from sqlalchemy.sql import operators from sqlalchemy import MetaData, null, exists, text, union, literal, \ literal_column, func, between, Unicode, desc, and_, bindparam, \ select, distinct, or_, collate, insert from sqlalchemy import inspect from sqlalchemy import exc as sa_exc, util from sqlalchemy.sql import compiler, table, column from sqlalchemy.sql import expression from sqlalchemy.engine import default from sqlalchemy.orm import attributes, mapper, relationship, backref, \ configure_mappers, create_session, synonym, Session, class_mapper, \ aliased, column_property, joinedload_all, joinedload, Query,\ util as orm_util from sqlalchemy.testing.assertsql import CompiledSQL from sqlalchemy.testing.schema import Table, Column import sqlalchemy as sa from sqlalchemy import testing from sqlalchemy.testing.assertions import eq_, assert_raises, assert_raises_message from sqlalchemy.testing import AssertsCompiledSQL from test.orm import _fixtures from sqlalchemy.testing import fixtures, engines from sqlalchemy.orm.util import join, outerjoin, with_parent class QueryTest(_fixtures.FixtureTest): run_setup_mappers = 'once' run_inserts = 'once' run_deletes = None @classmethod def setup_mappers(cls): cls._setup_stock_mapping() class MiscTest(QueryTest): run_create_tables = None run_inserts = None def test_with_session(self): User = self.classes.User s1 = Session() s2 = Session() q1 = s1.query(User) q2 = q1.with_session(s2) assert q2.session is s2 assert q1.session is s1 class RowTupleTest(QueryTest): run_setup_mappers = None def test_custom_names(self): User, users = self.classes.User, self.tables.users mapper(User, users, properties={ 'uname': users.c.name }) row = create_session().\ query(User.id, User.uname).\ filter(User.id == 7).first() assert row.id == 7 assert row.uname == 'jack' def test_column_metadata(self): users, Address, addresses, User = (self.tables.users, self.classes.Address, self.tables.addresses, self.classes.User) mapper(User, users) mapper(Address, addresses) sess = create_session() user_alias = aliased(User) address_alias = aliased(Address, name='aalias') fn = func.count(User.id) name_label = User.name.label('uname') for q, asserted in [ ( sess.query(User), [{'name':'User', 'type':User, 'aliased':False, 'expr':User}] ), ( sess.query(User.id, User), [ {'name':'id', 'type':users.c.id.type, 'aliased':False, 'expr':User.id}, {'name':'User', 'type':User, 'aliased':False, 'expr':User} ] ), ( sess.query(User.id, user_alias), [ {'name':'id', 'type':users.c.id.type, 'aliased':False, 'expr':User.id}, {'name':None, 'type':User, 'aliased':True, 'expr':user_alias} ] ), ( sess.query(address_alias), [ {'name':'aalias', 'type':Address, 'aliased':True, 'expr':address_alias} ] ), ( sess.query(name_label, fn), [ {'name':'uname', 'type':users.c.name.type, 'aliased':False, 'expr':name_label}, {'name':None, 'type':fn.type, 'aliased':False, 'expr':fn }, ] ) ]: eq_( q.column_descriptions, asserted ) def test_unhashable_type(self): from sqlalchemy.types import TypeDecorator, Integer from sqlalchemy.sql import type_coerce class MyType(TypeDecorator): impl = Integer hashable = False def process_result_value(self, value, dialect): return [value] User, users = self.classes.User, self.tables.users mapper(User, users) s = Session() q = s.\ query(User, type_coerce(users.c.id, MyType).label('foo')).\ filter(User.id == 7) row = q.first() eq_( row, (User(id=7), [7]) ) class RawSelectTest(QueryTest, AssertsCompiledSQL): __dialect__ = 'default' def test_select_from_entity(self): User = self.classes.User self.assert_compile( select(['*']).select_from(User), "SELECT * FROM users" ) def test_where_relationship(self): User = self.classes.User self.assert_compile( select([User]).where(User.addresses), "SELECT users.id, users.name FROM users, addresses " "WHERE users.id = addresses.user_id" ) def test_where_m2m_relationship(self): Item = self.classes.Item self.assert_compile( select([Item]).where(Item.keywords), "SELECT items.id, items.description FROM items, " "item_keywords AS item_keywords_1, keywords " "WHERE items.id = item_keywords_1.item_id " "AND keywords.id = item_keywords_1.keyword_id" ) def test_inline_select_from_entity(self): User = self.classes.User self.assert_compile( select(['*'], from_obj=User), "SELECT * FROM users" ) def test_select_from_aliased_entity(self): User = self.classes.User ua = aliased(User, name="ua") self.assert_compile( select(['*']).select_from(ua), "SELECT * FROM users AS ua" ) def test_correlate_entity(self): User = self.classes.User Address = self.classes.Address self.assert_compile( select([User.name, Address.id, select([func.count(Address.id)]).\ where(User.id == Address.user_id).\ correlate(User).as_scalar() ]), "SELECT users.name, addresses.id, " "(SELECT count(addresses.id) AS count_1 " "FROM addresses WHERE users.id = addresses.user_id) AS anon_1 " "FROM users, addresses" ) def test_correlate_aliased_entity(self): User = self.classes.User Address = self.classes.Address uu = aliased(User, name="uu") self.assert_compile( select([uu.name, Address.id, select([func.count(Address.id)]).\ where(uu.id == Address.user_id).\ correlate(uu).as_scalar() ]), # curious, "address.user_id = uu.id" is reversed here "SELECT uu.name, addresses.id, " "(SELECT count(addresses.id) AS count_1 " "FROM addresses WHERE addresses.user_id = uu.id) AS anon_1 " "FROM users AS uu, addresses" ) def test_columns_clause_entity(self): User = self.classes.User self.assert_compile( select([User]), "SELECT users.id, users.name FROM users" ) def test_columns_clause_columns(self): User = self.classes.User self.assert_compile( select([User.id, User.name]), "SELECT users.id, users.name FROM users" ) def test_columns_clause_aliased_columns(self): User = self.classes.User ua = aliased(User, name='ua') self.assert_compile( select([ua.id, ua.name]), "SELECT ua.id, ua.name FROM users AS ua" ) def test_columns_clause_aliased_entity(self): User = self.classes.User ua = aliased(User, name='ua') self.assert_compile( select([ua]), "SELECT ua.id, ua.name FROM users AS ua" ) def test_core_join(self): User = self.classes.User Address = self.classes.Address from sqlalchemy.sql import join self.assert_compile( select([User]).select_from(join(User, Address)), "SELECT users.id, users.name FROM users " "JOIN addresses ON users.id = addresses.user_id" ) def test_insert_from_query(self): User = self.classes.User Address = self.classes.Address s = Session() q = s.query(User.id, User.name).filter_by(name='ed') self.assert_compile( insert(Address).from_select(('id', 'email_address'), q), "INSERT INTO addresses (id, email_address) " "SELECT users.id AS users_id, users.name AS users_name " "FROM users WHERE users.name = :name_1" ) def test_insert_from_query_col_attr(self): User = self.classes.User Address = self.classes.Address s = Session() q = s.query(User.id, User.name).filter_by(name='ed') self.assert_compile( insert(Address).from_select( (Address.id, Address.email_address), q), "INSERT INTO addresses (id, email_address) " "SELECT users.id AS users_id, users.name AS users_name " "FROM users WHERE users.name = :name_1" ) def test_update_from_entity(self): from sqlalchemy.sql import update User = self.classes.User self.assert_compile( update(User), "UPDATE users SET id=:id, name=:name" ) self.assert_compile( update(User).values(name='ed').where(User.id == 5), "UPDATE users SET name=:name WHERE users.id = :id_1", checkparams={"id_1": 5, "name": "ed"} ) def test_delete_from_entity(self): from sqlalchemy.sql import delete User = self.classes.User self.assert_compile( delete(User), "DELETE FROM users" ) self.assert_compile( delete(User).where(User.id == 5), "DELETE FROM users WHERE users.id = :id_1", checkparams={"id_1": 5} ) def test_insert_from_entity(self): from sqlalchemy.sql import insert User = self.classes.User self.assert_compile( insert(User), "INSERT INTO users (id, name) VALUES (:id, :name)" ) self.assert_compile( insert(User).values(name="ed"), "INSERT INTO users (name) VALUES (:name)", checkparams={"name": "ed"} ) class GetTest(QueryTest): def test_get(self): User = self.classes.User s = create_session() assert s.query(User).get(19) is None u = s.query(User).get(7) u2 = s.query(User).get(7) assert u is u2 s.expunge_all() u2 = s.query(User).get(7) assert u is not u2 def test_get_composite_pk_no_result(self): CompositePk = self.classes.CompositePk s = Session() assert s.query(CompositePk).get((100,100)) is None def test_get_composite_pk_result(self): CompositePk = self.classes.CompositePk s = Session() one_two = s.query(CompositePk).get((1,2)) assert one_two.i == 1 assert one_two.j == 2 assert one_two.k == 3 def test_get_too_few_params(self): CompositePk = self.classes.CompositePk s = Session() q = s.query(CompositePk) assert_raises(sa_exc.InvalidRequestError, q.get, 7) def test_get_too_few_params_tuple(self): CompositePk = self.classes.CompositePk s = Session() q = s.query(CompositePk) assert_raises(sa_exc.InvalidRequestError, q.get, (7,)) def test_get_too_many_params(self): CompositePk = self.classes.CompositePk s = Session() q = s.query(CompositePk) assert_raises(sa_exc.InvalidRequestError, q.get, (7, 10, 100)) def test_get_against_col(self): User = self.classes.User s = Session() q = s.query(User.id) assert_raises(sa_exc.InvalidRequestError, q.get, (5, )) def test_get_null_pk(self): """test that a mapping which can have None in a PK (i.e. map to an outerjoin) works with get().""" users, addresses = self.tables.users, self.tables.addresses s = users.outerjoin(addresses) class UserThing(fixtures.ComparableEntity): pass mapper(UserThing, s, properties={ 'id':(users.c.id, addresses.c.user_id), 'address_id':addresses.c.id, }) sess = create_session() u10 = sess.query(UserThing).get((10, None)) eq_(u10, UserThing(id=10) ) def test_no_criterion(self): """test that get()/load() does not use preexisting filter/etc. criterion""" User, Address = self.classes.User, self.classes.Address s = create_session() q = s.query(User).join('addresses').filter(Address.user_id==8) assert_raises(sa_exc.InvalidRequestError, q.get, 7) assert_raises(sa_exc.InvalidRequestError, s.query(User).filter(User.id==7).get, 19) # order_by()/get() doesn't raise s.query(User).order_by(User.id).get(8) def test_unique_param_names(self): users = self.tables.users class SomeUser(object): pass s = users.select(users.c.id!=12).alias('users') m = mapper(SomeUser, s) assert s.primary_key == m.primary_key sess = create_session() assert sess.query(SomeUser).get(7).name == 'jack' def test_load(self): User, Address = self.classes.User, self.classes.Address s = create_session() assert s.query(User).populate_existing().get(19) is None u = s.query(User).populate_existing().get(7) u2 = s.query(User).populate_existing().get(7) assert u is u2 s.expunge_all() u2 = s.query(User).populate_existing().get(7) assert u is not u2 u2.name = 'some name' a = Address(email_address='some other name') u2.addresses.append(a) assert u2 in s.dirty assert a in u2.addresses s.query(User).populate_existing().get(7) assert u2 not in s.dirty assert u2.name =='jack' assert a not in u2.addresses @testing.requires.unicode_connections def test_unicode(self): """test that Query.get properly sets up the type for the bind parameter. using unicode would normally fail on postgresql, mysql and oracle unless it is converted to an encoded string""" metadata = MetaData(engines.utf8_engine()) table = Table('unicode_data', metadata, Column('id', Unicode(40), primary_key=True, test_needs_autoincrement=True), Column('data', Unicode(40))) try: metadata.create_all() ustring = util.b('petit voix m\xe2\x80\x99a').decode('utf-8') table.insert().execute(id=ustring, data=ustring) class LocalFoo(self.classes.Base): pass mapper(LocalFoo, table) eq_(create_session().query(LocalFoo).get(ustring), LocalFoo(id=ustring, data=ustring)) finally: metadata.drop_all() def test_populate_existing(self): User, Address = self.classes.User, self.classes.Address s = create_session() userlist = s.query(User).all() u = userlist[0] u.name = 'foo' a = Address(name='ed') u.addresses.append(a) self.assert_(a in u.addresses) s.query(User).populate_existing().all() self.assert_(u not in s.dirty) self.assert_(u.name == 'jack') self.assert_(a not in u.addresses) u.addresses[0].email_address = 'lala' u.orders[1].items[2].description = 'item 12' # test that lazy load doesnt change child items s.query(User).populate_existing().all() assert u.addresses[0].email_address == 'lala' assert u.orders[1].items[2].description == 'item 12' # eager load does s.query(User).options(joinedload('addresses'), joinedload_all('orders.items')).populate_existing().all() assert u.addresses[0].email_address == 'jack@bean.com' assert u.orders[1].items[2].description == 'item 5' class InvalidGenerationsTest(QueryTest, AssertsCompiledSQL): def test_no_limit_offset(self): User = self.classes.User s = create_session() for q in ( s.query(User).limit(2), s.query(User).offset(2), s.query(User).limit(2).offset(2) ): assert_raises(sa_exc.InvalidRequestError, q.join, "addresses") assert_raises(sa_exc.InvalidRequestError, q.filter, User.name=='ed') assert_raises(sa_exc.InvalidRequestError, q.filter_by, name='ed') assert_raises(sa_exc.InvalidRequestError, q.order_by, 'foo') assert_raises(sa_exc.InvalidRequestError, q.group_by, 'foo') assert_raises(sa_exc.InvalidRequestError, q.having, 'foo') q.enable_assertions(False).join("addresses") q.enable_assertions(False).filter(User.name=='ed') q.enable_assertions(False).order_by('foo') q.enable_assertions(False).group_by('foo') def test_no_from(self): users, User = self.tables.users, self.classes.User s = create_session() q = s.query(User).select_from(users) assert_raises(sa_exc.InvalidRequestError, q.select_from, users) q = s.query(User).join('addresses') assert_raises(sa_exc.InvalidRequestError, q.select_from, users) q = s.query(User).order_by(User.id) assert_raises(sa_exc.InvalidRequestError, q.select_from, users) assert_raises(sa_exc.InvalidRequestError, q.select_from, users) q.enable_assertions(False).select_from(users) # this is fine, however q.from_self() def test_invalid_select_from(self): User = self.classes.User s = create_session() q = s.query(User) assert_raises(sa_exc.ArgumentError, q.select_from, User.id==5) assert_raises(sa_exc.ArgumentError, q.select_from, User.id) def test_invalid_from_statement(self): User, addresses, users = (self.classes.User, self.tables.addresses, self.tables.users) s = create_session() q = s.query(User) assert_raises(sa_exc.ArgumentError, q.from_statement, User.id==5) assert_raises(sa_exc.ArgumentError, q.from_statement, users.join(addresses)) def test_invalid_column(self): User = self.classes.User s = create_session() q = s.query(User) assert_raises(sa_exc.InvalidRequestError, q.add_column, object()) def test_invalid_column_tuple(self): User = self.classes.User s = create_session() q = s.query(User) assert_raises(sa_exc.InvalidRequestError, q.add_column, (1, 1)) def test_distinct(self): """test that a distinct() call is not valid before 'clauseelement' conditions.""" User = self.classes.User s = create_session() q = s.query(User).distinct() assert_raises(sa_exc.InvalidRequestError, q.select_from, User) assert_raises(sa_exc.InvalidRequestError, q.from_statement, text("select * from table")) assert_raises(sa_exc.InvalidRequestError, q.with_polymorphic, User) def test_order_by(self): """test that an order_by() call is not valid before 'clauseelement' conditions.""" User = self.classes.User s = create_session() q = s.query(User).order_by(User.id) assert_raises(sa_exc.InvalidRequestError, q.select_from, User) assert_raises(sa_exc.InvalidRequestError, q.from_statement, text("select * from table")) assert_raises(sa_exc.InvalidRequestError, q.with_polymorphic, User) def test_cancel_order_by(self): User = self.classes.User s = create_session() q = s.query(User).order_by(User.id) self.assert_compile(q, "SELECT users.id AS users_id, users.name AS users_name FROM users ORDER BY users.id", use_default_dialect=True) assert_raises(sa_exc.InvalidRequestError, q._no_select_modifiers, "foo") q = q.order_by(None) self.assert_compile(q, "SELECT users.id AS users_id, users.name AS users_name FROM users", use_default_dialect=True) assert_raises(sa_exc.InvalidRequestError, q._no_select_modifiers, "foo") q = q.order_by(False) self.assert_compile(q, "SELECT users.id AS users_id, users.name AS users_name FROM users", use_default_dialect=True) # after False was set, this should pass q._no_select_modifiers("foo") def test_mapper_zero(self): User, Address = self.classes.User, self.classes.Address s = create_session() q = s.query(User, Address) assert_raises(sa_exc.InvalidRequestError, q.get, 5) def test_from_statement(self): User = self.classes.User s = create_session() for meth, arg, kw in [ (Query.filter, (User.id==5,), {}), (Query.filter_by, (), {'id':5}), (Query.limit, (5, ), {}), (Query.group_by, (User.name,), {}), (Query.order_by, (User.name,), {}) ]: q = s.query(User) q = meth(q, *arg, **kw) assert_raises( sa_exc.InvalidRequestError, q.from_statement, "x" ) q = s.query(User) q = q.from_statement("x") assert_raises( sa_exc.InvalidRequestError, meth, q, *arg, **kw ) class OperatorTest(QueryTest, AssertsCompiledSQL): """test sql.Comparator implementation for MapperProperties""" __dialect__ = 'default' def _test(self, clause, expected, entity=None): dialect = default.DefaultDialect() if entity is not None: # specify a lead entity, so that when we are testing # correlation, the correlation actually happens sess = Session() lead = sess.query(entity) context = lead._compile_context() context.statement.use_labels = True lead = context.statement.compile(dialect=dialect) expected = (str(lead) + " WHERE " + expected).replace("\n", "") clause = sess.query(entity).filter(clause) self.assert_compile(clause, expected) def test_arithmetic(self): User = self.classes.User create_session().query(User) for (py_op, sql_op) in ((operators.add, '+'), (operators.mul, '*'), (operators.sub, '-'), (operators.truediv, '/'), (operators.div, '/'), ): for (lhs, rhs, res) in ( (5, User.id, ':id_1 %s users.id'), (5, literal(6), ':param_1 %s :param_2'), (User.id, 5, 'users.id %s :id_1'), (User.id, literal('b'), 'users.id %s :param_1'), (User.id, User.id, 'users.id %s users.id'), (literal(5), 'b', ':param_1 %s :param_2'), (literal(5), User.id, ':param_1 %s users.id'), (literal(5), literal(6), ':param_1 %s :param_2'), ): self._test(py_op(lhs, rhs), res % sql_op) def test_comparison(self): User = self.classes.User create_session().query(User) ualias = aliased(User) for (py_op, fwd_op, rev_op) in ((operators.lt, '<', '>'), (operators.gt, '>', '<'), (operators.eq, '=', '='), (operators.ne, '!=', '!='), (operators.le, '<=', '>='), (operators.ge, '>=', '<=')): for (lhs, rhs, l_sql, r_sql) in ( ('a', User.id, ':id_1', 'users.id'), ('a', literal('b'), ':param_2', ':param_1'), # note swap! (User.id, 'b', 'users.id', ':id_1'), (User.id, literal('b'), 'users.id', ':param_1'), (User.id, User.id, 'users.id', 'users.id'), (literal('a'), 'b', ':param_1', ':param_2'), (literal('a'), User.id, ':param_1', 'users.id'), (literal('a'), literal('b'), ':param_1', ':param_2'), (ualias.id, literal('b'), 'users_1.id', ':param_1'), (User.id, ualias.name, 'users.id', 'users_1.name'), (User.name, ualias.name, 'users.name', 'users_1.name'), (ualias.name, User.name, 'users_1.name', 'users.name'), ): # the compiled clause should match either (e.g.): # 'a' < 'b' -or- 'b' > 'a'. compiled = str(py_op(lhs, rhs).compile(dialect=default.DefaultDialect())) fwd_sql = "%s %s %s" % (l_sql, fwd_op, r_sql) rev_sql = "%s %s %s" % (r_sql, rev_op, l_sql) self.assert_(compiled == fwd_sql or compiled == rev_sql, "\n'" + compiled + "'\n does not match\n'" + fwd_sql + "'\n or\n'" + rev_sql + "'") def test_negated_null(self): User, Address = self.classes.User, self.classes.Address self._test(User.id == None, "users.id IS NULL") self._test(~(User.id==None), "users.id IS NOT NULL") self._test(None == User.id, "users.id IS NULL") self._test(~(None == User.id), "users.id IS NOT NULL") self._test(Address.user == None, "addresses.user_id IS NULL") self._test(~(Address.user==None), "addresses.user_id IS NOT NULL") self._test(None == Address.user, "addresses.user_id IS NULL") self._test(~(None == Address.user), "addresses.user_id IS NOT NULL") def test_relationship_unimplemented(self): User, Address = self.classes.User, self.classes.Address for op in [ User.addresses.like, User.addresses.ilike, User.addresses.__le__, User.addresses.__gt__, ]: assert_raises(NotImplementedError, op, "x") def test_relationship(self): User, Address = self.classes.User, self.classes.Address self._test(User.addresses.any(Address.id==17), "EXISTS (SELECT 1 " "FROM addresses " "WHERE users.id = addresses.user_id AND addresses.id = :id_1)", entity=User ) u7 = User(id=7) attributes.instance_state(u7)._commit_all(attributes.instance_dict(u7)) self._test(Address.user == u7, ":param_1 = addresses.user_id") self._test(Address.user != u7, "addresses.user_id != :user_id_1 OR addresses.user_id IS NULL") self._test(Address.user == None, "addresses.user_id IS NULL") self._test(Address.user != None, "addresses.user_id IS NOT NULL") def test_selfref_relationship(self): Node = self.classes.Node nalias = aliased(Node) # auto self-referential aliasing self._test( Node.children.any(Node.data=='n1'), "EXISTS (SELECT 1 FROM nodes AS nodes_1 WHERE " "nodes.id = nodes_1.parent_id AND nodes_1.data = :data_1)", entity=Node ) # needs autoaliasing self._test( Node.children == None, "NOT (EXISTS (SELECT 1 FROM nodes AS nodes_1 " "WHERE nodes.id = nodes_1.parent_id))", entity=Node ) self._test( Node.parent == None, "nodes.parent_id IS NULL" ) self._test( nalias.parent == None, "nodes_1.parent_id IS NULL" ) self._test( nalias.children == None, "NOT (EXISTS (SELECT 1 FROM nodes WHERE nodes_1.id = nodes.parent_id))", entity=nalias ) self._test( nalias.children.any(Node.data=='some data'), "EXISTS (SELECT 1 FROM nodes WHERE " "nodes_1.id = nodes.parent_id AND nodes.data = :data_1)", entity=nalias) # this fails because self-referential any() is auto-aliasing; # the fact that we use "nalias" here means we get two aliases. #self._test( # Node.children.any(nalias.data == 'some data'), # "EXISTS (SELECT 1 FROM nodes AS nodes_1 WHERE " # "nodes.id = nodes_1.parent_id AND nodes_1.data = :data_1)", # entity=Node # ) self._test( nalias.parent.has(Node.data == 'some data'), "EXISTS (SELECT 1 FROM nodes WHERE nodes.id = nodes_1.parent_id " "AND nodes.data = :data_1)", entity=nalias ) self._test( Node.parent.has(Node.data == 'some data'), "EXISTS (SELECT 1 FROM nodes AS nodes_1 WHERE " "nodes_1.id = nodes.parent_id AND nodes_1.data = :data_1)", entity=Node ) self._test( Node.parent == Node(id=7), ":param_1 = nodes.parent_id" ) self._test( nalias.parent == Node(id=7), ":param_1 = nodes_1.parent_id" ) self._test( nalias.parent != Node(id=7), 'nodes_1.parent_id != :parent_id_1 OR nodes_1.parent_id IS NULL' ) self._test( nalias.children.contains(Node(id=7)), "nodes_1.id = :param_1" ) def test_multilevel_any(self): User, Address, Dingaling = \ self.classes.User, self.classes.Address, self.classes.Dingaling sess = Session() q = sess.query(User).filter( User.addresses.any( and_(Address.id == Dingaling.address_id, Dingaling.data == 'x'))) # new since #2746 - correlate_except() now takes context into account # so its usage in any() is not as disrupting. self.assert_compile(q, "SELECT users.id AS users_id, users.name AS users_name " "FROM users " "WHERE EXISTS (SELECT 1 " "FROM addresses, dingalings " "WHERE users.id = addresses.user_id AND " "addresses.id = dingalings.address_id AND " "dingalings.data = :data_1)" ) def test_op(self): User = self.classes.User self._test(User.name.op('ilike')('17'), "users.name ilike :name_1") def test_in(self): User = self.classes.User self._test(User.id.in_(['a', 'b']), "users.id IN (:id_1, :id_2)") def test_in_on_relationship_not_supported(self): User, Address = self.classes.User, self.classes.Address assert_raises(NotImplementedError, Address.user.in_, [User(id=5)]) def test_neg(self): User = self.classes.User self._test(-User.id, "-users.id") self._test(User.id + -User.id, "users.id + -users.id") def test_between(self): User = self.classes.User self._test(User.id.between('a', 'b'), "users.id BETWEEN :id_1 AND :id_2") def test_collate(self): User = self.classes.User self._test(collate(User.id, 'binary'), "users.id COLLATE binary") self._test(User.id.collate('binary'), "users.id COLLATE binary") def test_selfref_between(self): User = self.classes.User ualias = aliased(User) self._test(User.id.between(ualias.id, ualias.id), "users.id BETWEEN users_1.id AND users_1.id") self._test(ualias.id.between(User.id, User.id), "users_1.id BETWEEN users.id AND users.id") def test_clauses(self): User, Address = self.classes.User, self.classes.Address for (expr, compare) in ( (func.max(User.id), "max(users.id)"), (User.id.desc(), "users.id DESC"), (between(5, User.id, Address.id), ":param_1 BETWEEN users.id AND addresses.id"), # this one would require adding compile() to InstrumentedScalarAttribute. do we want this ? #(User.id, "users.id") ): c = expr.compile(dialect=default.DefaultDialect()) assert str(c) == compare, "%s != %s" % (str(c), compare) class ExpressionTest(QueryTest, AssertsCompiledSQL): __dialect__ = 'default' def test_deferred_instances(self): User, addresses, Address = (self.classes.User, self.tables.addresses, self.classes.Address) session = create_session() s = session.query(User).filter(and_(addresses.c.email_address == bindparam('emailad'), Address.user_id==User.id)).statement l = list(session.query(User).instances(s.execute(emailad = 'jack@bean.com'))) eq_([User(id=7)], l) def test_aliased_sql_construct(self): User, Address = self.classes.User, self.classes.Address j = join(User, Address) a1 = aliased(j) self.assert_compile( a1.select(), "SELECT anon_1.users_id, anon_1.users_name, anon_1.addresses_id, " "anon_1.addresses_user_id, anon_1.addresses_email_address " "FROM (SELECT users.id AS users_id, users.name AS users_name, " "addresses.id AS addresses_id, addresses.user_id AS " "addresses_user_id, addresses.email_address AS " "addresses_email_address FROM users JOIN addresses " "ON users.id = addresses.user_id) AS anon_1" ) def test_aliased_sql_construct_raises_adapt_on_names(self): User, Address = self.classes.User, self.classes.Address j = join(User, Address) assert_raises_message( sa_exc.ArgumentError, "adapt_on_names only applies to ORM elements", aliased, j, adapt_on_names=True ) def test_scalar_subquery_compile_whereclause(self): User = self.classes.User Address = self.classes.Address session = create_session() q = session.query(User.id).filter(User.id==7) q = session.query(Address).filter(Address.user_id==q) assert isinstance(q._criterion.right, expression.ColumnElement) self.assert_compile( q, "SELECT addresses.id AS addresses_id, addresses.user_id " "AS addresses_user_id, addresses.email_address AS " "addresses_email_address FROM addresses WHERE " "addresses.user_id = (SELECT users.id AS users_id " "FROM users WHERE users.id = :id_1)" ) def test_named_subquery(self): User = self.classes.User session = create_session() a1 = session.query(User.id).filter(User.id==7).subquery('foo1') a2 = session.query(User.id).filter(User.id==7).subquery(name='foo2') a3 = session.query(User.id).filter(User.id==7).subquery() eq_(a1.name, 'foo1') eq_(a2.name, 'foo2') eq_(a3.name, '%%(%d anon)s' % id(a3)) def test_labeled_subquery(self): User = self.classes.User session = create_session() a1 = session.query(User.id).filter(User.id == 7).subquery(with_labels=True) assert a1.c.users_id is not None def test_reduced_subquery(self): User = self.classes.User ua = aliased(User) session = create_session() a1 = session.query(User.id, ua.id, ua.name).\ filter(User.id == ua.id).subquery(reduce_columns=True) self.assert_compile(a1, "SELECT users.id, users_1.name FROM " "users, users AS users_1 WHERE users.id = users_1.id") def test_label(self): User = self.classes.User session = create_session() q = session.query(User.id).filter(User.id==7).label('foo') self.assert_compile( session.query(q), "SELECT (SELECT users.id FROM users WHERE users.id = :id_1) AS foo" ) def test_as_scalar(self): User = self.classes.User session = create_session() q = session.query(User.id).filter(User.id==7).as_scalar() self.assert_compile(session.query(User).filter(User.id.in_(q)), 'SELECT users.id AS users_id, users.name ' 'AS users_name FROM users WHERE users.id ' 'IN (SELECT users.id FROM users WHERE ' 'users.id = :id_1)') def test_param_transfer(self): User = self.classes.User session = create_session() q = session.query(User.id).filter(User.id == bindparam('foo')).\ params(foo=7).subquery() q = session.query(User).filter(User.id.in_(q)) eq_(User(id=7), q.one()) def test_in(self): User, Address = self.classes.User, self.classes.Address session = create_session() s = session.query(User.id).join(User.addresses).group_by(User.id).\ having(func.count(Address.id) > 2) eq_( session.query(User).filter(User.id.in_(s)).all(), [User(id=8)] ) def test_union(self): User = self.classes.User s = create_session() q1 = s.query(User).filter(User.name=='ed').with_labels() q2 = s.query(User).filter(User.name=='fred').with_labels() eq_( s.query(User).from_statement(union(q1, q2).order_by('users_name')).all(), [User(name='ed'), User(name='fred')] ) def test_select(self): User = self.classes.User s = create_session() # this is actually not legal on most DBs since the subquery has no alias q1 = s.query(User).filter(User.name=='ed') self.assert_compile( select([q1]), "SELECT users_id, users_name FROM (SELECT users.id AS users_id, " "users.name AS users_name FROM users WHERE users.name = :name_1)" ) def test_join(self): User, Address = self.classes.User, self.classes.Address s = create_session() # TODO: do we want aliased() to detect a query and convert to subquery() # automatically ? q1 = s.query(Address).filter(Address.email_address=='jack@bean.com') adalias = aliased(Address, q1.subquery()) eq_( s.query(User, adalias).join(adalias, User.id==adalias.user_id).all(), [(User(id=7,name='jack'), Address(email_address='jack@bean.com',user_id=7,id=1))] ) # more slice tests are available in test/orm/generative.py class SliceTest(QueryTest): def test_first(self): User = self.classes.User assert User(id=7) == create_session().query(User).first() assert create_session().query(User).filter(User.id==27).first() is None @testing.only_on('sqlite', 'testing execution but db-specific syntax') def test_limit_offset_applies(self): """Test that the expected LIMIT/OFFSET is applied for slices. The LIMIT/OFFSET syntax differs slightly on all databases, and query[x:y] executes immediately, so we are asserting against SQL strings using sqlite's syntax. """ User = self.classes.User sess = create_session() q = sess.query(User) self.assert_sql(testing.db, lambda: q[10:20], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users LIMIT :param_1 OFFSET :param_2", {'param_1':10, 'param_2':10}) ]) self.assert_sql(testing.db, lambda: q[:20], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users LIMIT :param_1 OFFSET :param_2", {'param_1':20, 'param_2':0}) ]) self.assert_sql(testing.db, lambda: q[5:], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users LIMIT :param_1 OFFSET :param_2", {'param_1':-1, 'param_2':5}) ]) self.assert_sql(testing.db, lambda: q[2:2], []) self.assert_sql(testing.db, lambda: q[-2:-5], []) self.assert_sql(testing.db, lambda: q[-5:-2], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users", {}) ]) self.assert_sql(testing.db, lambda: q[-5:], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users", {}) ]) self.assert_sql(testing.db, lambda: q[:], [ ("SELECT users.id AS users_id, users.name AS users_name FROM users", {}) ]) class FilterTest(QueryTest, AssertsCompiledSQL): __dialect__ = 'default' def test_basic(self): User = self.classes.User users = create_session().query(User).all() eq_( [User(id=7), User(id=8), User(id=9),User(id=10)], users ) @testing.requires.offset def test_limit_offset(self): User = self.classes.User sess = create_session() assert [User(id=8), User(id=9)] == sess.query(User).order_by(User.id).limit(2).offset(1).all() assert [User(id=8), User(id=9)] == list(sess.query(User).order_by(User.id)[1:3]) assert User(id=8) == sess.query(User).order_by(User.id)[1] assert [] == sess.query(User).order_by(User.id)[3:3] assert [] == sess.query(User).order_by(User.id)[0:0] @testing.requires.boolean_col_expressions def test_exists(self): User = self.classes.User sess = create_session(testing.db) assert sess.query(exists().where(User.id==9)).scalar() assert not sess.query(exists().where(User.id==29)).scalar() def test_one_filter(self): User = self.classes.User assert [User(id=8), User(id=9)] == create_session().query(User).filter(User.name.endswith('ed')).all() def test_contains(self): """test comparing a collection to an object instance.""" User, Address = self.classes.User, self.classes.Address sess = create_session() address = sess.query(Address).get(3) assert [User(id=8)] == sess.query(User).filter(User.addresses.contains(address)).all() try: sess.query(User).filter(User.addresses == address) assert False except sa_exc.InvalidRequestError: assert True assert [User(id=10)] == sess.query(User).filter(User.addresses==None).all() try: assert [User(id=7), User(id=9), User(id=10)] == sess.query(User).filter(User.addresses!=address).all() assert False except sa_exc.InvalidRequestError: assert True #assert [User(id=7), User(id=9), User(id=10)] == sess.query(User).filter(User.addresses!=address).all() def test_clause_element_ok(self): User = self.classes.User s = Session() self.assert_compile( s.query(User).filter(User.addresses), "SELECT users.id AS users_id, users.name AS users_name " "FROM users, addresses WHERE users.id = addresses.user_id" ) def test_unique_binds_join_cond(self): """test that binds used when the lazyclause is used in criterion are unique""" User, Address = self.classes.User, self.classes.Address sess = Session() a1, a2 = sess.query(Address).order_by(Address.id)[0:2] self.assert_compile( sess.query(User).filter(User.addresses.contains(a1)).union( sess.query(User).filter(User.addresses.contains(a2)) ), "SELECT anon_1.users_id AS anon_1_users_id, anon_1.users_name AS " "anon_1_users_name FROM (SELECT users.id AS users_id, " "users.name AS users_name FROM users WHERE users.id = :param_1 " "UNION SELECT users.id AS users_id, users.name AS users_name " "FROM users WHERE users.id = :param_2) AS anon_1", checkparams = {'param_1': 7, 'param_2': 8} ) def test_any(self): User, Address = self.classes.User, self.classes.Address sess = create_session() assert [User(id=8), User(id=9)] == sess.query(User).filter(User.addresses.any(Address.email_address.like('%ed%'))).all() assert [User(id=8)] == sess.query(User).filter(User.addresses.any(Address.email_address.like('%ed%'), id=4)).all() assert [User(id=8)] == sess.query(User).filter(User.addresses.any(Address.email_address.like('%ed%'))).\ filter(User.addresses.any(id=4)).all() assert [User(id=9)] == sess.query(User).filter(User.addresses.any(email_address='fred@fred.com')).all() # test that any() doesn't overcorrelate assert [User(id=7), User(id=8)] == sess.query(User).join("addresses").filter(~User.addresses.any(Address.email_address=='fred@fred.com')).all() # test that the contents are not adapted by the aliased join assert [User(id=7), User(id=8)] == sess.query(User).join("addresses", aliased=True).filter(~User.addresses.any(Address.email_address=='fred@fred.com')).all() assert [User(id=10)] == sess.query(User).outerjoin("addresses", aliased=True).filter(~User.addresses.any()).all() @testing.crashes('maxdb', 'can dump core') def test_has(self): Dingaling, User, Address = (self.classes.Dingaling, self.classes.User, self.classes.Address) sess = create_session() assert [Address(id=5)] == sess.query(Address).filter(Address.user.has(name='fred')).all() assert [Address(id=2), Address(id=3), Address(id=4), Address(id=5)] == \ sess.query(Address).filter(Address.user.has(User.name.like('%ed%'))).order_by(Address.id).all() assert [Address(id=2), Address(id=3), Address(id=4)] == \ sess.query(Address).filter(Address.user.has(User.name.like('%ed%'), id=8)).order_by(Address.id).all() # test has() doesn't overcorrelate assert [Address(id=2), Address(id=3), Address(id=4)] == \ sess.query(Address).join("user").filter(Address.user.has(User.name.like('%ed%'), id=8)).order_by(Address.id).all() # test has() doesnt' get subquery contents adapted by aliased join assert [Address(id=2), Address(id=3), Address(id=4)] == \ sess.query(Address).join("user", aliased=True).filter(Address.user.has(User.name.like('%ed%'), id=8)).order_by(Address.id).all() dingaling = sess.query(Dingaling).get(2) assert [User(id=9)] == sess.query(User).filter(User.addresses.any(Address.dingaling==dingaling)).all() def test_contains_m2m(self): Item, Order = self.classes.Item, self.classes.Order sess = create_session() item = sess.query(Item).get(3) assert [Order(id=1), Order(id=2), Order(id=3)] == sess.query(Order).filter(Order.items.contains(item)).all() assert [Order(id=4), Order(id=5)] == sess.query(Order).filter(~Order.items.contains(item)).all() item2 = sess.query(Item).get(5) assert [Order(id=3)] == sess.query(Order).filter(Order.items.contains(item)).filter(Order.items.contains(item2)).all() def test_comparison(self): """test scalar comparison to an object instance""" Item, Order, Dingaling, User, Address = (self.classes.Item, self.classes.Order, self.classes.Dingaling, self.classes.User, self.classes.Address) sess = create_session() user = sess.query(User).get(8) assert [Address(id=2), Address(id=3), Address(id=4)] == sess.query(Address).filter(Address.user==user).all() assert [Address(id=1), Address(id=5)] == sess.query(Address).filter(Address.user!=user).all() # generates an IS NULL assert [] == sess.query(Address).filter(Address.user == None).all() assert [] == sess.query(Address).filter(Address.user == null()).all() assert [Order(id=5)] == sess.query(Order).filter(Order.address == None).all() # o2o dingaling = sess.query(Dingaling).get(2) assert [Address(id=5)] == sess.query(Address).filter(Address.dingaling==dingaling).all() # m2m eq_(sess.query(Item).filter(Item.keywords==None).order_by(Item.id).all(), [Item(id=4), Item(id=5)]) eq_(sess.query(Item).filter(Item.keywords!=None).order_by(Item.id).all(), [Item(id=1),Item(id=2), Item(id=3)]) def test_filter_by(self): User, Address = self.classes.User, self.classes.Address sess = create_session() user = sess.query(User).get(8) assert [Address(id=2), Address(id=3), Address(id=4)] == sess.query(Address).filter_by(user=user).all() # many to one generates IS NULL assert [] == sess.query(Address).filter_by(user = None).all() assert [] == sess.query(Address).filter_by(user = null()).all() # one to many generates WHERE NOT EXISTS assert [User(name='chuck')] == sess.query(User).filter_by(addresses = None).all() assert [User(name='chuck')] == sess.query(User).filter_by(addresses = null()).all() def test_filter_by_tables(self): users = self.tables.users addresses = self.tables.addresses sess = create_session() self.assert_compile( sess.query(users).\ filter_by(name='ed').\ join(addresses, users.c.id==addresses.c.user_id).\ filter_by(email_address='ed@ed.com'), "SELECT users.id AS users_id, users.name AS users_name " "FROM users JOIN addresses ON users.id = addresses.user_id " "WHERE users.name = :name_1 AND " "addresses.email_address = :email_address_1", checkparams={'email_address_1': 'ed@ed.com', 'name_1': 'ed'} ) def test_filter_by_no_property(self): addresses = self.tables.addresses sess = create_session() assert_raises_message( sa.exc.InvalidRequestError, "Entity 'addresses' has no property 'name'", sess.query(addresses).\ filter_by, name='ed' ) def test_none_comparison(self): Order, User, Address = (self.classes.Order, self.classes.User, self.classes.Address) sess = create_session() # scalar eq_( [Order(description="order 5")], sess.query(Order).filter(Order.address_id==None).all() ) eq_( [Order(description="order 5")], sess.query(Order).filter(Order.address_id==null()).all() ) # o2o eq_([Address(id=1), Address(id=3), Address(id=4)], sess.query(Address).filter(Address.dingaling==None).order_by(Address.id).all()) eq_([Address(id=1), Address(id=3), Address(id=4)], sess.query(Address).filter(Address.dingaling==null()).order_by(Address.id).all()) eq_([Address(id=2), Address(id=5)], sess.query(Address).filter(Address.dingaling != None).order_by(Address.id).all()) eq_([Address(id=2), Address(id=5)], sess.query(Address).filter(Address.dingaling != null()).order_by(Address.id).all()) # m2o eq_([Order(id=5)], sess.query(Order).filter(Order.address==None).all()) eq_([Order(id=1), Order(id=2), Order(id=3), Order(id=4)], sess.query(Order).order_by(Order.id).filter(Order.address!=None).all()) # o2m eq_([User(id=10)], sess.query(User).filter(User.addresses==None).all()) eq_([User(id=7),User(id=8),User(id=9)], sess.query(User).filter(User.addresses!=None).order_by(User.id).all()) def test_blank_filter_by(self): User = self.classes.User eq_( [(7,), (8,), (9,), (10,)], create_session().query(User.id).filter_by().order_by(User.id).all() ) eq_( [(7,), (8,), (9,), (10,)], create_session().query(User.id).filter_by(**{}).order_by(User.id).all() ) def test_text_coerce(self): User = self.classes.User s = create_session() self.assert_compile( s.query(User).filter("name='ed'"), "SELECT users.id AS users_id, users.name " "AS users_name FROM users WHERE name='ed'" ) class SetOpsTest(QueryTest, AssertsCompiledSQL): __dialect__ = 'default' def test_union(self): User = self.classes.User s = create_session() fred = s.query(User).filter(User.name=='fred') ed = s.query(User).filter(User.name=='ed') jack = s.query(User).filter(User.name=='jack') eq_(fred.union(ed).order_by(User.name).all(), [User(name='ed'), User(name='fred')] ) eq_(fred.union(ed, jack).order_by(User.name).all(), [User(name='ed'), User(name='fred'), User(name='jack')] ) def test_statement_labels(self): """test that label conflicts don't occur with joins etc.""" User, Address = self.classes.User, self.classes.Address s = create_session() q1 = s.query(User, Address).join(User.addresses).\ filter(Address.email_address=="ed@wood.com") q2 = s.query(User, Address).join(User.addresses).\ filter(Address.email_address=="jack@bean.com") q3 = q1.union(q2).order_by(User.name) eq_( q3.all(), [ (User(name='ed'), Address(email_address="ed@wood.com")), (User(name='jack'), Address(email_address="jack@bean.com")), ] ) def test_union_literal_expressions_compile(self): """test that column expressions translate during the _from_statement() portion of union(), others""" User = self.classes.User s = Session() q1 = s.query(User, literal("x")) q2 = s.query(User, literal_column("'y'")) q3 = q1.union(q2) self.assert_compile( q3, "SELECT anon_1.users_id AS anon_1_users_id, anon_1.users_name AS anon_1_users_name," " anon_1.param_1 AS anon_1_param_1 FROM (SELECT users.id AS users_id, users.name AS" " users_name, :param_1 AS param_1 FROM users UNION SELECT users.id AS users_id, " "users.name AS users_name, 'y' FROM users) AS anon_1" ) def test_union_literal_expressions_results(self): User = self.classes.User s = Session() q1 = s.query(User, literal("x")) q2 = s.query(User, literal_column("'y'")) q3 = q1.union(q2) q4 = s.query(User, literal_column("'x'").label('foo')) q5 = s.query(User, literal("y")) q6 = q4.union(q5) eq_( [x['name'] for x in q6.column_descriptions], ['User', 'foo'] ) for q in (q3.order_by(User.id, "anon_1_param_1"), q6.order_by(User.id, "foo")): eq_(q.all(), [ (User(id=7, name='jack'), 'x'), (User(id=7, name='jack'), 'y'), (User(id=8, name='ed'), 'x'), (User(id=8, name='ed'), 'y'), (User(id=9, name='fred'), 'x'), (User(id=9, name='fred'), 'y'), (User(id=10, name='chuck'), 'x'), (User(id=10, name='chuck'), 'y') ] ) def test_union_labeled_anonymous_columns(self): User = self.classes.User s = Session() c1, c2 = column('c1'), column('c2') q1 = s.query(User, c1.label('foo'), c1.label('bar')) q2 = s.query(User, c1.label('foo'), c2.label('bar')) q3 = q1.union(q2) eq_( [x['name'] for x in q3.column_descriptions], ['User', 'foo', 'bar'] ) self.assert_compile( q3, "SELECT anon_1.users_id AS anon_1_users_id, " "anon_1.users_name AS anon_1_users_name, " "anon_1.foo AS anon_1_foo, anon_1.bar AS anon_1_bar " "FROM (SELECT users.id AS users_id, users.name AS users_name, " "c1 AS foo, c1 AS bar FROM users UNION SELECT users.id AS " "users_id, users.name AS users_name, c1 AS foo, c2 AS bar " "FROM users) AS anon_1" ) def test_order_by_anonymous_col(self): User = self.classes.User s = Session() c1, c2 = column('c1'), column('c2') f = c1.label('foo') q1 = s.query(User, f, c2.label('bar')) q2 = s.query(User, c1.label('foo'), c2.label('bar')) q3 = q1.union(q2) self.assert_compile( q3.order_by(c1), "SELECT anon_1.users_id AS anon_1_users_id, anon_1.users_name AS " "anon_1_users_name, anon_1.foo AS anon_1_foo, anon_1.bar AS " "anon_1_bar FROM (SELECT users.id AS users_id, users.name AS " "users_name, c1 AS foo, c2 AS bar FROM users UNION SELECT users.id " "AS users_id, users.name AS users_name, c1 AS foo, c2 AS bar " "FROM users) AS anon_1 ORDER BY anon_1.foo" ) self.assert_compile( q3.order_by(f), "SELECT anon_1.users_id AS anon_1_users_id, anon_1.users_name AS " "anon_1_users_name, anon_1.foo AS anon_1_foo, anon_1.bar AS " "anon_1_bar FROM (SELECT users.id AS users_id, users.name AS " "users_name, c1 AS foo, c2 AS bar FROM users UNION SELECT users.id " "AS users_id, users.name AS users_name, c1 AS foo, c2 AS bar " "FROM users) AS anon_1 ORDER BY anon_1.foo" ) def test_union_mapped_colnames_preserved_across_subquery(self): User = self.classes.User s = Session() q1 = s.query(User.name) q2 = s.query(User.name) # the label names in the subquery are the typical anonymized ones self.assert_compile( q1.union(q2), "SELECT anon_1.users_name AS anon_1_users_name " "FROM (SELECT users.name AS users_name FROM users " "UNION SELECT users.name AS users_name FROM users) AS anon_1" ) # but in the returned named tuples, # due to [ticket:1942], this should be 'name', not 'users_name' eq_( [x['name'] for x in q1.union(q2).column_descriptions], ['name'] ) @testing.requires.intersect def test_intersect(self): User = self.classes.User s = create_session() fred = s.query(User).filter(User.name=='fred') ed = s.query(User).filter(User.name=='ed') jack = s.query(User).filter(User.name=='jack') eq_(fred.intersect(ed, jack).all(), [] ) eq_(fred.union(ed).intersect(ed.union(jack)).all(), [User(name='ed')] ) def test_eager_load(self): User, Address = self.classes.User, self.classes.Address s = create_session() fred = s.query(User).filter(User.name=='fred') ed = s.query(User).filter(User.name=='ed') jack = s.query(User).filter(User.name=='jack') def go(): eq_( fred.union(ed).order_by(User.name).options(joinedload(User.addresses)).all(), [ User(name='ed', addresses=[Address(), Address(), Address()]), User(name='fred', addresses=[Address()]) ] ) self.assert_sql_count(testing.db, go, 1) class AggregateTest(QueryTest): def test_sum(self): Order = self.classes.Order sess = create_session() orders = sess.query(Order).filter(Order.id.in_([2, 3, 4])) eq_(next(orders.values(func.sum(Order.user_id * Order.address_id))), (79,)) eq_(orders.value(func.sum(Order.user_id * Order.address_id)), 79) def test_apply(self): Order = self.classes.Order sess = create_session() assert sess.query(func.sum(Order.user_id * Order.address_id)).filter(Order.id.in_([2, 3, 4])).one() == (79,) def test_having(self): User, Address = self.classes.User, self.classes.Address sess = create_session() assert [User(name='ed',id=8)] == sess.query(User).order_by(User.id).group_by(User).join('addresses').having(func.count(Address.id)> 2).all() assert [User(name='jack',id=7), User(name='fred',id=9)] == sess.query(User).order_by(User.id).group_by(User).join('addresses').having(func.count(Address.id)< 2).all() class ExistsTest(QueryTest, AssertsCompiledSQL): def test_exists(self): User = self.classes.User sess = create_session() q1 = sess.query(User) self.assert_compile(sess.query(q1.exists()), 'SELECT EXISTS (' 'SELECT 1 FROM users' ') AS anon_1', dialect=default.DefaultDialect() ) q2 = sess.query(User).filter(User.name == 'fred') self.assert_compile(sess.query(q2.exists()), 'SELECT EXISTS (' 'SELECT 1 FROM users WHERE users.name = :name_1' ') AS anon_1', dialect=default.DefaultDialect() ) class CountTest(QueryTest): def test_basic(self): users, User = self.tables.users, self.classes.User s = create_session() eq_(s.query(User).count(), 4) eq_(s.query(User).filter(users.c.name.endswith('ed')).count(), 2) def test_count_char(self): User = self.classes.User s = create_session() # '*' is favored here as the most common character, # it is reported that Informix doesn't like count(1), # rumors about Oracle preferring count(1) don't appear # to be well founded. self.assert_sql_execution( testing.db, s.query(User).count, CompiledSQL( "SELECT count(*) AS count_1 FROM " "(SELECT users.id AS users_id, users.name " "AS users_name FROM users) AS anon_1", {} ) ) def test_multiple_entity(self): User, Address = self.classes.User, self.classes.Address s = create_session() q = s.query(User, Address) eq_(q.count(), 20) # cartesian product q = s.query(User, Address).join(User.addresses) eq_(q.count(), 5) def test_nested(self): User, Address = self.classes.User, self.classes.Address s = create_session() q = s.query(User, Address).limit(2) eq_(q.count(), 2) q = s.query(User, Address).limit(100) eq_(q.count(), 20) q = s.query(User, Address).join(User.addresses).limit(100) eq_(q.count(), 5) def test_cols(self): """test that column-based queries always nest.""" User, Address = self.classes.User, self.classes.Address s = create_session() q = s.query(func.count(distinct(User.name))) eq_(q.count(), 1) q = s.query(func.count(distinct(User.name))).distinct() eq_(q.count(), 1) q = s.query(User.name) eq_(q.count(), 4) q = s.query(User.name, Address) eq_(q.count(), 20) q = s.query(Address.user_id) eq_(q.count(), 5) eq_(q.distinct().count(), 3) class DistinctTest(QueryTest): def test_basic(self): User = self.classes.User eq_( [User(id=7), User(id=8), User(id=9),User(id=10)], create_session().query(User).order_by(User.id).distinct().all() ) eq_( [User(id=7), User(id=9), User(id=8),User(id=10)], create_session().query(User).distinct().order_by(desc(User.name)).all() ) def test_joined(self): """test that orderbys from a joined table get placed into the columns clause when DISTINCT is used""" User, Address = self.classes.User, self.classes.Address sess = create_session() q = sess.query(User).join('addresses').distinct().order_by(desc(Address.email_address)) assert [User(id=7), User(id=9), User(id=8)] == q.all() sess.expunge_all() # test that it works on embedded joinedload/LIMIT subquery q = sess.query(User).join('addresses').distinct().options(joinedload('addresses')).order_by(desc(Address.email_address)).limit(2) def go(): assert [ User(id=7, addresses=[ Address(id=1) ]), User(id=9, addresses=[ Address(id=5) ]), ] == q.all() self.assert_sql_count(testing.db, go, 1) class PrefixWithTest(QueryTest, AssertsCompiledSQL): def test_one_prefix(self): User = self.classes.User sess = create_session() query = sess.query(User.name)\ .prefix_with('PREFIX_1') expected = "SELECT PREFIX_1 "\ "users.name AS users_name FROM users" self.assert_compile(query, expected, dialect=default.DefaultDialect() ) def test_many_prefixes(self): User = self.classes.User sess = create_session() query = sess.query(User.name)\ .prefix_with('PREFIX_1', 'PREFIX_2') expected = "SELECT PREFIX_1 PREFIX_2 "\ "users.name AS users_name FROM users" self.assert_compile(query, expected, dialect=default.DefaultDialect() ) def test_chained_prefixes(self): User = self.classes.User sess = create_session() query = sess.query(User.name)\ .prefix_with('PREFIX_1')\ .prefix_with('PREFIX_2', 'PREFIX_3') expected = "SELECT PREFIX_1 PREFIX_2 PREFIX_3 "\ "users.name AS users_name FROM users" self.assert_compile(query, expected, dialect=default.DefaultDialect() ) class YieldTest(QueryTest): def test_basic(self): User = self.classes.User sess = create_session() q = iter(sess.query(User).yield_per(1).from_statement("select * from users")) ret = [] eq_(len(sess.identity_map), 0) ret.append(next(q)) ret.append(next(q)) eq_(len(sess.identity_map), 2) ret.append(next(q)) ret.append(next(q)) eq_(len(sess.identity_map), 4) try: next(q) assert False except StopIteration: pass def test_yield_per_and_execution_options(self): User = self.classes.User sess = create_session() q = sess.query(User).yield_per(1) q = q.execution_options(foo='bar') assert q._yield_per eq_(q._execution_options, {"stream_results": True, "foo": "bar"}) class HintsTest(QueryTest, AssertsCompiledSQL): def test_hints(self): User = self.classes.User from sqlalchemy.dialects import mysql dialect = mysql.dialect() sess = create_session() self.assert_compile( sess.query(User).with_hint(User, 'USE INDEX (col1_index,col2_index)'), "SELECT users.id AS users_id, users.name AS users_name " "FROM users USE INDEX (col1_index,col2_index)", dialect=dialect ) self.assert_compile( sess.query(User).with_hint(User, 'WITH INDEX col1_index', 'sybase'), "SELECT users.id AS users_id, users.name AS users_name " "FROM users", dialect=dialect ) ualias = aliased(User) self.assert_compile( sess.query(User, ualias).with_hint(ualias, 'USE INDEX (col1_index,col2_index)'). join(ualias, ualias.id > User.id), "SELECT users.id AS users_id, users.name AS users_name, " "users_1.id AS users_1_id, users_1.name AS users_1_name " "FROM users INNER JOIN users AS users_1 USE INDEX (col1_index,col2_index) " "ON users.id < users_1.id", dialect=dialect ) class TextTest(QueryTest): def test_fulltext(self): User = self.classes.User eq_( create_session().query(User). from_statement("select * from users order by id").all(), [User(id=7), User(id=8), User(id=9), User(id=10)] ) eq_( create_session().query(User). from_statement("select * from users order by id").first(), User(id=7) ) eq_( create_session().query(User). from_statement( "select * from users where name='nonexistent'").first(), None ) def test_fragment(self): User = self.classes.User eq_( create_session().query(User).filter("id in (8, 9)").all(), [User(id=8), User(id=9)] ) eq_( create_session().query(User).filter("name='fred'"). filter("id=9").all(), [User(id=9)] ) eq_( create_session().query(User).filter("name='fred'"). filter(User.id == 9).all(), [User(id=9)] ) def test_binds(self): User = self.classes.User eq_( create_session().query(User).filter("id in (:id1, :id2)").\ params(id1=8, id2=9).all(), [User(id=8), User(id=9)] ) def test_as_column(self): User = self.classes.User s = create_session() assert_raises(sa_exc.InvalidRequestError, s.query, User.id, text("users.name")) eq_(s.query(User.id, "name").order_by(User.id).all(), [(7, 'jack'), (8, 'ed'), (9, 'fred'), (10, 'chuck')]) def test_via_select(self): User = self.classes.User s = create_session() eq_( s.query(User).from_statement( select(['id', 'name']).select_from('users').order_by('id'), ).all(), [User(id=7), User(id=8), User(id=9), User(id=10)] ) class ParentTest(QueryTest, AssertsCompiledSQL): __dialect__ = 'default' def test_o2m(self): User, orders, Order = (self.classes.User, self.tables.orders, self.classes.Order) sess = create_session() q = sess.query(User) u1 = q.filter_by(name='jack').one() # test auto-lookup of property o = sess.query(Order).with_parent(u1).all() assert [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")] == o # test with explicit property o = sess.query(Order).with_parent(u1, property='orders').all() assert [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")] == o o = sess.query(Order).with_parent(u1, property=User.orders).all() assert [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")] == o o = sess.query(Order).filter(with_parent(u1, User.orders)).all() assert [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")] == o # test generative criterion o = sess.query(Order).with_parent(u1).filter(orders.c.id>2).all() assert [Order(description="order 3"), Order(description="order 5")] == o # test against None for parent? this can't be done with the current API since we don't know # what mapper to use #assert sess.query(Order).with_parent(None, property='addresses').all() == [Order(description="order 5")] def test_noparent(self): Item, User = self.classes.Item, self.classes.User sess = create_session() q = sess.query(User) u1 = q.filter_by(name='jack').one() try: q = sess.query(Item).with_parent(u1) assert False except sa_exc.InvalidRequestError as e: assert str(e) \ == "Could not locate a property which relates "\ "instances of class 'Item' to instances of class 'User'" def test_m2m(self): Item, Keyword = self.classes.Item, self.classes.Keyword sess = create_session() i1 = sess.query(Item).filter_by(id=2).one() k = sess.query(Keyword).with_parent(i1).all() assert [Keyword(name='red'), Keyword(name='small'), Keyword(name='square')] == k def test_with_transient(self): User, Order = self.classes.User, self.classes.Order sess = Session() q = sess.query(User) u1 = q.filter_by(name='jack').one() utrans = User(id=u1.id) o = sess.query(Order).with_parent(utrans, 'orders') eq_( [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")], o.all() ) o = sess.query(Order).filter(with_parent(utrans, 'orders')) eq_( [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")], o.all() ) def test_with_pending_autoflush(self): Order, User = self.classes.Order, self.classes.User sess = Session() o1 = sess.query(Order).first() opending = Order(id=20, user_id=o1.user_id) sess.add(opending) eq_( sess.query(User).with_parent(opending, 'user').one(), User(id=o1.user_id) ) eq_( sess.query(User).filter(with_parent(opending, 'user')).one(), User(id=o1.user_id) ) def test_with_pending_no_autoflush(self): Order, User = self.classes.Order, self.classes.User sess = Session(autoflush=False) o1 = sess.query(Order).first() opending = Order(user_id=o1.user_id) sess.add(opending) eq_( sess.query(User).with_parent(opending, 'user').one(), User(id=o1.user_id) ) def test_unique_binds_union(self): """bindparams used in the 'parent' query are unique""" User, Address = self.classes.User, self.classes.Address sess = Session() u1, u2 = sess.query(User).order_by(User.id)[0:2] q1 = sess.query(Address).with_parent(u1, 'addresses') q2 = sess.query(Address).with_parent(u2, 'addresses') self.assert_compile( q1.union(q2), "SELECT anon_1.addresses_id AS anon_1_addresses_id, " "anon_1.addresses_user_id AS anon_1_addresses_user_id, " "anon_1.addresses_email_address AS " "anon_1_addresses_email_address FROM (SELECT addresses.id AS " "addresses_id, addresses.user_id AS addresses_user_id, " "addresses.email_address AS addresses_email_address FROM " "addresses WHERE :param_1 = addresses.user_id UNION SELECT " "addresses.id AS addresses_id, addresses.user_id AS " "addresses_user_id, addresses.email_address AS addresses_email_address " "FROM addresses WHERE :param_2 = addresses.user_id) AS anon_1", checkparams={'param_1': 7, 'param_2': 8}, ) def test_unique_binds_or(self): User, Address = self.classes.User, self.classes.Address sess = Session() u1, u2 = sess.query(User).order_by(User.id)[0:2] self.assert_compile( sess.query(Address).filter( or_(with_parent(u1, 'addresses'), with_parent(u2, 'addresses')) ), "SELECT addresses.id AS addresses_id, addresses.user_id AS " "addresses_user_id, addresses.email_address AS " "addresses_email_address FROM addresses WHERE " ":param_1 = addresses.user_id OR :param_2 = addresses.user_id", checkparams={'param_1': 7, 'param_2': 8}, ) class SynonymTest(QueryTest): @classmethod def setup_mappers(cls): users, Keyword, items, order_items, orders, Item, User, \ Address, keywords, Order, item_keywords, addresses = \ cls.tables.users, cls.classes.Keyword, cls.tables.items, \ cls.tables.order_items, cls.tables.orders, \ cls.classes.Item, cls.classes.User, cls.classes.Address, \ cls.tables.keywords, cls.classes.Order, \ cls.tables.item_keywords, cls.tables.addresses mapper(User, users, properties={ 'name_syn':synonym('name'), 'addresses':relationship(Address), 'orders':relationship(Order, backref='user', order_by=orders.c.id), # o2m, m2o 'orders_syn':synonym('orders'), 'orders_syn_2':synonym('orders_syn') }) mapper(Address, addresses) mapper(Order, orders, properties={ 'items':relationship(Item, secondary=order_items), #m2m 'address':relationship(Address), # m2o 'items_syn':synonym('items') }) mapper(Item, items, properties={ 'keywords':relationship(Keyword, secondary=item_keywords) #m2m }) mapper(Keyword, keywords) def test_options(self): User, Order = self.classes.User, self.classes.Order s = create_session() def go(): result = s.query(User).filter_by(name='jack').\ options(joinedload(User.orders_syn)).all() eq_(result, [ User(id=7, name='jack', orders=[ Order(description='order 1'), Order(description='order 3'), Order(description='order 5') ]) ]) self.assert_sql_count(testing.db, go, 1) def test_options_syn_of_syn(self): User, Order = self.classes.User, self.classes.Order s = create_session() def go(): result = s.query(User).filter_by(name='jack').\ options(joinedload(User.orders_syn_2)).all() eq_(result, [ User(id=7, name='jack', orders=[ Order(description='order 1'), Order(description='order 3'), Order(description='order 5') ]) ]) self.assert_sql_count(testing.db, go, 1) def test_options_syn_of_syn_string(self): User, Order = self.classes.User, self.classes.Order s = create_session() def go(): result = s.query(User).filter_by(name='jack').\ options(joinedload('orders_syn_2')).all() eq_(result, [ User(id=7, name='jack', orders=[ Order(description='order 1'), Order(description='order 3'), Order(description='order 5') ]) ]) self.assert_sql_count(testing.db, go, 1) def test_joins(self): User, Order = self.classes.User, self.classes.Order for j in ( ['orders', 'items'], ['orders_syn', 'items'], [User.orders_syn, Order.items], ['orders_syn_2', 'items'], [User.orders_syn_2, 'items'], ['orders', 'items_syn'], ['orders_syn', 'items_syn'], ['orders_syn_2', 'items_syn'], ): result = create_session().query(User).join(*j).filter_by(id=3).all() assert [User(id=7, name='jack'), User(id=9, name='fred')] == result def test_with_parent(self): Order, User = self.classes.Order, self.classes.User for nameprop, orderprop in ( ('name', 'orders'), ('name_syn', 'orders'), ('name', 'orders_syn'), ('name', 'orders_syn_2'), ('name_syn', 'orders_syn'), ('name_syn', 'orders_syn_2'), ): sess = create_session() q = sess.query(User) u1 = q.filter_by(**{nameprop:'jack'}).one() o = sess.query(Order).with_parent(u1, property=orderprop).all() assert [Order(description="order 1"), Order(description="order 3"), Order(description="order 5")] == o class ImmediateTest(_fixtures.FixtureTest): run_inserts = 'once' run_deletes = None @classmethod def setup_mappers(cls): Address, addresses, users, User = (cls.classes.Address, cls.tables.addresses, cls.tables.users, cls.classes.User) mapper(Address, addresses) mapper(User, users, properties=dict( addresses=relationship(Address))) def test_one(self): User, Address = self.classes.User, self.classes.Address sess = create_session() assert_raises(sa.orm.exc.NoResultFound, sess.query(User).filter(User.id == 99).one) eq_(sess.query(User).filter(User.id == 7).one().id, 7) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User).one) assert_raises( sa.orm.exc.NoResultFound, sess.query(User.id, User.name).filter(User.id == 99).one) eq_(sess.query(User.id, User.name).filter(User.id == 7).one(), (7, 'jack')) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User.id, User.name).one) assert_raises(sa.orm.exc.NoResultFound, (sess.query(User, Address). join(User.addresses). filter(Address.id == 99)).one) eq_((sess.query(User, Address). join(User.addresses). filter(Address.id == 4)).one(), (User(id=8), Address(id=4))) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User, Address).join(User.addresses).one) # this result returns multiple rows, the first # two rows being the same. but uniquing is # not applied for a column based result. assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User.id). join(User.addresses). filter(User.id.in_([8, 9])). order_by(User.id). one) # test that a join which ultimately returns # multiple identities across many rows still # raises, even though the first two rows are of # the same identity and unique filtering # is applied ([ticket:1688]) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User). join(User.addresses). filter(User.id.in_([8, 9])). order_by(User.id). one) @testing.future def test_getslice(self): assert False def test_scalar(self): User = self.classes.User sess = create_session() eq_(sess.query(User.id).filter_by(id=7).scalar(), 7) eq_(sess.query(User.id, User.name).filter_by(id=7).scalar(), 7) eq_(sess.query(User.id).filter_by(id=0).scalar(), None) eq_(sess.query(User).filter_by(id=7).scalar(), sess.query(User).filter_by(id=7).one()) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User).scalar) assert_raises(sa.orm.exc.MultipleResultsFound, sess.query(User.id, User.name).scalar) def test_value(self): User = self.classes.User sess = create_session() eq_(sess.query(User).filter_by(id=7).value(User.id), 7) eq_(sess.query(User.id, User.name).filter_by(id=7).value(User.id), 7) eq_(sess.query(User).filter_by(id=0).value(User.id), None) sess.bind = testing.db eq_(sess.query().value(sa.literal_column('1').label('x')), 1) class ExecutionOptionsTest(QueryTest): def test_option_building(self): User = self.classes.User sess = create_session(bind=testing.db, autocommit=False) q1 = sess.query(User) assert q1._execution_options == dict() q2 = q1.execution_options(foo='bar', stream_results=True) # q1's options should be unchanged. assert q1._execution_options == dict() # q2 should have them set. assert q2._execution_options == dict(foo='bar', stream_results=True) q3 = q2.execution_options(foo='not bar', answer=42) assert q2._execution_options == dict(foo='bar', stream_results=True) q3_options = dict(foo='not bar', stream_results=True, answer=42) assert q3._execution_options == q3_options def test_options_in_connection(self): User = self.classes.User execution_options = dict(foo='bar', stream_results=True) class TQuery(Query): def instances(self, result, ctx): try: eq_( result.connection._execution_options, execution_options ) finally: result.close() return iter([]) sess = create_session(bind=testing.db, autocommit=False, query_cls=TQuery) q1 = sess.query(User).execution_options(**execution_options) q1.all() class OptionsTest(QueryTest): """Test the _process_paths() method of PropertyOption.""" def _option_fixture(self, *arg): from sqlalchemy.orm import interfaces class Opt(interfaces.PropertyOption): pass return Opt(arg) def _make_path(self, path): r = [] for i, item in enumerate(path): if i % 2 == 0: if isinstance(item, type): item = class_mapper(item) else: if isinstance(item, str): item = inspect(r[-1]).mapper.attrs[item] r.append(item) return tuple(r) def _make_path_registry(self, path): return orm_util.PathRegistry.coerce(self._make_path(path)) def _assert_path_result(self, opt, q, paths): q._attributes = q._attributes.copy() assert_paths = opt._process_paths(q, False) eq_( [p.path for p in assert_paths], [self._make_path(p) for p in paths] ) def test_get_path_one_level_string(self): User = self.classes.User sess = Session() q = sess.query(User) opt = self._option_fixture("addresses") self._assert_path_result(opt, q, [(User, 'addresses')]) def test_get_path_one_level_attribute(self): User = self.classes.User sess = Session() q = sess.query(User) opt = self._option_fixture(User.addresses) self._assert_path_result(opt, q, [(User, 'addresses')]) def test_path_on_entity_but_doesnt_match_currentpath(self): User, Address = self.classes.User, self.classes.Address # ensure "current path" is fully consumed before # matching against current entities. # see [ticket:2098] sess = Session() q = sess.query(User) opt = self._option_fixture('email_address', 'id') q = sess.query(Address)._with_current_path( orm_util.PathRegistry.coerce([inspect(User), inspect(User).attrs.addresses]) ) self._assert_path_result(opt, q, []) def test_get_path_one_level_with_unrelated(self): Order = self.classes.Order sess = Session() q = sess.query(Order) opt = self._option_fixture("addresses") self._assert_path_result(opt, q, []) def test_path_multilevel_string(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(User) opt = self._option_fixture("orders.items.keywords") self._assert_path_result(opt, q, [ (User, 'orders'), (User, 'orders', Order, 'items'), (User, 'orders', Order, 'items', Item, 'keywords') ]) def test_path_multilevel_attribute(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(User) opt = self._option_fixture(User.orders, Order.items, Item.keywords) self._assert_path_result(opt, q, [ (User, 'orders'), (User, 'orders', Order, 'items'), (User, 'orders', Order, 'items', Item, 'keywords') ]) def test_with_current_matching_string(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(Item)._with_current_path( self._make_path_registry([User, 'orders', Order, 'items']) ) opt = self._option_fixture("orders.items.keywords") self._assert_path_result(opt, q, [ (Item, 'keywords') ]) def test_with_current_matching_attribute(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(Item)._with_current_path( self._make_path_registry([User, 'orders', Order, 'items']) ) opt = self._option_fixture(User.orders, Order.items, Item.keywords) self._assert_path_result(opt, q, [ (Item, 'keywords') ]) def test_with_current_nonmatching_string(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(Item)._with_current_path( self._make_path_registry([User, 'orders', Order, 'items']) ) opt = self._option_fixture("keywords") self._assert_path_result(opt, q, []) opt = self._option_fixture("items.keywords") self._assert_path_result(opt, q, []) def test_with_current_nonmatching_attribute(self): Item, User, Order = (self.classes.Item, self.classes.User, self.classes.Order) sess = Session() q = sess.query(Item)._with_current_path( self._make_path_registry([User, 'orders', Order, 'items']) ) opt = self._option_fixture(Item.keywords) self._assert_path_result(opt, q, []) opt = self._option_fixture(Order.items, Item.keywords) self._assert_path_result(opt, q, []) def test_from_base_to_subclass_attr(self): Dingaling, Address = self.classes.Dingaling, self.classes.Address sess = Session() class SubAddr(Address): pass mapper(SubAddr, inherits=Address, properties={ 'flub': relationship(Dingaling) }) q = sess.query(Address) opt = self._option_fixture(SubAddr.flub) self._assert_path_result(opt, q, [(SubAddr, 'flub')]) def test_from_subclass_to_subclass_attr(self): Dingaling, Address = self.classes.Dingaling, self.classes.Address sess = Session() class SubAddr(Address): pass mapper(SubAddr, inherits=Address, properties={ 'flub': relationship(Dingaling) }) q = sess.query(SubAddr) opt = self._option_fixture(SubAddr.flub) self._assert_path_result(opt, q, [(SubAddr, 'flub')]) def test_from_base_to_base_attr_via_subclass(self): Dingaling, Address = self.classes.Dingaling, self.classes.Address sess = Session() class SubAddr(Address): pass mapper(SubAddr, inherits=Address, properties={ 'flub': relationship(Dingaling) }) q = sess.query(Address) opt = self._option_fixture(SubAddr.user) self._assert_path_result(opt, q, [(Address, inspect(Address).attrs.user)]) def test_of_type(self): User, Address = self.classes.User, self.classes.Address sess = Session() class SubAddr(Address): pass mapper(SubAddr, inherits=Address) q = sess.query(User) opt = self._option_fixture(User.addresses.of_type(SubAddr), SubAddr.user) u_mapper = inspect(User) a_mapper = inspect(Address) self._assert_path_result(opt, q, [ (u_mapper, u_mapper.attrs.addresses), (u_mapper, u_mapper.attrs.addresses, a_mapper, a_mapper.attrs.user) ]) def test_of_type_plus_level(self): Dingaling, User, Address = (self.classes.Dingaling, self.classes.User, self.classes.Address) sess = Session() class SubAddr(Address): pass mapper(SubAddr, inherits=Address, properties={ 'flub': relationship(Dingaling) }) q = sess.query(User) opt = self._option_fixture(User.addresses.of_type(SubAddr), SubAddr.flub) u_mapper = inspect(User) sa_mapper = inspect(SubAddr) self._assert_path_result(opt, q, [ (u_mapper, u_mapper.attrs.addresses), (u_mapper, u_mapper.attrs.addresses, sa_mapper, sa_mapper.attrs.flub) ]) def test_aliased_single(self): User = self.classes.User sess = Session() ualias = aliased(User) q = sess.query(ualias) opt = self._option_fixture(ualias.addresses) self._assert_path_result(opt, q, [(inspect(ualias), 'addresses')]) def test_with_current_aliased_single(self): User, Address = self.classes.User, self.classes.Address sess = Session() ualias = aliased(User) q = sess.query(ualias)._with_current_path( self._make_path_registry([Address, 'user']) ) opt = self._option_fixture(Address.user, ualias.addresses) self._assert_path_result(opt, q, [(inspect(ualias), 'addresses')]) def test_with_current_aliased_single_nonmatching_option(self): User, Address = self.classes.User, self.classes.Address sess = Session() ualias = aliased(User) q = sess.query(User)._with_current_path( self._make_path_registry([Address, 'user']) ) opt = self._option_fixture(Address.user, ualias.addresses) self._assert_path_result(opt, q, []) def test_with_current_aliased_single_nonmatching_entity(self): User, Address = self.classes.User, self.classes.Address sess = Session() ualias = aliased(User) q = sess.query(ualias)._with_current_path( self._make_path_registry([Address, 'user']) ) opt = self._option_fixture(Address.user, User.addresses) self._assert_path_result(opt, q, []) def test_multi_entity_opt_on_second(self): Item = self.classes.Item Order = self.classes.Order opt = self._option_fixture(Order.items) sess = Session() q = sess.query(Item, Order) self._assert_path_result(opt, q, [(Order, "items")]) def test_multi_entity_opt_on_string(self): Item = self.classes.Item Order = self.classes.Order opt = self._option_fixture("items") sess = Session() q = sess.query(Item, Order) self._assert_path_result(opt, q, []) def test_multi_entity_no_mapped_entities(self): Item = self.classes.Item Order = self.classes.Order opt = self._option_fixture("items") sess = Session() q = sess.query(Item.id, Order.id) self._assert_path_result(opt, q, []) def test_path_exhausted(self): User = self.classes.User Item = self.classes.Item Order = self.classes.Order opt = self._option_fixture(User.orders) sess = Session() q = sess.query(Item)._with_current_path( self._make_path_registry([User, 'orders', Order, 'items']) ) self._assert_path_result(opt, q, []) class OptionsNoPropTest(_fixtures.FixtureTest): """test the error messages emitted when using property options in conjunection with column-only entities, or for not existing options """ run_create_tables = False run_inserts = None run_deletes = None def test_option_with_mapper_basestring(self): Item = self.classes.Item self._assert_option([Item], 'keywords') def test_option_with_mapper_PropCompatator(self): Item = self.classes.Item self._assert_option([Item], Item.keywords) def test_option_with_mapper_then_column_basestring(self): Item = self.classes.Item self._assert_option([Item, Item.id], 'keywords') def test_option_with_mapper_then_column_PropComparator(self): Item = self.classes.Item self._assert_option([Item, Item.id], Item.keywords) def test_option_with_column_then_mapper_basestring(self): Item = self.classes.Item self._assert_option([Item.id, Item], 'keywords') def test_option_with_column_then_mapper_PropComparator(self): Item = self.classes.Item self._assert_option([Item.id, Item], Item.keywords) def test_option_with_column_basestring(self): Item = self.classes.Item message = \ "Query has only expression-based entities - "\ "can't find property named 'keywords'." self._assert_eager_with_just_column_exception(Item.id, 'keywords', message) def test_option_with_column_PropComparator(self): Item = self.classes.Item self._assert_eager_with_just_column_exception(Item.id, Item.keywords, "Query has only expression-based entities " "- can't find property named 'keywords'." ) def test_option_against_nonexistent_PropComparator(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword], (joinedload(Item.keywords), ), r"Can't find property 'keywords' on any entity specified " r"in this Query. Note the full path from root " r"\(Mapper\|Keyword\|keywords\) to target entity must be specified." ) def test_option_against_nonexistent_basestring(self): Item = self.classes.Item self._assert_eager_with_entity_exception( [Item], (joinedload("foo"), ), r"Can't find property named 'foo' on the mapped " r"entity Mapper\|Item\|items in this Query." ) def test_option_against_nonexistent_twolevel_basestring(self): Item = self.classes.Item self._assert_eager_with_entity_exception( [Item], (joinedload("keywords.foo"), ), r"Can't find property named 'foo' on the mapped entity " r"Mapper\|Keyword\|keywords in this Query." ) def test_option_against_nonexistent_twolevel_all(self): Item = self.classes.Item self._assert_eager_with_entity_exception( [Item], (joinedload_all("keywords.foo"), ), r"Can't find property named 'foo' on the mapped entity " r"Mapper\|Keyword\|keywords in this Query." ) @testing.fails_if(lambda:True, "PropertyOption doesn't yet check for relation/column on end result") def test_option_against_non_relation_basestring(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all("keywords"), ), r"Attribute 'keywords' of entity 'Mapper\|Keyword\|keywords' " "does not refer to a mapped entity" ) @testing.fails_if(lambda:True, "PropertyOption doesn't yet check for relation/column on end result") def test_option_against_multi_non_relation_basestring(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all("keywords"), ), r"Attribute 'keywords' of entity 'Mapper\|Keyword\|keywords' " "does not refer to a mapped entity" ) def test_option_against_wrong_entity_type_basestring(self): Item = self.classes.Item self._assert_eager_with_entity_exception( [Item], (joinedload_all("id", "keywords"), ), r"Attribute 'id' of entity 'Mapper\|Item\|items' does not " r"refer to a mapped entity" ) def test_option_against_multi_non_relation_twolevel_basestring(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all("id", "keywords"), ), r"Attribute 'id' of entity 'Mapper\|Keyword\|keywords' " "does not refer to a mapped entity" ) def test_option_against_multi_nonexistent_basestring(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all("description"), ), r"Can't find property named 'description' on the mapped " r"entity Mapper\|Keyword\|keywords in this Query." ) def test_option_against_multi_no_entities_basestring(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword.id, Item.id], (joinedload_all("keywords"), ), r"Query has only expression-based entities - can't find property " "named 'keywords'." ) def test_option_against_wrong_multi_entity_type_attr_one(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all(Keyword.id, Item.keywords), ), r"Attribute 'Keyword.id' of entity 'Mapper\|Keyword\|keywords' " "does not refer to a mapped entity" ) def test_option_against_wrong_multi_entity_type_attr_two(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword, Item], (joinedload_all(Keyword.keywords, Item.keywords), ), r"Attribute 'Keyword.keywords' of entity 'Mapper\|Keyword\|keywords' " "does not refer to a mapped entity" ) def test_option_against_wrong_multi_entity_type_attr_three(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Keyword.id, Item.id], (joinedload_all(Keyword.keywords, Item.keywords), ), r"Query has only expression-based entities - " "can't find property named 'keywords'." ) def test_wrong_type_in_option(self): Item = self.classes.Item Keyword = self.classes.Keyword self._assert_eager_with_entity_exception( [Item], (joinedload_all(Keyword), ), r"mapper option expects string key or list of attributes" ) def test_non_contiguous_all_option(self): User = self.classes.User self._assert_eager_with_entity_exception( [User], (joinedload_all(User.addresses, User.orders), ), r"Attribute 'User.orders' does not link " "from element 'Mapper|Address|addresses'" ) @classmethod def setup_mappers(cls): users, User, addresses, Address, orders, Order = ( cls.tables.users, cls.classes.User, cls.tables.addresses, cls.classes.Address, cls.tables.orders, cls.classes.Order) mapper(User, users, properties={ 'addresses': relationship(Address), 'orders': relationship(Order) }) mapper(Address, addresses) mapper(Order, orders) keywords, items, item_keywords, Keyword, Item = (cls.tables.keywords, cls.tables.items, cls.tables.item_keywords, cls.classes.Keyword, cls.classes.Item) mapper(Keyword, keywords, properties={ "keywords": column_property(keywords.c.name + "some keyword") }) mapper(Item, items, properties=dict(keywords=relationship(Keyword, secondary=item_keywords))) def _assert_option(self, entity_list, option): Item = self.classes.Item q = create_session().query(*entity_list).\ options(joinedload(option)) key = ('loaderstrategy', (inspect(Item), inspect(Item).attrs.keywords)) assert key in q._attributes def _assert_eager_with_entity_exception(self, entity_list, options, message): assert_raises_message(sa.exc.ArgumentError, message, create_session().query(*entity_list).options, *options) def _assert_eager_with_just_column_exception(self, column, eager_option, message): assert_raises_message(sa.exc.ArgumentError, message, create_session().query(column).options, joinedload(eager_option))