import warnings
from enum import Enum
from types import NoneType
from django.core import checks
from django.core.exceptions import FieldDoesNotExist, FieldError, ValidationError
from django.db import connections
from django.db.models.constants import LOOKUP_SEP
from django.db.models.expressions import Exists, ExpressionList, F, RawSQL
from django.db.models.indexes import IndexExpression
from django.db.models.lookups import Exact, IsNull
from django.db.models.query_utils import Q
from django.db.models.sql.query import Query
from django.db.utils import DEFAULT_DB_ALIAS
from django.utils.deprecation import RemovedInDjango60Warning
from django.utils.translation import gettext_lazy as _
__all__ = ["BaseConstraint", "CheckConstraint", "Deferrable", "UniqueConstraint"]
class BaseConstraint:
default_violation_error_message = _("Constraint “%(name)s” is violated.")
violation_error_code = None
violation_error_message = None
non_db_attrs = ("violation_error_code", "violation_error_message")
# RemovedInDjango60Warning: When the deprecation ends, replace with:
# def __init__(
# self, *, name, violation_error_code=None, violation_error_message=None
# ):
def __init__(
self, *args, name=None, violation_error_code=None, violation_error_message=None
):
# RemovedInDjango60Warning.
if name is None and not args:
raise TypeError(
f"{self.__class__.__name__}.__init__() missing 1 required keyword-only "
f"argument: 'name'"
)
self.name = name
if violation_error_code is not None:
self.violation_error_code = violation_error_code
if violation_error_message is not None:
self.violation_error_message = violation_error_message
else:
self.violation_error_message = self.default_violation_error_message
# RemovedInDjango60Warning.
if args:
warnings.warn(
f"Passing positional arguments to {self.__class__.__name__} is "
f"deprecated.",
RemovedInDjango60Warning,
stacklevel=2,
)
for arg, attr in zip(args, ["name", "violation_error_message"]):
if arg:
setattr(self, attr, arg)
@property
def contains_expressions(self):
return False
def constraint_sql(self, model, schema_editor):
raise NotImplementedError("This method must be implemented by a subclass.")
def create_sql(self, model, schema_editor):
raise NotImplementedError("This method must be implemented by a subclass.")
def remove_sql(self, model, schema_editor):
raise NotImplementedError("This method must be implemented by a subclass.")
@classmethod
def _expression_refs_exclude(cls, model, expression, exclude):
get_field = model._meta.get_field
for field_name, *__ in model._get_expr_references(expression):
if field_name in exclude:
return True
field = get_field(field_name)
if field.generated and cls._expression_refs_exclude(
model, field.expression, exclude
):
return True
return False
def validate(self, model, instance, exclude=None, using=DEFAULT_DB_ALIAS):
raise NotImplementedError("This method must be implemented by a subclass.")
def get_violation_error_message(self):
return self.violation_error_message % {"name": self.name}
def _check(self, model, connection):
return []
def _check_references(self, model, references):
from django.db.models.fields.composite import CompositePrimaryKey
errors = []
fields = set()
for field_name, *lookups in references:
# pk is an alias that won't be found by opts.get_field().
if field_name != "pk" or isinstance(model._meta.pk, CompositePrimaryKey):
fields.add(field_name)
if not lookups:
# If it has no lookups it cannot result in a JOIN.
continue
try:
if field_name == "pk":
field = model._meta.pk
else:
field = model._meta.get_field(field_name)
if not field.is_relation or field.many_to_many or field.one_to_many:
continue
except FieldDoesNotExist:
continue
# JOIN must happen at the first lookup.
first_lookup = lookups[0]
if (
hasattr(field, "get_transform")
and hasattr(field, "get_lookup")
and field.get_transform(first_lookup) is None
and field.get_lookup(first_lookup) is None
):
errors.append(
checks.Error(
"'constraints' refers to the joined field '%s'."
% LOOKUP_SEP.join([field_name] + lookups),
obj=model,
id="models.E041",
)
)
errors.extend(model._check_local_fields(fields, "constraints"))
return errors
def deconstruct(self):
path = "%s.%s" % (self.__class__.__module__, self.__class__.__name__)
path = path.replace("django.db.models.constraints", "django.db.models")
kwargs = {"name": self.name}
if (
self.violation_error_message is not None
and self.violation_error_message != self.default_violation_error_message
):
kwargs["violation_error_message"] = self.violation_error_message
if self.violation_error_code is not None:
kwargs["violation_error_code"] = self.violation_error_code
return (path, (), kwargs)
def clone(self):
_, args, kwargs = self.deconstruct()
return self.__class__(*args, **kwargs)
class CheckConstraint(BaseConstraint):
# RemovedInDjango60Warning: when the deprecation ends, replace with
# def __init__(
# self, *, condition, name, violation_error_code=None, violation_error_message=None
# )
def __init__(
self,
*,
name,
condition=None,
check=None,
violation_error_code=None,
violation_error_message=None,
):
if check is not None:
warnings.warn(
"CheckConstraint.check is deprecated in favor of `.condition`.",
RemovedInDjango60Warning,
stacklevel=2,
)
condition = check
self.condition = condition
if not getattr(condition, "conditional", False):
raise TypeError(
"CheckConstraint.condition must be a Q instance or boolean expression."
)
super().__init__(
name=name,
violation_error_code=violation_error_code,
violation_error_message=violation_error_message,
)
def _get_check(self):
warnings.warn(
"CheckConstraint.check is deprecated in favor of `.condition`.",
RemovedInDjango60Warning,
stacklevel=2,
)
return self.condition
def _set_check(self, value):
warnings.warn(
"CheckConstraint.check is deprecated in favor of `.condition`.",
RemovedInDjango60Warning,
stacklevel=2,
)
self.condition = value
check = property(_get_check, _set_check)
def _check(self, model, connection):
errors = []
if not (
connection.features.supports_table_check_constraints
or "supports_table_check_constraints" in model._meta.required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support check constraints.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W027",
)
)
elif (
connection.features.supports_table_check_constraints
or "supports_table_check_constraints"
not in model._meta.required_db_features
):
references = set()
condition = self.condition
if isinstance(condition, Q):
references.update(model._get_expr_references(condition))
if any(isinstance(expr, RawSQL) for expr in condition.flatten()):
errors.append(
checks.Warning(
f"Check constraint {self.name!r} contains RawSQL() expression "
"and won't be validated during the model full_clean().",
hint="Silence this warning if you don't care about it.",
obj=model,
id="models.W045",
),
)
errors.extend(self._check_references(model, references))
return errors
def _get_check_sql(self, model, schema_editor):
query = Query(model=model, alias_cols=False)
where = query.build_where(self.condition)
compiler = query.get_compiler(connection=schema_editor.connection)
sql, params = where.as_sql(compiler, schema_editor.connection)
return sql % tuple(schema_editor.quote_value(p) for p in params)
def constraint_sql(self, model, schema_editor):
check = self._get_check_sql(model, schema_editor)
return schema_editor._check_sql(self.name, check)
def create_sql(self, model, schema_editor):
check = self._get_check_sql(model, schema_editor)
return schema_editor._create_check_sql(model, self.name, check)
def remove_sql(self, model, schema_editor):
return schema_editor._delete_check_sql(model, self.name)
def validate(self, model, instance, exclude=None, using=DEFAULT_DB_ALIAS):
against = instance._get_field_expression_map(meta=model._meta, exclude=exclude)
try:
if not Q(self.condition).check(against, using=using):
raise ValidationError(
self.get_violation_error_message(), code=self.violation_error_code
)
except FieldError:
pass
def __repr__(self):
return "<%s: condition=%s name=%s%s%s>" % (
self.__class__.__qualname__,
self.condition,
repr(self.name),
(
""
if self.violation_error_code is None
else " violation_error_code=%r" % self.violation_error_code
),
(
""
if self.violation_error_message is None
or self.violation_error_message == self.default_violation_error_message
else " violation_error_message=%r" % self.violation_error_message
),
)
def __eq__(self, other):
if isinstance(other, CheckConstraint):
return (
self.name == other.name
and self.condition == other.condition
and self.violation_error_code == other.violation_error_code
and self.violation_error_message == other.violation_error_message
)
return super().__eq__(other)
def deconstruct(self):
path, args, kwargs = super().deconstruct()
kwargs["condition"] = self.condition
return path, args, kwargs
class Deferrable(Enum):
DEFERRED = "deferred"
IMMEDIATE = "immediate"
# A similar format was proposed for Python 3.10.
def __repr__(self):
return f"{self.__class__.__qualname__}.{self._name_}"
class UniqueConstraint(BaseConstraint):
def __init__(
self,
*expressions,
fields=(),
name=None,
condition=None,
deferrable=None,
include=None,
opclasses=(),
nulls_distinct=None,
violation_error_code=None,
violation_error_message=None,
):
if not name:
raise ValueError("A unique constraint must be named.")
if not expressions and not fields:
raise ValueError(
"At least one field or expression is required to define a "
"unique constraint."
)
if expressions and fields:
raise ValueError(
"UniqueConstraint.fields and expressions are mutually exclusive."
)
if not isinstance(condition, (NoneType, Q)):
raise ValueError("UniqueConstraint.condition must be a Q instance.")
if condition and deferrable:
raise ValueError("UniqueConstraint with conditions cannot be deferred.")
if include and deferrable:
raise ValueError("UniqueConstraint with include fields cannot be deferred.")
if opclasses and deferrable:
raise ValueError("UniqueConstraint with opclasses cannot be deferred.")
if expressions and deferrable:
raise ValueError("UniqueConstraint with expressions cannot be deferred.")
if expressions and opclasses:
raise ValueError(
"UniqueConstraint.opclasses cannot be used with expressions. "
"Use django.contrib.postgres.indexes.OpClass() instead."
)
if not isinstance(deferrable, (NoneType, Deferrable)):
raise TypeError(
"UniqueConstraint.deferrable must be a Deferrable instance."
)
if not isinstance(include, (NoneType, list, tuple)):
raise TypeError("UniqueConstraint.include must be a list or tuple.")
if not isinstance(opclasses, (list, tuple)):
raise TypeError("UniqueConstraint.opclasses must be a list or tuple.")
if not isinstance(nulls_distinct, (NoneType, bool)):
raise TypeError("UniqueConstraint.nulls_distinct must be a bool.")
if opclasses and len(fields) != len(opclasses):
raise ValueError(
"UniqueConstraint.fields and UniqueConstraint.opclasses must "
"have the same number of elements."
)
self.fields = tuple(fields)
self.condition = condition
self.deferrable = deferrable
self.include = tuple(include) if include else ()
self.opclasses = opclasses
self.nulls_distinct = nulls_distinct
self.expressions = tuple(
F(expression) if isinstance(expression, str) else expression
for expression in expressions
)
super().__init__(
name=name,
violation_error_code=violation_error_code,
violation_error_message=violation_error_message,
)
@property
def contains_expressions(self):
return bool(self.expressions)
def _check(self, model, connection):
errors = model._check_local_fields({*self.fields, *self.include}, "constraints")
required_db_features = model._meta.required_db_features
if self.condition is not None and not (
connection.features.supports_partial_indexes
or "supports_partial_indexes" in required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support unique constraints "
"with conditions.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W036",
)
)
if self.deferrable is not None and not (
connection.features.supports_deferrable_unique_constraints
or "supports_deferrable_unique_constraints" in required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support deferrable unique "
"constraints.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W038",
)
)
if self.include and not (
connection.features.supports_covering_indexes
or "supports_covering_indexes" in required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support unique constraints "
"with non-key columns.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W039",
)
)
if self.contains_expressions and not (
connection.features.supports_expression_indexes
or "supports_expression_indexes" in required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support unique constraints on "
"expressions.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W044",
)
)
if self.nulls_distinct is not None and not (
connection.features.supports_nulls_distinct_unique_constraints
or "supports_nulls_distinct_unique_constraints" in required_db_features
):
errors.append(
checks.Warning(
f"{connection.display_name} does not support unique constraints "
"with nulls distinct.",
hint=(
"A constraint won't be created. Silence this warning if you "
"don't care about it."
),
obj=model,
id="models.W047",
)
)
references = set()
if (
connection.features.supports_partial_indexes
or "supports_partial_indexes" not in required_db_features
) and isinstance(self.condition, Q):
references.update(model._get_expr_references(self.condition))
if self.contains_expressions and (
connection.features.supports_expression_indexes
or "supports_expression_indexes" not in required_db_features
):
for expression in self.expressions:
references.update(model._get_expr_references(expression))
errors.extend(self._check_references(model, references))
return errors
def _get_condition_sql(self, model, schema_editor):
if self.condition is None:
return None
query = Query(model=model, alias_cols=False)
where = query.build_where(self.condition)
compiler = query.get_compiler(connection=schema_editor.connection)
sql, params = where.as_sql(compiler, schema_editor.connection)
return sql % tuple(schema_editor.quote_value(p) for p in params)
def _get_index_expressions(self, model, schema_editor):
if not self.expressions:
return None
index_expressions = []
for expression in self.expressions:
index_expression = IndexExpression(expression)
index_expression.set_wrapper_classes(schema_editor.connection)
index_expressions.append(index_expression)
return ExpressionList(*index_expressions).resolve_expression(
Query(model, alias_cols=False),
)
def constraint_sql(self, model, schema_editor):
fields = [model._meta.get_field(field_name) for field_name in self.fields]
include = [
model._meta.get_field(field_name).column for field_name in self.include
]
condition = self._get_condition_sql(model, schema_editor)
expressions = self._get_index_expressions(model, schema_editor)
return schema_editor._unique_sql(
model,
fields,
self.name,
condition=condition,
deferrable=self.deferrable,
include=include,
opclasses=self.opclasses,
expressions=expressions,
nulls_distinct=self.nulls_distinct,
)
def create_sql(self, model, schema_editor):
fields = [model._meta.get_field(field_name) for field_name in self.fields]
include = [
model._meta.get_field(field_name).column for field_name in self.include
]
condition = self._get_condition_sql(model, schema_editor)
expressions = self._get_index_expressions(model, schema_editor)
return schema_editor._create_unique_sql(
model,
fields,
self.name,
condition=condition,
deferrable=self.deferrable,
include=include,
opclasses=self.opclasses,
expressions=expressions,
nulls_distinct=self.nulls_distinct,
)
def remove_sql(self, model, schema_editor):
condition = self._get_condition_sql(model, schema_editor)
include = [
model._meta.get_field(field_name).column for field_name in self.include
]
expressions = self._get_index_expressions(model, schema_editor)
return schema_editor._delete_unique_sql(
model,
self.name,
condition=condition,
deferrable=self.deferrable,
include=include,
opclasses=self.opclasses,
expressions=expressions,
nulls_distinct=self.nulls_distinct,
)
def __repr__(self):
return "<%s:%s%s%s%s%s%s%s%s%s%s>" % (
self.__class__.__qualname__,
"" if not self.fields else " fields=%s" % repr(self.fields),
"" if not self.expressions else " expressions=%s" % repr(self.expressions),
" name=%s" % repr(self.name),
"" if self.condition is None else " condition=%s" % self.condition,
"" if self.deferrable is None else " deferrable=%r" % self.deferrable,
"" if not self.include else " include=%s" % repr(self.include),
"" if not self.opclasses else " opclasses=%s" % repr(self.opclasses),
(
""
if self.nulls_distinct is None
else " nulls_distinct=%r" % self.nulls_distinct
),
(
""
if self.violation_error_code is None
else " violation_error_code=%r" % self.violation_error_code
),
(
""
if self.violation_error_message is None
or self.violation_error_message == self.default_violation_error_message
else " violation_error_message=%r" % self.violation_error_message
),
)
def __eq__(self, other):
if isinstance(other, UniqueConstraint):
return (
self.name == other.name
and self.fields == other.fields
and self.condition == other.condition
and self.deferrable == other.deferrable
and self.include == other.include
and self.opclasses == other.opclasses
and self.expressions == other.expressions
and self.nulls_distinct is other.nulls_distinct
and self.violation_error_code == other.violation_error_code
and self.violation_error_message == other.violation_error_message
)
return super().__eq__(other)
def deconstruct(self):
path, args, kwargs = super().deconstruct()
if self.fields:
kwargs["fields"] = self.fields
if self.condition:
kwargs["condition"] = self.condition
if self.deferrable:
kwargs["deferrable"] = self.deferrable
if self.include:
kwargs["include"] = self.include
if self.opclasses:
kwargs["opclasses"] = self.opclasses
if self.nulls_distinct is not None:
kwargs["nulls_distinct"] = self.nulls_distinct
return path, self.expressions, kwargs
def validate(self, model, instance, exclude=None, using=DEFAULT_DB_ALIAS):
queryset = model._default_manager.using(using)
if self.fields:
lookup_kwargs = {}
generated_field_names = []
for field_name in self.fields:
if exclude and field_name in exclude:
return
field = model._meta.get_field(field_name)
if field.generated:
if exclude and self._expression_refs_exclude(
model, field.expression, exclude
):
return
generated_field_names.append(field.name)
else:
lookup_value = getattr(instance, field.attname)
if (
self.nulls_distinct is not False
and lookup_value is None
or (
lookup_value == ""
and connections[
using
].features.interprets_empty_strings_as_nulls
)
):
# A composite constraint containing NULL value cannot cause
# a violation since NULL != NULL in SQL.
return
lookup_kwargs[field.name] = lookup_value
lookup_args = []
if generated_field_names:
field_expression_map = instance._get_field_expression_map(
meta=model._meta, exclude=exclude
)
for field_name in generated_field_names:
expression = field_expression_map[field_name]
if self.nulls_distinct is False:
lhs = F(field_name)
condition = Q(Exact(lhs, expression)) | Q(
IsNull(lhs, True), IsNull(expression, True)
)
lookup_args.append(condition)
else:
lookup_kwargs[field_name] = expression
queryset = queryset.filter(*lookup_args, **lookup_kwargs)
else:
# Ignore constraints with excluded fields.
if exclude and any(
self._expression_refs_exclude(model, expression, exclude)
for expression in self.expressions
):
return
replacements = {
F(field): value
for field, value in instance._get_field_expression_map(
meta=model._meta, exclude=exclude
).items()
}
filters = []
for expr in self.expressions:
if hasattr(expr, "get_expression_for_validation"):
expr = expr.get_expression_for_validation()
rhs = expr.replace_expressions(replacements)
condition = Exact(expr, rhs)
if self.nulls_distinct is False:
condition = Q(condition) | Q(IsNull(expr, True), IsNull(rhs, True))
filters.append(condition)
queryset = queryset.filter(*filters)
model_class_pk = instance._get_pk_val(model._meta)
if not instance._state.adding and instance._is_pk_set(model._meta):
queryset = queryset.exclude(pk=model_class_pk)
if not self.condition:
if queryset.exists():
if (
self.fields
and self.violation_error_message
== self.default_violation_error_message
):
# When fields are defined, use the unique_error_message() as
# a default for backward compatibility.
validation_error_message = instance.unique_error_message(
model, self.fields
)
raise ValidationError(
validation_error_message,
code=validation_error_message.code,
)
raise ValidationError(
self.get_violation_error_message(),
code=self.violation_error_code,
)
else:
against = instance._get_field_expression_map(
meta=model._meta, exclude=exclude
)
try:
if (self.condition & Exists(queryset.filter(self.condition))).check(
against, using=using
):
raise ValidationError(
self.get_violation_error_message(),
code=self.violation_error_code,
)
except FieldError:
pass