from sqlalchemy import and_ from sqlalchemy import exc from sqlalchemy import ForeignKey from sqlalchemy import func from sqlalchemy import INT from sqlalchemy import Integer from sqlalchemy import literal from sqlalchemy import MetaData from sqlalchemy import Sequence from sqlalchemy import sql from sqlalchemy import String from sqlalchemy import testing from sqlalchemy import VARCHAR from sqlalchemy.testing import assert_raises_message from sqlalchemy.testing import engines from sqlalchemy.testing import eq_ from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing.schema import Column from sqlalchemy.testing.schema import Table class ExpectExpr: def __init__(self, element): self.element = element def __clause_element__(self): return self.element class InsertExecTest(fixtures.TablesTest): __backend__ = True @classmethod def define_tables(cls, metadata): Table( "users", metadata, Column( "user_id", INT, primary_key=True, test_needs_autoincrement=True ), Column("user_name", VARCHAR(20)), test_needs_acid=True, ) @testing.requires.multivalues_inserts @testing.combinations("string", "column", "expect", argnames="keytype") def test_multivalues_insert(self, connection, keytype): users = self.tables.users if keytype == "string": user_id, user_name = "user_id", "user_name" elif keytype == "column": user_id, user_name = users.c.user_id, users.c.user_name elif keytype == "expect": user_id, user_name = ExpectExpr(users.c.user_id), ExpectExpr( users.c.user_name ) else: assert False connection.execute( users.insert().values( [ {user_id: 7, user_name: "jack"}, {user_id: 8, user_name: "ed"}, ] ) ) rows = connection.execute( users.select().order_by(users.c.user_id) ).all() eq_(rows[0], (7, "jack")) eq_(rows[1], (8, "ed")) connection.execute(users.insert().values([(9, "jack"), (10, "ed")])) rows = connection.execute( users.select().order_by(users.c.user_id) ).all() eq_(rows[2], (9, "jack")) eq_(rows[3], (10, "ed")) def test_insert_heterogeneous_params(self, connection): """test that executemany parameters are asserted to match the parameter set of the first.""" users = self.tables.users assert_raises_message( exc.StatementError, r"\(sqlalchemy.exc.InvalidRequestError\) A value is required for " "bind parameter 'user_name', in " "parameter group 2\n" r"\[SQL: u?INSERT INTO users", connection.execute, users.insert(), [ {"user_id": 7, "user_name": "jack"}, {"user_id": 8, "user_name": "ed"}, {"user_id": 9}, ], ) # this succeeds however. We aren't yet doing # a length check on all subsequent parameters. connection.execute( users.insert(), [ {"user_id": 7}, {"user_id": 8, "user_name": "ed"}, {"user_id": 9}, ], ) def _test_lastrow_accessor(self, table_, values, assertvalues): """Tests the inserted_primary_key and lastrow_has_id() functions.""" def insert_values(engine, table_, values): """ Inserts a row into a table, returns the full list of values INSERTed including defaults that fired off on the DB side and detects rows that had defaults and post-fetches. """ # verify implicit_returning is working if engine.dialect.implicit_returning: ins = table_.insert() comp = ins.compile(engine, column_keys=list(values)) if not set(values).issuperset( c.key for c in table_.primary_key ): is_(bool(comp.returning), True) with engine.begin() as connection: result = connection.execute(table_.insert(), values) ret = values.copy() ipk = result.inserted_primary_key for col, id_ in zip(table_.primary_key, ipk): ret[col.key] = id_ if result.lastrow_has_defaults(): criterion = and_( *[ col == id_ for col, id_ in zip( table_.primary_key, result.inserted_primary_key ) ] ) row = connection.execute( table_.select().where(criterion) ).first() for c in table_.c: ret[c.key] = row._mapping[c] return ret, ipk if testing.against("firebird", "postgresql", "oracle", "mssql"): assert testing.db.dialect.implicit_returning if testing.db.dialect.implicit_returning: test_engines = [ engines.testing_engine(options={"implicit_returning": False}), engines.testing_engine(options={"implicit_returning": True}), ] else: test_engines = [testing.db] for engine in test_engines: try: table_.create(bind=engine, checkfirst=True) i, ipk = insert_values(engine, table_, values) eq_(i, assertvalues) # named tuple tests for col in table_.primary_key: eq_(getattr(ipk, col.key), assertvalues[col.key]) eq_(ipk._mapping[col.key], assertvalues[col.key]) eq_( ipk._fields, tuple([col.key for col in table_.primary_key]) ) finally: table_.drop(bind=engine) @testing.skip_if("sqlite") def test_lastrow_accessor_one(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t1", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True, ), Column("foo", String(30), primary_key=True), ), {"foo": "hi"}, {"id": 1, "foo": "hi"}, ) @testing.skip_if("sqlite") def test_lastrow_accessor_two(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t2", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True, ), Column("foo", String(30), primary_key=True), Column("bar", String(30), server_default="hi"), ), {"foo": "hi"}, {"id": 1, "foo": "hi", "bar": "hi"}, ) def test_lastrow_accessor_three(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t3", metadata, Column("id", String(40), primary_key=True), Column("foo", String(30), primary_key=True), Column("bar", String(30)), ), {"id": "hi", "foo": "thisisfoo", "bar": "thisisbar"}, {"id": "hi", "foo": "thisisfoo", "bar": "thisisbar"}, ) @testing.requires.sequences def test_lastrow_accessor_four(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t4", metadata, Column( "id", Integer, Sequence("t4_id_seq", optional=True), primary_key=True, ), Column("foo", String(30), primary_key=True), Column("bar", String(30), server_default="hi"), ), {"foo": "hi", "id": 1}, {"id": 1, "foo": "hi", "bar": "hi"}, ) @testing.requires.sequences def test_lastrow_accessor_four_a(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t4", metadata, Column( "id", Integer, Sequence("t4_id_seq"), primary_key=True, ), Column("foo", String(30)), ), {"foo": "hi"}, {"id": 1, "foo": "hi"}, ) def test_lastrow_accessor_five(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t5", metadata, Column("id", String(10), primary_key=True), Column("bar", String(30), server_default="hi"), ), {"id": "id1"}, {"id": "id1", "bar": "hi"}, ) @testing.skip_if("sqlite") def test_lastrow_accessor_six(self): metadata = MetaData() self._test_lastrow_accessor( Table( "t6", metadata, Column( "id", Integer, primary_key=True, test_needs_autoincrement=True, ), Column("bar", Integer, primary_key=True), ), {"bar": 0}, {"id": 1, "bar": 0}, ) # TODO: why not in the sqlite suite? @testing.only_on("sqlite+pysqlite") @testing.provide_metadata def test_lastrowid_zero(self): from sqlalchemy.dialects import sqlite eng = engines.testing_engine() class ExcCtx(sqlite.base.SQLiteExecutionContext): def get_lastrowid(self): return 0 eng.dialect.execution_ctx_cls = ExcCtx t = Table( "t", self.metadata, Column("x", Integer, primary_key=True), Column("y", Integer), ) with eng.begin() as conn: t.create(conn) r = conn.execute(t.insert().values(y=5)) eq_(r.inserted_primary_key, (0,)) @testing.fails_on( "sqlite", "sqlite autoincrement doesn't work with composite pks" ) @testing.provide_metadata def test_misordered_lastrow(self, connection): metadata = self.metadata related = Table( "related", metadata, Column("id", Integer, primary_key=True), mysql_engine="MyISAM", mariadb_engine="MyISAM", ) t6 = Table( "t6", metadata, Column( "manual_id", Integer, ForeignKey("related.id"), primary_key=True, ), Column( "auto_id", Integer, primary_key=True, test_needs_autoincrement=True, ), mysql_engine="MyISAM", mariadb_engine="MyISAM", ) metadata.create_all(connection) r = connection.execute(related.insert().values(id=12)) id_ = r.inserted_primary_key[0] eq_(id_, 12) r = connection.execute(t6.insert().values(manual_id=id_)) eq_(r.inserted_primary_key, (12, 1)) def test_implicit_id_insert_select_columns(self, connection): users = self.tables.users stmt = users.insert().from_select( (users.c.user_id, users.c.user_name), users.select().where(users.c.user_id == 20), ) r = connection.execute(stmt) eq_(r.inserted_primary_key, (None,)) def test_implicit_id_insert_select_keys(self, connection): users = self.tables.users stmt = users.insert().from_select( ["user_id", "user_name"], users.select().where(users.c.user_id == 20), ) r = connection.execute(stmt) eq_(r.inserted_primary_key, (None,)) @testing.requires.empty_inserts @testing.requires.returning def test_no_inserted_pk_on_returning(self, connection): users = self.tables.users result = connection.execute( users.insert().returning(users.c.user_id, users.c.user_name) ) assert_raises_message( exc.InvalidRequestError, r"Can't call inserted_primary_key when returning\(\) is used.", getattr, result, "inserted_primary_key", ) class TableInsertTest(fixtures.TablesTest): """test for consistent insert behavior across dialects regarding the inline() method, lower-case 't' tables. """ run_create_tables = "each" __backend__ = True @classmethod def define_tables(cls, metadata): Table( "foo", metadata, Column( "id", Integer, Sequence("t_id_seq"), primary_key=True, ), Column("data", String(50)), Column("x", Integer), ) Table( "foo_no_seq", metadata, # note this will have full AUTO INCREMENT on MariaDB # whereas "foo" will not due to sequence support Column( "id", Integer, primary_key=True, ), Column("data", String(50)), Column("x", Integer), ) def _fixture(self, types=True): if types: t = sql.table( "foo", sql.column("id", Integer), sql.column("data", String), sql.column("x", Integer), ) else: t = sql.table( "foo", sql.column("id"), sql.column("data"), sql.column("x") ) return t def _test( self, connection, stmt, row, returning=None, inserted_primary_key=False, table=None, ): r = connection.execute(stmt) if returning: returned = r.first() eq_(returned, returning) elif inserted_primary_key is not False: eq_(r.inserted_primary_key, inserted_primary_key) if table is None: table = self.tables.foo eq_(connection.execute(table.select()).first(), row) def _test_multi(self, connection, stmt, rows, data): connection.execute(stmt, rows) eq_( connection.execute( self.tables.foo.select().order_by(self.tables.foo.c.id) ).all(), data, ) @testing.requires.sequences def test_explicit_sequence(self, connection): t = self._fixture() self._test( connection, t.insert().values( id=func.next_value(Sequence("t_id_seq")), data="data", x=5 ), (testing.db.dialect.default_sequence_base, "data", 5), ) def test_uppercase(self, connection): t = self.tables.foo self._test( connection, t.insert().values(id=1, data="data", x=5), (1, "data", 5), inserted_primary_key=(1,), ) def test_uppercase_inline(self, connection): t = self.tables.foo self._test( connection, t.insert().inline().values(id=1, data="data", x=5), (1, "data", 5), inserted_primary_key=(1,), ) @testing.crashes( "mssql+pyodbc", "Pyodbc + SQL Server + Py3K, some decimal handling issue", ) def test_uppercase_inline_implicit(self, connection): t = self.tables.foo self._test( connection, t.insert().inline().values(data="data", x=5), (1, "data", 5), inserted_primary_key=(None,), ) def test_uppercase_implicit(self, connection): t = self.tables.foo self._test( connection, t.insert().values(data="data", x=5), (testing.db.dialect.default_sequence_base, "data", 5), inserted_primary_key=(testing.db.dialect.default_sequence_base,), ) def test_uppercase_direct_params(self, connection): t = self.tables.foo self._test( connection, t.insert().values(id=1, data="data", x=5), (1, "data", 5), inserted_primary_key=(1,), ) @testing.requires.returning def test_uppercase_direct_params_returning(self, connection): t = self.tables.foo self._test( connection, t.insert().values(id=1, data="data", x=5).returning(t.c.id, t.c.x), (1, "data", 5), returning=(1, 5), ) @testing.requires.sql_expressions_inserted_as_primary_key def test_sql_expr_lastrowid(self, connection): # see also test.orm.test_unitofwork.py # ClauseAttributesTest.test_insert_pk_expression t = self.tables.foo_no_seq self._test( connection, t.insert().values(id=literal(5) + 10, data="data", x=5), (15, "data", 5), inserted_primary_key=(15,), table=self.tables.foo_no_seq, ) def test_direct_params(self, connection): t = self._fixture() self._test( connection, t.insert().values(id=1, data="data", x=5), (1, "data", 5), inserted_primary_key=(), ) @testing.requires.returning def test_direct_params_returning(self, connection): t = self._fixture() self._test( connection, t.insert().values(id=1, data="data", x=5).returning(t.c.id, t.c.x), (testing.db.dialect.default_sequence_base, "data", 5), returning=(testing.db.dialect.default_sequence_base, 5), ) # there's a non optional Sequence in the metadata, which if the dialect # supports sequences, it means the CREATE TABLE should *not* have # autoincrement, so the INSERT below would fail because the "t" fixture # does not indicate the Sequence @testing.fails_if(testing.requires.sequences) @testing.requires.emulated_lastrowid def test_implicit_pk(self, connection): t = self._fixture() self._test( connection, t.insert().values(data="data", x=5), (testing.db.dialect.default_sequence_base, "data", 5), inserted_primary_key=(), ) @testing.fails_if(testing.requires.sequences) @testing.requires.emulated_lastrowid def test_implicit_pk_multi_rows(self, connection): t = self._fixture() self._test_multi( connection, t.insert(), [ {"data": "d1", "x": 5}, {"data": "d2", "x": 6}, {"data": "d3", "x": 7}, ], [(1, "d1", 5), (2, "d2", 6), (3, "d3", 7)], ) @testing.fails_if(testing.requires.sequences) @testing.requires.emulated_lastrowid def test_implicit_pk_inline(self, connection): t = self._fixture() self._test( connection, t.insert().inline().values(data="data", x=5), (testing.db.dialect.default_sequence_base, "data", 5), inserted_primary_key=(), )