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# testing/suite/test_results.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
import datetime
import re
from .. import engines
from .. import fixtures
from ..assertions import eq_
from ..config import requirements
from ..schema import Column
from ..schema import Table
from ... import DateTime
from ... import func
from ... import Integer
from ... import select
from ... import sql
from ... import String
from ... import testing
from ... import text
class RowFetchTest(fixtures.TablesTest):
__backend__ = True
@classmethod
def define_tables(cls, metadata):
Table(
"plain_pk",
metadata,
Column("id", Integer, primary_key=True),
Column("data", String(50)),
)
Table(
"has_dates",
metadata,
Column("id", Integer, primary_key=True),
Column("today", DateTime),
)
@classmethod
def insert_data(cls, connection):
connection.execute(
cls.tables.plain_pk.insert(),
[
{"id": 1, "data": "d1"},
{"id": 2, "data": "d2"},
{"id": 3, "data": "d3"},
],
)
connection.execute(
cls.tables.has_dates.insert(),
[{"id": 1, "today": datetime.datetime(2006, 5, 12, 12, 0, 0)}],
)
def test_via_attr(self, connection):
row = connection.execute(
self.tables.plain_pk.select().order_by(self.tables.plain_pk.c.id)
).first()
eq_(row.id, 1)
eq_(row.data, "d1")
def test_via_string(self, connection):
row = connection.execute(
self.tables.plain_pk.select().order_by(self.tables.plain_pk.c.id)
).first()
eq_(row._mapping["id"], 1)
eq_(row._mapping["data"], "d1")
def test_via_int(self, connection):
row = connection.execute(
self.tables.plain_pk.select().order_by(self.tables.plain_pk.c.id)
).first()
eq_(row[0], 1)
eq_(row[1], "d1")
def test_via_col_object(self, connection):
row = connection.execute(
self.tables.plain_pk.select().order_by(self.tables.plain_pk.c.id)
).first()
eq_(row._mapping[self.tables.plain_pk.c.id], 1)
eq_(row._mapping[self.tables.plain_pk.c.data], "d1")
@requirements.duplicate_names_in_cursor_description
def test_row_with_dupe_names(self, connection):
result = connection.execute(
select(
self.tables.plain_pk.c.data,
self.tables.plain_pk.c.data.label("data"),
).order_by(self.tables.plain_pk.c.id)
)
row = result.first()
eq_(result.keys(), ["data", "data"])
eq_(row, ("d1", "d1"))
def test_row_w_scalar_select(self, connection):
"""test that a scalar select as a column is returned as such
and that type conversion works OK.
(this is half a SQLAlchemy Core test and half to catch database
backends that may have unusual behavior with scalar selects.)
"""
datetable = self.tables.has_dates
s = select(datetable.alias("x").c.today).scalar_subquery()
s2 = select(datetable.c.id, s.label("somelabel"))
row = connection.execute(s2).first()
eq_(row.somelabel, datetime.datetime(2006, 5, 12, 12, 0, 0))
class PercentSchemaNamesTest(fixtures.TablesTest):
"""tests using percent signs, spaces in table and column names.
This didn't work for PostgreSQL / MySQL drivers for a long time
but is now supported.
"""
__requires__ = ("percent_schema_names",)
__backend__ = True
@classmethod
def define_tables(cls, metadata):
cls.tables.percent_table = Table(
"percent%table",
metadata,
Column("percent%", Integer),
Column("spaces % more spaces", Integer),
)
cls.tables.lightweight_percent_table = sql.table(
"percent%table",
sql.column("percent%"),
sql.column("spaces % more spaces"),
)
def test_single_roundtrip(self, connection):
percent_table = self.tables.percent_table
for params in [
{"percent%": 5, "spaces % more spaces": 12},
{"percent%": 7, "spaces % more spaces": 11},
{"percent%": 9, "spaces % more spaces": 10},
{"percent%": 11, "spaces % more spaces": 9},
]:
connection.execute(percent_table.insert(), params)
self._assert_table(connection)
def test_executemany_roundtrip(self, connection):
percent_table = self.tables.percent_table
connection.execute(
percent_table.insert(), {"percent%": 5, "spaces % more spaces": 12}
)
connection.execute(
percent_table.insert(),
[
{"percent%": 7, "spaces % more spaces": 11},
{"percent%": 9, "spaces % more spaces": 10},
{"percent%": 11, "spaces % more spaces": 9},
],
)
self._assert_table(connection)
@requirements.insert_executemany_returning
def test_executemany_returning_roundtrip(self, connection):
percent_table = self.tables.percent_table
connection.execute(
percent_table.insert(), {"percent%": 5, "spaces % more spaces": 12}
)
result = connection.execute(
percent_table.insert().returning(
percent_table.c["percent%"],
percent_table.c["spaces % more spaces"],
),
[
{"percent%": 7, "spaces % more spaces": 11},
{"percent%": 9, "spaces % more spaces": 10},
{"percent%": 11, "spaces % more spaces": 9},
],
)
eq_(result.all(), [(7, 11), (9, 10), (11, 9)])
self._assert_table(connection)
def _assert_table(self, conn):
percent_table = self.tables.percent_table
lightweight_percent_table = self.tables.lightweight_percent_table
for table in (
percent_table,
percent_table.alias(),
lightweight_percent_table,
lightweight_percent_table.alias(),
):
eq_(
list(
conn.execute(table.select().order_by(table.c["percent%"]))
),
[(5, 12), (7, 11), (9, 10), (11, 9)],
)
eq_(
list(
conn.execute(
table.select()
.where(table.c["spaces % more spaces"].in_([9, 10]))
.order_by(table.c["percent%"])
)
),
[(9, 10), (11, 9)],
)
row = conn.execute(
table.select().order_by(table.c["percent%"])
).first()
eq_(row._mapping["percent%"], 5)
eq_(row._mapping["spaces % more spaces"], 12)
eq_(row._mapping[table.c["percent%"]], 5)
eq_(row._mapping[table.c["spaces % more spaces"]], 12)
conn.execute(
percent_table.update().values(
{percent_table.c["spaces % more spaces"]: 15}
)
)
eq_(
list(
conn.execute(
percent_table.select().order_by(
percent_table.c["percent%"]
)
)
),
[(5, 15), (7, 15), (9, 15), (11, 15)],
)
class ServerSideCursorsTest(
fixtures.TestBase, testing.AssertsExecutionResults
):
__requires__ = ("server_side_cursors",)
__backend__ = True
def _is_server_side(self, cursor):
# TODO: this is a huge issue as it prevents these tests from being
# usable by third party dialects.
if self.engine.dialect.driver == "psycopg2":
return bool(cursor.name)
elif self.engine.dialect.driver == "pymysql":
sscursor = __import__("pymysql.cursors").cursors.SSCursor
return isinstance(cursor, sscursor)
elif self.engine.dialect.driver in ("aiomysql", "asyncmy", "aioodbc"):
return cursor.server_side
elif self.engine.dialect.driver == "mysqldb":
sscursor = __import__("MySQLdb.cursors").cursors.SSCursor
return isinstance(cursor, sscursor)
elif self.engine.dialect.driver == "mariadbconnector":
return not cursor.buffered
elif self.engine.dialect.driver in ("asyncpg", "aiosqlite"):
return cursor.server_side
elif self.engine.dialect.driver == "pg8000":
return getattr(cursor, "server_side", False)
elif self.engine.dialect.driver == "psycopg":
return bool(getattr(cursor, "name", False))
elif self.engine.dialect.driver == "oracledb":
return getattr(cursor, "server_side", False)
else:
return False
def _fixture(self, server_side_cursors):
if server_side_cursors:
with testing.expect_deprecated(
"The create_engine.server_side_cursors parameter is "
"deprecated and will be removed in a future release. "
"Please use the Connection.execution_options.stream_results "
"parameter."
):
self.engine = engines.testing_engine(
options={"server_side_cursors": server_side_cursors}
)
else:
self.engine = engines.testing_engine(
options={"server_side_cursors": server_side_cursors}
)
return self.engine
def stringify(self, str_):
return re.compile(r"SELECT (\d+)", re.I).sub(
lambda m: str(select(int(m.group(1))).compile(testing.db)), str_
)
@testing.combinations(
("global_string", True, lambda stringify: stringify("select 1"), True),
(
"global_text",
True,
lambda stringify: text(stringify("select 1")),
True,
),
("global_expr", True, select(1), True),
(
"global_off_explicit",
False,
lambda stringify: text(stringify("select 1")),
False,
),
(
"stmt_option",
False,
select(1).execution_options(stream_results=True),
True,
),
(
"stmt_option_disabled",
True,
select(1).execution_options(stream_results=False),
False,
),
("for_update_expr", True, select(1).with_for_update(), True),
# TODO: need a real requirement for this, or dont use this test
(
"for_update_string",
True,
lambda stringify: stringify("SELECT 1 FOR UPDATE"),
True,
testing.skip_if(["sqlite", "mssql"]),
),
(
"text_no_ss",
False,
lambda stringify: text(stringify("select 42")),
False,
),
(
"text_ss_option",
False,
lambda stringify: text(stringify("select 42")).execution_options(
stream_results=True
),
True,
),
id_="iaaa",
argnames="engine_ss_arg, statement, cursor_ss_status",
)
def test_ss_cursor_status(
self, engine_ss_arg, statement, cursor_ss_status
):
engine = self._fixture(engine_ss_arg)
with engine.begin() as conn:
if callable(statement):
statement = testing.resolve_lambda(
statement, stringify=self.stringify
)
if isinstance(statement, str):
result = conn.exec_driver_sql(statement)
else:
result = conn.execute(statement)
eq_(self._is_server_side(result.cursor), cursor_ss_status)
result.close()
def test_conn_option(self):
engine = self._fixture(False)
with engine.connect() as conn:
# should be enabled for this one
result = conn.execution_options(
stream_results=True
).exec_driver_sql(self.stringify("select 1"))
assert self._is_server_side(result.cursor)
# the connection has autobegun, which means at the end of the
# block, we will roll back, which on MySQL at least will fail
# with "Commands out of sync" if the result set
# is not closed, so we close it first.
#
# fun fact! why did we not have this result.close() in this test
# before 2.0? don't we roll back in the connection pool
# unconditionally? yes! and in fact if you run this test in 1.4
# with stdout shown, there is in fact "Exception during reset or
# similar" with "Commands out sync" emitted a warning! 2.0's
# architecture finds and fixes what was previously an expensive
# silent error condition.
result.close()
def test_stmt_enabled_conn_option_disabled(self):
engine = self._fixture(False)
s = select(1).execution_options(stream_results=True)
with engine.connect() as conn:
# not this one
result = conn.execution_options(stream_results=False).execute(s)
assert not self._is_server_side(result.cursor)
def test_aliases_and_ss(self):
engine = self._fixture(False)
s1 = (
select(sql.literal_column("1").label("x"))
.execution_options(stream_results=True)
.subquery()
)
# options don't propagate out when subquery is used as a FROM clause
with engine.begin() as conn:
result = conn.execute(s1.select())
assert not self._is_server_side(result.cursor)
result.close()
s2 = select(1).select_from(s1)
with engine.begin() as conn:
result = conn.execute(s2)
assert not self._is_server_side(result.cursor)
result.close()
def test_roundtrip_fetchall(self, metadata):
md = self.metadata
engine = self._fixture(True)
test_table = Table(
"test_table",
md,
Column(
"id", Integer, primary_key=True, test_needs_autoincrement=True
),
Column("data", String(50)),
)
with engine.begin() as connection:
test_table.create(connection, checkfirst=True)
connection.execute(test_table.insert(), dict(data="data1"))
connection.execute(test_table.insert(), dict(data="data2"))
eq_(
connection.execute(
test_table.select().order_by(test_table.c.id)
).fetchall(),
[(1, "data1"), (2, "data2")],
)
connection.execute(
test_table.update()
.where(test_table.c.id == 2)
.values(data=test_table.c.data + " updated")
)
eq_(
connection.execute(
test_table.select().order_by(test_table.c.id)
).fetchall(),
[(1, "data1"), (2, "data2 updated")],
)
connection.execute(test_table.delete())
eq_(
connection.scalar(
select(func.count("*")).select_from(test_table)
),
0,
)
def test_roundtrip_fetchmany(self, metadata):
md = self.metadata
engine = self._fixture(True)
test_table = Table(
"test_table",
md,
Column(
"id", Integer, primary_key=True, test_needs_autoincrement=True
),
Column("data", String(50)),
)
with engine.begin() as connection:
test_table.create(connection, checkfirst=True)
connection.execute(
test_table.insert(),
[dict(data="data%d" % i) for i in range(1, 20)],
)
result = connection.execute(
test_table.select().order_by(test_table.c.id)
)
eq_(
result.fetchmany(5),
[(i, "data%d" % i) for i in range(1, 6)],
)
eq_(
result.fetchmany(10),
[(i, "data%d" % i) for i in range(6, 16)],
)
eq_(result.fetchall(), [(i, "data%d" % i) for i in range(16, 20)])
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