Server IP : 66.29.132.122 / Your IP : 18.218.146.251 Web Server : LiteSpeed System : Linux business142.web-hosting.com 4.18.0-553.lve.el8.x86_64 #1 SMP Mon May 27 15:27:34 UTC 2024 x86_64 User : admazpex ( 531) PHP Version : 7.2.34 Disable Function : NONE MySQL : OFF | cURL : ON | WGET : ON | Perl : ON | Python : ON | Sudo : OFF | Pkexec : OFF Directory : /proc/thread-self/root/proc/self/root/proc/self/root/opt/hc_python/lib64/python3.8/site-packages/sqlalchemy/testing/suite/ |
Upload File : |
# testing/suite/test_rowcount.py # Copyright (C) 2005-2024 the SQLAlchemy authors and contributors # <see AUTHORS file> # # This module is part of SQLAlchemy and is released under # the MIT License: https://www.opensource.org/licenses/mit-license.php # mypy: ignore-errors from sqlalchemy import bindparam from sqlalchemy import Column from sqlalchemy import Integer from sqlalchemy import MetaData from sqlalchemy import select from sqlalchemy import String from sqlalchemy import Table from sqlalchemy import testing from sqlalchemy import text from sqlalchemy.testing import eq_ from sqlalchemy.testing import fixtures class RowCountTest(fixtures.TablesTest): """test rowcount functionality""" __requires__ = ("sane_rowcount",) __backend__ = True @classmethod def define_tables(cls, metadata): Table( "employees", metadata, Column( "employee_id", Integer, autoincrement=False, primary_key=True, ), Column("name", String(50)), Column("department", String(1)), ) @classmethod def insert_data(cls, connection): cls.data = data = [ ("Angela", "A"), ("Andrew", "A"), ("Anand", "A"), ("Bob", "B"), ("Bobette", "B"), ("Buffy", "B"), ("Charlie", "C"), ("Cynthia", "C"), ("Chris", "C"), ] employees_table = cls.tables.employees connection.execute( employees_table.insert(), [ {"employee_id": i, "name": n, "department": d} for i, (n, d) in enumerate(data) ], ) def test_basic(self, connection): employees_table = self.tables.employees s = select( employees_table.c.name, employees_table.c.department ).order_by(employees_table.c.employee_id) rows = connection.execute(s).fetchall() eq_(rows, self.data) @testing.variation("statement", ["update", "delete", "insert", "select"]) @testing.variation("close_first", [True, False]) def test_non_rowcount_scenarios_no_raise( self, connection, statement, close_first ): employees_table = self.tables.employees # WHERE matches 3, 3 rows changed department = employees_table.c.department if statement.update: r = connection.execute( employees_table.update().where(department == "C"), {"department": "Z"}, ) elif statement.delete: r = connection.execute( employees_table.delete().where(department == "C"), {"department": "Z"}, ) elif statement.insert: r = connection.execute( employees_table.insert(), [ {"employee_id": 25, "name": "none 1", "department": "X"}, {"employee_id": 26, "name": "none 2", "department": "Z"}, {"employee_id": 27, "name": "none 3", "department": "Z"}, ], ) elif statement.select: s = select( employees_table.c.name, employees_table.c.department ).where(employees_table.c.department == "C") r = connection.execute(s) r.all() else: statement.fail() if close_first: r.close() assert r.rowcount in (-1, 3) def test_update_rowcount1(self, connection): employees_table = self.tables.employees # WHERE matches 3, 3 rows changed department = employees_table.c.department r = connection.execute( employees_table.update().where(department == "C"), {"department": "Z"}, ) assert r.rowcount == 3 def test_update_rowcount2(self, connection): employees_table = self.tables.employees # WHERE matches 3, 0 rows changed department = employees_table.c.department r = connection.execute( employees_table.update().where(department == "C"), {"department": "C"}, ) eq_(r.rowcount, 3) @testing.variation("implicit_returning", [True, False]) @testing.variation( "dml", [ ("update", testing.requires.update_returning), ("delete", testing.requires.delete_returning), ], ) def test_update_delete_rowcount_return_defaults( self, connection, implicit_returning, dml ): """note this test should succeed for all RETURNING backends as of 2.0. In Idf28379f8705e403a3c6a937f6a798a042ef2540 we changed rowcount to use len(rows) when we have implicit returning """ if implicit_returning: employees_table = self.tables.employees else: employees_table = Table( "employees", MetaData(), Column( "employee_id", Integer, autoincrement=False, primary_key=True, ), Column("name", String(50)), Column("department", String(1)), implicit_returning=False, ) department = employees_table.c.department if dml.update: stmt = ( employees_table.update() .where(department == "C") .values(name=employees_table.c.department + "Z") .return_defaults() ) elif dml.delete: stmt = ( employees_table.delete() .where(department == "C") .return_defaults() ) else: dml.fail() r = connection.execute(stmt) eq_(r.rowcount, 3) def test_raw_sql_rowcount(self, connection): # test issue #3622, make sure eager rowcount is called for text result = connection.exec_driver_sql( "update employees set department='Z' where department='C'" ) eq_(result.rowcount, 3) def test_text_rowcount(self, connection): # test issue #3622, make sure eager rowcount is called for text result = connection.execute( text("update employees set department='Z' where department='C'") ) eq_(result.rowcount, 3) def test_delete_rowcount(self, connection): employees_table = self.tables.employees # WHERE matches 3, 3 rows deleted department = employees_table.c.department r = connection.execute( employees_table.delete().where(department == "C") ) eq_(r.rowcount, 3) @testing.requires.sane_multi_rowcount def test_multi_update_rowcount(self, connection): employees_table = self.tables.employees stmt = ( employees_table.update() .where(employees_table.c.name == bindparam("emp_name")) .values(department="C") ) r = connection.execute( stmt, [ {"emp_name": "Bob"}, {"emp_name": "Cynthia"}, {"emp_name": "nonexistent"}, ], ) eq_(r.rowcount, 2) @testing.requires.sane_multi_rowcount def test_multi_delete_rowcount(self, connection): employees_table = self.tables.employees stmt = employees_table.delete().where( employees_table.c.name == bindparam("emp_name") ) r = connection.execute( stmt, [ {"emp_name": "Bob"}, {"emp_name": "Cynthia"}, {"emp_name": "nonexistent"}, ], ) eq_(r.rowcount, 2)