# orm/__init__.py # Copyright (C) 2005-2021 the SQLAlchemy authors and contributors # # # This module is part of SQLAlchemy and is released under # the MIT License: http://www.opensource.org/licenses/mit-license.php """ Functional constructs for ORM configuration. See the SQLAlchemy object relational tutorial and mapper configuration documentation for an overview of how this module is used. """ from . import exc from . import mapper as mapperlib from . import strategy_options from .attributes import AttributeEvent from .attributes import InstrumentedAttribute from .attributes import Mapped from .attributes import QueryableAttribute from .context import QueryContext from .decl_api import as_declarative from .decl_api import declarative_base from .decl_api import declarative_mixin from .decl_api import DeclarativeMeta from .decl_api import declared_attr from .decl_api import has_inherited_table from .decl_api import registry from .decl_api import synonym_for from .descriptor_props import CompositeProperty from .descriptor_props import SynonymProperty from .identity import IdentityMap from .instrumentation import ClassManager from .interfaces import EXT_CONTINUE from .interfaces import EXT_SKIP from .interfaces import EXT_STOP from .interfaces import InspectionAttr from .interfaces import InspectionAttrInfo from .interfaces import MANYTOMANY from .interfaces import MANYTOONE from .interfaces import MapperProperty from .interfaces import NOT_EXTENSION from .interfaces import ONETOMANY from .interfaces import PropComparator from .loading import merge_frozen_result from .loading import merge_result from .mapper import class_mapper from .mapper import configure_mappers from .mapper import Mapper from .mapper import reconstructor from .mapper import validates from .properties import ColumnProperty from .query import AliasOption from .query import FromStatement from .query import Query from .relationships import foreign from .relationships import RelationshipProperty from .relationships import remote from .scoping import scoped_session from .session import close_all_sessions from .session import make_transient from .session import make_transient_to_detached from .session import object_session from .session import ORMExecuteState from .session import Session from .session import sessionmaker from .session import SessionTransaction from .state import AttributeState from .state import InstanceState from .strategy_options import Load from .unitofwork import UOWTransaction from .util import aliased from .util import Bundle from .util import CascadeOptions from .util import join from .util import LoaderCriteriaOption from .util import object_mapper from .util import outerjoin from .util import polymorphic_union from .util import was_deleted from .util import with_parent from .util import with_polymorphic from .. import sql as _sql from .. import util as _sa_util from ..util.langhelpers import public_factory def create_session(bind=None, **kwargs): r"""Create a new :class:`.Session` with no automation enabled by default. This function is used primarily for testing. The usual route to :class:`.Session` creation is via its constructor or the :func:`.sessionmaker` function. :param bind: optional, a single Connectable to use for all database access in the created :class:`~sqlalchemy.orm.session.Session`. :param \*\*kwargs: optional, passed through to the :class:`.Session` constructor. :returns: an :class:`~sqlalchemy.orm.session.Session` instance The defaults of create_session() are the opposite of that of :func:`sessionmaker`; ``autoflush`` and ``expire_on_commit`` are False, ``autocommit`` is True. In this sense the session acts more like the "classic" SQLAlchemy 0.3 session with these. Usage:: >>> from sqlalchemy.orm import create_session >>> session = create_session() It is recommended to use :func:`sessionmaker` instead of create_session(). """ if kwargs.get("future", False): kwargs.setdefault("autocommit", False) else: kwargs.setdefault("autocommit", True) kwargs.setdefault("autoflush", False) kwargs.setdefault("expire_on_commit", False) return Session(bind=bind, **kwargs) with_loader_criteria = public_factory(LoaderCriteriaOption, ".orm") relationship = public_factory(RelationshipProperty, ".orm.relationship") @_sa_util.deprecated_20("relation", "Please use :func:`.relationship`.") def relation(*arg, **kw): """A synonym for :func:`relationship`.""" return relationship(*arg, **kw) def dynamic_loader(argument, **kw): """Construct a dynamically-loading mapper property. This is essentially the same as using the ``lazy='dynamic'`` argument with :func:`relationship`:: dynamic_loader(SomeClass) # is the same as relationship(SomeClass, lazy="dynamic") See the section :ref:`dynamic_relationship` for more details on dynamic loading. """ kw["lazy"] = "dynamic" return relationship(argument, **kw) column_property = public_factory(ColumnProperty, ".orm.column_property") composite = public_factory(CompositeProperty, ".orm.composite") def backref(name, **kwargs): """Create a back reference with explicit keyword arguments, which are the same arguments one can send to :func:`relationship`. Used with the ``backref`` keyword argument to :func:`relationship` in place of a string argument, e.g.:: 'items':relationship( SomeItem, backref=backref('parent', lazy='subquery')) .. seealso:: :ref:`relationships_backref` """ return (name, kwargs) def deferred(*columns, **kw): r"""Indicate a column-based mapped attribute that by default will not load unless accessed. :param \*columns: columns to be mapped. This is typically a single :class:`_schema.Column` object, however a collection is supported in order to support multiple columns mapped under the same attribute. :param raiseload: boolean, if True, indicates an exception should be raised if the load operation is to take place. .. versionadded:: 1.4 .. seealso:: :ref:`deferred_raiseload` :param \**kw: additional keyword arguments passed to :class:`.ColumnProperty`. .. seealso:: :ref:`deferred` """ return ColumnProperty(deferred=True, *columns, **kw) def query_expression(default_expr=_sql.null()): """Indicate an attribute that populates from a query-time SQL expression. :param default_expr: Optional SQL expression object that will be used in all cases if not assigned later with :func:`_orm.with_expression`. E.g.:: from sqlalchemy.sql import literal class C(Base): #... my_expr = query_expression(literal(1)) .. versionadded:: 1.3.18 .. versionadded:: 1.2 .. seealso:: :ref:`mapper_querytime_expression` """ prop = ColumnProperty(default_expr) prop.strategy_key = (("query_expression", True),) return prop mapper = public_factory(Mapper, ".orm.mapper") synonym = public_factory(SynonymProperty, ".orm.synonym") def clear_mappers(): """Remove all mappers from all classes. .. versionchanged:: 1.4 This function now locates all :class:`_orm.registry` objects and calls upon the :meth:`_orm.registry.dispose` method of each. This function removes all instrumentation from classes and disposes of their associated mappers. Once called, the classes are unmapped and can be later re-mapped with new mappers. :func:`.clear_mappers` is *not* for normal use, as there is literally no valid usage for it outside of very specific testing scenarios. Normally, mappers are permanent structural components of user-defined classes, and are never discarded independently of their class. If a mapped class itself is garbage collected, its mapper is automatically disposed of as well. As such, :func:`.clear_mappers` is only for usage in test suites that re-use the same classes with different mappings, which is itself an extremely rare use case - the only such use case is in fact SQLAlchemy's own test suite, and possibly the test suites of other ORM extension libraries which intend to test various combinations of mapper construction upon a fixed set of classes. """ mapperlib._dispose_registries(mapperlib._all_registries(), False) joinedload = strategy_options.joinedload._unbound_fn contains_eager = strategy_options.contains_eager._unbound_fn defer = strategy_options.defer._unbound_fn undefer = strategy_options.undefer._unbound_fn undefer_group = strategy_options.undefer_group._unbound_fn with_expression = strategy_options.with_expression._unbound_fn load_only = strategy_options.load_only._unbound_fn lazyload = strategy_options.lazyload._unbound_fn subqueryload = strategy_options.subqueryload._unbound_fn selectinload = strategy_options.selectinload._unbound_fn immediateload = strategy_options.immediateload._unbound_fn noload = strategy_options.noload._unbound_fn raiseload = strategy_options.raiseload._unbound_fn defaultload = strategy_options.defaultload._unbound_fn selectin_polymorphic = strategy_options.selectin_polymorphic._unbound_fn @_sa_util.deprecated_20("eagerload", "Please use :func:`_orm.joinedload`.") def eagerload(*args, **kwargs): """A synonym for :func:`joinedload()`.""" return joinedload(*args, **kwargs) contains_alias = public_factory(AliasOption, ".orm.contains_alias") if True: from .events import AttributeEvents from .events import MapperEvents from .events import InstanceEvents from .events import InstrumentationEvents from .events import QueryEvents from .events import SessionEvents def __go(lcls): global __all__ global AppenderQuery from .. import util as sa_util from . import dynamic from . import events from . import loading import inspect as _inspect from .dynamic import AppenderQuery __all__ = sorted( name for name, obj in lcls.items() if not (name.startswith("_") or _inspect.ismodule(obj)) ) _sa_util.preloaded.import_prefix("sqlalchemy.orm") _sa_util.preloaded.import_prefix("sqlalchemy.ext") __go(locals())