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calibre-web/lib/sqlalchemy/orm/state.py

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# orm/state.py
# Copyright (C) 2005-2013 the SQLAlchemy authors and contributors <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
"""Defines instrumentation of instances.
This module is usually not directly visible to user applications, but
defines a large part of the ORM's interactivity.
"""
import weakref
from .. import util
from . import exc as orm_exc, attributes, util as orm_util, interfaces
from .attributes import (
PASSIVE_NO_RESULT,
SQL_OK, NEVER_SET, ATTR_WAS_SET, NO_VALUE,\
PASSIVE_NO_INITIALIZE
)
sessionlib = util.importlater("sqlalchemy.orm", "session")
instrumentation = util.importlater("sqlalchemy.orm", "instrumentation")
mapperlib = util.importlater("sqlalchemy.orm", "mapperlib")
class InstanceState(interfaces._InspectionAttr):
"""tracks state information at the instance level."""
session_id = None
key = None
runid = None
load_options = util.EMPTY_SET
load_path = ()
insert_order = None
_strong_obj = None
modified = False
expired = False
deleted = False
_load_pending = False
is_instance = True
def __init__(self, obj, manager):
self.class_ = obj.__class__
self.manager = manager
self.obj = weakref.ref(obj, self._cleanup)
self.callables = {}
self.committed_state = {}
@util.memoized_property
def attrs(self):
"""Return a namespace representing each attribute on
the mapped object, including its current value
and history.
The returned object is an instance of :class:`.AttributeState`.
"""
return util.ImmutableProperties(
dict(
(key, AttributeState(self, key))
for key in self.manager
)
)
@property
def transient(self):
"""Return true if the object is transient."""
return self.key is None and \
not self._attached
@property
def pending(self):
"""Return true if the object is pending."""
return self.key is None and \
self._attached
@property
def persistent(self):
"""Return true if the object is persistent."""
return self.key is not None and \
self._attached
@property
def detached(self):
"""Return true if the object is detached."""
return self.key is not None and \
not self._attached
@property
def _attached(self):
return self.session_id is not None and \
self.session_id in sessionlib._sessions
@property
def session(self):
"""Return the owning :class:`.Session` for this instance,
or ``None`` if none available."""
return sessionlib._state_session(self)
@property
def object(self):
"""Return the mapped object represented by this
:class:`.InstanceState`."""
return self.obj()
@property
def identity(self):
"""Return the mapped identity of the mapped object.
This is the primary key identity as persisted by the ORM
which can always be passed directly to
:meth:`.Query.get`.
Returns ``None`` if the object has no primary key identity.
.. note::
An object which is transient or pending
does **not** have a mapped identity until it is flushed,
even if its attributes include primary key values.
"""
if self.key is None:
return None
else:
return self.key[1]
@property
def identity_key(self):
"""Return the identity key for the mapped object.
This is the key used to locate the object within
the :attr:`.Session.identity_map` mapping. It contains
the identity as returned by :attr:`.identity` within it.
"""
# TODO: just change .key to .identity_key across
# the board ? probably
return self.key
@util.memoized_property
def parents(self):
return {}
@util.memoized_property
def _pending_mutations(self):
return {}
@util.memoized_property
def mapper(self):
"""Return the :class:`.Mapper` used for this mapepd object."""
return self.manager.mapper
@property
def has_identity(self):
"""Return ``True`` if this object has an identity key.
This should always have the same value as the
expression ``state.persistent or state.detached``.
"""
return bool(self.key)
def _detach(self):
self.session_id = self._strong_obj = None
def _dispose(self):
self._detach()
del self.obj
def _cleanup(self, ref):
instance_dict = self._instance_dict()
if instance_dict:
instance_dict.discard(self)
self.callables = {}
self.session_id = self._strong_obj = None
del self.obj
def obj(self):
return None
@property
def dict(self):
o = self.obj()
if o is not None:
return attributes.instance_dict(o)
else:
return {}
def _initialize_instance(*mixed, **kwargs):
self, instance, args = mixed[0], mixed[1], mixed[2:]
manager = self.manager
manager.dispatch.init(self, args, kwargs)
try:
return manager.original_init(*mixed[1:], **kwargs)
except:
manager.dispatch.init_failure(self, args, kwargs)
raise
def get_history(self, key, passive):
return self.manager[key].impl.get_history(self, self.dict, passive)
def get_impl(self, key):
return self.manager[key].impl
def _get_pending_mutation(self, key):
if key not in self._pending_mutations:
self._pending_mutations[key] = PendingCollection()
return self._pending_mutations[key]
def __getstate__(self):
d = {'instance': self.obj()}
d.update(
(k, self.__dict__[k]) for k in (
'committed_state', '_pending_mutations', 'modified', 'expired',
'callables', 'key', 'parents', 'load_options',
'class_',
) if k in self.__dict__
)
if self.load_path:
d['load_path'] = self.load_path.serialize()
self.manager.dispatch.pickle(self, d)
return d
def __setstate__(self, state):
inst = state['instance']
if inst is not None:
self.obj = weakref.ref(inst, self._cleanup)
self.class_ = inst.__class__
else:
# None being possible here generally new as of 0.7.4
# due to storage of state in "parents". "class_"
# also new.
self.obj = None
self.class_ = state['class_']
self.manager = manager = instrumentation.manager_of_class(self.class_)
if manager is None:
raise orm_exc.UnmappedInstanceError(
inst,
"Cannot deserialize object of type %r - "
"no mapper() has "
"been configured for this class within the current "
"Python process!" %
self.class_)
elif manager.is_mapped and not manager.mapper.configured:
mapperlib.configure_mappers()
self.committed_state = state.get('committed_state', {})
self._pending_mutations = state.get('_pending_mutations', {})
self.parents = state.get('parents', {})
self.modified = state.get('modified', False)
self.expired = state.get('expired', False)
self.callables = state.get('callables', {})
self.__dict__.update([
(k, state[k]) for k in (
'key', 'load_options',
) if k in state
])
if 'load_path' in state:
self.load_path = orm_util.PathRegistry.\
deserialize(state['load_path'])
# setup _sa_instance_state ahead of time so that
# unpickle events can access the object normally.
# see [ticket:2362]
if inst is not None:
manager.setup_instance(inst, self)
manager.dispatch.unpickle(self, state)
def _initialize(self, key):
"""Set this attribute to an empty value or collection,
based on the AttributeImpl in use."""
self.manager.get_impl(key).initialize(self, self.dict)
def _reset(self, dict_, key):
"""Remove the given attribute and any
callables associated with it."""
old = dict_.pop(key, None)
if old is not None and self.manager[key].impl.collection:
self.manager[key].impl._invalidate_collection(old)
self.callables.pop(key, None)
def _expire_attribute_pre_commit(self, dict_, key):
"""a fast expire that can be called by column loaders during a load.
The additional bookkeeping is finished up in commit_all().
Should only be called for scalar attributes.
This method is actually called a lot with joined-table
loading, when the second table isn't present in the result.
"""
dict_.pop(key, None)
self.callables[key] = self
@classmethod
def _row_processor(cls, manager, fn, key):
impl = manager[key].impl
if impl.collection:
def _set_callable(state, dict_, row):
old = dict_.pop(key, None)
if old is not None:
impl._invalidate_collection(old)
state.callables[key] = fn
else:
def _set_callable(state, dict_, row):
state.callables[key] = fn
return _set_callable
def _expire(self, dict_, modified_set):
self.expired = True
if self.modified:
modified_set.discard(self)
self.modified = False
self._strong_obj = None
self.committed_state.clear()
InstanceState._pending_mutations._reset(self)
# clear out 'parents' collection. not
# entirely clear how we can best determine
# which to remove, or not.
InstanceState.parents._reset(self)
for key in self.manager:
impl = self.manager[key].impl
if impl.accepts_scalar_loader and \
(impl.expire_missing or key in dict_):
self.callables[key] = self
old = dict_.pop(key, None)
if impl.collection and old is not None:
impl._invalidate_collection(old)
self.manager.dispatch.expire(self, None)
def _expire_attributes(self, dict_, attribute_names):
pending = self.__dict__.get('_pending_mutations', None)
for key in attribute_names:
impl = self.manager[key].impl
if impl.accepts_scalar_loader:
self.callables[key] = self
old = dict_.pop(key, None)
if impl.collection and old is not None:
impl._invalidate_collection(old)
self.committed_state.pop(key, None)
if pending:
pending.pop(key, None)
self.manager.dispatch.expire(self, attribute_names)
def __call__(self, state, passive):
"""__call__ allows the InstanceState to act as a deferred
callable for loading expired attributes, which is also
serializable (picklable).
"""
if not passive & SQL_OK:
return PASSIVE_NO_RESULT
toload = self.expired_attributes.\
intersection(self.unmodified)
self.manager.deferred_scalar_loader(self, toload)
# if the loader failed, or this
# instance state didn't have an identity,
# the attributes still might be in the callables
# dict. ensure they are removed.
for k in toload.intersection(self.callables):
del self.callables[k]
return ATTR_WAS_SET
@property
def unmodified(self):
"""Return the set of keys which have no uncommitted changes"""
return set(self.manager).difference(self.committed_state)
def unmodified_intersection(self, keys):
"""Return self.unmodified.intersection(keys)."""
return set(keys).intersection(self.manager).\
difference(self.committed_state)
@property
def unloaded(self):
"""Return the set of keys which do not have a loaded value.
This includes expired attributes and any other attribute that
was never populated or modified.
"""
return set(self.manager).\
difference(self.committed_state).\
difference(self.dict)
@property
def expired_attributes(self):
"""Return the set of keys which are 'expired' to be loaded by
the manager's deferred scalar loader, assuming no pending
changes.
see also the ``unmodified`` collection which is intersected
against this set when a refresh operation occurs.
"""
return set([k for k, v in self.callables.items() if v is self])
def _instance_dict(self):
return None
def _modified_event(self, dict_, attr, previous, collection=False):
if attr.key not in self.committed_state:
if collection:
if previous is NEVER_SET:
if attr.key in dict_:
previous = dict_[attr.key]
if previous not in (None, NO_VALUE, NEVER_SET):
previous = attr.copy(previous)
self.committed_state[attr.key] = previous
# assert self._strong_obj is None or self.modified
if (self.session_id and self._strong_obj is None) \
or not self.modified:
instance_dict = self._instance_dict()
if instance_dict:
instance_dict._modified.add(self)
# only create _strong_obj link if attached
# to a session
inst = self.obj()
if self.session_id:
self._strong_obj = inst
if inst is None:
raise orm_exc.ObjectDereferencedError(
"Can't emit change event for attribute '%s' - "
"parent object of type %s has been garbage "
"collected."
% (
self.manager[attr.key],
orm_util.state_class_str(self)
))
self.modified = True
def _commit(self, dict_, keys):
"""Commit attributes.
This is used by a partial-attribute load operation to mark committed
those attributes which were refreshed from the database.
Attributes marked as "expired" can potentially remain "expired" after
this step if a value was not populated in state.dict.
"""
for key in keys:
self.committed_state.pop(key, None)
self.expired = False
for key in set(self.callables).\
intersection(keys).\
intersection(dict_):
del self.callables[key]
def _commit_all(self, dict_, instance_dict=None):
"""commit all attributes unconditionally.
This is used after a flush() or a full load/refresh
to remove all pending state from the instance.
- all attributes are marked as "committed"
- the "strong dirty reference" is removed
- the "modified" flag is set to False
- any "expired" markers/callables for attributes loaded are removed.
Attributes marked as "expired" can potentially remain
"expired" after this step if a value was not populated in state.dict.
"""
self._commit_all_states([(self, dict_)], instance_dict)
@classmethod
def _commit_all_states(self, iter, instance_dict=None):
"""Mass version of commit_all()."""
for state, dict_ in iter:
state.committed_state.clear()
InstanceState._pending_mutations._reset(state)
callables = state.callables
for key in list(callables):
if key in dict_ and callables[key] is state:
del callables[key]
if instance_dict and state.modified:
instance_dict._modified.discard(state)
state.modified = state.expired = False
state._strong_obj = None
class AttributeState(object):
"""Provide an inspection interface corresponding
to a particular attribute on a particular mapped object.
The :class:`.AttributeState` object is accessed
via the :attr:`.InstanceState.attrs` collection
of a particular :class:`.InstanceState`::
from sqlalchemy import inspect
insp = inspect(some_mapped_object)
attr_state = insp.attrs.some_attribute
"""
def __init__(self, state, key):
self.state = state
self.key = key
@property
def loaded_value(self):
"""The current value of this attribute as loaded from the database.
If the value has not been loaded, or is otherwise not present
in the object's dictionary, returns NO_VALUE.
"""
return self.state.dict.get(self.key, NO_VALUE)
@property
def value(self):
"""Return the value of this attribute.
This operation is equivalent to accessing the object's
attribute directly or via ``getattr()``, and will fire
off any pending loader callables if needed.
"""
return self.state.manager[self.key].__get__(
self.state.obj(), self.state.class_)
@property
def history(self):
"""Return the current pre-flush change history for
this attribute, via the :class:`.History` interface.
"""
return self.state.get_history(self.key,
PASSIVE_NO_INITIALIZE)
class PendingCollection(object):
"""A writable placeholder for an unloaded collection.
Stores items appended to and removed from a collection that has not yet
been loaded. When the collection is loaded, the changes stored in
PendingCollection are applied to it to produce the final result.
"""
def __init__(self):
self.deleted_items = util.IdentitySet()
self.added_items = util.OrderedIdentitySet()
def append(self, value):
if value in self.deleted_items:
self.deleted_items.remove(value)
else:
self.added_items.add(value)
def remove(self, value):
if value in self.added_items:
self.added_items.remove(value)
else:
self.deleted_items.add(value)