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, ())
self.assertEqual(
kwargs,
{
"fields": tuple(fields),
"name": name,
"deferrable": models.Deferrable.DEFERRED,
},
)
def test_deconstruction_with_include(self):
fields = ["foo", "bar"]
name = "unique_fields"
include = ["baz_1", "baz_2"]
constraint = models.UniqueConstraint(fields=fields, name=name, include=include)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, ())
self.assertEqual(
kwargs,
{
"fields": tuple(fields),
"name": name,
"include": tuple(include),
},
)
def test_deconstruction_with_opclasses(self):
fields = ["foo", "bar"]
name = "unique_fields"
opclasses = ["varchar_pattern_ops", "text_pattern_ops"]
constraint = models.UniqueConstraint(
fields=fields, name=name, opclasses=opclasses
)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, ())
self.assertEqual(
kwargs,
{
"fields": tuple(fields),
"name": name,
"opclasses": opclasses,
},
)
def test_deconstruction_with_expressions(self):
name = "unique_fields"
constraint = models.UniqueConstraint(Lower("title"), name=name)
path, args, kwargs = constraint.deconstruct()
self.assertEqual(path, "django.db.models.UniqueConstraint")
self.assertEqual(args, (Lower("title"),))
self.assertEqual(kwargs, {"name": name})
def test_database_constraint(self):
with self.assertRaises(IntegrityError):
UniqueConstraintProduct.objects.create(
name=self.p1.name, color=self.p1.color
)
@skipUnlessDBFeature("supports_partial_indexes")
def test_database_constraint_with_condition(self):
UniqueConstraintConditionProduct.objects.create(name="p1")
UniqueConstraintConditionProduct.objects.create(name="p2")
with self.assertRaises(IntegrityError):
UniqueConstraintConditionProduct.objects.create(name="p1")
def test_model_validation(self):
msg = "Unique constraint product with this Name and Color already exists."
with self.assertRaisesMessage(ValidationError, msg):
UniqueConstraintProduct(
name=self.p1.name, color=self.p1.color
).validate_constraints()
@skipUnlessDBFeature("supports_partial_indexes")
def test_model_validation_with_condition(self):
"""
Partial unique constraints are not ignored by
Model.validate_constraints().
"""
obj1 = UniqueConstraintConditionProduct.objects.create(name="p1", color="red")
obj2 = UniqueConstraintConditionProduct.objects.create(name="p2")
UniqueConstraintConditionProduct(
name=obj1.name, color="blue"
).validate_constraints()
msg = "Constraint “name_without_color_uniq” is violated."
with self.assertRaisesMessage(ValidationError, msg):
UniqueConstraintConditionProduct(name=obj2.name).validate_constraints()
def test_validate(self):
constraint = UniqueConstraintProduct._meta.constraints[0]
msg = "Unique constraint product with this Name and Color already exists."
non_unique_product = UniqueConstraintProduct(
name=self.p1.name, color=self.p1.color
)
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(UniqueConstraintProduct, non_unique_product)
# Null values are ignored.
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p2.name, color=None),
)
# Existing instances have their existing row excluded.
constraint.validate(UniqueConstraintProduct, self.p1)
# Unique fields are excluded.
constraint.validate(
UniqueConstraintProduct,
non_unique_product,
exclude={"name"},
)
constraint.validate(
UniqueConstraintProduct,
non_unique_product,
exclude={"color"},
)
constraint.validate(
UniqueConstraintProduct,
non_unique_product,
exclude={"name", "color"},
)
# Validation on a child instance.
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(
UniqueConstraintProduct,
ChildUniqueConstraintProduct(name=self.p1.name, color=self.p1.color),
)
@skipUnlessDBFeature("supports_partial_indexes")
def test_validate_condition(self):
p1 = UniqueConstraintConditionProduct.objects.create(name="p1")
constraint = UniqueConstraintConditionProduct._meta.constraints[0]
msg = "Constraint “name_without_color_uniq” is violated."
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(
UniqueConstraintConditionProduct,
UniqueConstraintConditionProduct(name=p1.name, color=None),
)
# Values not matching condition are ignored.
constraint.validate(
UniqueConstraintConditionProduct,
UniqueConstraintConditionProduct(name=p1.name, color="anything-but-none"),
)
# Existing instances have their existing row excluded.
constraint.validate(UniqueConstraintConditionProduct, p1)
# Unique field is excluded.
constraint.validate(
UniqueConstraintConditionProduct,
UniqueConstraintConditionProduct(name=p1.name, color=None),
exclude={"name"},
)
def test_validate_expression(self):
constraint = models.UniqueConstraint(Lower("name"), name="name_lower_uniq")
msg = "Constraint “name_lower_uniq” is violated."
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p1.name.upper()),
)
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name="another-name"),
)
# Existing instances have their existing row excluded.
constraint.validate(UniqueConstraintProduct, self.p1)
# Unique field is excluded.
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p1.name.upper()),
exclude={"name"},
)
def test_validate_expression_condition(self):
constraint = models.UniqueConstraint(
Lower("name"),
name="name_lower_without_color_uniq",
condition=models.Q(color__isnull=True),
)
non_unique_product = UniqueConstraintProduct(name=self.p2.name.upper())
msg = "Constraint “name_lower_without_color_uniq” is violated."
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(UniqueConstraintProduct, non_unique_product)
# Values not matching condition are ignored.
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p1.name, color=self.p1.color),
)
# Existing instances have their existing row excluded.
constraint.validate(UniqueConstraintProduct, self.p2)
# Unique field is excluded.
constraint.validate(
UniqueConstraintProduct,
non_unique_product,
exclude={"name"},
)
# Field from a condition is excluded.
constraint.validate(
UniqueConstraintProduct,
non_unique_product,
exclude={"color"},
)
def test_validate_expression_str(self):
constraint = models.UniqueConstraint("name", name="name_uniq")
msg = "Constraint “name_uniq” is violated."
with self.assertRaisesMessage(ValidationError, msg):
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p1.name),
)
constraint.validate(
UniqueConstraintProduct,
UniqueConstraintProduct(name=self.p1.name),
exclude={"name"},
)
def test_name(self):
constraints = get_constraints(UniqueConstraintProduct._meta.db_table)
expected_name = "name_color_uniq"
self.assertIn(expected_name, constraints)
def test_condition_must_be_q(self):
with self.assertRaisesMessage(
ValueError, "UniqueConstraint.condition must be a Q instance."
):
models.UniqueConstraint(name="uniq", fields=["name"], condition="invalid")
@skipUnlessDBFeature("supports_deferrable_unique_constraints")
def test_initially_deferred_database_constraint(self):
obj_1 = UniqueConstraintDeferrable.objects.create(name="p1", shelf="front")
obj_2 = UniqueConstraintDeferrable.objects.create(name="p2", shelf="back")
def swap():
obj_1.name, obj_2.name = obj_2.name, obj_1.name
obj_1.save()
obj_2.save()
swap()
# Behavior can be changed with SET CONSTRAINTS.
with self.assertRaises(IntegrityError):
with atomic(), connection.cursor() as cursor:
constraint_name = connection.ops.quote_name("name_init_deferred_uniq")
cursor.execute("SET CONSTRAINTS %s IMMEDIATE" % constraint_name)
swap()
@skipUnlessDBFeature("supports_deferrable_unique_constraints")
def test_initially_immediate_database_constraint(self):
obj_1 = UniqueConstraintDeferrable.objects.create(name="p1", shelf="front")
obj_2 = UniqueConstraintDeferrable.objects.create(name="p2", shelf="back")
obj_1.shelf, obj_2.shelf = obj_2.shelf, obj_1.shelf
with self.assertRaises(IntegrityError), atomic():
obj_1.save()
# Behavior can be changed with SET CONSTRAINTS.
with connection.cursor() as cursor:
constraint_name = connection.ops.quote_name("sheld_init_immediate_uniq")
cursor.execute("SET CONSTRAINTS %s DEFERRED" % constraint_name)
obj_1.save()
obj_2.save()
def test_deferrable_with_condition(self):
message = "UniqueConstraint with conditions cannot be deferred."
with self.assertRaisesMessage(ValueError, message):
models.UniqueConstraint(
fields=["name"],
name="name_without_color_unique",
condition=models.Q(color__isnull=True),
deferrable=models.Deferrable.DEFERRED,
)
def test_deferrable_with_include(self):
message = "UniqueConstraint with include fields cannot be deferred."
with self.assertRaisesMessage(ValueError, message):
models.UniqueConstraint(
fields=["name"],
name="name_inc_color_color_unique",
include=["color"],
deferrable=models.Deferrable.DEFERRED,
)
def test_deferrable_with_opclasses(self):
message = "UniqueConstraint with opclasses cannot be deferred."
with self.assertRaisesMessage(ValueError, message):
models.UniqueConstraint(
fields=["name"],
name="name_text_pattern_ops_unique",
opclasses=["text_pattern_ops"],
deferrable=models.Deferrable.DEFERRED,
)
def test_deferrable_with_expressions(self):
message = "UniqueConstraint with expressions cannot be deferred."
with self.assertRaisesMessage(ValueError, message):
models.UniqueConstraint(
Lower("name"),
name="deferred_expression_unique",
deferrable=models.Deferrable.DEFERRED,
)
def test_invalid_defer_argument(self):
message = "UniqueConstraint.deferrable must be a Deferrable instance."
with self.assertRaisesMessage(ValueError, message):
models.UniqueConstraint(
fields=["name"],
name="name_invalid",
deferrable="invalid",
)
@skipUnlessDBFeature(
"supports_table_check_constraints",
"supports_covering_indexes",
)
def test_include_database_constraint(self):
UniqueConstraintInclude.objects.create(name="p1", color="red")
with self.assertRaises(IntegrityError):
UniqueConstraintInclude.objects.create(name="p1", color="blue")
def test_invalid_include_argument(self):
msg = "UniqueConstraint.include must be a list or tuple."
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(
name="uniq_include",
fields=["field"],
include="other",
)
def test_invalid_opclasses_argument(self):
msg = "UniqueConstraint.opclasses must be a list or tuple."
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(
name="uniq_opclasses",
fields=["field"],
opclasses="jsonb_path_ops",
)
def test_opclasses_and_fields_same_length(self):
msg = (
"UniqueConstraint.fields and UniqueConstraint.opclasses must have "
"the same number of elements."
)
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(
name="uniq_opclasses",
fields=["field"],
opclasses=["foo", "bar"],
)
def test_requires_field_or_expression(self):
msg = (
"At least one field or expression is required to define a unique "
"constraint."
)
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(name="name")
def test_expressions_and_fields_mutually_exclusive(self):
msg = "UniqueConstraint.fields and expressions are mutually exclusive."
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(Lower("field_1"), fields=["field_2"], name="name")
def test_expressions_with_opclasses(self):
msg = (
"UniqueConstraint.opclasses cannot be used with expressions. Use "
"django.contrib.postgres.indexes.OpClass() instead."
)
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(
Lower("field"),
name="test_func_opclass",
opclasses=["jsonb_path_ops"],
)
def test_requires_name(self):
msg = "A unique constraint must be named."
with self.assertRaisesMessage(ValueError, msg):
models.UniqueConstraint(fields=["field"])