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# orm/properties.py # Copyright (C) 2005-2024 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php """MapperProperty implementations. This is a private module which defines the behavior of individual ORM- mapped attributes. """ from __future__ import annotations from typing import Any from typing import cast from typing import Dict from typing import List from typing import Optional from typing import Sequence from typing import Set from typing import Tuple from typing import Type from typing import TYPE_CHECKING from typing import TypeVar from typing import Union from . import attributes from . import strategy_options from .base import _DeclarativeMapped from .base import class_mapper from .descriptor_props import CompositeProperty from .descriptor_props import ConcreteInheritedProperty from .descriptor_props import SynonymProperty from .interfaces import _AttributeOptions from .interfaces import _DEFAULT_ATTRIBUTE_OPTIONS from .interfaces import _IntrospectsAnnotations from .interfaces import _MapsColumns from .interfaces import MapperProperty from .interfaces import PropComparator from .interfaces import StrategizedProperty from .relationships import RelationshipProperty from .util import de_stringify_annotation from .util import de_stringify_union_elements from .. import exc as sa_exc from .. import ForeignKey from .. import log from .. import util from ..sql import coercions from ..sql import roles from ..sql.base import _NoArg from ..sql.schema import Column from ..sql.schema import SchemaConst from ..sql.type_api import TypeEngine from ..util.typing import de_optionalize_union_types from ..util.typing import is_fwd_ref from ..util.typing import is_optional_union from ..util.typing import is_pep593 from ..util.typing import is_pep695 from ..util.typing import is_union from ..util.typing import Self from ..util.typing import typing_get_args if TYPE_CHECKING: from ._typing import _IdentityKeyType from ._typing import _InstanceDict from ._typing import _ORMColumnExprArgument from ._typing import _RegistryType from .base import Mapped from .decl_base import _ClassScanMapperConfig from .mapper import Mapper from .session import Session from .state import _InstallLoaderCallableProto from .state import InstanceState from ..sql._typing import _InfoType from ..sql.elements import ColumnElement from ..sql.elements import NamedColumn from ..sql.operators import OperatorType from ..util.typing import _AnnotationScanType from ..util.typing import RODescriptorReference _T = TypeVar("_T", bound=Any) _PT = TypeVar("_PT", bound=Any) _NC = TypeVar("_NC", bound="NamedColumn[Any]") __all__ = [ "ColumnProperty", "CompositeProperty", "ConcreteInheritedProperty", "RelationshipProperty", "SynonymProperty", ] @log.class_logger class ColumnProperty( _MapsColumns[_T], StrategizedProperty[_T], _IntrospectsAnnotations, log.Identified, ): """Describes an object attribute that corresponds to a table column or other column expression. Public constructor is the :func:`_orm.column_property` function. """ strategy_wildcard_key = strategy_options._COLUMN_TOKEN inherit_cache = True """:meta private:""" _links_to_entity = False columns: List[NamedColumn[Any]] _is_polymorphic_discriminator: bool _mapped_by_synonym: Optional[str] comparator_factory: Type[PropComparator[_T]] __slots__ = ( "columns", "group", "deferred", "instrument", "comparator_factory", "active_history", "expire_on_flush", "_creation_order", "_is_polymorphic_discriminator", "_mapped_by_synonym", "_deferred_column_loader", "_raise_column_loader", "_renders_in_subqueries", "raiseload", ) def __init__( self, column: _ORMColumnExprArgument[_T], *additional_columns: _ORMColumnExprArgument[Any], attribute_options: Optional[_AttributeOptions] = None, group: Optional[str] = None, deferred: bool = False, raiseload: bool = False, comparator_factory: Optional[Type[PropComparator[_T]]] = None, active_history: bool = False, expire_on_flush: bool = True, info: Optional[_InfoType] = None, doc: Optional[str] = None, _instrument: bool = True, _assume_readonly_dc_attributes: bool = False, ): super().__init__( attribute_options=attribute_options, _assume_readonly_dc_attributes=_assume_readonly_dc_attributes, ) columns = (column,) + additional_columns self.columns = [ coercions.expect(roles.LabeledColumnExprRole, c) for c in columns ] self.group = group self.deferred = deferred self.raiseload = raiseload self.instrument = _instrument self.comparator_factory = ( comparator_factory if comparator_factory is not None else self.__class__.Comparator ) self.active_history = active_history self.expire_on_flush = expire_on_flush if info is not None: self.info.update(info) if doc is not None: self.doc = doc else: for col in reversed(self.columns): doc = getattr(col, "doc", None) if doc is not None: self.doc = doc break else: self.doc = None util.set_creation_order(self) self.strategy_key = ( ("deferred", self.deferred), ("instrument", self.instrument), ) if self.raiseload: self.strategy_key += (("raiseload", True),) def declarative_scan( self, decl_scan: _ClassScanMapperConfig, registry: _RegistryType, cls: Type[Any], originating_module: Optional[str], key: str, mapped_container: Optional[Type[Mapped[Any]]], annotation: Optional[_AnnotationScanType], extracted_mapped_annotation: Optional[_AnnotationScanType], is_dataclass_field: bool, ) -> None: column = self.columns[0] if column.key is None: column.key = key if column.name is None: column.name = key @property def mapper_property_to_assign(self) -> Optional[MapperProperty[_T]]: return self @property def columns_to_assign(self) -> List[Tuple[Column[Any], int]]: # mypy doesn't care about the isinstance here return [ (c, 0) # type: ignore for c in self.columns if isinstance(c, Column) and c.table is None ] def _memoized_attr__renders_in_subqueries(self) -> bool: if ("query_expression", True) in self.strategy_key: return self.strategy._have_default_expression # type: ignore return ("deferred", True) not in self.strategy_key or ( self not in self.parent._readonly_props # type: ignore ) @util.preload_module("sqlalchemy.orm.state", "sqlalchemy.orm.strategies") def _memoized_attr__deferred_column_loader( self, ) -> _InstallLoaderCallableProto[Any]: state = util.preloaded.orm_state strategies = util.preloaded.orm_strategies return state.InstanceState._instance_level_callable_processor( self.parent.class_manager, strategies.LoadDeferredColumns(self.key), self.key, ) @util.preload_module("sqlalchemy.orm.state", "sqlalchemy.orm.strategies") def _memoized_attr__raise_column_loader( self, ) -> _InstallLoaderCallableProto[Any]: state = util.preloaded.orm_state strategies = util.preloaded.orm_strategies return state.InstanceState._instance_level_callable_processor( self.parent.class_manager, strategies.LoadDeferredColumns(self.key, True), self.key, ) def __clause_element__(self) -> roles.ColumnsClauseRole: """Allow the ColumnProperty to work in expression before it is turned into an instrumented attribute. """ return self.expression @property def expression(self) -> roles.ColumnsClauseRole: """Return the primary column or expression for this ColumnProperty. E.g.:: class File(Base): # ... name = Column(String(64)) extension = Column(String(8)) filename = column_property(name + '.' + extension) path = column_property('C:/' + filename.expression) .. seealso:: :ref:`mapper_column_property_sql_expressions_composed` """ return self.columns[0] def instrument_class(self, mapper: Mapper[Any]) -> None: if not self.instrument: return attributes.register_descriptor( mapper.class_, self.key, comparator=self.comparator_factory(self, mapper), parententity=mapper, doc=self.doc, ) def do_init(self) -> None: super().do_init() if len(self.columns) > 1 and set(self.parent.primary_key).issuperset( self.columns ): util.warn( ( "On mapper %s, primary key column '%s' is being combined " "with distinct primary key column '%s' in attribute '%s'. " "Use explicit properties to give each column its own " "mapped attribute name." ) % (self.parent, self.columns[1], self.columns[0], self.key) ) def copy(self) -> ColumnProperty[_T]: return ColumnProperty( *self.columns, deferred=self.deferred, group=self.group, active_history=self.active_history, ) def merge( self, session: Session, source_state: InstanceState[Any], source_dict: _InstanceDict, dest_state: InstanceState[Any], dest_dict: _InstanceDict, load: bool, _recursive: Dict[Any, object], _resolve_conflict_map: Dict[_IdentityKeyType[Any], object], ) -> None: if not self.instrument: return elif self.key in source_dict: value = source_dict[self.key] if not load: dest_dict[self.key] = value else: impl = dest_state.get_impl(self.key) impl.set(dest_state, dest_dict, value, None) elif dest_state.has_identity and self.key not in dest_dict: dest_state._expire_attributes( dest_dict, [self.key], no_loader=True ) class Comparator(util.MemoizedSlots, PropComparator[_PT]): """Produce boolean, comparison, and other operators for :class:`.ColumnProperty` attributes. See the documentation for :class:`.PropComparator` for a brief overview. .. seealso:: :class:`.PropComparator` :class:`.ColumnOperators` :ref:`types_operators` :attr:`.TypeEngine.comparator_factory` """ if not TYPE_CHECKING: # prevent pylance from being clever about slots __slots__ = "__clause_element__", "info", "expressions" prop: RODescriptorReference[ColumnProperty[_PT]] expressions: Sequence[NamedColumn[Any]] """The full sequence of columns referenced by this attribute, adjusted for any aliasing in progress. .. versionadded:: 1.3.17 .. seealso:: :ref:`maptojoin` - usage example """ def _orm_annotate_column(self, column: _NC) -> _NC: """annotate and possibly adapt a column to be returned as the mapped-attribute exposed version of the column. The column in this context needs to act as much like the column in an ORM mapped context as possible, so includes annotations to give hints to various ORM functions as to the source entity of this column. It also adapts it to the mapper's with_polymorphic selectable if one is present. """ pe = self._parententity annotations: Dict[str, Any] = { "entity_namespace": pe, "parententity": pe, "parentmapper": pe, "proxy_key": self.prop.key, } col = column # for a mapper with polymorphic_on and an adapter, return # the column against the polymorphic selectable. # see also orm.util._orm_downgrade_polymorphic_columns # for the reverse operation. if self._parentmapper._polymorphic_adapter: mapper_local_col = col col = self._parentmapper._polymorphic_adapter.traverse(col) # this is a clue to the ORM Query etc. that this column # was adapted to the mapper's polymorphic_adapter. the # ORM uses this hint to know which column its adapting. annotations["adapt_column"] = mapper_local_col return col._annotate(annotations)._set_propagate_attrs( {"compile_state_plugin": "orm", "plugin_subject": pe} ) if TYPE_CHECKING: def __clause_element__(self) -> NamedColumn[_PT]: ... def _memoized_method___clause_element__( self, ) -> NamedColumn[_PT]: if self.adapter: return self.adapter(self.prop.columns[0], self.prop.key) else: return self._orm_annotate_column(self.prop.columns[0]) def _memoized_attr_info(self) -> _InfoType: """The .info dictionary for this attribute.""" ce = self.__clause_element__() try: return ce.info # type: ignore except AttributeError: return self.prop.info def _memoized_attr_expressions(self) -> Sequence[NamedColumn[Any]]: """The full sequence of columns referenced by this attribute, adjusted for any aliasing in progress. .. versionadded:: 1.3.17 """ if self.adapter: return [ self.adapter(col, self.prop.key) for col in self.prop.columns ] else: return [ self._orm_annotate_column(col) for col in self.prop.columns ] def _fallback_getattr(self, key: str) -> Any: """proxy attribute access down to the mapped column. this allows user-defined comparison methods to be accessed. """ return getattr(self.__clause_element__(), key) def operate( self, op: OperatorType, *other: Any, **kwargs: Any ) -> ColumnElement[Any]: return op(self.__clause_element__(), *other, **kwargs) # type: ignore[no-any-return] # noqa: E501 def reverse_operate( self, op: OperatorType, other: Any, **kwargs: Any ) -> ColumnElement[Any]: col = self.__clause_element__() return op(col._bind_param(op, other), col, **kwargs) # type: ignore[no-any-return] # noqa: E501 def __str__(self) -> str: if not self.parent or not self.key: return object.__repr__(self) return str(self.parent.class_.__name__) + "." + self.key class MappedSQLExpression(ColumnProperty[_T], _DeclarativeMapped[_T]): """Declarative front-end for the :class:`.ColumnProperty` class. Public constructor is the :func:`_orm.column_property` function. .. versionchanged:: 2.0 Added :class:`_orm.MappedSQLExpression` as a Declarative compatible subclass for :class:`_orm.ColumnProperty`. .. seealso:: :class:`.MappedColumn` """ inherit_cache = True """:meta private:""" class MappedColumn( _IntrospectsAnnotations, _MapsColumns[_T], _DeclarativeMapped[_T], ): """Maps a single :class:`_schema.Column` on a class. :class:`_orm.MappedColumn` is a specialization of the :class:`_orm.ColumnProperty` class and is oriented towards declarative configuration. To construct :class:`_orm.MappedColumn` objects, use the :func:`_orm.mapped_column` constructor function. .. versionadded:: 2.0 """ __slots__ = ( "column", "_creation_order", "_sort_order", "foreign_keys", "_has_nullable", "_has_insert_default", "deferred", "deferred_group", "deferred_raiseload", "active_history", "_attribute_options", "_has_dataclass_arguments", "_use_existing_column", ) deferred: Union[_NoArg, bool] deferred_raiseload: bool deferred_group: Optional[str] column: Column[_T] foreign_keys: Optional[Set[ForeignKey]] _attribute_options: _AttributeOptions def __init__(self, *arg: Any, **kw: Any): self._attribute_options = attr_opts = kw.pop( "attribute_options", _DEFAULT_ATTRIBUTE_OPTIONS ) self._use_existing_column = kw.pop("use_existing_column", False) self._has_dataclass_arguments = ( attr_opts is not None and attr_opts != _DEFAULT_ATTRIBUTE_OPTIONS and any( attr_opts[i] is not _NoArg.NO_ARG for i, attr in enumerate(attr_opts._fields) if attr != "dataclasses_default" ) ) insert_default = kw.pop("insert_default", _NoArg.NO_ARG) self._has_insert_default = insert_default is not _NoArg.NO_ARG if self._has_insert_default: kw["default"] = insert_default elif attr_opts.dataclasses_default is not _NoArg.NO_ARG: kw["default"] = attr_opts.dataclasses_default self.deferred_group = kw.pop("deferred_group", None) self.deferred_raiseload = kw.pop("deferred_raiseload", None) self.deferred = kw.pop("deferred", _NoArg.NO_ARG) self.active_history = kw.pop("active_history", False) self._sort_order = kw.pop("sort_order", _NoArg.NO_ARG) self.column = cast("Column[_T]", Column(*arg, **kw)) self.foreign_keys = self.column.foreign_keys self._has_nullable = "nullable" in kw and kw.get("nullable") not in ( None, SchemaConst.NULL_UNSPECIFIED, ) util.set_creation_order(self) def _copy(self, **kw: Any) -> Self: new = self.__class__.__new__(self.__class__) new.column = self.column._copy(**kw) new.deferred = self.deferred new.deferred_group = self.deferred_group new.deferred_raiseload = self.deferred_raiseload new.foreign_keys = new.column.foreign_keys new.active_history = self.active_history new._has_nullable = self._has_nullable new._attribute_options = self._attribute_options new._has_insert_default = self._has_insert_default new._has_dataclass_arguments = self._has_dataclass_arguments new._use_existing_column = self._use_existing_column new._sort_order = self._sort_order util.set_creation_order(new) return new @property def name(self) -> str: return self.column.name @property def mapper_property_to_assign(self) -> Optional[MapperProperty[_T]]: effective_deferred = self.deferred if effective_deferred is _NoArg.NO_ARG: effective_deferred = bool( self.deferred_group or self.deferred_raiseload ) if effective_deferred or self.active_history: return ColumnProperty( self.column, deferred=effective_deferred, group=self.deferred_group, raiseload=self.deferred_raiseload, attribute_options=self._attribute_options, active_history=self.active_history, ) else: return None @property def columns_to_assign(self) -> List[Tuple[Column[Any], int]]: return [ ( self.column, ( self._sort_order if self._sort_order is not _NoArg.NO_ARG else 0 ), ) ] def __clause_element__(self) -> Column[_T]: return self.column def operate( self, op: OperatorType, *other: Any, **kwargs: Any ) -> ColumnElement[Any]: return op(self.__clause_element__(), *other, **kwargs) # type: ignore[no-any-return] # noqa: E501 def reverse_operate( self, op: OperatorType, other: Any, **kwargs: Any ) -> ColumnElement[Any]: col = self.__clause_element__() return op(col._bind_param(op, other), col, **kwargs) # type: ignore[no-any-return] # noqa: E501 def found_in_pep593_annotated(self) -> Any: # return a blank mapped_column(). This mapped_column()'s # Column will be merged into it in _init_column_for_annotation(). return MappedColumn() def declarative_scan( self, decl_scan: _ClassScanMapperConfig, registry: _RegistryType, cls: Type[Any], originating_module: Optional[str], key: str, mapped_container: Optional[Type[Mapped[Any]]], annotation: Optional[_AnnotationScanType], extracted_mapped_annotation: Optional[_AnnotationScanType], is_dataclass_field: bool, ) -> None: column = self.column if ( self._use_existing_column and decl_scan.inherits and decl_scan.single ): if decl_scan.is_deferred: raise sa_exc.ArgumentError( "Can't use use_existing_column with deferred mappers" ) supercls_mapper = class_mapper(decl_scan.inherits, False) colname = column.name if column.name is not None else key column = self.column = supercls_mapper.local_table.c.get( # type: ignore[assignment] # noqa: E501 colname, column ) if column.key is None: column.key = key if column.name is None: column.name = key sqltype = column.type if extracted_mapped_annotation is None: if sqltype._isnull and not self.column.foreign_keys: self._raise_for_required(key, cls) else: return self._init_column_for_annotation( cls, registry, extracted_mapped_annotation, originating_module, ) @util.preload_module("sqlalchemy.orm.decl_base") def declarative_scan_for_composite( self, registry: _RegistryType, cls: Type[Any], originating_module: Optional[str], key: str, param_name: str, param_annotation: _AnnotationScanType, ) -> None: decl_base = util.preloaded.orm_decl_base decl_base._undefer_column_name(param_name, self.column) self._init_column_for_annotation( cls, registry, param_annotation, originating_module ) def _init_column_for_annotation( self, cls: Type[Any], registry: _RegistryType, argument: _AnnotationScanType, originating_module: Optional[str], ) -> None: sqltype = self.column.type if isinstance(argument, str) or is_fwd_ref( argument, check_generic=True ): assert originating_module is not None argument = de_stringify_annotation( cls, argument, originating_module, include_generic=True ) if is_union(argument): assert originating_module is not None argument = de_stringify_union_elements( cls, argument, originating_module ) nullable = is_optional_union(argument) if not self._has_nullable: self.column.nullable = nullable our_type = de_optionalize_union_types(argument) use_args_from = None our_original_type = our_type if is_pep695(our_type): our_type = our_type.__value__ if is_pep593(our_type): our_type_is_pep593 = True pep_593_components = typing_get_args(our_type) raw_pep_593_type = pep_593_components[0] if is_optional_union(raw_pep_593_type): raw_pep_593_type = de_optionalize_union_types(raw_pep_593_type) nullable = True if not self._has_nullable: self.column.nullable = nullable for elem in pep_593_components[1:]: if isinstance(elem, MappedColumn): use_args_from = elem break else: our_type_is_pep593 = False raw_pep_593_type = None if use_args_from is not None: if ( not self._has_insert_default and use_args_from.column.default is not None ): self.column.default = None use_args_from.column._merge(self.column) sqltype = self.column.type if ( use_args_from.deferred is not _NoArg.NO_ARG and self.deferred is _NoArg.NO_ARG ): self.deferred = use_args_from.deferred if ( use_args_from.deferred_group is not None and self.deferred_group is None ): self.deferred_group = use_args_from.deferred_group if ( use_args_from.deferred_raiseload is not None and self.deferred_raiseload is None ): self.deferred_raiseload = use_args_from.deferred_raiseload if ( use_args_from._use_existing_column and not self._use_existing_column ): self._use_existing_column = True if use_args_from.active_history: self.active_history = use_args_from.active_history if ( use_args_from._sort_order is not None and self._sort_order is _NoArg.NO_ARG ): self._sort_order = use_args_from._sort_order if ( use_args_from.column.key is not None or use_args_from.column.name is not None ): util.warn_deprecated( "Can't use the 'key' or 'name' arguments in " "Annotated with mapped_column(); this will be ignored", "2.0.22", ) if use_args_from._has_dataclass_arguments: for idx, arg in enumerate( use_args_from._attribute_options._fields ): if ( use_args_from._attribute_options[idx] is not _NoArg.NO_ARG ): arg = arg.replace("dataclasses_", "") util.warn_deprecated( f"Argument '{arg}' is a dataclass argument and " "cannot be specified within a mapped_column() " "bundled inside of an Annotated object", "2.0.22", ) if sqltype._isnull and not self.column.foreign_keys: new_sqltype = None if our_type_is_pep593: checks = [our_original_type, raw_pep_593_type] else: checks = [our_original_type] for check_type in checks: new_sqltype = registry._resolve_type(check_type) if new_sqltype is not None: break else: if isinstance(our_type, TypeEngine) or ( isinstance(our_type, type) and issubclass(our_type, TypeEngine) ): raise sa_exc.ArgumentError( f"The type provided inside the {self.column.key!r} " "attribute Mapped annotation is the SQLAlchemy type " f"{our_type}. Expected a Python type instead" ) else: raise sa_exc.ArgumentError( "Could not locate SQLAlchemy Core type for Python " f"type {our_type} inside the {self.column.key!r} " "attribute Mapped annotation" ) self.column._set_type(new_sqltype)