bazarr/libs/sqlalchemy/orm/descriptor_props.py

1077 lines
37 KiB
Python

# orm/descriptor_props.py
# Copyright (C) 2005-2023 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
"""Descriptor properties are more "auxiliary" properties
that exist as configurational elements, but don't participate
as actively in the load/persist ORM loop.
"""
from __future__ import annotations
from dataclasses import is_dataclass
import inspect
import itertools
import operator
import typing
from typing import Any
from typing import Callable
from typing import Dict
from typing import List
from typing import NoReturn
from typing import Optional
from typing import Sequence
from typing import Tuple
from typing import Type
from typing import TYPE_CHECKING
from typing import TypeVar
from typing import Union
import weakref
from . import attributes
from . import util as orm_util
from .base import _DeclarativeMapped
from .base import LoaderCallableStatus
from .base import Mapped
from .base import PassiveFlag
from .base import SQLORMOperations
from .interfaces import _AttributeOptions
from .interfaces import _IntrospectsAnnotations
from .interfaces import _MapsColumns
from .interfaces import MapperProperty
from .interfaces import PropComparator
from .util import _none_set
from .util import de_stringify_annotation
from .. import event
from .. import exc as sa_exc
from .. import schema
from .. import sql
from .. import util
from ..sql import expression
from ..sql import operators
from ..sql.elements import BindParameter
from ..util.typing import is_fwd_ref
from ..util.typing import is_pep593
from ..util.typing import typing_get_args
if typing.TYPE_CHECKING:
from ._typing import _InstanceDict
from ._typing import _RegistryType
from .attributes import History
from .attributes import InstrumentedAttribute
from .attributes import QueryableAttribute
from .context import ORMCompileState
from .decl_base import _ClassScanMapperConfig
from .mapper import Mapper
from .properties import ColumnProperty
from .properties import MappedColumn
from .state import InstanceState
from ..engine.base import Connection
from ..engine.row import Row
from ..sql._typing import _DMLColumnArgument
from ..sql._typing import _InfoType
from ..sql.elements import ClauseList
from ..sql.elements import ColumnElement
from ..sql.operators import OperatorType
from ..sql.schema import Column
from ..sql.selectable import Select
from ..util.typing import _AnnotationScanType
from ..util.typing import CallableReference
from ..util.typing import DescriptorReference
from ..util.typing import RODescriptorReference
_T = TypeVar("_T", bound=Any)
_PT = TypeVar("_PT", bound=Any)
class DescriptorProperty(MapperProperty[_T]):
""":class:`.MapperProperty` which proxies access to a
user-defined descriptor."""
doc: Optional[str] = None
uses_objects = False
_links_to_entity = False
descriptor: DescriptorReference[Any]
def get_history(
self,
state: InstanceState[Any],
dict_: _InstanceDict,
passive: PassiveFlag = PassiveFlag.PASSIVE_OFF,
) -> History:
raise NotImplementedError()
def instrument_class(self, mapper: Mapper[Any]) -> None:
prop = self
class _ProxyImpl(attributes.AttributeImpl):
accepts_scalar_loader = False
load_on_unexpire = True
collection = False
@property
def uses_objects(self) -> bool: # type: ignore
return prop.uses_objects
def __init__(self, key: str):
self.key = key
def get_history(
self,
state: InstanceState[Any],
dict_: _InstanceDict,
passive: PassiveFlag = PassiveFlag.PASSIVE_OFF,
) -> History:
return prop.get_history(state, dict_, passive)
if self.descriptor is None:
desc = getattr(mapper.class_, self.key, None)
if mapper._is_userland_descriptor(self.key, desc):
self.descriptor = desc
if self.descriptor is None:
def fset(obj: Any, value: Any) -> None:
setattr(obj, self.name, value)
def fdel(obj: Any) -> None:
delattr(obj, self.name)
def fget(obj: Any) -> Any:
return getattr(obj, self.name)
self.descriptor = property(fget=fget, fset=fset, fdel=fdel)
proxy_attr = attributes.create_proxied_attribute(self.descriptor)(
self.parent.class_,
self.key,
self.descriptor,
lambda: self._comparator_factory(mapper),
doc=self.doc,
original_property=self,
)
proxy_attr.impl = _ProxyImpl(self.key)
mapper.class_manager.instrument_attribute(self.key, proxy_attr)
_CompositeAttrType = Union[
str,
"Column[_T]",
"MappedColumn[_T]",
"InstrumentedAttribute[_T]",
"Mapped[_T]",
]
_CC = TypeVar("_CC", bound=Any)
_composite_getters: weakref.WeakKeyDictionary[
Type[Any], Callable[[Any], Tuple[Any, ...]]
] = weakref.WeakKeyDictionary()
class CompositeProperty(
_MapsColumns[_CC], _IntrospectsAnnotations, DescriptorProperty[_CC]
):
"""Defines a "composite" mapped attribute, representing a collection
of columns as one attribute.
:class:`.CompositeProperty` is constructed using the :func:`.composite`
function.
.. seealso::
:ref:`mapper_composite`
"""
composite_class: Union[Type[_CC], Callable[..., _CC]]
attrs: Tuple[_CompositeAttrType[Any], ...]
_generated_composite_accessor: CallableReference[
Optional[Callable[[_CC], Tuple[Any, ...]]]
]
comparator_factory: Type[Comparator[_CC]]
def __init__(
self,
_class_or_attr: Union[
None, Type[_CC], Callable[..., _CC], _CompositeAttrType[Any]
] = None,
*attrs: _CompositeAttrType[Any],
attribute_options: Optional[_AttributeOptions] = None,
active_history: bool = False,
deferred: bool = False,
group: Optional[str] = None,
comparator_factory: Optional[Type[Comparator[_CC]]] = None,
info: Optional[_InfoType] = None,
**kwargs: Any,
):
super().__init__(attribute_options=attribute_options)
if isinstance(_class_or_attr, (Mapped, str, sql.ColumnElement)):
self.attrs = (_class_or_attr,) + attrs
# will initialize within declarative_scan
self.composite_class = None # type: ignore
else:
self.composite_class = _class_or_attr # type: ignore
self.attrs = attrs
self.active_history = active_history
self.deferred = deferred
self.group = group
self.comparator_factory = (
comparator_factory
if comparator_factory is not None
else self.__class__.Comparator
)
self._generated_composite_accessor = None
if info is not None:
self.info.update(info)
util.set_creation_order(self)
self._create_descriptor()
self._init_accessor()
def instrument_class(self, mapper: Mapper[Any]) -> None:
super().instrument_class(mapper)
self._setup_event_handlers()
def _composite_values_from_instance(self, value: _CC) -> Tuple[Any, ...]:
if self._generated_composite_accessor:
return self._generated_composite_accessor(value)
else:
try:
accessor = value.__composite_values__
except AttributeError as ae:
raise sa_exc.InvalidRequestError(
f"Composite class {self.composite_class.__name__} is not "
f"a dataclass and does not define a __composite_values__()"
" method; can't get state"
) from ae
else:
return accessor() # type: ignore
def do_init(self) -> None:
"""Initialization which occurs after the :class:`.Composite`
has been associated with its parent mapper.
"""
self._setup_arguments_on_columns()
_COMPOSITE_FGET = object()
def _create_descriptor(self) -> None:
"""Create the Python descriptor that will serve as
the access point on instances of the mapped class.
"""
def fget(instance: Any) -> Any:
dict_ = attributes.instance_dict(instance)
state = attributes.instance_state(instance)
if self.key not in dict_:
# key not present. Iterate through related
# attributes, retrieve their values. This
# ensures they all load.
values = [
getattr(instance, key) for key in self._attribute_keys
]
# current expected behavior here is that the composite is
# created on access if the object is persistent or if
# col attributes have non-None. This would be better
# if the composite were created unconditionally,
# but that would be a behavioral change.
if self.key not in dict_ and (
state.key is not None or not _none_set.issuperset(values)
):
dict_[self.key] = self.composite_class(*values)
state.manager.dispatch.refresh(
state, self._COMPOSITE_FGET, [self.key]
)
return dict_.get(self.key, None)
def fset(instance: Any, value: Any) -> None:
dict_ = attributes.instance_dict(instance)
state = attributes.instance_state(instance)
attr = state.manager[self.key]
if attr.dispatch._active_history:
previous = fget(instance)
else:
previous = dict_.get(self.key, LoaderCallableStatus.NO_VALUE)
for fn in attr.dispatch.set:
value = fn(state, value, previous, attr.impl)
dict_[self.key] = value
if value is None:
for key in self._attribute_keys:
setattr(instance, key, None)
else:
for key, value in zip(
self._attribute_keys,
self._composite_values_from_instance(value),
):
setattr(instance, key, value)
def fdel(instance: Any) -> None:
state = attributes.instance_state(instance)
dict_ = attributes.instance_dict(instance)
attr = state.manager[self.key]
if attr.dispatch._active_history:
previous = fget(instance)
dict_.pop(self.key, None)
else:
previous = dict_.pop(self.key, LoaderCallableStatus.NO_VALUE)
attr = state.manager[self.key]
attr.dispatch.remove(state, previous, attr.impl)
for key in self._attribute_keys:
setattr(instance, key, None)
self.descriptor = property(fget, fset, fdel)
@util.preload_module("sqlalchemy.orm.properties")
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:
MappedColumn = util.preloaded.orm_properties.MappedColumn
if (
self.composite_class is None
and extracted_mapped_annotation is None
):
self._raise_for_required(key, cls)
argument = extracted_mapped_annotation
if is_pep593(argument):
argument = typing_get_args(argument)[0]
if argument and self.composite_class is None:
if isinstance(argument, str) or is_fwd_ref(
argument, check_generic=True
):
if originating_module is None:
str_arg = (
argument.__forward_arg__
if hasattr(argument, "__forward_arg__")
else str(argument)
)
raise sa_exc.ArgumentError(
f"Can't use forward ref {argument} for composite "
f"class argument; set up the type as Mapped[{str_arg}]"
)
argument = de_stringify_annotation(
cls, argument, originating_module, include_generic=True
)
self.composite_class = argument
if is_dataclass(self.composite_class):
self._setup_for_dataclass(registry, cls, originating_module, key)
else:
for attr in self.attrs:
if (
isinstance(attr, (MappedColumn, schema.Column))
and attr.name is None
):
raise sa_exc.ArgumentError(
"Composite class column arguments must be named "
"unless a dataclass is used"
)
self._init_accessor()
def _init_accessor(self) -> None:
if is_dataclass(self.composite_class) and not hasattr(
self.composite_class, "__composite_values__"
):
insp = inspect.signature(self.composite_class)
getter = operator.attrgetter(
*[p.name for p in insp.parameters.values()]
)
if len(insp.parameters) == 1:
self._generated_composite_accessor = lambda obj: (getter(obj),)
else:
self._generated_composite_accessor = getter
if (
self.composite_class is not None
and isinstance(self.composite_class, type)
and self.composite_class not in _composite_getters
):
if self._generated_composite_accessor is not None:
_composite_getters[
self.composite_class
] = self._generated_composite_accessor
elif hasattr(self.composite_class, "__composite_values__"):
_composite_getters[
self.composite_class
] = lambda obj: obj.__composite_values__() # type: ignore
@util.preload_module("sqlalchemy.orm.properties")
@util.preload_module("sqlalchemy.orm.decl_base")
def _setup_for_dataclass(
self,
registry: _RegistryType,
cls: Type[Any],
originating_module: Optional[str],
key: str,
) -> None:
MappedColumn = util.preloaded.orm_properties.MappedColumn
decl_base = util.preloaded.orm_decl_base
insp = inspect.signature(self.composite_class)
for param, attr in itertools.zip_longest(
insp.parameters.values(), self.attrs
):
if param is None:
raise sa_exc.ArgumentError(
f"number of composite attributes "
f"{len(self.attrs)} exceeds "
f"that of the number of attributes in class "
f"{self.composite_class.__name__} {len(insp.parameters)}"
)
if attr is None:
# fill in missing attr spots with empty MappedColumn
attr = MappedColumn()
self.attrs += (attr,)
if isinstance(attr, MappedColumn):
attr.declarative_scan_for_composite(
registry,
cls,
originating_module,
key,
param.name,
param.annotation,
)
elif isinstance(attr, schema.Column):
decl_base._undefer_column_name(param.name, attr)
@util.memoized_property
def _comparable_elements(self) -> Sequence[QueryableAttribute[Any]]:
return [getattr(self.parent.class_, prop.key) for prop in self.props]
@util.memoized_property
@util.preload_module("orm.properties")
def props(self) -> Sequence[MapperProperty[Any]]:
props = []
MappedColumn = util.preloaded.orm_properties.MappedColumn
for attr in self.attrs:
if isinstance(attr, str):
prop = self.parent.get_property(attr, _configure_mappers=False)
elif isinstance(attr, schema.Column):
prop = self.parent._columntoproperty[attr]
elif isinstance(attr, MappedColumn):
prop = self.parent._columntoproperty[attr.column]
elif isinstance(attr, attributes.InstrumentedAttribute):
prop = attr.property
else:
prop = None
if not isinstance(prop, MapperProperty):
raise sa_exc.ArgumentError(
"Composite expects Column objects or mapped "
f"attributes/attribute names as arguments, got: {attr!r}"
)
props.append(prop)
return props
@util.non_memoized_property
@util.preload_module("orm.properties")
def columns(self) -> Sequence[Column[Any]]:
MappedColumn = util.preloaded.orm_properties.MappedColumn
return [
a.column if isinstance(a, MappedColumn) else a
for a in self.attrs
if isinstance(a, (schema.Column, MappedColumn))
]
@property
def mapper_property_to_assign(self) -> Optional[MapperProperty[_CC]]:
return self
@property
def columns_to_assign(self) -> List[Tuple[schema.Column[Any], int]]:
return [(c, 0) for c in self.columns if c.table is None]
@util.preload_module("orm.properties")
def _setup_arguments_on_columns(self) -> None:
"""Propagate configuration arguments made on this composite
to the target columns, for those that apply.
"""
ColumnProperty = util.preloaded.orm_properties.ColumnProperty
for prop in self.props:
if not isinstance(prop, ColumnProperty):
continue
else:
cprop = prop
cprop.active_history = self.active_history
if self.deferred:
cprop.deferred = self.deferred
cprop.strategy_key = (("deferred", True), ("instrument", True))
cprop.group = self.group
def _setup_event_handlers(self) -> None:
"""Establish events that populate/expire the composite attribute."""
def load_handler(
state: InstanceState[Any], context: ORMCompileState
) -> None:
_load_refresh_handler(state, context, None, is_refresh=False)
def refresh_handler(
state: InstanceState[Any],
context: ORMCompileState,
to_load: Optional[Sequence[str]],
) -> None:
# note this corresponds to sqlalchemy.ext.mutable load_attrs()
if not to_load or (
{self.key}.union(self._attribute_keys)
).intersection(to_load):
_load_refresh_handler(state, context, to_load, is_refresh=True)
def _load_refresh_handler(
state: InstanceState[Any],
context: ORMCompileState,
to_load: Optional[Sequence[str]],
is_refresh: bool,
) -> None:
dict_ = state.dict
# if context indicates we are coming from the
# fget() handler, this already set the value; skip the
# handler here. (other handlers like mutablecomposite will still
# want to catch it)
# there's an insufficiency here in that the fget() handler
# really should not be using the refresh event and there should
# be some other event that mutablecomposite can subscribe
# towards for this.
if (
not is_refresh or context is self._COMPOSITE_FGET
) and self.key in dict_:
return
# if column elements aren't loaded, skip.
# __get__() will initiate a load for those
# columns
for k in self._attribute_keys:
if k not in dict_:
return
dict_[self.key] = self.composite_class(
*[state.dict[key] for key in self._attribute_keys]
)
def expire_handler(
state: InstanceState[Any], keys: Optional[Sequence[str]]
) -> None:
if keys is None or set(self._attribute_keys).intersection(keys):
state.dict.pop(self.key, None)
def insert_update_handler(
mapper: Mapper[Any],
connection: Connection,
state: InstanceState[Any],
) -> None:
"""After an insert or update, some columns may be expired due
to server side defaults, or re-populated due to client side
defaults. Pop out the composite value here so that it
recreates.
"""
state.dict.pop(self.key, None)
event.listen(
self.parent, "after_insert", insert_update_handler, raw=True
)
event.listen(
self.parent, "after_update", insert_update_handler, raw=True
)
event.listen(
self.parent, "load", load_handler, raw=True, propagate=True
)
event.listen(
self.parent, "refresh", refresh_handler, raw=True, propagate=True
)
event.listen(
self.parent, "expire", expire_handler, raw=True, propagate=True
)
proxy_attr = self.parent.class_manager[self.key]
proxy_attr.impl.dispatch = proxy_attr.dispatch # type: ignore
proxy_attr.impl.dispatch._active_history = self.active_history # type: ignore # noqa: E501
# TODO: need a deserialize hook here
@util.memoized_property
def _attribute_keys(self) -> Sequence[str]:
return [prop.key for prop in self.props]
def _populate_composite_bulk_save_mappings_fn(
self,
) -> Callable[[Dict[str, Any]], None]:
if self._generated_composite_accessor:
get_values = self._generated_composite_accessor
else:
def get_values(val: Any) -> Tuple[Any]:
return val.__composite_values__() # type: ignore
attrs = [prop.key for prop in self.props]
def populate(dest_dict: Dict[str, Any]) -> None:
dest_dict.update(
{
key: val
for key, val in zip(
attrs, get_values(dest_dict.pop(self.key))
)
}
)
return populate
def get_history(
self,
state: InstanceState[Any],
dict_: _InstanceDict,
passive: PassiveFlag = PassiveFlag.PASSIVE_OFF,
) -> History:
"""Provided for userland code that uses attributes.get_history()."""
added: List[Any] = []
deleted: List[Any] = []
has_history = False
for prop in self.props:
key = prop.key
hist = state.manager[key].impl.get_history(state, dict_)
if hist.has_changes():
has_history = True
non_deleted = hist.non_deleted()
if non_deleted:
added.extend(non_deleted)
else:
added.append(None)
if hist.deleted:
deleted.extend(hist.deleted)
else:
deleted.append(None)
if has_history:
return attributes.History(
[self.composite_class(*added)],
(),
[self.composite_class(*deleted)],
)
else:
return attributes.History((), [self.composite_class(*added)], ())
def _comparator_factory(
self, mapper: Mapper[Any]
) -> Composite.Comparator[_CC]:
return self.comparator_factory(self, mapper)
class CompositeBundle(orm_util.Bundle[_T]):
def __init__(
self,
property_: Composite[_T],
expr: ClauseList,
):
self.property = property_
super().__init__(property_.key, *expr)
def create_row_processor(
self,
query: Select[Any],
procs: Sequence[Callable[[Row[Any]], Any]],
labels: Sequence[str],
) -> Callable[[Row[Any]], Any]:
def proc(row: Row[Any]) -> Any:
return self.property.composite_class(
*[proc(row) for proc in procs]
)
return proc
class Comparator(PropComparator[_PT]):
"""Produce boolean, comparison, and other operators for
:class:`.Composite` attributes.
See the example in :ref:`composite_operations` for an overview
of usage , as well as the documentation for :class:`.PropComparator`.
.. seealso::
:class:`.PropComparator`
:class:`.ColumnOperators`
:ref:`types_operators`
:attr:`.TypeEngine.comparator_factory`
"""
# https://github.com/python/mypy/issues/4266
__hash__ = None # type: ignore
prop: RODescriptorReference[Composite[_PT]]
@util.memoized_property
def clauses(self) -> ClauseList:
return expression.ClauseList(
group=False, *self._comparable_elements
)
def __clause_element__(self) -> CompositeProperty.CompositeBundle[_PT]:
return self.expression
@util.memoized_property
def expression(self) -> CompositeProperty.CompositeBundle[_PT]:
clauses = self.clauses._annotate(
{
"parententity": self._parententity,
"parentmapper": self._parententity,
"proxy_key": self.prop.key,
}
)
return CompositeProperty.CompositeBundle(self.prop, clauses)
def _bulk_update_tuples(
self, value: Any
) -> Sequence[Tuple[_DMLColumnArgument, Any]]:
if isinstance(value, BindParameter):
value = value.value
values: Sequence[Any]
if value is None:
values = [None for key in self.prop._attribute_keys]
elif isinstance(self.prop.composite_class, type) and isinstance(
value, self.prop.composite_class
):
values = self.prop._composite_values_from_instance(value)
else:
raise sa_exc.ArgumentError(
"Can't UPDATE composite attribute %s to %r"
% (self.prop, value)
)
return list(zip(self._comparable_elements, values))
@util.memoized_property
def _comparable_elements(self) -> Sequence[QueryableAttribute[Any]]:
if self._adapt_to_entity:
return [
getattr(self._adapt_to_entity.entity, prop.key)
for prop in self.prop._comparable_elements
]
else:
return self.prop._comparable_elements
def __eq__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.eq, other)
def __ne__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.ne, other)
def __lt__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.lt, other)
def __gt__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.gt, other)
def __le__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.le, other)
def __ge__(self, other: Any) -> ColumnElement[bool]: # type: ignore[override] # noqa: E501
return self._compare(operators.ge, other)
# what might be interesting would be if we create
# an instance of the composite class itself with
# the columns as data members, then use "hybrid style" comparison
# to create these comparisons. then your Point.__eq__() method could
# be where comparison behavior is defined for SQL also. Likely
# not a good choice for default behavior though, not clear how it would
# work w/ dataclasses, etc. also no demand for any of this anyway.
def _compare(
self, operator: OperatorType, other: Any
) -> ColumnElement[bool]:
values: Sequence[Any]
if other is None:
values = [None] * len(self.prop._comparable_elements)
else:
values = self.prop._composite_values_from_instance(other)
comparisons = [
operator(a, b)
for a, b in zip(self.prop._comparable_elements, values)
]
if self._adapt_to_entity:
assert self.adapter is not None
comparisons = [self.adapter(x) for x in comparisons] # type: ignore # noqa: E501
return sql.and_(*comparisons) # type: ignore
def __str__(self) -> str:
return str(self.parent.class_.__name__) + "." + self.key
class Composite(CompositeProperty[_T], _DeclarativeMapped[_T]):
"""Declarative-compatible front-end for the :class:`.CompositeProperty`
class.
Public constructor is the :func:`_orm.composite` function.
.. versionchanged:: 2.0 Added :class:`_orm.Composite` as a Declarative
compatible subclass of :class:`_orm.CompositeProperty`.
.. seealso::
:ref:`mapper_composite`
"""
inherit_cache = True
""":meta private:"""
class ConcreteInheritedProperty(DescriptorProperty[_T]):
"""A 'do nothing' :class:`.MapperProperty` that disables
an attribute on a concrete subclass that is only present
on the inherited mapper, not the concrete classes' mapper.
Cases where this occurs include:
* When the superclass mapper is mapped against a
"polymorphic union", which includes all attributes from
all subclasses.
* When a relationship() is configured on an inherited mapper,
but not on the subclass mapper. Concrete mappers require
that relationship() is configured explicitly on each
subclass.
"""
def _comparator_factory(
self, mapper: Mapper[Any]
) -> Type[PropComparator[_T]]:
comparator_callable = None
for m in self.parent.iterate_to_root():
p = m._props[self.key]
if getattr(p, "comparator_factory", None) is not None:
comparator_callable = p.comparator_factory
break
assert comparator_callable is not None
return comparator_callable(p, mapper) # type: ignore
def __init__(self) -> None:
super().__init__()
def warn() -> NoReturn:
raise AttributeError(
"Concrete %s does not implement "
"attribute %r at the instance level. Add "
"this property explicitly to %s."
% (self.parent, self.key, self.parent)
)
class NoninheritedConcreteProp:
def __set__(s: Any, obj: Any, value: Any) -> NoReturn:
warn()
def __delete__(s: Any, obj: Any) -> NoReturn:
warn()
def __get__(s: Any, obj: Any, owner: Any) -> Any:
if obj is None:
return self.descriptor
warn()
self.descriptor = NoninheritedConcreteProp()
class SynonymProperty(DescriptorProperty[_T]):
"""Denote an attribute name as a synonym to a mapped property,
in that the attribute will mirror the value and expression behavior
of another attribute.
:class:`.Synonym` is constructed using the :func:`_orm.synonym`
function.
.. seealso::
:ref:`synonyms` - Overview of synonyms
"""
comparator_factory: Optional[Type[PropComparator[_T]]]
def __init__(
self,
name: str,
map_column: Optional[bool] = None,
descriptor: Optional[Any] = None,
comparator_factory: Optional[Type[PropComparator[_T]]] = None,
attribute_options: Optional[_AttributeOptions] = None,
info: Optional[_InfoType] = None,
doc: Optional[str] = None,
):
super().__init__(attribute_options=attribute_options)
self.name = name
self.map_column = map_column
self.descriptor = descriptor
self.comparator_factory = comparator_factory
if doc:
self.doc = doc
elif descriptor and descriptor.__doc__:
self.doc = descriptor.__doc__
else:
self.doc = None
if info:
self.info.update(info)
util.set_creation_order(self)
if not TYPE_CHECKING:
@property
def uses_objects(self) -> bool:
return getattr(self.parent.class_, self.name).impl.uses_objects
# TODO: when initialized, check _proxied_object,
# emit a warning if its not a column-based property
@util.memoized_property
def _proxied_object(
self,
) -> Union[MapperProperty[_T], SQLORMOperations[_T]]:
attr = getattr(self.parent.class_, self.name)
if not hasattr(attr, "property") or not isinstance(
attr.property, MapperProperty
):
# attribute is a non-MapperProprerty proxy such as
# hybrid or association proxy
if isinstance(attr, attributes.QueryableAttribute):
return attr.comparator
elif isinstance(attr, SQLORMOperations):
# assocaition proxy comes here
return attr
raise sa_exc.InvalidRequestError(
"""synonym() attribute "%s.%s" only supports """
"""ORM mapped attributes, got %r"""
% (self.parent.class_.__name__, self.name, attr)
)
return attr.property
def _comparator_factory(self, mapper: Mapper[Any]) -> SQLORMOperations[_T]:
prop = self._proxied_object
if isinstance(prop, MapperProperty):
if self.comparator_factory:
comp = self.comparator_factory(prop, mapper)
else:
comp = prop.comparator_factory(prop, mapper)
return comp
else:
return prop
def get_history(
self,
state: InstanceState[Any],
dict_: _InstanceDict,
passive: PassiveFlag = PassiveFlag.PASSIVE_OFF,
) -> History:
attr: QueryableAttribute[Any] = getattr(self.parent.class_, self.name)
return attr.impl.get_history(state, dict_, passive=passive)
@util.preload_module("sqlalchemy.orm.properties")
def set_parent(self, parent: Mapper[Any], init: bool) -> None:
properties = util.preloaded.orm_properties
if self.map_column:
# implement the 'map_column' option.
if self.key not in parent.persist_selectable.c:
raise sa_exc.ArgumentError(
"Can't compile synonym '%s': no column on table "
"'%s' named '%s'"
% (
self.name,
parent.persist_selectable.description,
self.key,
)
)
elif (
parent.persist_selectable.c[self.key]
in parent._columntoproperty
and parent._columntoproperty[
parent.persist_selectable.c[self.key]
].key
== self.name
):
raise sa_exc.ArgumentError(
"Can't call map_column=True for synonym %r=%r, "
"a ColumnProperty already exists keyed to the name "
"%r for column %r"
% (self.key, self.name, self.name, self.key)
)
p: ColumnProperty[Any] = properties.ColumnProperty(
parent.persist_selectable.c[self.key]
)
parent._configure_property(self.name, p, init=init, setparent=True)
p._mapped_by_synonym = self.key
self.parent = parent
class Synonym(SynonymProperty[_T], _DeclarativeMapped[_T]):
"""Declarative front-end for the :class:`.SynonymProperty` class.
Public constructor is the :func:`_orm.synonym` function.
.. versionchanged:: 2.0 Added :class:`_orm.Synonym` as a Declarative
compatible subclass for :class:`_orm.SynonymProperty`
.. seealso::
:ref:`synonyms` - Overview of synonyms
"""
inherit_cache = True
""":meta private:"""