import itertools from sqlalchemy import Boolean from sqlalchemy import exc as sa_exc from sqlalchemy import func from sqlalchemy import Integer from sqlalchemy import MetaData from sqlalchemy import select from sqlalchemy import Sequence from sqlalchemy import String from sqlalchemy import testing from sqlalchemy.testing import assert_raises_message from sqlalchemy.testing import AssertsExecutionResults from sqlalchemy.testing import engines from sqlalchemy.testing import eq_ from sqlalchemy.testing import fixtures from sqlalchemy.testing.schema import Column from sqlalchemy.testing.schema import Table from sqlalchemy.types import TypeDecorator table = GoofyType = seq = None class ReturningTest(fixtures.TestBase, AssertsExecutionResults): __requires__ = ("returning",) __backend__ = True def setup(self): meta = MetaData(testing.db) global table, GoofyType class GoofyType(TypeDecorator): impl = String def process_bind_param(self, value, dialect): if value is None: return None return "FOO" + value def process_result_value(self, value, dialect): if value is None: return None return value + "BAR" table = Table( "tables", meta, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ), Column("persons", Integer), Column("full", Boolean), Column("goofy", GoofyType(50)), ) table.create(checkfirst=True) def teardown(self): table.drop() def test_column_targeting(self): result = ( table.insert() .returning(table.c.id, table.c.full) .execute({"persons": 1, "full": False}) ) row = result.first() assert row[table.c.id] == row["id"] == 1 assert row[table.c.full] == row["full"] assert row["full"] is False result = ( table.insert() .values(persons=5, full=True, goofy="somegoofy") .returning(table.c.persons, table.c.full, table.c.goofy) .execute() ) row = result.first() assert row[table.c.persons] == row["persons"] == 5 assert row[table.c.full] == row["full"] eq_(row[table.c.goofy], row["goofy"]) eq_(row["goofy"], "FOOsomegoofyBAR") @testing.fails_on("firebird", "fb can't handle returning x AS y") def test_labeling(self): result = ( table.insert() .values(persons=6) .returning(table.c.persons.label("lala")) .execute() ) row = result.first() assert row["lala"] == 6 @testing.fails_on( "firebird", "fb/kintersbasdb can't handle the bind params" ) @testing.fails_on("oracle+zxjdbc", "JDBC driver bug") def test_anon_expressions(self): result = ( table.insert() .values(goofy="someOTHERgoofy") .returning(func.lower(table.c.goofy, type_=GoofyType)) .execute() ) row = result.first() eq_(row[0], "foosomeothergoofyBAR") result = ( table.insert() .values(persons=12) .returning(table.c.persons + 18) .execute() ) row = result.first() eq_(row[0], 30) def test_update_returning(self): table.insert().execute( [{"persons": 5, "full": False}, {"persons": 3, "full": False}] ) result = ( table.update(table.c.persons > 4, dict(full=True)) .returning(table.c.id) .execute() ) eq_(result.fetchall(), [(1,)]) result2 = ( select([table.c.id, table.c.full]).order_by(table.c.id).execute() ) eq_(result2.fetchall(), [(1, True), (2, False)]) def test_insert_returning(self): result = ( table.insert() .returning(table.c.id) .execute({"persons": 1, "full": False}) ) eq_(result.fetchall(), [(1,)]) @testing.requires.multivalues_inserts def test_multirow_returning(self): ins = ( table.insert() .returning(table.c.id, table.c.persons) .values( [ {"persons": 1, "full": False}, {"persons": 2, "full": True}, {"persons": 3, "full": False}, ] ) ) result = testing.db.execute(ins) eq_(result.fetchall(), [(1, 1), (2, 2), (3, 3)]) def test_no_ipk_on_returning(self): result = testing.db.execute( table.insert().returning(table.c.id), {"persons": 1, "full": False} ) assert_raises_message( sa_exc.InvalidRequestError, r"Can't call inserted_primary_key when returning\(\) is used.", getattr, result, "inserted_primary_key", ) @testing.fails_on_everything_except("postgresql", "firebird") def test_literal_returning(self): if testing.against("postgresql"): literal_true = "true" else: literal_true = "1" result4 = testing.db.execute( 'insert into tables (id, persons, "full") ' "values (5, 10, %s) returning persons" % literal_true ) eq_([dict(row) for row in result4], [{"persons": 10}]) def test_delete_returning(self): table.insert().execute( [{"persons": 5, "full": False}, {"persons": 3, "full": False}] ) result = ( table.delete(table.c.persons > 4).returning(table.c.id).execute() ) eq_(result.fetchall(), [(1,)]) result2 = ( select([table.c.id, table.c.full]).order_by(table.c.id).execute() ) eq_(result2.fetchall(), [(2, False)]) class CompositeStatementTest(fixtures.TestBase): __requires__ = ("returning",) __backend__ = True @testing.provide_metadata def test_select_doesnt_pollute_result(self): class MyType(TypeDecorator): impl = Integer def process_result_value(self, value, dialect): raise Exception("I have not been selected") t1 = Table("t1", self.metadata, Column("x", MyType())) t2 = Table("t2", self.metadata, Column("x", Integer)) self.metadata.create_all(testing.db) with testing.db.connect() as conn: conn.execute(t1.insert().values(x=5)) stmt = ( t2.insert() .values(x=select([t1.c.x]).as_scalar()) .returning(t2.c.x) ) result = conn.execute(stmt) eq_(result.scalar(), 5) class SequenceReturningTest(fixtures.TestBase): __requires__ = "returning", "sequences" __backend__ = True def setup(self): meta = MetaData(testing.db) global table, seq seq = Sequence("tid_seq") table = Table( "tables", meta, Column("id", Integer, seq, primary_key=True), Column("data", String(50)), ) table.create(checkfirst=True) def teardown(self): table.drop() def test_insert(self): r = table.insert().values(data="hi").returning(table.c.id).execute() assert r.first() == (1,) assert seq.execute() == 2 class KeyReturningTest(fixtures.TestBase, AssertsExecutionResults): """test returning() works with columns that define 'key'.""" __requires__ = ("returning",) __backend__ = True def setup(self): meta = MetaData(testing.db) global table table = Table( "tables", meta, Column( "id", Integer, primary_key=True, key="foo_id", test_needs_autoincrement=True, ), Column("data", String(20)), ) table.create(checkfirst=True) def teardown(self): table.drop() @testing.exclude("firebird", "<", (2, 0), "2.0+ feature") @testing.exclude("postgresql", "<", (8, 2), "8.2+ feature") def test_insert(self): result = ( table.insert().returning(table.c.foo_id).execute(data="somedata") ) row = result.first() assert row[table.c.foo_id] == row["id"] == 1 result = table.select().execute().first() assert row[table.c.foo_id] == row["id"] == 1 class ReturnDefaultsTest(fixtures.TablesTest): __requires__ = ("returning",) run_define_tables = "each" __backend__ = True @classmethod def define_tables(cls, metadata): from sqlalchemy.sql import ColumnElement from sqlalchemy.ext.compiler import compiles counter = itertools.count() class IncDefault(ColumnElement): pass @compiles(IncDefault) def compile_(element, compiler, **kw): return str(next(counter)) Table( "t1", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True ), Column("data", String(50)), Column("insdef", Integer, default=IncDefault()), Column("upddef", Integer, onupdate=IncDefault()), ) def test_chained_insert_pk(self): t1 = self.tables.t1 result = testing.db.execute( t1.insert().values(upddef=1).return_defaults(t1.c.insdef) ) eq_( [result.returned_defaults[k] for k in (t1.c.id, t1.c.insdef)], [1, 0], ) def test_arg_insert_pk(self): t1 = self.tables.t1 result = testing.db.execute( t1.insert(return_defaults=[t1.c.insdef]).values(upddef=1) ) eq_( [result.returned_defaults[k] for k in (t1.c.id, t1.c.insdef)], [1, 0], ) def test_chained_update_pk(self): t1 = self.tables.t1 testing.db.execute(t1.insert().values(upddef=1)) result = testing.db.execute( t1.update().values(data="d1").return_defaults(t1.c.upddef) ) eq_([result.returned_defaults[k] for k in (t1.c.upddef,)], [1]) def test_arg_update_pk(self): t1 = self.tables.t1 testing.db.execute(t1.insert().values(upddef=1)) result = testing.db.execute( t1.update(return_defaults=[t1.c.upddef]).values(data="d1") ) eq_([result.returned_defaults[k] for k in (t1.c.upddef,)], [1]) def test_insert_non_default(self): """test that a column not marked at all as a default works with this feature.""" t1 = self.tables.t1 result = testing.db.execute( t1.insert().values(upddef=1).return_defaults(t1.c.data) ) eq_( [result.returned_defaults[k] for k in (t1.c.id, t1.c.data)], [1, None], ) def test_update_non_default(self): """test that a column not marked at all as a default works with this feature.""" t1 = self.tables.t1 testing.db.execute(t1.insert().values(upddef=1)) result = testing.db.execute( t1.update().values(upddef=2).return_defaults(t1.c.data) ) eq_([result.returned_defaults[k] for k in (t1.c.data,)], [None]) def test_insert_non_default_plus_default(self): t1 = self.tables.t1 result = testing.db.execute( t1.insert() .values(upddef=1) .return_defaults(t1.c.data, t1.c.insdef) ) eq_( dict(result.returned_defaults), {"id": 1, "data": None, "insdef": 0}, ) def test_update_non_default_plus_default(self): t1 = self.tables.t1 testing.db.execute(t1.insert().values(upddef=1)) result = testing.db.execute( t1.update() .values(insdef=2) .return_defaults(t1.c.data, t1.c.upddef) ) eq_(dict(result.returned_defaults), {"data": None, "upddef": 1}) def test_insert_all(self): t1 = self.tables.t1 result = testing.db.execute( t1.insert().values(upddef=1).return_defaults() ) eq_( dict(result.returned_defaults), {"id": 1, "data": None, "insdef": 0}, ) def test_update_all(self): t1 = self.tables.t1 testing.db.execute(t1.insert().values(upddef=1)) result = testing.db.execute( t1.update().values(insdef=2).return_defaults() ) eq_(dict(result.returned_defaults), {"upddef": 1}) class ImplicitReturningFlag(fixtures.TestBase): __backend__ = True def test_flag_turned_off(self): e = engines.testing_engine(options={"implicit_returning": False}) assert e.dialect.implicit_returning is False c = e.connect() c.close() assert e.dialect.implicit_returning is False def test_flag_turned_on(self): e = engines.testing_engine(options={"implicit_returning": True}) assert e.dialect.implicit_returning is True c = e.connect() c.close() assert e.dialect.implicit_returning is True def test_flag_turned_default(self): supports = [False] def go(): supports[0] = True testing.requires.returning(go)() e = engines.testing_engine() # starts as False. This is because all of Firebird, # PostgreSQL, Oracle, SQL Server started supporting RETURNING # as of a certain version, and the flag is not set until # version detection occurs. If some DB comes along that has # RETURNING in all cases, this test can be adjusted. assert e.dialect.implicit_returning is False # version detection on connect sets it c = e.connect() c.close() assert e.dialect.implicit_returning is supports[0]