I took a stab at answering this. My solution should work with SQLAlchemy>=0.8.
In effect nothing surprising is going on here, yet proper care has to be applied when using such patterns, as the state of the
Sessions identity-map will not reflect the state of the DB all the time.
I used the
post_update switch in the
relationship to break the cyclical dependency which arises from this setup. For more information have a look at the SQLAlchemy documentation about this.
Warning: The fact that the
Session does not always reflect the state of the DB may be a cause for nasty bugs and other confusions. In this example I use
expire_all to show the real state of the DB, yet this is not a good solution because it reloads all objects and all un-
flushed changes are lost. Use
expire_all with great care!
First we define the model
import sqlalchemy as sa
import sqlalchemy.orm as orm
from sqlalchemy.ext.declarative import declarative_base
engine = sa.create_engine('sqlite:///blah.db')
Base = declarative_base()
Base.bind = engine
__table__ = sa.Table(
sa.Column('id', sa.Integer, primary_key=True),
sa.Column('parent_id', sa.Integer, sa.ForeignKey('objs.id')),
# I used the remote() annotation function to make the whole thing more
# explicit and readable.
children = orm.relationship(
orm.remote(__table__.c.parent_id) == __table__.c.id,
orm.remote(__table__.c.deleted) == False,
# This breaks the cyclical dependency which arises from my setup.
# For more information see: http://stackoverflow.com/a/18284518/15274
return "<Obj id=%d children=%d>" % (self.id, len(self.children))
Then we try it out
session = orm.sessionmaker(bind=engine)
db = session()
p1 = Obj()
p2 = Obj()
p2.deleted = True
# prints <Obj id=1 children=1>
# This means the object is in the `children` collection, even though
# it is deleted. If you want to prevent this you may want to use
# custom collection classes (not for novices!).
# We let SQLalchemy forget everything and fetch the state from the DB.
p3 = db.query(Obj).first()
# prints <Obj id=1 children=0>
# This indicates that the children which is still linked is not
# loaded into the relationship, which is what we wanted.
if __name__ == '__main__':