OpenHome/venv/Lib/site-packages/sqlalchemy/testing/fixtures.py

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# testing/fixtures.py
# Copyright (C) 2005-2021 the SQLAlchemy authors and contributors
# <see AUTHORS file>
#
# This module is part of SQLAlchemy and is released under
# the MIT License: http://www.opensource.org/licenses/mit-license.php
import contextlib
import re
import sys
import sqlalchemy as sa
from . import assertions
from . import config
from . import schema
from .entities import BasicEntity
from .entities import ComparableEntity
from .entities import ComparableMixin # noqa
from .util import adict
from .util import drop_all_tables_from_metadata
from .. import event
from .. import util
from ..orm import declarative_base
from ..orm import registry
from ..orm.decl_api import DeclarativeMeta
from ..schema import sort_tables_and_constraints
@config.mark_base_test_class()
class TestBase(object):
# A sequence of requirement names matching testing.requires decorators
__requires__ = ()
# A sequence of dialect names to exclude from the test class.
__unsupported_on__ = ()
# If present, test class is only runnable for the *single* specified
# dialect. If you need multiple, use __unsupported_on__ and invert.
__only_on__ = None
# A sequence of no-arg callables. If any are True, the entire testcase is
# skipped.
__skip_if__ = None
# if True, the testing reaper will not attempt to touch connection
# state after a test is completed and before the outer teardown
# starts
__leave_connections_for_teardown__ = False
def assert_(self, val, msg=None):
assert val, msg
@config.fixture()
def connection_no_trans(self):
eng = getattr(self, "bind", None) or config.db
with eng.connect() as conn:
yield conn
@config.fixture()
def connection(self):
global _connection_fixture_connection
eng = getattr(self, "bind", None) or config.db
conn = eng.connect()
trans = conn.begin()
_connection_fixture_connection = conn
yield conn
_connection_fixture_connection = None
if trans.is_active:
trans.rollback()
# trans would not be active here if the test is using
# the legacy @provide_metadata decorator still, as it will
# run a close all connections.
conn.close()
@config.fixture()
def registry(self, metadata):
reg = registry(metadata=metadata)
yield reg
reg.dispose()
@config.fixture()
def future_connection(self, future_engine, connection):
# integrate the future_engine and connection fixtures so
# that users of the "connection" fixture will get at the
# "future" connection
yield connection
@config.fixture()
def future_engine(self):
eng = getattr(self, "bind", None) or config.db
with _push_future_engine(eng):
yield
@config.fixture()
def testing_engine(self):
from . import engines
def gen_testing_engine(
url=None,
options=None,
future=None,
asyncio=False,
transfer_staticpool=False,
):
if options is None:
options = {}
options["scope"] = "fixture"
return engines.testing_engine(
url=url,
options=options,
future=future,
asyncio=asyncio,
transfer_staticpool=transfer_staticpool,
)
yield gen_testing_engine
engines.testing_reaper._drop_testing_engines("fixture")
@config.fixture()
def async_testing_engine(self, testing_engine):
def go(**kw):
kw["asyncio"] = True
return testing_engine(**kw)
return go
@config.fixture()
def metadata(self, request):
"""Provide bound MetaData for a single test, dropping afterwards."""
from ..sql import schema
metadata = schema.MetaData()
request.instance.metadata = metadata
yield metadata
del request.instance.metadata
if (
_connection_fixture_connection
and _connection_fixture_connection.in_transaction()
):
trans = _connection_fixture_connection.get_transaction()
trans.rollback()
with _connection_fixture_connection.begin():
drop_all_tables_from_metadata(
metadata, _connection_fixture_connection
)
else:
drop_all_tables_from_metadata(metadata, config.db)
@config.fixture(
params=[
(rollback, second_operation, begin_nested)
for rollback in (True, False)
for second_operation in ("none", "execute", "begin")
for begin_nested in (
True,
False,
)
]
)
def trans_ctx_manager_fixture(self, request, metadata):
rollback, second_operation, begin_nested = request.param
from sqlalchemy import Table, Column, Integer, func, select
from . import eq_
t = Table("test", metadata, Column("data", Integer))
eng = getattr(self, "bind", None) or config.db
t.create(eng)
def run_test(subject, trans_on_subject, execute_on_subject):
with subject.begin() as trans:
if begin_nested:
if not config.requirements.savepoints.enabled:
config.skip_test("savepoints not enabled")
if execute_on_subject:
nested_trans = subject.begin_nested()
else:
nested_trans = trans.begin_nested()
with nested_trans:
if execute_on_subject:
subject.execute(t.insert(), {"data": 10})
else:
trans.execute(t.insert(), {"data": 10})
# for nested trans, we always commit/rollback on the
# "nested trans" object itself.
# only Session(future=False) will affect savepoint
# transaction for session.commit/rollback
if rollback:
nested_trans.rollback()
else:
nested_trans.commit()
if second_operation != "none":
with assertions.expect_raises_message(
sa.exc.InvalidRequestError,
"Can't operate on closed transaction "
"inside context "
"manager. Please complete the context "
"manager "
"before emitting further commands.",
):
if second_operation == "execute":
if execute_on_subject:
subject.execute(
t.insert(), {"data": 12}
)
else:
trans.execute(t.insert(), {"data": 12})
elif second_operation == "begin":
if execute_on_subject:
subject.begin_nested()
else:
trans.begin_nested()
# outside the nested trans block, but still inside the
# transaction block, we can run SQL, and it will be
# committed
if execute_on_subject:
subject.execute(t.insert(), {"data": 14})
else:
trans.execute(t.insert(), {"data": 14})
else:
if execute_on_subject:
subject.execute(t.insert(), {"data": 10})
else:
trans.execute(t.insert(), {"data": 10})
if trans_on_subject:
if rollback:
subject.rollback()
else:
subject.commit()
else:
if rollback:
trans.rollback()
else:
trans.commit()
if second_operation != "none":
with assertions.expect_raises_message(
sa.exc.InvalidRequestError,
"Can't operate on closed transaction inside "
"context "
"manager. Please complete the context manager "
"before emitting further commands.",
):
if second_operation == "execute":
if execute_on_subject:
subject.execute(t.insert(), {"data": 12})
else:
trans.execute(t.insert(), {"data": 12})
elif second_operation == "begin":
if hasattr(trans, "begin"):
trans.begin()
else:
subject.begin()
elif second_operation == "begin_nested":
if execute_on_subject:
subject.begin_nested()
else:
trans.begin_nested()
expected_committed = 0
if begin_nested:
# begin_nested variant, we inserted a row after the nested
# block
expected_committed += 1
if not rollback:
# not rollback variant, our row inserted in the target
# block itself would be committed
expected_committed += 1
if execute_on_subject:
eq_(
subject.scalar(select(func.count()).select_from(t)),
expected_committed,
)
else:
with subject.connect() as conn:
eq_(
conn.scalar(select(func.count()).select_from(t)),
expected_committed,
)
return run_test
_connection_fixture_connection = None
@contextlib.contextmanager
def _push_future_engine(engine):
from ..future.engine import Engine
from sqlalchemy import testing
facade = Engine._future_facade(engine)
config._current.push_engine(facade, testing)
yield facade
config._current.pop(testing)
class FutureEngineMixin(object):
@config.fixture(autouse=True, scope="class")
def _push_future_engine(self):
eng = getattr(self, "bind", None) or config.db
with _push_future_engine(eng):
yield
class TablesTest(TestBase):
# 'once', None
run_setup_bind = "once"
# 'once', 'each', None
run_define_tables = "once"
# 'once', 'each', None
run_create_tables = "once"
# 'once', 'each', None
run_inserts = "each"
# 'each', None
run_deletes = "each"
# 'once', None
run_dispose_bind = None
bind = None
_tables_metadata = None
tables = None
other = None
sequences = None
@config.fixture(autouse=True, scope="class")
def _setup_tables_test_class(self):
cls = self.__class__
cls._init_class()
cls._setup_once_tables()
cls._setup_once_inserts()
yield
cls._teardown_once_metadata_bind()
@config.fixture(autouse=True, scope="function")
def _setup_tables_test_instance(self):
self._setup_each_tables()
self._setup_each_inserts()
yield
self._teardown_each_tables()
@property
def tables_test_metadata(self):
return self._tables_metadata
@classmethod
def _init_class(cls):
if cls.run_define_tables == "each":
if cls.run_create_tables == "once":
cls.run_create_tables = "each"
assert cls.run_inserts in ("each", None)
cls.other = adict()
cls.tables = adict()
cls.sequences = adict()
cls.bind = cls.setup_bind()
cls._tables_metadata = sa.MetaData()
@classmethod
def _setup_once_inserts(cls):
if cls.run_inserts == "once":
cls._load_fixtures()
with cls.bind.begin() as conn:
cls.insert_data(conn)
@classmethod
def _setup_once_tables(cls):
if cls.run_define_tables == "once":
cls.define_tables(cls._tables_metadata)
if cls.run_create_tables == "once":
cls._tables_metadata.create_all(cls.bind)
cls.tables.update(cls._tables_metadata.tables)
cls.sequences.update(cls._tables_metadata._sequences)
def _setup_each_tables(self):
if self.run_define_tables == "each":
self.define_tables(self._tables_metadata)
if self.run_create_tables == "each":
self._tables_metadata.create_all(self.bind)
self.tables.update(self._tables_metadata.tables)
self.sequences.update(self._tables_metadata._sequences)
elif self.run_create_tables == "each":
self._tables_metadata.create_all(self.bind)
def _setup_each_inserts(self):
if self.run_inserts == "each":
self._load_fixtures()
with self.bind.begin() as conn:
self.insert_data(conn)
def _teardown_each_tables(self):
if self.run_define_tables == "each":
self.tables.clear()
if self.run_create_tables == "each":
drop_all_tables_from_metadata(self._tables_metadata, self.bind)
self._tables_metadata.clear()
elif self.run_create_tables == "each":
drop_all_tables_from_metadata(self._tables_metadata, self.bind)
# no need to run deletes if tables are recreated on setup
if (
self.run_define_tables != "each"
and self.run_create_tables != "each"
and self.run_deletes == "each"
):
with self.bind.begin() as conn:
for table in reversed(
[
t
for (t, fks) in sort_tables_and_constraints(
self._tables_metadata.tables.values()
)
if t is not None
]
):
try:
conn.execute(table.delete())
except sa.exc.DBAPIError as ex:
util.print_(
("Error emptying table %s: %r" % (table, ex)),
file=sys.stderr,
)
@classmethod
def _teardown_once_metadata_bind(cls):
if cls.run_create_tables:
drop_all_tables_from_metadata(cls._tables_metadata, cls.bind)
if cls.run_dispose_bind == "once":
cls.dispose_bind(cls.bind)
cls._tables_metadata.bind = None
if cls.run_setup_bind is not None:
cls.bind = None
@classmethod
def setup_bind(cls):
return config.db
@classmethod
def dispose_bind(cls, bind):
if hasattr(bind, "dispose"):
bind.dispose()
elif hasattr(bind, "close"):
bind.close()
@classmethod
def define_tables(cls, metadata):
pass
@classmethod
def fixtures(cls):
return {}
@classmethod
def insert_data(cls, connection):
pass
def sql_count_(self, count, fn):
self.assert_sql_count(self.bind, fn, count)
def sql_eq_(self, callable_, statements):
self.assert_sql(self.bind, callable_, statements)
@classmethod
def _load_fixtures(cls):
"""Insert rows as represented by the fixtures() method."""
headers, rows = {}, {}
for table, data in cls.fixtures().items():
if len(data) < 2:
continue
if isinstance(table, util.string_types):
table = cls.tables[table]
headers[table] = data[0]
rows[table] = data[1:]
for table, fks in sort_tables_and_constraints(
cls._tables_metadata.tables.values()
):
if table is None:
continue
if table not in headers:
continue
with cls.bind.begin() as conn:
conn.execute(
table.insert(),
[
dict(zip(headers[table], column_values))
for column_values in rows[table]
],
)
class RemovesEvents(object):
@util.memoized_property
def _event_fns(self):
return set()
def event_listen(self, target, name, fn, **kw):
self._event_fns.add((target, name, fn))
event.listen(target, name, fn, **kw)
@config.fixture(autouse=True, scope="function")
def _remove_events(self):
yield
for key in self._event_fns:
event.remove(*key)
_fixture_sessions = set()
def fixture_session(**kw):
kw.setdefault("autoflush", True)
kw.setdefault("expire_on_commit", True)
sess = sa.orm.Session(config.db, **kw)
_fixture_sessions.add(sess)
return sess
def _close_all_sessions():
# will close all still-referenced sessions
sa.orm.session.close_all_sessions()
_fixture_sessions.clear()
def stop_test_class_inside_fixtures(cls):
_close_all_sessions()
sa.orm.clear_mappers()
def after_test():
if _fixture_sessions:
_close_all_sessions()
class ORMTest(TestBase):
pass
class MappedTest(TablesTest, assertions.AssertsExecutionResults):
# 'once', 'each', None
run_setup_classes = "once"
# 'once', 'each', None
run_setup_mappers = "each"
classes = None
@config.fixture(autouse=True, scope="class")
def _setup_tables_test_class(self):
cls = self.__class__
cls._init_class()
if cls.classes is None:
cls.classes = adict()
cls._setup_once_tables()
cls._setup_once_classes()
cls._setup_once_mappers()
cls._setup_once_inserts()
yield
cls._teardown_once_class()
cls._teardown_once_metadata_bind()
@config.fixture(autouse=True, scope="function")
def _setup_tables_test_instance(self):
self._setup_each_tables()
self._setup_each_classes()
self._setup_each_mappers()
self._setup_each_inserts()
yield
sa.orm.session.close_all_sessions()
self._teardown_each_mappers()
self._teardown_each_classes()
self._teardown_each_tables()
@classmethod
def _teardown_once_class(cls):
cls.classes.clear()
@classmethod
def _setup_once_classes(cls):
if cls.run_setup_classes == "once":
cls._with_register_classes(cls.setup_classes)
@classmethod
def _setup_once_mappers(cls):
if cls.run_setup_mappers == "once":
cls.mapper = cls._generate_mapper()
cls._with_register_classes(cls.setup_mappers)
def _setup_each_mappers(self):
if self.run_setup_mappers == "each":
self.__class__.mapper = self._generate_mapper()
self._with_register_classes(self.setup_mappers)
def _setup_each_classes(self):
if self.run_setup_classes == "each":
self._with_register_classes(self.setup_classes)
@classmethod
def _generate_mapper(cls):
decl = registry()
return decl.map_imperatively
@classmethod
def _with_register_classes(cls, fn):
"""Run a setup method, framing the operation with a Base class
that will catch new subclasses to be established within
the "classes" registry.
"""
cls_registry = cls.classes
assert cls_registry is not None
class FindFixture(type):
def __init__(cls, classname, bases, dict_):
cls_registry[classname] = cls
type.__init__(cls, classname, bases, dict_)
class _Base(util.with_metaclass(FindFixture, object)):
pass
class Basic(BasicEntity, _Base):
pass
class Comparable(ComparableEntity, _Base):
pass
cls.Basic = Basic
cls.Comparable = Comparable
fn()
def _teardown_each_mappers(self):
# some tests create mappers in the test bodies
# and will define setup_mappers as None -
# clear mappers in any case
if self.run_setup_mappers != "once":
sa.orm.clear_mappers()
def _teardown_each_classes(self):
if self.run_setup_classes != "once":
self.classes.clear()
@classmethod
def setup_classes(cls):
pass
@classmethod
def setup_mappers(cls):
pass
class DeclarativeMappedTest(MappedTest):
run_setup_classes = "once"
run_setup_mappers = "once"
@classmethod
def _setup_once_tables(cls):
pass
@classmethod
def _with_register_classes(cls, fn):
cls_registry = cls.classes
class FindFixtureDeclarative(DeclarativeMeta):
def __init__(cls, classname, bases, dict_):
cls_registry[classname] = cls
DeclarativeMeta.__init__(cls, classname, bases, dict_)
class DeclarativeBasic(object):
__table_cls__ = schema.Table
_DeclBase = declarative_base(
metadata=cls._tables_metadata,
metaclass=FindFixtureDeclarative,
cls=DeclarativeBasic,
)
cls.DeclarativeBasic = _DeclBase
# sets up cls.Basic which is helpful for things like composite
# classes
super(DeclarativeMappedTest, cls)._with_register_classes(fn)
if cls._tables_metadata.tables and cls.run_create_tables:
cls._tables_metadata.create_all(config.db)
class ComputedReflectionFixtureTest(TablesTest):
run_inserts = run_deletes = None
__backend__ = True
__requires__ = ("computed_columns", "table_reflection")
regexp = re.compile(r"[\[\]\(\)\s`'\"]*")
def normalize(self, text):
return self.regexp.sub("", text).lower()
@classmethod
def define_tables(cls, metadata):
from .. import Integer
from .. import testing
from ..schema import Column
from ..schema import Computed
from ..schema import Table
Table(
"computed_default_table",
metadata,
Column("id", Integer, primary_key=True),
Column("normal", Integer),
Column("computed_col", Integer, Computed("normal + 42")),
Column("with_default", Integer, server_default="42"),
)
t = Table(
"computed_column_table",
metadata,
Column("id", Integer, primary_key=True),
Column("normal", Integer),
Column("computed_no_flag", Integer, Computed("normal + 42")),
)
if testing.requires.schemas.enabled:
t2 = Table(
"computed_column_table",
metadata,
Column("id", Integer, primary_key=True),
Column("normal", Integer),
Column("computed_no_flag", Integer, Computed("normal / 42")),
schema=config.test_schema,
)
if testing.requires.computed_columns_virtual.enabled:
t.append_column(
Column(
"computed_virtual",
Integer,
Computed("normal + 2", persisted=False),
)
)
if testing.requires.schemas.enabled:
t2.append_column(
Column(
"computed_virtual",
Integer,
Computed("normal / 2", persisted=False),
)
)
if testing.requires.computed_columns_stored.enabled:
t.append_column(
Column(
"computed_stored",
Integer,
Computed("normal - 42", persisted=True),
)
)
if testing.requires.schemas.enabled:
t2.append_column(
Column(
"computed_stored",
Integer,
Computed("normal * 42", persisted=True),
)
)