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sqlalchemy/test/orm/test_expire.py
T
Mike Bayer 20cdc64588 trying different approaches to test layout. in this one, the testing modules 
become an externally usable package but still remains within the main sqlalchemy parent package.
in this system, we use kind of an ugly hack to get the noseplugin imported outside of the
"sqlalchemy" package, while still making it available within sqlalchemy for usage by
third party libraries.
2012-09-27 02:37:33 -04:00

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"""Attribute/instance expiration, deferral of attributes, etc."""
from sqlalchemy.testing import eq_, assert_raises, assert_raises_message
from sqlalchemy.testing.util import gc_collect
import sqlalchemy as sa
from sqlalchemy import testing
from sqlalchemy import Integer, String, ForeignKey, exc as sa_exc
from sqlalchemy.testing.schema import Table
from sqlalchemy.testing.schema import Column
from sqlalchemy.orm import mapper, relationship, create_session, \
attributes, deferred, exc as orm_exc, defer, undefer,\
strategies, state, lazyload, backref, Session
from sqlalchemy.testing import fixtures
from test.orm import _fixtures
class ExpireTest(_fixtures.FixtureTest):
def test_expire(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(7)
assert len(u.addresses) == 1
u.name = 'foo'
del u.addresses[0]
sess.expire(u)
assert 'name' not in u.__dict__
def go():
assert u.name == 'jack'
self.assert_sql_count(testing.db, go, 1)
assert 'name' in u.__dict__
u.name = 'foo'
sess.flush()
# change the value in the DB
users.update(users.c.id==7, values=dict(name='jack')).execute()
sess.expire(u)
# object isnt refreshed yet, using dict to bypass trigger
assert u.__dict__.get('name') != 'jack'
assert 'name' in attributes.instance_state(u).expired_attributes
sess.query(User).all()
# test that it refreshed
assert u.__dict__['name'] == 'jack'
assert 'name' not in attributes.instance_state(u).expired_attributes
def go():
assert u.name == 'jack'
self.assert_sql_count(testing.db, go, 0)
def test_persistence_check(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session()
u = s.query(User).get(7)
s.expunge_all()
assert_raises_message(sa_exc.InvalidRequestError,
r"is not persistent within this Session", s.expire, u)
def test_get_refreshes(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session(autocommit=False)
u = s.query(User).get(10)
s.expire_all()
def go():
u = s.query(User).get(10) # get() refreshes
self.assert_sql_count(testing.db, go, 1)
def go():
eq_(u.name, 'chuck') # attributes unexpired
self.assert_sql_count(testing.db, go, 0)
def go():
u = s.query(User).get(10) # expire flag reset, so not expired
self.assert_sql_count(testing.db, go, 0)
def test_get_on_deleted_expunges(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session(autocommit=False)
u = s.query(User).get(10)
s.expire_all()
s.execute(users.delete().where(User.id==10))
# object is gone, get() returns None, removes u from session
assert u in s
assert s.query(User).get(10) is None
assert u not in s # and expunges
def test_refresh_on_deleted_raises(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session(autocommit=False)
u = s.query(User).get(10)
s.expire_all()
s.expire_all()
s.execute(users.delete().where(User.id==10))
# raises ObjectDeletedError
assert_raises_message(
sa.orm.exc.ObjectDeletedError,
"Instance '<User at .*?>' has been "
"deleted, or its row is otherwise not present.",
getattr, u, 'name'
)
def test_rollback_undoes_expunge_from_deleted(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session(autocommit=False)
u = s.query(User).get(10)
s.expire_all()
s.execute(users.delete().where(User.id==10))
# do a get()/remove u from session
assert s.query(User).get(10) is None
assert u not in s
s.rollback()
assert u in s
# but now its back, rollback has occurred, the
# _remove_newly_deleted is reverted
eq_(u.name, 'chuck')
def test_deferred(self):
"""test that unloaded, deferred attributes aren't included in the
expiry list."""
Order, orders = self.classes.Order, self.tables.orders
mapper(Order, orders, properties={
'description':deferred(orders.c.description)})
s = create_session()
o1 = s.query(Order).first()
assert 'description' not in o1.__dict__
s.expire(o1)
assert o1.isopen is not None
assert 'description' not in o1.__dict__
assert o1.description
def test_deferred_notfound(self):
users, User = self.tables.users, self.classes.User
mapper(User, users, properties={
'name':deferred(users.c.name)
})
s = create_session(autocommit=False)
u = s.query(User).get(10)
assert 'name' not in u.__dict__
s.execute(users.delete().where(User.id==10))
assert_raises_message(
sa.orm.exc.ObjectDeletedError,
"Instance '<User at .*?>' has been "
"deleted, or its row is otherwise not present.",
getattr, u, 'name'
)
def test_lazyload_autoflushes(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address,
order_by=addresses.c.email_address)
})
mapper(Address, addresses)
s = create_session(autoflush=True, autocommit=False)
u = s.query(User).get(8)
adlist = u.addresses
eq_(adlist, [
Address(email_address='ed@bettyboop.com'),
Address(email_address='ed@lala.com'),
Address(email_address='ed@wood.com'),
])
a1 = u.addresses[2]
a1.email_address = 'aaaaa'
s.expire(u, ['addresses'])
eq_(u.addresses, [
Address(email_address='aaaaa'),
Address(email_address='ed@bettyboop.com'),
Address(email_address='ed@lala.com'),
])
def test_refresh_collection_exception(self):
"""test graceful failure for currently unsupported
immediate refresh of a collection"""
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, order_by=addresses.c.email_address)
})
mapper(Address, addresses)
s = create_session(autoflush=True, autocommit=False)
u = s.query(User).get(8)
assert_raises_message(sa_exc.InvalidRequestError,
"properties specified for refresh",
s.refresh, u, ['addresses'])
# in contrast to a regular query with no columns
assert_raises_message(sa_exc.InvalidRequestError,
"no columns with which to SELECT", s.query().all)
def test_refresh_cancels_expire(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session()
u = s.query(User).get(7)
s.expire(u)
s.refresh(u)
def go():
u = s.query(User).get(7)
eq_(u.name, 'jack')
self.assert_sql_count(testing.db, go, 0)
def test_expire_doesntload_on_set(self):
User, users = self.classes.User, self.tables.users
mapper(User, users)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u, attribute_names=['name'])
def go():
u.name = 'somenewname'
self.assert_sql_count(testing.db, go, 0)
sess.flush()
sess.expunge_all()
assert sess.query(User).get(7).name == 'somenewname'
def test_no_session(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u, attribute_names=['name'])
sess.expunge(u)
assert_raises(orm_exc.DetachedInstanceError, getattr, u, 'name')
def test_pending_raises(self):
users, User = self.tables.users, self.classes.User
# this was the opposite in 0.4, but the reasoning there seemed off.
# expiring a pending instance makes no sense, so should raise
mapper(User, users)
sess = create_session()
u = User(id=15)
sess.add(u)
assert_raises(sa_exc.InvalidRequestError, sess.expire, u, ['name'])
def test_no_instance_key(self):
User, users = self.classes.User, self.tables.users
# this tests an artificial condition such that
# an instance is pending, but has expired attributes. this
# is actually part of a larger behavior when postfetch needs to
# occur during a flush() on an instance that was just inserted
mapper(User, users)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u, attribute_names=['name'])
sess.expunge(u)
attributes.instance_state(u).key = None
assert 'name' not in u.__dict__
sess.add(u)
assert u.name == 'jack'
def test_no_instance_key_no_pk(self):
users, User = self.tables.users, self.classes.User
# same as test_no_instance_key, but the PK columns
# are absent. ensure an error is raised.
mapper(User, users)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u, attribute_names=['name', 'id'])
sess.expunge(u)
attributes.instance_state(u).key = None
assert 'name' not in u.__dict__
sess.add(u)
assert_raises(sa_exc.InvalidRequestError, getattr, u, 'name')
def test_expire_preserves_changes(self):
"""test that the expire load operation doesn't revert post-expire changes"""
Order, orders = self.classes.Order, self.tables.orders
mapper(Order, orders)
sess = create_session()
o = sess.query(Order).get(3)
sess.expire(o)
o.description = "order 3 modified"
def go():
assert o.isopen == 1
self.assert_sql_count(testing.db, go, 1)
assert o.description == 'order 3 modified'
del o.description
assert "description" not in o.__dict__
sess.expire(o, ['isopen'])
sess.query(Order).all()
assert o.isopen == 1
assert "description" not in o.__dict__
assert o.description is None
o.isopen=15
sess.expire(o, ['isopen', 'description'])
o.description = 'some new description'
sess.query(Order).all()
assert o.isopen == 1
assert o.description == 'some new description'
sess.expire(o, ['isopen', 'description'])
sess.query(Order).all()
del o.isopen
def go():
assert o.isopen is None
self.assert_sql_count(testing.db, go, 0)
o.isopen=14
sess.expire(o)
o.description = 'another new description'
sess.query(Order).all()
assert o.isopen == 1
assert o.description == 'another new description'
def test_expire_committed(self):
"""test that the committed state of the attribute receives the most recent DB data"""
orders, Order = self.tables.orders, self.classes.Order
mapper(Order, orders)
sess = create_session()
o = sess.query(Order).get(3)
sess.expire(o)
orders.update(id=3).execute(description='order 3 modified')
assert o.isopen == 1
assert attributes.instance_state(o).dict['description'] == 'order 3 modified'
def go():
sess.flush()
self.assert_sql_count(testing.db, go, 0)
def test_expire_cascade(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, cascade="all, refresh-expire")
})
mapper(Address, addresses)
s = create_session()
u = s.query(User).get(8)
assert u.addresses[0].email_address == 'ed@wood.com'
u.addresses[0].email_address = 'someotheraddress'
s.expire(u)
assert u.addresses[0].email_address == 'ed@wood.com'
def test_refresh_cascade(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, cascade="all, refresh-expire")
})
mapper(Address, addresses)
s = create_session()
u = s.query(User).get(8)
assert u.addresses[0].email_address == 'ed@wood.com'
u.addresses[0].email_address = 'someotheraddress'
s.refresh(u)
assert u.addresses[0].email_address == 'ed@wood.com'
def test_expire_cascade_pending_orphan(self):
cascade = 'save-update, refresh-expire, delete, delete-orphan'
self._test_cascade_to_pending(cascade, True)
def test_refresh_cascade_pending_orphan(self):
cascade = 'save-update, refresh-expire, delete, delete-orphan'
self._test_cascade_to_pending(cascade, False)
def test_expire_cascade_pending(self):
cascade = 'save-update, refresh-expire'
self._test_cascade_to_pending(cascade, True)
def test_refresh_cascade_pending(self):
cascade = 'save-update, refresh-expire'
self._test_cascade_to_pending(cascade, False)
def _test_cascade_to_pending(self, cascade, expire_or_refresh):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, cascade=cascade)
})
mapper(Address, addresses)
s = create_session()
u = s.query(User).get(8)
a = Address(id=12, email_address='foobar')
u.addresses.append(a)
if expire_or_refresh:
s.expire(u)
else:
s.refresh(u)
if "delete-orphan" in cascade:
assert a not in s
else:
assert a in s
assert a not in u.addresses
s.flush()
def test_expired_lazy(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u)
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
def go():
assert u.addresses[0].email_address == 'jack@bean.com'
assert u.name == 'jack'
# two loads
self.assert_sql_count(testing.db, go, 2)
assert 'name' in u.__dict__
assert 'addresses' in u.__dict__
def test_expired_eager(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(7)
sess.expire(u)
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
def go():
assert u.addresses[0].email_address == 'jack@bean.com'
assert u.name == 'jack'
# two loads, since relationship() + scalar are
# separate right now on per-attribute load
self.assert_sql_count(testing.db, go, 2)
assert 'name' in u.__dict__
assert 'addresses' in u.__dict__
sess.expire(u, ['name', 'addresses'])
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
def go():
sess.query(User).filter_by(id=7).one()
assert u.addresses[0].email_address == 'jack@bean.com'
assert u.name == 'jack'
# one load, since relationship() + scalar are
# together when eager load used with Query
self.assert_sql_count(testing.db, go, 1)
def test_relationship_changes_preserved(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
sess.expire(u, ['name', 'addresses'])
u.addresses
assert 'name' not in u.__dict__
del u.addresses[1]
u.name
assert 'name' in u.__dict__
assert len(u.addresses) == 2
def test_joinedload_props_dontload(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
# relationships currently have to load separately from scalar instances.
# the use case is: expire "addresses". then access it. lazy load
# fires off to load "addresses", but needs foreign key or primary key
# attributes in order to lazy load; hits those attributes, such as
# below it hits "u.id". "u.id" triggers full unexpire operation,
# joinedloads addresses since lazy='joined'. this is all wihtin lazy load
# which fires unconditionally; so an unnecessary joinedload (or
# lazyload) was issued. would prefer not to complicate lazyloading to
# "figure out" that the operation should be aborted right now.
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
sess.expire(u)
u.id
assert 'addresses' not in u.__dict__
u.addresses
assert 'addresses' in u.__dict__
def test_expire_synonym(self):
User, users = self.classes.User, self.tables.users
mapper(User, users, properties={
'uname': sa.orm.synonym('name')
})
sess = create_session()
u = sess.query(User).get(7)
assert 'name' in u.__dict__
assert u.uname == u.name
sess.expire(u)
assert 'name' not in u.__dict__
users.update(users.c.id==7).execute(name='jack2')
assert u.name == 'jack2'
assert u.uname == 'jack2'
assert 'name' in u.__dict__
# this wont work unless we add API hooks through the attr. system to
# provide "expire" behavior on a synonym
# sess.expire(u, ['uname'])
# users.update(users.c.id==7).execute(name='jack3')
# assert u.uname == 'jack3'
def test_partial_expire(self):
orders, Order = self.tables.orders, self.classes.Order
mapper(Order, orders)
sess = create_session()
o = sess.query(Order).get(3)
sess.expire(o, attribute_names=['description'])
assert 'id' in o.__dict__
assert 'description' not in o.__dict__
assert attributes.instance_state(o).dict['isopen'] == 1
orders.update(orders.c.id==3).execute(description='order 3 modified')
def go():
assert o.description == 'order 3 modified'
self.assert_sql_count(testing.db, go, 1)
assert attributes.instance_state(o).dict['description'] == 'order 3 modified'
o.isopen = 5
sess.expire(o, attribute_names=['description'])
assert 'id' in o.__dict__
assert 'description' not in o.__dict__
assert o.__dict__['isopen'] == 5
assert attributes.instance_state(o).committed_state['isopen'] == 1
def go():
assert o.description == 'order 3 modified'
self.assert_sql_count(testing.db, go, 1)
assert o.__dict__['isopen'] == 5
assert attributes.instance_state(o).dict['description'] == 'order 3 modified'
assert attributes.instance_state(o).committed_state['isopen'] == 1
sess.flush()
sess.expire(o, attribute_names=['id', 'isopen', 'description'])
assert 'id' not in o.__dict__
assert 'isopen' not in o.__dict__
assert 'description' not in o.__dict__
def go():
assert o.description == 'order 3 modified'
assert o.id == 3
assert o.isopen == 5
self.assert_sql_count(testing.db, go, 1)
def test_partial_expire_lazy(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
sess.expire(u, ['name', 'addresses'])
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
# hit the lazy loader. just does the lazy load,
# doesnt do the overall refresh
def go():
assert u.addresses[0].email_address=='ed@wood.com'
self.assert_sql_count(testing.db, go, 1)
assert 'name' not in u.__dict__
# check that mods to expired lazy-load attributes
# only do the lazy load
sess.expire(u, ['name', 'addresses'])
def go():
u.addresses = [Address(id=10, email_address='foo@bar.com')]
self.assert_sql_count(testing.db, go, 1)
sess.flush()
# flush has occurred, and addresses was modified,
# so the addresses collection got committed and is
# longer expired
def go():
assert u.addresses[0].email_address=='foo@bar.com'
assert len(u.addresses) == 1
self.assert_sql_count(testing.db, go, 0)
# but the name attribute was never loaded and so
# still loads
def go():
assert u.name == 'ed'
self.assert_sql_count(testing.db, go, 1)
def test_partial_expire_eager(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
sess.expire(u, ['name', 'addresses'])
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
def go():
assert u.addresses[0].email_address=='ed@wood.com'
self.assert_sql_count(testing.db, go, 1)
# check that mods to expired eager-load attributes
# do the refresh
sess.expire(u, ['name', 'addresses'])
def go():
u.addresses = [Address(id=10, email_address='foo@bar.com')]
self.assert_sql_count(testing.db, go, 1)
sess.flush()
# this should ideally trigger the whole load
# but currently it works like the lazy case
def go():
assert u.addresses[0].email_address=='foo@bar.com'
assert len(u.addresses) == 1
self.assert_sql_count(testing.db, go, 0)
def go():
assert u.name == 'ed'
# scalar attributes have their own load
self.assert_sql_count(testing.db, go, 1)
# ideally, this was already loaded, but we arent
# doing it that way right now
#self.assert_sql_count(testing.db, go, 0)
def test_relationships_load_on_query(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
assert 'name' in u.__dict__
u.addresses
assert 'addresses' in u.__dict__
sess.expire(u, ['name', 'addresses'])
assert 'name' not in u.__dict__
assert 'addresses' not in u.__dict__
(sess.query(User).options(sa.orm.joinedload('addresses')).
filter_by(id=8).all())
assert 'name' in u.__dict__
assert 'addresses' in u.__dict__
def test_partial_expire_deferred(self):
orders, Order = self.tables.orders, self.classes.Order
mapper(Order, orders, properties={
'description': sa.orm.deferred(orders.c.description)
})
sess = create_session()
o = sess.query(Order).get(3)
sess.expire(o, ['description', 'isopen'])
assert 'isopen' not in o.__dict__
assert 'description' not in o.__dict__
# test that expired attribute access refreshes
# the deferred
def go():
assert o.isopen == 1
assert o.description == 'order 3'
self.assert_sql_count(testing.db, go, 1)
sess.expire(o, ['description', 'isopen'])
assert 'isopen' not in o.__dict__
assert 'description' not in o.__dict__
# test that the deferred attribute triggers the full
# reload
def go():
assert o.description == 'order 3'
assert o.isopen == 1
self.assert_sql_count(testing.db, go, 1)
sa.orm.clear_mappers()
mapper(Order, orders)
sess.expunge_all()
# same tests, using deferred at the options level
o = sess.query(Order).options(sa.orm.defer('description')).get(3)
assert 'description' not in o.__dict__
# sanity check
def go():
assert o.description == 'order 3'
self.assert_sql_count(testing.db, go, 1)
assert 'description' in o.__dict__
assert 'isopen' in o.__dict__
sess.expire(o, ['description', 'isopen'])
assert 'isopen' not in o.__dict__
assert 'description' not in o.__dict__
# test that expired attribute access refreshes
# the deferred
def go():
assert o.isopen == 1
assert o.description == 'order 3'
self.assert_sql_count(testing.db, go, 1)
sess.expire(o, ['description', 'isopen'])
assert 'isopen' not in o.__dict__
assert 'description' not in o.__dict__
# test that the deferred attribute triggers the full
# reload
def go():
assert o.description == 'order 3'
assert o.isopen == 1
self.assert_sql_count(testing.db, go, 1)
def test_joinedload_query_refreshes(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined'),
})
mapper(Address, addresses)
sess = create_session()
u = sess.query(User).get(8)
assert len(u.addresses) == 3
sess.expire(u)
assert 'addresses' not in u.__dict__
print "-------------------------------------------"
sess.query(User).filter_by(id=8).all()
assert 'addresses' in u.__dict__
assert len(u.addresses) == 3
def test_expire_all(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user', lazy='joined',
order_by=addresses.c.id),
})
mapper(Address, addresses)
sess = create_session()
userlist = sess.query(User).order_by(User.id).all()
assert self.static.user_address_result == userlist
assert len(list(sess)) == 9
sess.expire_all()
gc_collect()
assert len(list(sess)) == 4 # since addresses were gc'ed
userlist = sess.query(User).order_by(User.id).all()
u = userlist[1]
eq_(self.static.user_address_result, userlist)
assert len(list(sess)) == 9
def test_state_change_col_to_deferred(self):
"""Behavioral test to verify the current activity of loader callables."""
users, User = self.tables.users, self.classes.User
mapper(User, users)
sess = create_session()
# deferred attribute option, gets the LoadDeferredColumns
# callable
u1 = sess.query(User).options(defer(User.name)).first()
assert isinstance(
attributes.instance_state(u1).callables['name'],
strategies.LoadDeferredColumns
)
# expire the attr, it gets the InstanceState callable
sess.expire(u1, ['name'])
assert isinstance(
attributes.instance_state(u1).callables['name'],
state.InstanceState
)
# load it, callable is gone
u1.name
assert 'name' not in attributes.instance_state(u1).callables
# same for expire all
sess.expunge_all()
u1 = sess.query(User).options(defer(User.name)).first()
sess.expire(u1)
assert isinstance(
attributes.instance_state(u1).callables['name'],
state.InstanceState
)
# load over it. everything normal.
sess.query(User).first()
assert 'name' not in attributes.instance_state(u1).callables
sess.expunge_all()
u1 = sess.query(User).first()
# for non present, still expires the same way
del u1.name
sess.expire(u1)
assert 'name' in attributes.instance_state(u1).callables
def test_state_deferred_to_col(self):
"""Behavioral test to verify the current activity of loader callables."""
users, User = self.tables.users, self.classes.User
mapper(User, users, properties={'name':deferred(users.c.name)})
sess = create_session()
u1 = sess.query(User).options(undefer(User.name)).first()
assert 'name' not in attributes.instance_state(u1).callables
# mass expire, the attribute was loaded,
# the attribute gets the callable
sess.expire(u1)
assert isinstance(
attributes.instance_state(u1).callables['name'],
state.InstanceState
)
# load it, callable is gone
u1.name
assert 'name' not in attributes.instance_state(u1).callables
# mass expire, attribute was loaded but then deleted,
# the callable goes away - the state wants to flip
# it back to its "deferred" loader.
sess.expunge_all()
u1 = sess.query(User).options(undefer(User.name)).first()
del u1.name
sess.expire(u1)
assert 'name' not in attributes.instance_state(u1).callables
# single attribute expire, the attribute gets the callable
sess.expunge_all()
u1 = sess.query(User).options(undefer(User.name)).first()
sess.expire(u1, ['name'])
assert isinstance(
attributes.instance_state(u1).callables['name'],
state.InstanceState
)
def test_state_noload_to_lazy(self):
"""Behavioral test to verify the current activity of loader callables."""
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={'addresses':relationship(Address, lazy='noload')})
mapper(Address, addresses)
sess = create_session()
u1 = sess.query(User).options(lazyload(User.addresses)).first()
assert isinstance(
attributes.instance_state(u1).callables['addresses'],
strategies.LoadLazyAttribute
)
# expire, it stays
sess.expire(u1)
assert isinstance(
attributes.instance_state(u1).callables['addresses'],
strategies.LoadLazyAttribute
)
# load over it. callable goes away.
sess.query(User).first()
assert 'addresses' not in attributes.instance_state(u1).callables
sess.expunge_all()
u1 = sess.query(User).options(lazyload(User.addresses)).first()
sess.expire(u1, ['addresses'])
assert isinstance(
attributes.instance_state(u1).callables['addresses'],
strategies.LoadLazyAttribute
)
# load the attr, goes away
u1.addresses
assert 'addresses' not in attributes.instance_state(u1).callables
class PolymorphicExpireTest(fixtures.MappedTest):
run_inserts = 'once'
run_deletes = None
@classmethod
def define_tables(cls, metadata):
people = Table('people', metadata,
Column('person_id', Integer, primary_key=True,
test_needs_autoincrement=True),
Column('name', String(50)),
Column('type', String(30)),
)
engineers = Table('engineers', metadata,
Column('person_id', Integer, ForeignKey('people.person_id'),
primary_key=True),
Column('status', String(30)),
)
@classmethod
def setup_classes(cls):
class Person(cls.Basic):
pass
class Engineer(Person):
pass
@classmethod
def insert_data(cls):
people, engineers = cls.tables.people, cls.tables.engineers
people.insert().execute(
{'person_id':1, 'name':'person1', 'type':'person'},
{'person_id':2, 'name':'engineer1', 'type':'engineer'},
{'person_id':3, 'name':'engineer2', 'type':'engineer'},
)
engineers.insert().execute(
{'person_id':2, 'status':'new engineer'},
{'person_id':3, 'status':'old engineer'},
)
@classmethod
def setup_mappers(cls):
Person, people, engineers, Engineer = (cls.classes.Person,
cls.tables.people,
cls.tables.engineers,
cls.classes.Engineer)
mapper(Person, people, polymorphic_on=people.c.type, polymorphic_identity='person')
mapper(Engineer, engineers, inherits=Person, polymorphic_identity='engineer')
def test_poly_deferred(self):
Person, people, Engineer = (self.classes.Person,
self.tables.people,
self.classes.Engineer)
sess = create_session()
[p1, e1, e2] = sess.query(Person).order_by(people.c.person_id).all()
sess.expire(p1)
sess.expire(e1, ['status'])
sess.expire(e2)
for p in [p1, e2]:
assert 'name' not in p.__dict__
assert 'name' in e1.__dict__
assert 'status' not in e2.__dict__
assert 'status' not in e1.__dict__
e1.name = 'new engineer name'
def go():
sess.query(Person).all()
self.assert_sql_count(testing.db, go, 1)
for p in [p1, e1, e2]:
assert 'name' in p.__dict__
assert 'status' not in e2.__dict__
assert 'status' not in e1.__dict__
def go():
assert e1.name == 'new engineer name'
assert e2.name == 'engineer2'
assert e1.status == 'new engineer'
assert e2.status == 'old engineer'
self.assert_sql_count(testing.db, go, 2)
eq_(Engineer.name.get_history(e1), (['new engineer name'],(), ['engineer1']))
def test_no_instance_key(self):
Engineer = self.classes.Engineer
sess = create_session()
e1 = sess.query(Engineer).get(2)
sess.expire(e1, attribute_names=['name'])
sess.expunge(e1)
attributes.instance_state(e1).key = None
assert 'name' not in e1.__dict__
sess.add(e1)
assert e1.name == 'engineer1'
def test_no_instance_key(self):
Engineer = self.classes.Engineer
# same as test_no_instance_key, but the PK columns
# are absent. ensure an error is raised.
sess = create_session()
e1 = sess.query(Engineer).get(2)
sess.expire(e1, attribute_names=['name', 'person_id'])
sess.expunge(e1)
attributes.instance_state(e1).key = None
assert 'name' not in e1.__dict__
sess.add(e1)
assert_raises(sa_exc.InvalidRequestError, getattr, e1, 'name')
class ExpiredPendingTest(_fixtures.FixtureTest):
run_define_tables = 'once'
run_setup_classes = 'once'
run_setup_mappers = None
run_inserts = None
def test_expired_pending(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(Address, backref='user'),
})
mapper(Address, addresses)
sess = create_session()
a1 = Address(email_address='a1')
sess.add(a1)
sess.flush()
u1 = User(name='u1')
a1.user = u1
sess.flush()
# expire 'addresses'. backrefs
# which attach to u1 will expect to be "pending"
sess.expire(u1, ['addresses'])
# attach an Address. now its "pending"
# in user.addresses
a2 = Address(email_address='a2')
a2.user = u1
# expire u1.addresses again. this expires
# "pending" as well.
sess.expire(u1, ['addresses'])
# insert a new row
sess.execute(addresses.insert(), dict(email_address='a3', user_id=u1.id))
# only two addresses pulled from the DB, no "pending"
assert len(u1.addresses) == 2
sess.flush()
sess.expire_all()
assert len(u1.addresses) == 3
class RefreshTest(_fixtures.FixtureTest):
def test_refresh(self):
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(mapper(Address, addresses), backref='user')
})
s = create_session()
u = s.query(User).get(7)
u.name = 'foo'
a = Address()
assert sa.orm.object_session(a) is None
u.addresses.append(a)
assert a.email_address is None
assert id(a) in [id(x) for x in u.addresses]
s.refresh(u)
# its refreshed, so not dirty
assert u not in s.dirty
# username is back to the DB
assert u.name == 'jack'
assert id(a) not in [id(x) for x in u.addresses]
u.name = 'foo'
u.addresses.append(a)
# now its dirty
assert u in s.dirty
assert u.name == 'foo'
assert id(a) in [id(x) for x in u.addresses]
s.expire(u)
# get the attribute, it refreshes
assert u.name == 'jack'
assert id(a) not in [id(x) for x in u.addresses]
def test_persistence_check(self):
users, User = self.tables.users, self.classes.User
mapper(User, users)
s = create_session()
u = s.query(User).get(7)
s.expunge_all()
assert_raises_message(sa_exc.InvalidRequestError, r"is not persistent within this Session", lambda: s.refresh(u))
def test_refresh_expired(self):
User, users = self.classes.User, self.tables.users
mapper(User, users)
s = create_session()
u = s.query(User).get(7)
s.expire(u)
assert 'name' not in u.__dict__
s.refresh(u)
assert u.name == 'jack'
def test_refresh_with_lazy(self):
"""test that when a lazy loader is set as a trigger on an object's attribute
(at the attribute level, not the class level), a refresh() operation doesnt
fire the lazy loader or create any problems"""
User, Address, addresses, users = (self.classes.User,
self.classes.Address,
self.tables.addresses,
self.tables.users)
s = create_session()
mapper(User, users, properties={'addresses':relationship(mapper(Address, addresses))})
q = s.query(User).options(sa.orm.lazyload('addresses'))
u = q.filter(users.c.id==8).first()
def go():
s.refresh(u)
self.assert_sql_count(testing.db, go, 1)
def test_refresh_with_eager(self):
"""test that a refresh/expire operation loads rows properly and sends correct "isnew" state to eager loaders"""
users, Address, addresses, User = (self.tables.users,
self.classes.Address,
self.tables.addresses,
self.classes.User)
mapper(User, users, properties={
'addresses':relationship(mapper(Address, addresses), lazy='joined')
})
s = create_session()
u = s.query(User).get(8)
assert len(u.addresses) == 3
s.refresh(u)
assert len(u.addresses) == 3
s = create_session()
u = s.query(User).get(8)
assert len(u.addresses) == 3
s.expire(u)
assert len(u.addresses) == 3
@testing.fails_on('maxdb', 'FIXME: unknown')
def test_refresh2(self):
"""test a hang condition that was occurring on expire/refresh"""
Address, addresses, users, User = (self.classes.Address,
self.tables.addresses,
self.tables.users,
self.classes.User)
s = create_session()
mapper(Address, addresses)
mapper(User, users, properties = dict(addresses=relationship(Address,cascade="all, delete-orphan",lazy='joined')) )
u = User()
u.name='Justin'
a = Address(id=10, email_address='lala')
u.addresses.append(a)
s.add(u)
s.flush()
s.expunge_all()
u = s.query(User).filter(User.name=='Justin').one()
s.expire(u)
assert u.name == 'Justin'
s.refresh(u)
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