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# orm/events.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 """ORM event interfaces. """ from __future__ import annotations from typing import Any from typing import Callable from typing import Collection from typing import Dict from typing import Generic from typing import Iterable from typing import Optional from typing import Sequence from typing import Set from typing import Type from typing import TYPE_CHECKING from typing import TypeVar from typing import Union import weakref from . import instrumentation from . import interfaces from . import mapperlib from .attributes import QueryableAttribute from .base import _mapper_or_none from .base import NO_KEY from .instrumentation import ClassManager from .instrumentation import InstrumentationFactory from .query import BulkDelete from .query import BulkUpdate from .query import Query from .scoping import scoped_session from .session import Session from .session import sessionmaker from .. import event from .. import exc from .. import util from ..event import EventTarget from ..event.registry import _ET from ..util.compat import inspect_getfullargspec if TYPE_CHECKING: from weakref import ReferenceType from ._typing import _InstanceDict from ._typing import _InternalEntityType from ._typing import _O from ._typing import _T from .attributes import Event from .base import EventConstants from .session import ORMExecuteState from .session import SessionTransaction from .unitofwork import UOWTransaction from ..engine import Connection from ..event.base import _Dispatch from ..event.base import _HasEventsDispatch from ..event.registry import _EventKey from ..orm.collections import CollectionAdapter from ..orm.context import QueryContext from ..orm.decl_api import DeclarativeAttributeIntercept from ..orm.decl_api import DeclarativeMeta from ..orm.mapper import Mapper from ..orm.state import InstanceState _KT = TypeVar("_KT", bound=Any) _ET2 = TypeVar("_ET2", bound=EventTarget) class InstrumentationEvents(event.Events[InstrumentationFactory]): """Events related to class instrumentation events. The listeners here support being established against any new style class, that is any object that is a subclass of 'type'. Events will then be fired off for events against that class. If the "propagate=True" flag is passed to event.listen(), the event will fire off for subclasses of that class as well. The Python ``type`` builtin is also accepted as a target, which when used has the effect of events being emitted for all classes. Note the "propagate" flag here is defaulted to ``True``, unlike the other class level events where it defaults to ``False``. This means that new subclasses will also be the subject of these events, when a listener is established on a superclass. """ _target_class_doc = "SomeBaseClass" _dispatch_target = InstrumentationFactory @classmethod def _accept_with( cls, target: Union[ InstrumentationFactory, Type[InstrumentationFactory], ], identifier: str, ) -> Optional[ Union[ InstrumentationFactory, Type[InstrumentationFactory], ] ]: if isinstance(target, type): return _InstrumentationEventsHold(target) # type: ignore [return-value] # noqa: E501 else: return None @classmethod def _listen( cls, event_key: _EventKey[_T], propagate: bool = True, **kw: Any ) -> None: target, identifier, fn = ( event_key.dispatch_target, event_key.identifier, event_key._listen_fn, ) def listen(target_cls: type, *arg: Any) -> Optional[Any]: listen_cls = target() # if weakref were collected, however this is not something # that normally happens. it was occurring during test teardown # between mapper/registry/instrumentation_manager, however this # interaction was changed to not rely upon the event system. if listen_cls is None: return None if propagate and issubclass(target_cls, listen_cls): return fn(target_cls, *arg) elif not propagate and target_cls is listen_cls: return fn(target_cls, *arg) else: return None def remove(ref: ReferenceType[_T]) -> None: key = event.registry._EventKey( # type: ignore [type-var] None, identifier, listen, instrumentation._instrumentation_factory, ) getattr( instrumentation._instrumentation_factory.dispatch, identifier ).remove(key) target = weakref.ref(target.class_, remove) event_key.with_dispatch_target( instrumentation._instrumentation_factory ).with_wrapper(listen).base_listen(**kw) @classmethod def _clear(cls) -> None: super()._clear() instrumentation._instrumentation_factory.dispatch._clear() def class_instrument(self, cls: ClassManager[_O]) -> None: """Called after the given class is instrumented. To get at the :class:`.ClassManager`, use :func:`.manager_of_class`. """ def class_uninstrument(self, cls: ClassManager[_O]) -> None: """Called before the given class is uninstrumented. To get at the :class:`.ClassManager`, use :func:`.manager_of_class`. """ def attribute_instrument( self, cls: ClassManager[_O], key: _KT, inst: _O ) -> None: """Called when an attribute is instrumented.""" class _InstrumentationEventsHold: """temporary marker object used to transfer from _accept_with() to _listen() on the InstrumentationEvents class. """ def __init__(self, class_: type) -> None: self.class_ = class_ dispatch = event.dispatcher(InstrumentationEvents) class InstanceEvents(event.Events[ClassManager[Any]]): """Define events specific to object lifecycle. e.g.:: from sqlalchemy import event def my_load_listener(target, context): print("on load!") event.listen(SomeClass, 'load', my_load_listener) Available targets include: * mapped classes * unmapped superclasses of mapped or to-be-mapped classes (using the ``propagate=True`` flag) * :class:`_orm.Mapper` objects * the :class:`_orm.Mapper` class itself indicates listening for all mappers. Instance events are closely related to mapper events, but are more specific to the instance and its instrumentation, rather than its system of persistence. When using :class:`.InstanceEvents`, several modifiers are available to the :func:`.event.listen` function. :param propagate=False: When True, the event listener should be applied to all inheriting classes as well as the class which is the target of this listener. :param raw=False: When True, the "target" argument passed to applicable event listener functions will be the instance's :class:`.InstanceState` management object, rather than the mapped instance itself. :param restore_load_context=False: Applies to the :meth:`.InstanceEvents.load` and :meth:`.InstanceEvents.refresh` events. Restores the loader context of the object when the event hook is complete, so that ongoing eager load operations continue to target the object appropriately. A warning is emitted if the object is moved to a new loader context from within one of these events if this flag is not set. .. versionadded:: 1.3.14 """ _target_class_doc = "SomeClass" _dispatch_target = ClassManager @classmethod def _new_classmanager_instance( cls, class_: Union[DeclarativeAttributeIntercept, DeclarativeMeta, type], classmanager: ClassManager[_O], ) -> None: _InstanceEventsHold.populate(class_, classmanager) @classmethod @util.preload_module("sqlalchemy.orm") def _accept_with( cls, target: Union[ ClassManager[Any], Type[ClassManager[Any]], ], identifier: str, ) -> Optional[Union[ClassManager[Any], Type[ClassManager[Any]]]]: orm = util.preloaded.orm if isinstance(target, ClassManager): return target elif isinstance(target, mapperlib.Mapper): return target.class_manager elif target is orm.mapper: # type: ignore [attr-defined] util.warn_deprecated( "The `sqlalchemy.orm.mapper()` symbol is deprecated and " "will be removed in a future release. For the mapper-wide " "event target, use the 'sqlalchemy.orm.Mapper' class.", "2.0", ) return ClassManager elif isinstance(target, type): if issubclass(target, mapperlib.Mapper): return ClassManager else: manager = instrumentation.opt_manager_of_class(target) if manager: return manager else: return _InstanceEventsHold(target) # type: ignore [return-value] # noqa: E501 return None @classmethod def _listen( cls, event_key: _EventKey[ClassManager[Any]], raw: bool = False, propagate: bool = False, restore_load_context: bool = False, **kw: Any, ) -> None: target, fn = (event_key.dispatch_target, event_key._listen_fn) if not raw or restore_load_context: def wrap( state: InstanceState[_O], *arg: Any, **kw: Any ) -> Optional[Any]: if not raw: target: Any = state.obj() else: target = state if restore_load_context: runid = state.runid try: return fn(target, *arg, **kw) finally: if restore_load_context: state.runid = runid event_key = event_key.with_wrapper(wrap) event_key.base_listen(propagate=propagate, **kw) if propagate: for mgr in target.subclass_managers(True): event_key.with_dispatch_target(mgr).base_listen(propagate=True) @classmethod def _clear(cls) -> None: super()._clear() _InstanceEventsHold._clear() def first_init(self, manager: ClassManager[_O], cls: Type[_O]) -> None: """Called when the first instance of a particular mapping is called. This event is called when the ``__init__`` method of a class is called the first time for that particular class. The event invokes before ``__init__`` actually proceeds as well as before the :meth:`.InstanceEvents.init` event is invoked. """ def init(self, target: _O, args: Any, kwargs: Any) -> None: """Receive an instance when its constructor is called. This method is only called during a userland construction of an object, in conjunction with the object's constructor, e.g. its ``__init__`` method. It is not called when an object is loaded from the database; see the :meth:`.InstanceEvents.load` event in order to intercept a database load. The event is called before the actual ``__init__`` constructor of the object is called. The ``kwargs`` dictionary may be modified in-place in order to affect what is passed to ``__init__``. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param args: positional arguments passed to the ``__init__`` method. This is passed as a tuple and is currently immutable. :param kwargs: keyword arguments passed to the ``__init__`` method. This structure *can* be altered in place. .. seealso:: :meth:`.InstanceEvents.init_failure` :meth:`.InstanceEvents.load` """ def init_failure(self, target: _O, args: Any, kwargs: Any) -> None: """Receive an instance when its constructor has been called, and raised an exception. This method is only called during a userland construction of an object, in conjunction with the object's constructor, e.g. its ``__init__`` method. It is not called when an object is loaded from the database. The event is invoked after an exception raised by the ``__init__`` method is caught. After the event is invoked, the original exception is re-raised outwards, so that the construction of the object still raises an exception. The actual exception and stack trace raised should be present in ``sys.exc_info()``. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param args: positional arguments that were passed to the ``__init__`` method. :param kwargs: keyword arguments that were passed to the ``__init__`` method. .. seealso:: :meth:`.InstanceEvents.init` :meth:`.InstanceEvents.load` """ def _sa_event_merge_wo_load( self, target: _O, context: QueryContext ) -> None: """receive an object instance after it was the subject of a merge() call, when load=False was passed. The target would be the already-loaded object in the Session which would have had its attributes overwritten by the incoming object. This overwrite operation does not use attribute events, instead just populating dict directly. Therefore the purpose of this event is so that extensions like sqlalchemy.ext.mutable know that object state has changed and incoming state needs to be set up for "parents" etc. This functionality is acceptable to be made public in a later release. .. versionadded:: 1.4.41 """ def load(self, target: _O, context: QueryContext) -> None: """Receive an object instance after it has been created via ``__new__``, and after initial attribute population has occurred. This typically occurs when the instance is created based on incoming result rows, and is only called once for that instance's lifetime. .. warning:: During a result-row load, this event is invoked when the first row received for this instance is processed. When using eager loading with collection-oriented attributes, the additional rows that are to be loaded / processed in order to load subsequent collection items have not occurred yet. This has the effect both that collections will not be fully loaded, as well as that if an operation occurs within this event handler that emits another database load operation for the object, the "loading context" for the object can change and interfere with the existing eager loaders still in progress. Examples of what can cause the "loading context" to change within the event handler include, but are not necessarily limited to: * accessing deferred attributes that weren't part of the row, will trigger an "undefer" operation and refresh the object * accessing attributes on a joined-inheritance subclass that weren't part of the row, will trigger a refresh operation. As of SQLAlchemy 1.3.14, a warning is emitted when this occurs. The :paramref:`.InstanceEvents.restore_load_context` option may be used on the event to prevent this warning; this will ensure that the existing loading context is maintained for the object after the event is called:: @event.listens_for( SomeClass, "load", restore_load_context=True) def on_load(instance, context): instance.some_unloaded_attribute .. versionchanged:: 1.3.14 Added :paramref:`.InstanceEvents.restore_load_context` and :paramref:`.SessionEvents.restore_load_context` flags which apply to "on load" events, which will ensure that the loading context for an object is restored when the event hook is complete; a warning is emitted if the load context of the object changes without this flag being set. The :meth:`.InstanceEvents.load` event is also available in a class-method decorator format called :func:`_orm.reconstructor`. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param context: the :class:`.QueryContext` corresponding to the current :class:`_query.Query` in progress. This argument may be ``None`` if the load does not correspond to a :class:`_query.Query`, such as during :meth:`.Session.merge`. .. seealso:: :ref:`mapped_class_load_events` :meth:`.InstanceEvents.init` :meth:`.InstanceEvents.refresh` :meth:`.SessionEvents.loaded_as_persistent` """ def refresh( self, target: _O, context: QueryContext, attrs: Optional[Iterable[str]] ) -> None: """Receive an object instance after one or more attributes have been refreshed from a query. Contrast this to the :meth:`.InstanceEvents.load` method, which is invoked when the object is first loaded from a query. .. note:: This event is invoked within the loader process before eager loaders may have been completed, and the object's state may not be complete. Additionally, invoking row-level refresh operations on the object will place the object into a new loader context, interfering with the existing load context. See the note on :meth:`.InstanceEvents.load` for background on making use of the :paramref:`.InstanceEvents.restore_load_context` parameter, in order to resolve this scenario. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param context: the :class:`.QueryContext` corresponding to the current :class:`_query.Query` in progress. :param attrs: sequence of attribute names which were populated, or None if all column-mapped, non-deferred attributes were populated. .. seealso:: :ref:`mapped_class_load_events` :meth:`.InstanceEvents.load` """ def refresh_flush( self, target: _O, flush_context: UOWTransaction, attrs: Optional[Iterable[str]], ) -> None: """Receive an object instance after one or more attributes that contain a column-level default or onupdate handler have been refreshed during persistence of the object's state. This event is the same as :meth:`.InstanceEvents.refresh` except it is invoked within the unit of work flush process, and includes only non-primary-key columns that have column level default or onupdate handlers, including Python callables as well as server side defaults and triggers which may be fetched via the RETURNING clause. .. note:: While the :meth:`.InstanceEvents.refresh_flush` event is triggered for an object that was INSERTed as well as for an object that was UPDATEd, the event is geared primarily towards the UPDATE process; it is mostly an internal artifact that INSERT actions can also trigger this event, and note that **primary key columns for an INSERTed row are explicitly omitted** from this event. In order to intercept the newly INSERTed state of an object, the :meth:`.SessionEvents.pending_to_persistent` and :meth:`.MapperEvents.after_insert` are better choices. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param flush_context: Internal :class:`.UOWTransaction` object which handles the details of the flush. :param attrs: sequence of attribute names which were populated. .. seealso:: :ref:`mapped_class_load_events` :ref:`orm_server_defaults` :ref:`metadata_defaults_toplevel` """ def expire(self, target: _O, attrs: Optional[Iterable[str]]) -> None: """Receive an object instance after its attributes or some subset have been expired. 'keys' is a list of attribute names. If None, the entire state was expired. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param attrs: sequence of attribute names which were expired, or None if all attributes were expired. """ def pickle(self, target: _O, state_dict: _InstanceDict) -> None: """Receive an object instance when its associated state is being pickled. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param state_dict: the dictionary returned by :class:`.InstanceState.__getstate__`, containing the state to be pickled. """ def unpickle(self, target: _O, state_dict: _InstanceDict) -> None: """Receive an object instance after its associated state has been unpickled. :param target: the mapped instance. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :param state_dict: the dictionary sent to :class:`.InstanceState.__setstate__`, containing the state dictionary which was pickled. """ class _EventsHold(event.RefCollection[_ET]): """Hold onto listeners against unmapped, uninstrumented classes. Establish _listen() for that class' mapper/instrumentation when those objects are created for that class. """ all_holds: weakref.WeakKeyDictionary[Any, Any] def __init__( self, class_: Union[DeclarativeAttributeIntercept, DeclarativeMeta, type], ) -> None: self.class_ = class_ @classmethod def _clear(cls) -> None: cls.all_holds.clear() class HoldEvents(Generic[_ET2]): _dispatch_target: Optional[Type[_ET2]] = None @classmethod def _listen( cls, event_key: _EventKey[_ET2], raw: bool = False, propagate: bool = False, retval: bool = False, **kw: Any, ) -> None: target = event_key.dispatch_target if target.class_ in target.all_holds: collection = target.all_holds[target.class_] else: collection = target.all_holds[target.class_] = {} event.registry._stored_in_collection(event_key, target) collection[event_key._key] = ( event_key, raw, propagate, retval, kw, ) if propagate: stack = list(target.class_.__subclasses__()) while stack: subclass = stack.pop(0) stack.extend(subclass.__subclasses__()) subject = target.resolve(subclass) if subject is not None: # we are already going through __subclasses__() # so leave generic propagate flag False event_key.with_dispatch_target(subject).listen( raw=raw, propagate=False, retval=retval, **kw ) def remove(self, event_key: _EventKey[_ET]) -> None: target = event_key.dispatch_target if isinstance(target, _EventsHold): collection = target.all_holds[target.class_] del collection[event_key._key] @classmethod def populate( cls, class_: Union[DeclarativeAttributeIntercept, DeclarativeMeta, type], subject: Union[ClassManager[_O], Mapper[_O]], ) -> None: for subclass in class_.__mro__: if subclass in cls.all_holds: collection = cls.all_holds[subclass] for ( event_key, raw, propagate, retval, kw, ) in collection.values(): if propagate or subclass is class_: # since we can't be sure in what order different # classes in a hierarchy are triggered with # populate(), we rely upon _EventsHold for all event # assignment, instead of using the generic propagate # flag. event_key.with_dispatch_target(subject).listen( raw=raw, propagate=False, retval=retval, **kw ) class _InstanceEventsHold(_EventsHold[_ET]): all_holds: weakref.WeakKeyDictionary[Any, Any] = ( weakref.WeakKeyDictionary() ) def resolve(self, class_: Type[_O]) -> Optional[ClassManager[_O]]: return instrumentation.opt_manager_of_class(class_) class HoldInstanceEvents(_EventsHold.HoldEvents[_ET], InstanceEvents): # type: ignore [misc] # noqa: E501 pass dispatch = event.dispatcher(HoldInstanceEvents) class MapperEvents(event.Events[mapperlib.Mapper[Any]]): """Define events specific to mappings. e.g.:: from sqlalchemy import event def my_before_insert_listener(mapper, connection, target): # execute a stored procedure upon INSERT, # apply the value to the row to be inserted target.calculated_value = connection.execute( text("select my_special_function(%d)" % target.special_number) ).scalar() # associate the listener function with SomeClass, # to execute during the "before_insert" hook event.listen( SomeClass, 'before_insert', my_before_insert_listener) Available targets include: * mapped classes * unmapped superclasses of mapped or to-be-mapped classes (using the ``propagate=True`` flag) * :class:`_orm.Mapper` objects * the :class:`_orm.Mapper` class itself indicates listening for all mappers. Mapper events provide hooks into critical sections of the mapper, including those related to object instrumentation, object loading, and object persistence. In particular, the persistence methods :meth:`~.MapperEvents.before_insert`, and :meth:`~.MapperEvents.before_update` are popular places to augment the state being persisted - however, these methods operate with several significant restrictions. The user is encouraged to evaluate the :meth:`.SessionEvents.before_flush` and :meth:`.SessionEvents.after_flush` methods as more flexible and user-friendly hooks in which to apply additional database state during a flush. When using :class:`.MapperEvents`, several modifiers are available to the :func:`.event.listen` function. :param propagate=False: When True, the event listener should be applied to all inheriting mappers and/or the mappers of inheriting classes, as well as any mapper which is the target of this listener. :param raw=False: When True, the "target" argument passed to applicable event listener functions will be the instance's :class:`.InstanceState` management object, rather than the mapped instance itself. :param retval=False: when True, the user-defined event function must have a return value, the purpose of which is either to control subsequent event propagation, or to otherwise alter the operation in progress by the mapper. Possible return values are: * ``sqlalchemy.orm.interfaces.EXT_CONTINUE`` - continue event processing normally. * ``sqlalchemy.orm.interfaces.EXT_STOP`` - cancel all subsequent event handlers in the chain. * other values - the return value specified by specific listeners. """ _target_class_doc = "SomeClass" _dispatch_target = mapperlib.Mapper @classmethod def _new_mapper_instance( cls, class_: Union[DeclarativeAttributeIntercept, DeclarativeMeta, type], mapper: Mapper[_O], ) -> None: _MapperEventsHold.populate(class_, mapper) @classmethod @util.preload_module("sqlalchemy.orm") def _accept_with( cls, target: Union[mapperlib.Mapper[Any], Type[mapperlib.Mapper[Any]]], identifier: str, ) -> Optional[Union[mapperlib.Mapper[Any], Type[mapperlib.Mapper[Any]]]]: orm = util.preloaded.orm if target is orm.mapper: # type: ignore [attr-defined] util.warn_deprecated( "The `sqlalchemy.orm.mapper()` symbol is deprecated and " "will be removed in a future release. For the mapper-wide " "event target, use the 'sqlalchemy.orm.Mapper' class.", "2.0", ) return mapperlib.Mapper elif isinstance(target, type): if issubclass(target, mapperlib.Mapper): return target else: mapper = _mapper_or_none(target) if mapper is not None: return mapper else: return _MapperEventsHold(target) else: return target @classmethod def _listen( cls, event_key: _EventKey[_ET], raw: bool = False, retval: bool = False, propagate: bool = False, **kw: Any, ) -> None: target, identifier, fn = ( event_key.dispatch_target, event_key.identifier, event_key._listen_fn, ) if ( identifier in ("before_configured", "after_configured") and target is not mapperlib.Mapper ): util.warn( "'before_configured' and 'after_configured' ORM events " "only invoke with the Mapper class " "as the target." ) if not raw or not retval: if not raw: meth = getattr(cls, identifier) try: target_index = ( inspect_getfullargspec(meth)[0].index("target") - 1 ) except ValueError: target_index = None def wrap(*arg: Any, **kw: Any) -> Any: if not raw and target_index is not None: arg = list(arg) # type: ignore [assignment] arg[target_index] = arg[target_index].obj() # type: ignore [index] # noqa: E501 if not retval: fn(*arg, **kw) return interfaces.EXT_CONTINUE else: return fn(*arg, **kw) event_key = event_key.with_wrapper(wrap) if propagate: for mapper in target.self_and_descendants: event_key.with_dispatch_target(mapper).base_listen( propagate=True, **kw ) else: event_key.base_listen(**kw) @classmethod def _clear(cls) -> None: super()._clear() _MapperEventsHold._clear() def instrument_class(self, mapper: Mapper[_O], class_: Type[_O]) -> None: r"""Receive a class when the mapper is first constructed, before instrumentation is applied to the mapped class. This event is the earliest phase of mapper construction. Most attributes of the mapper are not yet initialized. To receive an event within initial mapper construction where basic state is available such as the :attr:`_orm.Mapper.attrs` collection, the :meth:`_orm.MapperEvents.after_mapper_constructed` event may be a better choice. This listener can either be applied to the :class:`_orm.Mapper` class overall, or to any un-mapped class which serves as a base for classes that will be mapped (using the ``propagate=True`` flag):: Base = declarative_base() @event.listens_for(Base, "instrument_class", propagate=True) def on_new_class(mapper, cls_): " ... " :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param class\_: the mapped class. .. seealso:: :meth:`_orm.MapperEvents.after_mapper_constructed` """ def after_mapper_constructed( self, mapper: Mapper[_O], class_: Type[_O] ) -> None: """Receive a class and mapper when the :class:`_orm.Mapper` has been fully constructed. This event is called after the initial constructor for :class:`_orm.Mapper` completes. This occurs after the :meth:`_orm.MapperEvents.instrument_class` event and after the :class:`_orm.Mapper` has done an initial pass of its arguments to generate its collection of :class:`_orm.MapperProperty` objects, which are accessible via the :meth:`_orm.Mapper.get_property` method and the :attr:`_orm.Mapper.iterate_properties` attribute. This event differs from the :meth:`_orm.MapperEvents.before_mapper_configured` event in that it is invoked within the constructor for :class:`_orm.Mapper`, rather than within the :meth:`_orm.registry.configure` process. Currently, this event is the only one which is appropriate for handlers that wish to create additional mapped classes in response to the construction of this :class:`_orm.Mapper`, which will be part of the same configure step when :meth:`_orm.registry.configure` next runs. .. versionadded:: 2.0.2 .. seealso:: :ref:`examples_versioning` - an example which illustrates the use of the :meth:`_orm.MapperEvents.before_mapper_configured` event to create new mappers to record change-audit histories on objects. """ def before_mapper_configured( self, mapper: Mapper[_O], class_: Type[_O] ) -> None: """Called right before a specific mapper is to be configured. This event is intended to allow a specific mapper to be skipped during the configure step, by returning the :attr:`.orm.interfaces.EXT_SKIP` symbol which indicates to the :func:`.configure_mappers` call that this particular mapper (or hierarchy of mappers, if ``propagate=True`` is used) should be skipped in the current configuration run. When one or more mappers are skipped, the he "new mappers" flag will remain set, meaning the :func:`.configure_mappers` function will continue to be called when mappers are used, to continue to try to configure all available mappers. In comparison to the other configure-level events, :meth:`.MapperEvents.before_configured`, :meth:`.MapperEvents.after_configured`, and :meth:`.MapperEvents.mapper_configured`, the :meth;`.MapperEvents.before_mapper_configured` event provides for a meaningful return value when it is registered with the ``retval=True`` parameter. .. versionadded:: 1.3 e.g.:: from sqlalchemy.orm import EXT_SKIP Base = declarative_base() DontConfigureBase = declarative_base() @event.listens_for( DontConfigureBase, "before_mapper_configured", retval=True, propagate=True) def dont_configure(mapper, cls): return EXT_SKIP .. seealso:: :meth:`.MapperEvents.before_configured` :meth:`.MapperEvents.after_configured` :meth:`.MapperEvents.mapper_configured` """ def mapper_configured(self, mapper: Mapper[_O], class_: Type[_O]) -> None: r"""Called when a specific mapper has completed its own configuration within the scope of the :func:`.configure_mappers` call. The :meth:`.MapperEvents.mapper_configured` event is invoked for each mapper that is encountered when the :func:`_orm.configure_mappers` function proceeds through the current list of not-yet-configured mappers. :func:`_orm.configure_mappers` is typically invoked automatically as mappings are first used, as well as each time new mappers have been made available and new mapper use is detected. When the event is called, the mapper should be in its final state, but **not including backrefs** that may be invoked from other mappers; they might still be pending within the configuration operation. Bidirectional relationships that are instead configured via the :paramref:`.orm.relationship.back_populates` argument *will* be fully available, since this style of relationship does not rely upon other possibly-not-configured mappers to know that they exist. For an event that is guaranteed to have **all** mappers ready to go including backrefs that are defined only on other mappings, use the :meth:`.MapperEvents.after_configured` event; this event invokes only after all known mappings have been fully configured. The :meth:`.MapperEvents.mapper_configured` event, unlike :meth:`.MapperEvents.before_configured` or :meth:`.MapperEvents.after_configured`, is called for each mapper/class individually, and the mapper is passed to the event itself. It also is called exactly once for a particular mapper. The event is therefore useful for configurational steps that benefit from being invoked just once on a specific mapper basis, which don't require that "backref" configurations are necessarily ready yet. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param class\_: the mapped class. .. seealso:: :meth:`.MapperEvents.before_configured` :meth:`.MapperEvents.after_configured` :meth:`.MapperEvents.before_mapper_configured` """ # TODO: need coverage for this event def before_configured(self) -> None: """Called before a series of mappers have been configured. The :meth:`.MapperEvents.before_configured` event is invoked each time the :func:`_orm.configure_mappers` function is invoked, before the function has done any of its work. :func:`_orm.configure_mappers` is typically invoked automatically as mappings are first used, as well as each time new mappers have been made available and new mapper use is detected. This event can **only** be applied to the :class:`_orm.Mapper` class, and not to individual mappings or mapped classes. It is only invoked for all mappings as a whole:: from sqlalchemy.orm import Mapper @event.listens_for(Mapper, "before_configured") def go(): ... Contrast this event to :meth:`.MapperEvents.after_configured`, which is invoked after the series of mappers has been configured, as well as :meth:`.MapperEvents.before_mapper_configured` and :meth:`.MapperEvents.mapper_configured`, which are both invoked on a per-mapper basis. Theoretically this event is called once per application, but is actually called any time new mappers are to be affected by a :func:`_orm.configure_mappers` call. If new mappings are constructed after existing ones have already been used, this event will likely be called again. To ensure that a particular event is only called once and no further, the ``once=True`` argument (new in 0.9.4) can be applied:: from sqlalchemy.orm import mapper @event.listens_for(mapper, "before_configured", once=True) def go(): ... .. seealso:: :meth:`.MapperEvents.before_mapper_configured` :meth:`.MapperEvents.mapper_configured` :meth:`.MapperEvents.after_configured` """ def after_configured(self) -> None: """Called after a series of mappers have been configured. The :meth:`.MapperEvents.after_configured` event is invoked each time the :func:`_orm.configure_mappers` function is invoked, after the function has completed its work. :func:`_orm.configure_mappers` is typically invoked automatically as mappings are first used, as well as each time new mappers have been made available and new mapper use is detected. Contrast this event to the :meth:`.MapperEvents.mapper_configured` event, which is called on a per-mapper basis while the configuration operation proceeds; unlike that event, when this event is invoked, all cross-configurations (e.g. backrefs) will also have been made available for any mappers that were pending. Also contrast to :meth:`.MapperEvents.before_configured`, which is invoked before the series of mappers has been configured. This event can **only** be applied to the :class:`_orm.Mapper` class, and not to individual mappings or mapped classes. It is only invoked for all mappings as a whole:: from sqlalchemy.orm import Mapper @event.listens_for(Mapper, "after_configured") def go(): # ... Theoretically this event is called once per application, but is actually called any time new mappers have been affected by a :func:`_orm.configure_mappers` call. If new mappings are constructed after existing ones have already been used, this event will likely be called again. To ensure that a particular event is only called once and no further, the ``once=True`` argument (new in 0.9.4) can be applied:: from sqlalchemy.orm import mapper @event.listens_for(mapper, "after_configured", once=True) def go(): # ... .. seealso:: :meth:`.MapperEvents.before_mapper_configured` :meth:`.MapperEvents.mapper_configured` :meth:`.MapperEvents.before_configured` """ def before_insert( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance before an INSERT statement is emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to modify local, non-object related attributes on the instance before an INSERT occurs, as well as to emit additional SQL statements on the given connection. The event is often called for a batch of objects of the same class before their INSERT statements are emitted at once in a later step. In the extremely rare case that this is not desirable, the :class:`_orm.Mapper` object can be configured with ``batch=False``, which will cause batches of instances to be broken up into individual (and more poorly performing) event->persist->event steps. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit INSERT statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being persisted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ def after_insert( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance after an INSERT statement is emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to modify in-Python-only state on the instance after an INSERT occurs, as well as to emit additional SQL statements on the given connection. The event is often called for a batch of objects of the same class after their INSERT statements have been emitted at once in a previous step. In the extremely rare case that this is not desirable, the :class:`_orm.Mapper` object can be configured with ``batch=False``, which will cause batches of instances to be broken up into individual (and more poorly performing) event->persist->event steps. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit INSERT statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being persisted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ def before_update( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance before an UPDATE statement is emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to modify local, non-object related attributes on the instance before an UPDATE occurs, as well as to emit additional SQL statements on the given connection. This method is called for all instances that are marked as "dirty", *even those which have no net changes to their column-based attributes*. An object is marked as dirty when any of its column-based attributes have a "set attribute" operation called or when any of its collections are modified. If, at update time, no column-based attributes have any net changes, no UPDATE statement will be issued. This means that an instance being sent to :meth:`~.MapperEvents.before_update` is *not* a guarantee that an UPDATE statement will be issued, although you can affect the outcome here by modifying attributes so that a net change in value does exist. To detect if the column-based attributes on the object have net changes, and will therefore generate an UPDATE statement, use ``object_session(instance).is_modified(instance, include_collections=False)``. The event is often called for a batch of objects of the same class before their UPDATE statements are emitted at once in a later step. In the extremely rare case that this is not desirable, the :class:`_orm.Mapper` can be configured with ``batch=False``, which will cause batches of instances to be broken up into individual (and more poorly performing) event->persist->event steps. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit UPDATE statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being persisted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ def after_update( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance after an UPDATE statement is emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to modify in-Python-only state on the instance after an UPDATE occurs, as well as to emit additional SQL statements on the given connection. This method is called for all instances that are marked as "dirty", *even those which have no net changes to their column-based attributes*, and for which no UPDATE statement has proceeded. An object is marked as dirty when any of its column-based attributes have a "set attribute" operation called or when any of its collections are modified. If, at update time, no column-based attributes have any net changes, no UPDATE statement will be issued. This means that an instance being sent to :meth:`~.MapperEvents.after_update` is *not* a guarantee that an UPDATE statement has been issued. To detect if the column-based attributes on the object have net changes, and therefore resulted in an UPDATE statement, use ``object_session(instance).is_modified(instance, include_collections=False)``. The event is often called for a batch of objects of the same class after their UPDATE statements have been emitted at once in a previous step. In the extremely rare case that this is not desirable, the :class:`_orm.Mapper` can be configured with ``batch=False``, which will cause batches of instances to be broken up into individual (and more poorly performing) event->persist->event steps. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit UPDATE statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being persisted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ def before_delete( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance before a DELETE statement is emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to emit additional SQL statements on the given connection as well as to perform application specific bookkeeping related to a deletion event. The event is often called for a batch of objects of the same class before their DELETE statements are emitted at once in a later step. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit DELETE statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being deleted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ def after_delete( self, mapper: Mapper[_O], connection: Connection, target: _O ) -> None: """Receive an object instance after a DELETE statement has been emitted corresponding to that instance. .. note:: this event **only** applies to the :ref:`session flush operation <session_flushing>` and does **not** apply to the ORM DML operations described at :ref:`orm_expression_update_delete`. To intercept ORM DML events, use :meth:`_orm.SessionEvents.do_orm_execute`. This event is used to emit additional SQL statements on the given connection as well as to perform application specific bookkeeping related to a deletion event. The event is often called for a batch of objects of the same class after their DELETE statements have been emitted at once in a previous step. .. warning:: Mapper-level flush events only allow **very limited operations**, on attributes local to the row being operated upon only, as well as allowing any SQL to be emitted on the given :class:`_engine.Connection`. **Please read fully** the notes at :ref:`session_persistence_mapper` for guidelines on using these methods; generally, the :meth:`.SessionEvents.before_flush` method should be preferred for general on-flush changes. :param mapper: the :class:`_orm.Mapper` which is the target of this event. :param connection: the :class:`_engine.Connection` being used to emit DELETE statements for this instance. This provides a handle into the current transaction on the target database specific to this instance. :param target: the mapped instance being deleted. If the event is configured with ``raw=True``, this will instead be the :class:`.InstanceState` state-management object associated with the instance. :return: No return value is supported by this event. .. seealso:: :ref:`session_persistence_events` """ class _MapperEventsHold(_EventsHold[_ET]): all_holds = weakref.WeakKeyDictionary() def resolve( self, class_: Union[Type[_T], _InternalEntityType[_T]] ) -> Optional[Mapper[_T]]: return _mapper_or_none(class_) class HoldMapperEvents(_EventsHold.HoldEvents[_ET], MapperEvents): # type: ignore [misc] # noqa: E501 pass dispatch = event.dispatcher(HoldMapperEvents) _sessionevents_lifecycle_event_names: Set[str] = set() class SessionEvents(event.Events[Session]): """Define events specific to :class:`.Session` lifecycle. e.g.:: from sqlalchemy import event from sqlalchemy.orm import sessionmaker def my_before_commit(session): print("before commit!") Session = sessionmaker() event.listen(Session, "before_commit", my_before_commit) The :func:`~.event.listen` function will accept :class:`.Session` objects as well as the return result of :class:`~.sessionmaker()` and :class:`~.scoped_session()`. Additionally, it accepts the :class:`.Session` class which will apply listeners to all :class:`.Session` instances globally. :param raw=False: When True, the "target" argument passed to applicable event listener functions that work on individual objects will be the instance's :class:`.InstanceState` management object, rather than the mapped instance itself. .. versionadded:: 1.3.14 :param restore_load_context=False: Applies to the :meth:`.SessionEvents.loaded_as_persistent` event. Restores the loader context of the object when the event hook is complete, so that ongoing eager load operations continue to target the object appropriately. A warning is emitted if the object is moved to a new loader context from within this event if this flag is not set. .. versionadded:: 1.3.14 """ _target_class_doc = "SomeSessionClassOrObject" _dispatch_target = Session def _lifecycle_event( # type: ignore [misc] fn: Callable[[SessionEvents, Session, Any], None] ) -> Callable[[SessionEvents, Session, Any], None]: _sessionevents_lifecycle_event_names.add(fn.__name__) return fn @classmethod def _accept_with( # type: ignore [return] cls, target: Any, identifier: str ) -> Union[Session, type]: if isinstance(target, scoped_session): target = target.session_factory if not isinstance(target, sessionmaker) and ( not isinstance(target, type) or not issubclass(target, Session) ): raise exc.ArgumentError( "Session event listen on a scoped_session " "requires that its creation callable " "is associated with the Session class." ) if isinstance(target, sessionmaker): return target.class_ elif isinstance(target, type): if issubclass(target, scoped_session): return Session elif issubclass(target, Session): return target elif isinstance(target, Session): return target elif hasattr(target, "_no_async_engine_events"): target._no_async_engine_events() else: # allows alternate SessionEvents-like-classes to be consulted return event.Events._accept_with(target, identifier) # type: ignore [return-value] # noqa: E501 @classmethod def _listen( cls, event_key: Any, *, raw: bool = False, restore_load_context: bool = False, **kw: Any, ) -> None: is_instance_event = ( event_key.identifier in _sessionevents_lifecycle_event_names ) if is_instance_event: if not raw or restore_load_context: fn = event_key._listen_fn def wrap( session: Session, state: InstanceState[_O], *arg: Any, **kw: Any, ) -> Optional[Any]: if not raw: target = state.obj() if target is None: # existing behavior is that if the object is # garbage collected, no event is emitted return None else: target = state # type: ignore [assignment] if restore_load_context: runid = state.runid try: return fn(session, target, *arg, **kw) finally: if restore_load_context: state.runid = runid event_key = event_key.with_wrapper(wrap) event_key.base_listen(**kw) def do_orm_execute(self, orm_execute_state: ORMExecuteState) -> None: """Intercept statement executions that occur on behalf of an ORM :class:`.Session` object. This event is invoked for all top-level SQL statements invoked from the :meth:`_orm.Session.execute` method, as well as related methods such as :meth:`_orm.Session.scalars` and :meth:`_orm.Session.scalar`. As of SQLAlchemy 1.4, all ORM queries that run through the :meth:`_orm.Session.execute` method as well as related methods :meth:`_orm.Session.scalars`, :meth:`_orm.Session.scalar` etc. will participate in this event. This event hook does **not** apply to the queries that are emitted internally within the ORM flush process, i.e. the process described at :ref:`session_flushing`. .. note:: The :meth:`_orm.SessionEvents.do_orm_execute` event hook is triggered **for ORM statement executions only**, meaning those invoked via the :meth:`_orm.Session.execute` and similar methods on the :class:`_orm.Session` object. It does **not** trigger for statements that are invoked by SQLAlchemy Core only, i.e. statements invoked directly using :meth:`_engine.Connection.execute` or otherwise originating from an :class:`_engine.Engine` object without any :class:`_orm.Session` involved. To intercept **all** SQL executions regardless of whether the Core or ORM APIs are in use, see the event hooks at :class:`.ConnectionEvents`, such as :meth:`.ConnectionEvents.before_execute` and :meth:`.ConnectionEvents.before_cursor_execute`. Also, this event hook does **not** apply to queries that are emitted internally within the ORM flush process, i.e. the process described at :ref:`session_flushing`; to intercept steps within the flush process, see the event hooks described at :ref:`session_persistence_events` as well as :ref:`session_persistence_mapper`. This event is a ``do_`` event, meaning it has the capability to replace the operation that the :meth:`_orm.Session.execute` method normally performs. The intended use for this includes sharding and result-caching schemes which may seek to invoke the same statement across multiple database connections, returning a result that is merged from each of them, or which don't invoke the statement at all, instead returning data from a cache. The hook intends to replace the use of the ``Query._execute_and_instances`` method that could be subclassed prior to SQLAlchemy 1.4. :param orm_execute_state: an instance of :class:`.ORMExecuteState` which contains all information about the current execution, as well as helper functions used to derive other commonly required information. See that object for details. .. seealso:: :ref:`session_execute_events` - top level documentation on how to use :meth:`_orm.SessionEvents.do_orm_execute` :class:`.ORMExecuteState` - the object passed to the :meth:`_orm.SessionEvents.do_orm_execute` event which contains all information about the statement to be invoked. It also provides an interface to extend the current statement, options, and parameters as well as an option that allows programmatic invocation of the statement at any point. :ref:`examples_session_orm_events` - includes examples of using :meth:`_orm.SessionEvents.do_orm_execute` :ref:`examples_caching` - an example of how to integrate Dogpile caching with the ORM :class:`_orm.Session` making use of the :meth:`_orm.SessionEvents.do_orm_execute` event hook. :ref:`examples_sharding` - the Horizontal Sharding example / extension relies upon the :meth:`_orm.SessionEvents.do_orm_execute` event hook to invoke a SQL statement on multiple backends and return a merged result. .. versionadded:: 1.4 """ def after_transaction_create( self, session: Session, transaction: SessionTransaction ) -> None: """Execute when a new :class:`.SessionTransaction` is created. This event differs from :meth:`~.SessionEvents.after_begin` in that it occurs for each :class:`.SessionTransaction` overall, as opposed to when transactions are begun on individual database connections. It is also invoked for nested transactions and subtransactions, and is always matched by a corresponding :meth:`~.SessionEvents.after_transaction_end` event (assuming normal operation of the :class:`.Session`). :param session: the target :class:`.Session`. :param transaction: the target :class:`.SessionTransaction`. To detect if this is the outermost :class:`.SessionTransaction`, as opposed to a "subtransaction" or a SAVEPOINT, test that the :attr:`.SessionTransaction.parent` attribute is ``None``:: @event.listens_for(session, "after_transaction_create") def after_transaction_create(session, transaction): if transaction.parent is None: # work with top-level transaction To detect if the :class:`.SessionTransaction` is a SAVEPOINT, use the :attr:`.SessionTransaction.nested` attribute:: @event.listens_for(session, "after_transaction_create") def after_transaction_create(session, transaction): if transaction.nested: # work with SAVEPOINT transaction .. seealso:: :class:`.SessionTransaction` :meth:`~.SessionEvents.after_transaction_end` """ def after_transaction_end( self, session: Session, transaction: SessionTransaction ) -> None: """Execute when the span of a :class:`.SessionTransaction` ends. This event differs from :meth:`~.SessionEvents.after_commit` in that it corresponds to all :class:`.SessionTransaction` objects in use, including those for nested transactions and subtransactions, and is always matched by a corresponding :meth:`~.SessionEvents.after_transaction_create` event. :param session: the target :class:`.Session`. :param transaction: the target :class:`.SessionTransaction`. To detect if this is the outermost :class:`.SessionTransaction`, as opposed to a "subtransaction" or a SAVEPOINT, test that the :attr:`.SessionTransaction.parent` attribute is ``None``:: @event.listens_for(session, "after_transaction_create") def after_transaction_end(session, transaction): if transaction.parent is None: # work with top-level transaction To detect if the :class:`.SessionTransaction` is a SAVEPOINT, use the :attr:`.SessionTransaction.nested` attribute:: @event.listens_for(session, "after_transaction_create") def after_transaction_end(session, transaction): if transaction.nested: # work with SAVEPOINT transaction .. seealso:: :class:`.SessionTransaction` :meth:`~.SessionEvents.after_transaction_create` """ def before_commit(self, session: Session) -> None: """Execute before commit is called. .. note:: The :meth:`~.SessionEvents.before_commit` hook is *not* per-flush, that is, the :class:`.Session` can emit SQL to the database many times within the scope of a transaction. For interception of these events, use the :meth:`~.SessionEvents.before_flush`, :meth:`~.SessionEvents.after_flush`, or :meth:`~.SessionEvents.after_flush_postexec` events. :param session: The target :class:`.Session`. .. seealso:: :meth:`~.SessionEvents.after_commit` :meth:`~.SessionEvents.after_begin` :meth:`~.SessionEvents.after_transaction_create` :meth:`~.SessionEvents.after_transaction_end` """ def after_commit(self, session: Session) -> None: """Execute after a commit has occurred. .. note:: The :meth:`~.SessionEvents.after_commit` hook is *not* per-flush, that is, the :class:`.Session` can emit SQL to the database many times within the scope of a transaction. For interception of these events, use the :meth:`~.SessionEvents.before_flush`, :meth:`~.SessionEvents.after_flush`, or :meth:`~.SessionEvents.after_flush_postexec` events. .. note:: The :class:`.Session` is not in an active transaction when the :meth:`~.SessionEvents.after_commit` event is invoked, and therefore can not emit SQL. To emit SQL corresponding to every transaction, use the :meth:`~.SessionEvents.before_commit` event. :param session: The target :class:`.Session`. .. seealso:: :meth:`~.SessionEvents.before_commit` :meth:`~.SessionEvents.after_begin` :meth:`~.SessionEvents.after_transaction_create` :meth:`~.SessionEvents.after_transaction_end` """ def after_rollback(self, session: Session) -> None: """Execute after a real DBAPI rollback has occurred. Note that this event only fires when the *actual* rollback against the database occurs - it does *not* fire each time the :meth:`.Session.rollback` method is called, if the underlying DBAPI transaction has already been rolled back. In many cases, the :class:`.Session` will not be in an "active" state during this event, as the current transaction is not valid. To acquire a :class:`.Session` which is active after the outermost rollback has proceeded, use the :meth:`.SessionEvents.after_soft_rollback` event, checking the :attr:`.Session.is_active` flag. :param session: The target :class:`.Session`. """ def after_soft_rollback( self, session: Session, previous_transaction: SessionTransaction ) -> None: """Execute after any rollback has occurred, including "soft" rollbacks that don't actually emit at the DBAPI level. This corresponds to both nested and outer rollbacks, i.e. the innermost rollback that calls the DBAPI's rollback() method, as well as the enclosing rollback calls that only pop themselves from the transaction stack. The given :class:`.Session` can be used to invoke SQL and :meth:`.Session.query` operations after an outermost rollback by first checking the :attr:`.Session.is_active` flag:: @event.listens_for(Session, "after_soft_rollback") def do_something(session, previous_transaction): if session.is_active: session.execute(text("select * from some_table")) :param session: The target :class:`.Session`. :param previous_transaction: The :class:`.SessionTransaction` transactional marker object which was just closed. The current :class:`.SessionTransaction` for the given :class:`.Session` is available via the :attr:`.Session.transaction` attribute. """ def before_flush( self, session: Session, flush_context: UOWTransaction, instances: Optional[Sequence[_O]], ) -> None: """Execute before flush process has started. :param session: The target :class:`.Session`. :param flush_context: Internal :class:`.UOWTransaction` object which handles the details of the flush. :param instances: Usually ``None``, this is the collection of objects which can be passed to the :meth:`.Session.flush` method (note this usage is deprecated). .. seealso:: :meth:`~.SessionEvents.after_flush` :meth:`~.SessionEvents.after_flush_postexec` :ref:`session_persistence_events` """ def after_flush( self, session: Session, flush_context: UOWTransaction ) -> None: """Execute after flush has completed, but before commit has been called. Note that the session's state is still in pre-flush, i.e. 'new', 'dirty', and 'deleted' lists still show pre-flush state as well as the history settings on instance attributes. .. warning:: This event runs after the :class:`.Session` has emitted SQL to modify the database, but **before** it has altered its internal state to reflect those changes, including that newly inserted objects are placed into the identity map. ORM operations emitted within this event such as loads of related items may produce new identity map entries that will immediately be replaced, sometimes causing confusing results. SQLAlchemy will emit a warning for this condition as of version 1.3.9. :param session: The target :class:`.Session`. :param flush_context: Internal :class:`.UOWTransaction` object which handles the details of the flush. .. seealso:: :meth:`~.SessionEvents.before_flush` :meth:`~.SessionEvents.after_flush_postexec` :ref:`session_persistence_events` """ def after_flush_postexec( self, session: Session, flush_context: UOWTransaction ) -> None: """Execute after flush has completed, and after the post-exec state occurs. This will be when the 'new', 'dirty', and 'deleted' lists are in their final state. An actual commit() may or may not have occurred, depending on whether or not the flush started its own transaction or participated in a larger transaction. :param session: The target :class:`.Session`. :param flush_context: Internal :class:`.UOWTransaction` object which handles the details of the flush. .. seealso:: :meth:`~.SessionEvents.before_flush` :meth:`~.SessionEvents.after_flush` :ref:`session_persistence_events` """ def after_begin( self, session: Session, transaction: SessionTransaction, connection: Connection, ) -> None: """Execute after a transaction is begun on a connection. .. note:: This event is called within the process of the :class:`_orm.Session` modifying its own internal state. To invoke SQL operations within this hook, use the :class:`_engine.Connection` provided to the event; do not run SQL operations using the :class:`_orm.Session` directly. :param session: The target :class:`.Session`. :param transaction: The :class:`.SessionTransaction`. :param connection: The :class:`_engine.Connection` object which will be used for SQL statements. .. seealso:: :meth:`~.SessionEvents.before_commit` :meth:`~.SessionEvents.after_commit` :meth:`~.SessionEvents.after_transaction_create` :meth:`~.SessionEvents.after_transaction_end` """ @_lifecycle_event def before_attach(self, session: Session, instance: _O) -> None: """Execute before an instance is attached to a session. This is called before an add, delete or merge causes the object to be part of the session. .. seealso:: :meth:`~.SessionEvents.after_attach` :ref:`session_lifecycle_events` """ @_lifecycle_event def after_attach(self, session: Session, instance: _O) -> None: """Execute after an instance is attached to a session. This is called after an add, delete or merge. .. note:: As of 0.8, this event fires off *after* the item has been fully associated with the session, which is different than previous releases. For event handlers that require the object not yet be part of session state (such as handlers which may autoflush while the target object is not yet complete) consider the new :meth:`.before_attach` event. .. seealso:: :meth:`~.SessionEvents.before_attach` :ref:`session_lifecycle_events` """ @event._legacy_signature( "0.9", ["session", "query", "query_context", "result"], lambda update_context: ( update_context.session, update_context.query, None, update_context.result, ), ) def after_bulk_update(self, update_context: _O) -> None: """Event for after the legacy :meth:`_orm.Query.update` method has been called. .. legacy:: The :meth:`_orm.SessionEvents.after_bulk_update` method is a legacy event hook as of SQLAlchemy 2.0. The event **does not participate** in :term:`2.0 style` invocations using :func:`_dml.update` documented at :ref:`orm_queryguide_update_delete_where`. For 2.0 style use, the :meth:`_orm.SessionEvents.do_orm_execute` hook will intercept these calls. :param update_context: an "update context" object which contains details about the update, including these attributes: * ``session`` - the :class:`.Session` involved * ``query`` -the :class:`_query.Query` object that this update operation was called upon. * ``values`` The "values" dictionary that was passed to :meth:`_query.Query.update`. * ``result`` the :class:`_engine.CursorResult` returned as a result of the bulk UPDATE operation. .. versionchanged:: 1.4 the update_context no longer has a ``QueryContext`` object associated with it. .. seealso:: :meth:`.QueryEvents.before_compile_update` :meth:`.SessionEvents.after_bulk_delete` """ @event._legacy_signature( "0.9", ["session", "query", "query_context", "result"], lambda delete_context: ( delete_context.session, delete_context.query, None, delete_context.result, ), ) def after_bulk_delete(self, delete_context: _O) -> None: """Event for after the legacy :meth:`_orm.Query.delete` method has been called. .. legacy:: The :meth:`_orm.SessionEvents.after_bulk_delete` method is a legacy event hook as of SQLAlchemy 2.0. The event **does not participate** in :term:`2.0 style` invocations using :func:`_dml.delete` documented at :ref:`orm_queryguide_update_delete_where`. For 2.0 style use, the :meth:`_orm.SessionEvents.do_orm_execute` hook will intercept these calls. :param delete_context: a "delete context" object which contains details about the update, including these attributes: * ``session`` - the :class:`.Session` involved * ``query`` -the :class:`_query.Query` object that this update operation was called upon. * ``result`` the :class:`_engine.CursorResult` returned as a result of the bulk DELETE operation. .. versionchanged:: 1.4 the update_context no longer has a ``QueryContext`` object associated with it. .. seealso:: :meth:`.QueryEvents.before_compile_delete` :meth:`.SessionEvents.after_bulk_update` """ @_lifecycle_event def transient_to_pending(self, session: Session, instance: _O) -> None: """Intercept the "transient to pending" transition for a specific object. This event is a specialization of the :meth:`.SessionEvents.after_attach` event which is only invoked for this specific transition. It is invoked typically during the :meth:`.Session.add` call. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def pending_to_transient(self, session: Session, instance: _O) -> None: """Intercept the "pending to transient" transition for a specific object. This less common transition occurs when an pending object that has not been flushed is evicted from the session; this can occur when the :meth:`.Session.rollback` method rolls back the transaction, or when the :meth:`.Session.expunge` method is used. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def persistent_to_transient(self, session: Session, instance: _O) -> None: """Intercept the "persistent to transient" transition for a specific object. This less common transition occurs when an pending object that has has been flushed is evicted from the session; this can occur when the :meth:`.Session.rollback` method rolls back the transaction. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def pending_to_persistent(self, session: Session, instance: _O) -> None: """Intercept the "pending to persistent"" transition for a specific object. This event is invoked within the flush process, and is similar to scanning the :attr:`.Session.new` collection within the :meth:`.SessionEvents.after_flush` event. However, in this case the object has already been moved to the persistent state when the event is called. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def detached_to_persistent(self, session: Session, instance: _O) -> None: """Intercept the "detached to persistent" transition for a specific object. This event is a specialization of the :meth:`.SessionEvents.after_attach` event which is only invoked for this specific transition. It is invoked typically during the :meth:`.Session.add` call, as well as during the :meth:`.Session.delete` call if the object was not previously associated with the :class:`.Session` (note that an object marked as "deleted" remains in the "persistent" state until the flush proceeds). .. note:: If the object becomes persistent as part of a call to :meth:`.Session.delete`, the object is **not** yet marked as deleted when this event is called. To detect deleted objects, check the ``deleted`` flag sent to the :meth:`.SessionEvents.persistent_to_detached` to event after the flush proceeds, or check the :attr:`.Session.deleted` collection within the :meth:`.SessionEvents.before_flush` event if deleted objects need to be intercepted before the flush. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def loaded_as_persistent(self, session: Session, instance: _O) -> None: """Intercept the "loaded as persistent" transition for a specific object. This event is invoked within the ORM loading process, and is invoked very similarly to the :meth:`.InstanceEvents.load` event. However, the event here is linkable to a :class:`.Session` class or instance, rather than to a mapper or class hierarchy, and integrates with the other session lifecycle events smoothly. The object is guaranteed to be present in the session's identity map when this event is called. .. note:: This event is invoked within the loader process before eager loaders may have been completed, and the object's state may not be complete. Additionally, invoking row-level refresh operations on the object will place the object into a new loader context, interfering with the existing load context. See the note on :meth:`.InstanceEvents.load` for background on making use of the :paramref:`.SessionEvents.restore_load_context` parameter, which works in the same manner as that of :paramref:`.InstanceEvents.restore_load_context`, in order to resolve this scenario. :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def persistent_to_deleted(self, session: Session, instance: _O) -> None: """Intercept the "persistent to deleted" transition for a specific object. This event is invoked when a persistent object's identity is deleted from the database within a flush, however the object still remains associated with the :class:`.Session` until the transaction completes. If the transaction is rolled back, the object moves again to the persistent state, and the :meth:`.SessionEvents.deleted_to_persistent` event is called. If the transaction is committed, the object becomes detached, which will emit the :meth:`.SessionEvents.deleted_to_detached` event. Note that while the :meth:`.Session.delete` method is the primary public interface to mark an object as deleted, many objects get deleted due to cascade rules, which are not always determined until flush time. Therefore, there's no way to catch every object that will be deleted until the flush has proceeded. the :meth:`.SessionEvents.persistent_to_deleted` event is therefore invoked at the end of a flush. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def deleted_to_persistent(self, session: Session, instance: _O) -> None: """Intercept the "deleted to persistent" transition for a specific object. This transition occurs only when an object that's been deleted successfully in a flush is restored due to a call to :meth:`.Session.rollback`. The event is not called under any other circumstances. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def deleted_to_detached(self, session: Session, instance: _O) -> None: """Intercept the "deleted to detached" transition for a specific object. This event is invoked when a deleted object is evicted from the session. The typical case when this occurs is when the transaction for a :class:`.Session` in which the object was deleted is committed; the object moves from the deleted state to the detached state. It is also invoked for objects that were deleted in a flush when the :meth:`.Session.expunge_all` or :meth:`.Session.close` events are called, as well as if the object is individually expunged from its deleted state via :meth:`.Session.expunge`. .. seealso:: :ref:`session_lifecycle_events` """ @_lifecycle_event def persistent_to_detached(self, session: Session, instance: _O) -> None: """Intercept the "persistent to detached" transition for a specific object. This event is invoked when a persistent object is evicted from the session. There are many conditions that cause this to happen, including: * using a method such as :meth:`.Session.expunge` or :meth:`.Session.close` * Calling the :meth:`.Session.rollback` method, when the object was part of an INSERT statement for that session's transaction :param session: target :class:`.Session` :param instance: the ORM-mapped instance being operated upon. :param deleted: boolean. If True, indicates this object moved to the detached state because it was marked as deleted and flushed. .. seealso:: :ref:`session_lifecycle_events` """ class AttributeEvents(event.Events[QueryableAttribute[Any]]): r"""Define events for object attributes. These are typically defined on the class-bound descriptor for the target class. For example, to register a listener that will receive the :meth:`_orm.AttributeEvents.append` event:: from sqlalchemy import event @event.listens_for(MyClass.collection, 'append', propagate=True) def my_append_listener(target, value, initiator): print("received append event for target: %s" % target) Listeners have the option to return a possibly modified version of the value, when the :paramref:`.AttributeEvents.retval` flag is passed to :func:`.event.listen` or :func:`.event.listens_for`, such as below, illustrated using the :meth:`_orm.AttributeEvents.set` event:: def validate_phone(target, value, oldvalue, initiator): "Strip non-numeric characters from a phone number" return re.sub(r'\D', '', value) # setup listener on UserContact.phone attribute, instructing # it to use the return value listen(UserContact.phone, 'set', validate_phone, retval=True) A validation function like the above can also raise an exception such as :exc:`ValueError` to halt the operation. The :paramref:`.AttributeEvents.propagate` flag is also important when applying listeners to mapped classes that also have mapped subclasses, as when using mapper inheritance patterns:: @event.listens_for(MySuperClass.attr, 'set', propagate=True) def receive_set(target, value, initiator): print("value set: %s" % target) The full list of modifiers available to the :func:`.event.listen` and :func:`.event.listens_for` functions are below. :param active_history=False: When True, indicates that the "set" event would like to receive the "old" value being replaced unconditionally, even if this requires firing off database loads. Note that ``active_history`` can also be set directly via :func:`.column_property` and :func:`_orm.relationship`. :param propagate=False: When True, the listener function will be established not just for the class attribute given, but for attributes of the same name on all current subclasses of that class, as well as all future subclasses of that class, using an additional listener that listens for instrumentation events. :param raw=False: When True, the "target" argument to the event will be the :class:`.InstanceState` management object, rather than the mapped instance itself. :param retval=False: when True, the user-defined event listening must return the "value" argument from the function. This gives the listening function the opportunity to change the value that is ultimately used for a "set" or "append" event. """ _target_class_doc = "SomeClass.some_attribute" _dispatch_target = QueryableAttribute @staticmethod def _set_dispatch( cls: Type[_HasEventsDispatch[Any]], dispatch_cls: Type[_Dispatch[Any]] ) -> _Dispatch[Any]: dispatch = event.Events._set_dispatch(cls, dispatch_cls) dispatch_cls._active_history = False return dispatch @classmethod def _accept_with( cls, target: Union[QueryableAttribute[Any], Type[QueryableAttribute[Any]]], identifier: str, ) -> Union[QueryableAttribute[Any], Type[QueryableAttribute[Any]]]: # TODO: coverage if isinstance(target, interfaces.MapperProperty): return getattr(target.parent.class_, target.key) else: return target @classmethod def _listen( # type: ignore [override] cls, event_key: _EventKey[QueryableAttribute[Any]], active_history: bool = False, raw: bool = False, retval: bool = False, propagate: bool = False, include_key: bool = False, ) -> None: target, fn = event_key.dispatch_target, event_key._listen_fn if active_history: target.dispatch._active_history = True if not raw or not retval or not include_key: def wrap(target: InstanceState[_O], *arg: Any, **kw: Any) -> Any: if not raw: target = target.obj() # type: ignore [assignment] if not retval: if arg: value = arg[0] else: value = None if include_key: fn(target, *arg, **kw) else: fn(target, *arg) return value else: if include_key: return fn(target, *arg, **kw) else: return fn(target, *arg) event_key = event_key.with_wrapper(wrap) event_key.base_listen(propagate=propagate) if propagate: manager = instrumentation.manager_of_class(target.class_) for mgr in manager.subclass_managers(True): # type: ignore [no-untyped-call] # noqa: E501 event_key.with_dispatch_target(mgr[target.key]).base_listen( propagate=True ) if active_history: mgr[target.key].dispatch._active_history = True def append( self, target: _O, value: _T, initiator: Event, *, key: EventConstants = NO_KEY, ) -> Optional[_T]: """Receive a collection append event. The append event is invoked for each element as it is appended to the collection. This occurs for single-item appends as well as for a "bulk replace" operation. :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: the value being appended. If this listener is registered with ``retval=True``, the listener function must return this value, or a new value which replaces it. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. May be modified from its original value by backref handlers in order to control chained event propagation, as well as be inspected for information about the source of the event. :param key: When the event is established using the :paramref:`.AttributeEvents.include_key` parameter set to True, this will be the key used in the operation, such as ``collection[some_key_or_index] = value``. The parameter is not passed to the event at all if the the :paramref:`.AttributeEvents.include_key` was not used to set up the event; this is to allow backwards compatibility with existing event handlers that don't include the ``key`` parameter. .. versionadded:: 2.0 :return: if the event was registered with ``retval=True``, the given value, or a new effective value, should be returned. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. :meth:`.AttributeEvents.bulk_replace` """ def append_wo_mutation( self, target: _O, value: _T, initiator: Event, *, key: EventConstants = NO_KEY, ) -> None: """Receive a collection append event where the collection was not actually mutated. This event differs from :meth:`_orm.AttributeEvents.append` in that it is fired off for de-duplicating collections such as sets and dictionaries, when the object already exists in the target collection. The event does not have a return value and the identity of the given object cannot be changed. The event is used for cascading objects into a :class:`_orm.Session` when the collection has already been mutated via a backref event. :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: the value that would be appended if the object did not already exist in the collection. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. May be modified from its original value by backref handlers in order to control chained event propagation, as well as be inspected for information about the source of the event. :param key: When the event is established using the :paramref:`.AttributeEvents.include_key` parameter set to True, this will be the key used in the operation, such as ``collection[some_key_or_index] = value``. The parameter is not passed to the event at all if the the :paramref:`.AttributeEvents.include_key` was not used to set up the event; this is to allow backwards compatibility with existing event handlers that don't include the ``key`` parameter. .. versionadded:: 2.0 :return: No return value is defined for this event. .. versionadded:: 1.4.15 """ def bulk_replace( self, target: _O, values: Iterable[_T], initiator: Event, *, keys: Optional[Iterable[EventConstants]] = None, ) -> None: """Receive a collection 'bulk replace' event. This event is invoked for a sequence of values as they are incoming to a bulk collection set operation, which can be modified in place before the values are treated as ORM objects. This is an "early hook" that runs before the bulk replace routine attempts to reconcile which objects are already present in the collection and which are being removed by the net replace operation. It is typical that this method be combined with use of the :meth:`.AttributeEvents.append` event. When using both of these events, note that a bulk replace operation will invoke the :meth:`.AttributeEvents.append` event for all new items, even after :meth:`.AttributeEvents.bulk_replace` has been invoked for the collection as a whole. In order to determine if an :meth:`.AttributeEvents.append` event is part of a bulk replace, use the symbol :attr:`~.attributes.OP_BULK_REPLACE` to test the incoming initiator:: from sqlalchemy.orm.attributes import OP_BULK_REPLACE @event.listens_for(SomeObject.collection, "bulk_replace") def process_collection(target, values, initiator): values[:] = [_make_value(value) for value in values] @event.listens_for(SomeObject.collection, "append", retval=True) def process_collection(target, value, initiator): # make sure bulk_replace didn't already do it if initiator is None or initiator.op is not OP_BULK_REPLACE: return _make_value(value) else: return value .. versionadded:: 1.2 :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: a sequence (e.g. a list) of the values being set. The handler can modify this list in place. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. :param keys: When the event is established using the :paramref:`.AttributeEvents.include_key` parameter set to True, this will be the sequence of keys used in the operation, typically only for a dictionary update. The parameter is not passed to the event at all if the the :paramref:`.AttributeEvents.include_key` was not used to set up the event; this is to allow backwards compatibility with existing event handlers that don't include the ``key`` parameter. .. versionadded:: 2.0 .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. """ def remove( self, target: _O, value: _T, initiator: Event, *, key: EventConstants = NO_KEY, ) -> None: """Receive a collection remove event. :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: the value being removed. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. May be modified from its original value by backref handlers in order to control chained event propagation. :param key: When the event is established using the :paramref:`.AttributeEvents.include_key` parameter set to True, this will be the key used in the operation, such as ``del collection[some_key_or_index]``. The parameter is not passed to the event at all if the the :paramref:`.AttributeEvents.include_key` was not used to set up the event; this is to allow backwards compatibility with existing event handlers that don't include the ``key`` parameter. .. versionadded:: 2.0 :return: No return value is defined for this event. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. """ def set( self, target: _O, value: _T, oldvalue: _T, initiator: Event ) -> None: """Receive a scalar set event. :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: the value being set. If this listener is registered with ``retval=True``, the listener function must return this value, or a new value which replaces it. :param oldvalue: the previous value being replaced. This may also be the symbol ``NEVER_SET`` or ``NO_VALUE``. If the listener is registered with ``active_history=True``, the previous value of the attribute will be loaded from the database if the existing value is currently unloaded or expired. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. May be modified from its original value by backref handlers in order to control chained event propagation. :return: if the event was registered with ``retval=True``, the given value, or a new effective value, should be returned. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. """ def init_scalar( self, target: _O, value: _T, dict_: Dict[Any, Any] ) -> None: r"""Receive a scalar "init" event. This event is invoked when an uninitialized, unpersisted scalar attribute is accessed, e.g. read:: x = my_object.some_attribute The ORM's default behavior when this occurs for an un-initialized attribute is to return the value ``None``; note this differs from Python's usual behavior of raising ``AttributeError``. The event here can be used to customize what value is actually returned, with the assumption that the event listener would be mirroring a default generator that is configured on the Core :class:`_schema.Column` object as well. Since a default generator on a :class:`_schema.Column` might also produce a changing value such as a timestamp, the :meth:`.AttributeEvents.init_scalar` event handler can also be used to **set** the newly returned value, so that a Core-level default generation function effectively fires off only once, but at the moment the attribute is accessed on the non-persisted object. Normally, no change to the object's state is made when an uninitialized attribute is accessed (much older SQLAlchemy versions did in fact change the object's state). If a default generator on a column returned a particular constant, a handler might be used as follows:: SOME_CONSTANT = 3.1415926 class MyClass(Base): # ... some_attribute = Column(Numeric, default=SOME_CONSTANT) @event.listens_for( MyClass.some_attribute, "init_scalar", retval=True, propagate=True) def _init_some_attribute(target, dict_, value): dict_['some_attribute'] = SOME_CONSTANT return SOME_CONSTANT Above, we initialize the attribute ``MyClass.some_attribute`` to the value of ``SOME_CONSTANT``. The above code includes the following features: * By setting the value ``SOME_CONSTANT`` in the given ``dict_``, we indicate that this value is to be persisted to the database. This supersedes the use of ``SOME_CONSTANT`` in the default generator for the :class:`_schema.Column`. The ``active_column_defaults.py`` example given at :ref:`examples_instrumentation` illustrates using the same approach for a changing default, e.g. a timestamp generator. In this particular example, it is not strictly necessary to do this since ``SOME_CONSTANT`` would be part of the INSERT statement in either case. * By establishing the ``retval=True`` flag, the value we return from the function will be returned by the attribute getter. Without this flag, the event is assumed to be a passive observer and the return value of our function is ignored. * The ``propagate=True`` flag is significant if the mapped class includes inheriting subclasses, which would also make use of this event listener. Without this flag, an inheriting subclass will not use our event handler. In the above example, the attribute set event :meth:`.AttributeEvents.set` as well as the related validation feature provided by :obj:`_orm.validates` is **not** invoked when we apply our value to the given ``dict_``. To have these events to invoke in response to our newly generated value, apply the value to the given object as a normal attribute set operation:: SOME_CONSTANT = 3.1415926 @event.listens_for( MyClass.some_attribute, "init_scalar", retval=True, propagate=True) def _init_some_attribute(target, dict_, value): # will also fire off attribute set events target.some_attribute = SOME_CONSTANT return SOME_CONSTANT When multiple listeners are set up, the generation of the value is "chained" from one listener to the next by passing the value returned by the previous listener that specifies ``retval=True`` as the ``value`` argument of the next listener. :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param value: the value that is to be returned before this event listener were invoked. This value begins as the value ``None``, however will be the return value of the previous event handler function if multiple listeners are present. :param dict\_: the attribute dictionary of this mapped object. This is normally the ``__dict__`` of the object, but in all cases represents the destination that the attribute system uses to get at the actual value of this attribute. Placing the value in this dictionary has the effect that the value will be used in the INSERT statement generated by the unit of work. .. seealso:: :meth:`.AttributeEvents.init_collection` - collection version of this event :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. :ref:`examples_instrumentation` - see the ``active_column_defaults.py`` example. """ def init_collection( self, target: _O, collection: Type[Collection[Any]], collection_adapter: CollectionAdapter, ) -> None: """Receive a 'collection init' event. This event is triggered for a collection-based attribute, when the initial "empty collection" is first generated for a blank attribute, as well as for when the collection is replaced with a new one, such as via a set event. E.g., given that ``User.addresses`` is a relationship-based collection, the event is triggered here:: u1 = User() u1.addresses.append(a1) # <- new collection and also during replace operations:: u1.addresses = [a2, a3] # <- new collection :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param collection: the new collection. This will always be generated from what was specified as :paramref:`_orm.relationship.collection_class`, and will always be empty. :param collection_adapter: the :class:`.CollectionAdapter` that will mediate internal access to the collection. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. :meth:`.AttributeEvents.init_scalar` - "scalar" version of this event. """ def dispose_collection( self, target: _O, collection: Collection[Any], collection_adapter: CollectionAdapter, ) -> None: """Receive a 'collection dispose' event. This event is triggered for a collection-based attribute when a collection is replaced, that is:: u1.addresses.append(a1) u1.addresses = [a2, a3] # <- old collection is disposed The old collection received will contain its previous contents. .. versionchanged:: 1.2 The collection passed to :meth:`.AttributeEvents.dispose_collection` will now have its contents before the dispose intact; previously, the collection would be empty. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. """ def modified(self, target: _O, initiator: Event) -> None: """Receive a 'modified' event. This event is triggered when the :func:`.attributes.flag_modified` function is used to trigger a modify event on an attribute without any specific value being set. .. versionadded:: 1.2 :param target: the object instance receiving the event. If the listener is registered with ``raw=True``, this will be the :class:`.InstanceState` object. :param initiator: An instance of :class:`.attributes.Event` representing the initiation of the event. .. seealso:: :class:`.AttributeEvents` - background on listener options such as propagation to subclasses. """ class QueryEvents(event.Events[Query[Any]]): """Represent events within the construction of a :class:`_query.Query` object. .. legacy:: The :class:`_orm.QueryEvents` event methods are legacy as of SQLAlchemy 2.0, and only apply to direct use of the :class:`_orm.Query` object. They are not used for :term:`2.0 style` statements. For events to intercept and modify 2.0 style ORM use, use the :meth:`_orm.SessionEvents.do_orm_execute` hook. The :class:`_orm.QueryEvents` hooks are now superseded by the :meth:`_orm.SessionEvents.do_orm_execute` event hook. """ _target_class_doc = "SomeQuery" _dispatch_target = Query def before_compile(self, query: Query[Any]) -> None: """Receive the :class:`_query.Query` object before it is composed into a core :class:`_expression.Select` object. .. deprecated:: 1.4 The :meth:`_orm.QueryEvents.before_compile` event is superseded by the much more capable :meth:`_orm.SessionEvents.do_orm_execute` hook. In version 1.4, the :meth:`_orm.QueryEvents.before_compile` event is **no longer used** for ORM-level attribute loads, such as loads of deferred or expired attributes as well as relationship loaders. See the new examples in :ref:`examples_session_orm_events` which illustrate new ways of intercepting and modifying ORM queries for the most common purpose of adding arbitrary filter criteria. This event is intended to allow changes to the query given:: @event.listens_for(Query, "before_compile", retval=True) def no_deleted(query): for desc in query.column_descriptions: if desc['type'] is User: entity = desc['entity'] query = query.filter(entity.deleted == False) return query The event should normally be listened with the ``retval=True`` parameter set, so that the modified query may be returned. The :meth:`.QueryEvents.before_compile` event by default will disallow "baked" queries from caching a query, if the event hook returns a new :class:`_query.Query` object. This affects both direct use of the baked query extension as well as its operation within lazy loaders and eager loaders for relationships. In order to re-establish the query being cached, apply the event adding the ``bake_ok`` flag:: @event.listens_for( Query, "before_compile", retval=True, bake_ok=True) def my_event(query): for desc in query.column_descriptions: if desc['type'] is User: entity = desc['entity'] query = query.filter(entity.deleted == False) return query When ``bake_ok`` is set to True, the event hook will only be invoked once, and not called for subsequent invocations of a particular query that is being cached. .. versionadded:: 1.3.11 - added the "bake_ok" flag to the :meth:`.QueryEvents.before_compile` event and disallowed caching via the "baked" extension from occurring for event handlers that return a new :class:`_query.Query` object if this flag is not set. .. seealso:: :meth:`.QueryEvents.before_compile_update` :meth:`.QueryEvents.before_compile_delete` :ref:`baked_with_before_compile` """ def before_compile_update( self, query: Query[Any], update_context: BulkUpdate ) -> None: """Allow modifications to the :class:`_query.Query` object within :meth:`_query.Query.update`. .. deprecated:: 1.4 The :meth:`_orm.QueryEvents.before_compile_update` event is superseded by the much more capable :meth:`_orm.SessionEvents.do_orm_execute` hook. Like the :meth:`.QueryEvents.before_compile` event, if the event is to be used to alter the :class:`_query.Query` object, it should be configured with ``retval=True``, and the modified :class:`_query.Query` object returned, as in :: @event.listens_for(Query, "before_compile_update", retval=True) def no_deleted(query, update_context): for desc in query.column_descriptions: if desc['type'] is User: entity = desc['entity'] query = query.filter(entity.deleted == False) update_context.values['timestamp'] = datetime.utcnow() return query The ``.values`` dictionary of the "update context" object can also be modified in place as illustrated above. :param query: a :class:`_query.Query` instance; this is also the ``.query`` attribute of the given "update context" object. :param update_context: an "update context" object which is the same kind of object as described in :paramref:`.QueryEvents.after_bulk_update.update_context`. The object has a ``.values`` attribute in an UPDATE context which is the dictionary of parameters passed to :meth:`_query.Query.update`. This dictionary can be modified to alter the VALUES clause of the resulting UPDATE statement. .. versionadded:: 1.2.17 .. seealso:: :meth:`.QueryEvents.before_compile` :meth:`.QueryEvents.before_compile_delete` """ def before_compile_delete( self, query: Query[Any], delete_context: BulkDelete ) -> None: """Allow modifications to the :class:`_query.Query` object within :meth:`_query.Query.delete`. .. deprecated:: 1.4 The :meth:`_orm.QueryEvents.before_compile_delete` event is superseded by the much more capable :meth:`_orm.SessionEvents.do_orm_execute` hook. Like the :meth:`.QueryEvents.before_compile` event, this event should be configured with ``retval=True``, and the modified :class:`_query.Query` object returned, as in :: @event.listens_for(Query, "before_compile_delete", retval=True) def no_deleted(query, delete_context): for desc in query.column_descriptions: if desc['type'] is User: entity = desc['entity'] query = query.filter(entity.deleted == False) return query :param query: a :class:`_query.Query` instance; this is also the ``.query`` attribute of the given "delete context" object. :param delete_context: a "delete context" object which is the same kind of object as described in :paramref:`.QueryEvents.after_bulk_delete.delete_context`. .. versionadded:: 1.2.17 .. seealso:: :meth:`.QueryEvents.before_compile` :meth:`.QueryEvents.before_compile_update` """ @classmethod def _listen( cls, event_key: _EventKey[_ET], retval: bool = False, bake_ok: bool = False, **kw: Any, ) -> None: fn = event_key._listen_fn if not retval: def wrap(*arg: Any, **kw: Any) -> Any: if not retval: query = arg[0] fn(*arg, **kw) return query else: return fn(*arg, **kw) event_key = event_key.with_wrapper(wrap) else: # don't assume we can apply an attribute to the callable def wrap(*arg: Any, **kw: Any) -> Any: return fn(*arg, **kw) event_key = event_key.with_wrapper(wrap) wrap._bake_ok = bake_ok # type: ignore [attr-defined] event_key.base_listen(**kw)