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편집 파일: properties.py
# orm/properties.py # Copyright (C) 2005-2019 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: http://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 absolute_import from . import attributes from .interfaces import PropComparator from .interfaces import StrategizedProperty from .util import _orm_full_deannotate from .. import log from .. import util from ..sql import expression __all__ = ["ColumnProperty"] @log.class_logger class ColumnProperty(StrategizedProperty): """Describes an object attribute that corresponds to a table column. Public constructor is the :func:`.orm.column_property` function. """ strategy_wildcard_key = "column" __slots__ = ( "_orig_columns", "columns", "group", "deferred", "instrument", "comparator_factory", "descriptor", "extension", "active_history", "expire_on_flush", "info", "doc", "strategy_key", "_creation_order", "_is_polymorphic_discriminator", "_mapped_by_synonym", "_deferred_column_loader", ) @util.deprecated_params( extension=( "0.7", ":class:`.AttributeExtension` is deprecated in favor of the " ":class:`.AttributeEvents` listener interface. The " ":paramref:`.column_property.extension` parameter will be " "removed in a future release.", ) ) def __init__(self, *columns, **kwargs): r"""Provide a column-level property for use with a Mapper. Column-based properties can normally be applied to the mapper's ``properties`` dictionary using the :class:`.Column` element directly. Use this function when the given column is not directly present within the mapper's selectable; examples include SQL expressions, functions, and scalar SELECT queries. Columns that aren't present in the mapper's selectable won't be persisted by the mapper and are effectively "read-only" attributes. :param \*cols: list of Column objects to be mapped. :param active_history=False: When ``True``, indicates that the "previous" value for a scalar attribute should be loaded when replaced, if not already loaded. Normally, history tracking logic for simple non-primary-key scalar values only needs to be aware of the "new" value in order to perform a flush. This flag is available for applications that make use of :func:`.attributes.get_history` or :meth:`.Session.is_modified` which also need to know the "previous" value of the attribute. :param comparator_factory: a class which extends :class:`.ColumnProperty.Comparator` which provides custom SQL clause generation for comparison operations. :param group: a group name for this property when marked as deferred. :param deferred: when True, the column property is "deferred", meaning that it does not load immediately, and is instead loaded when the attribute is first accessed on an instance. See also :func:`~sqlalchemy.orm.deferred`. :param doc: optional string that will be applied as the doc on the class-bound descriptor. :param expire_on_flush=True: Disable expiry on flush. A column_property() which refers to a SQL expression (and not a single table-bound column) is considered to be a "read only" property; populating it has no effect on the state of data, and it can only return database state. For this reason a column_property()'s value is expired whenever the parent object is involved in a flush, that is, has any kind of "dirty" state within a flush. Setting this parameter to ``False`` will have the effect of leaving any existing value present after the flush proceeds. Note however that the :class:`.Session` with default expiration settings still expires all attributes after a :meth:`.Session.commit` call, however. :param info: Optional data dictionary which will be populated into the :attr:`.MapperProperty.info` attribute of this object. :param extension: an :class:`.AttributeExtension` instance, or list of extensions, which will be prepended to the list of attribute listeners for the resulting descriptor placed on the class. """ super(ColumnProperty, self).__init__() self._orig_columns = [expression._labeled(c) for c in columns] self.columns = [ expression._labeled(_orm_full_deannotate(c)) for c in columns ] self.group = kwargs.pop("group", None) self.deferred = kwargs.pop("deferred", False) self.instrument = kwargs.pop("_instrument", True) self.comparator_factory = kwargs.pop( "comparator_factory", self.__class__.Comparator ) self.descriptor = kwargs.pop("descriptor", None) self.extension = kwargs.pop("extension", None) self.active_history = kwargs.pop("active_history", False) self.expire_on_flush = kwargs.pop("expire_on_flush", True) if "info" in kwargs: self.info = kwargs.pop("info") if "doc" in kwargs: self.doc = kwargs.pop("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 if kwargs: raise TypeError( "%s received unexpected keyword argument(s): %s" % (self.__class__.__name__, ", ".join(sorted(kwargs.keys()))) ) util.set_creation_order(self) self.strategy_key = ( ("deferred", self.deferred), ("instrument", self.instrument), ) @util.dependencies("sqlalchemy.orm.state", "sqlalchemy.orm.strategies") def _memoized_attr__deferred_column_loader(self, state, strategies): return state.InstanceState._instance_level_callable_processor( self.parent.class_manager, strategies.LoadDeferredColumns(self.key), self.key, ) def __clause_element__(self): """Allow the ColumnProperty to work in expression before it is turned into an instrumented attribute. """ return self.expression @property def expression(self): """Return the primary column or expression for this ColumnProperty. """ return self.columns[0] def instrument_class(self, mapper): 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): super(ColumnProperty, self).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): return ColumnProperty( deferred=self.deferred, group=self.group, active_history=self.active_history, *self.columns ) def _getcommitted( self, state, dict_, column, passive=attributes.PASSIVE_OFF ): return state.get_impl(self.key).get_committed_value( state, dict_, passive=passive ) def merge( self, session, source_state, source_dict, dest_state, dest_dict, load, _recursive, _resolve_conflict_map, ): 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): """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` """ __slots__ = "__clause_element__", "info" def _memoized_method___clause_element__(self): if self.adapter: return self.adapter(self.prop.columns[0]) else: # no adapter, so we aren't aliased # assert self._parententity is self._parentmapper return self.prop.columns[0]._annotate( { "parententity": self._parententity, "parentmapper": self._parententity, } ) def _memoized_attr_info(self): ce = self.__clause_element__() try: return ce.info except AttributeError: return self.prop.info def _fallback_getattr(self, key): """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, *other, **kwargs): return op(self.__clause_element__(), *other, **kwargs) def reverse_operate(self, op, other, **kwargs): col = self.__clause_element__() return op(col._bind_param(op, other), col, **kwargs) def __str__(self): return str(self.parent.class_.__name__) + "." + self.key