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sqlalchemy/test/sql/test_sequences.py
T
Federico Caselli e860060866 Update select usage to use the new 1.4 format 
This change includes mainly that the bracketed use within
select() is moved to positional, and keyword arguments are
removed from calls to the select() function.  it does not
yet fully address other issues such as keyword arguments passed
to the table.select().

Additionally, allows False / None to both be considered
as "disable" for all of select.correlate(), select.correlate_except(),
query.correlate(), which establishes consistency with
passing of ``False`` for the legact select(correlate=False)
argument.

Change-Id: Ie6c6e6abfbd3d75d4c8de504c0cf0159e6999108
2020-09-08 17:13:48 -04:00

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import sqlalchemy as sa
from sqlalchemy import Integer
from sqlalchemy import MetaData
from sqlalchemy import Sequence
from sqlalchemy import String
from sqlalchemy import testing
from sqlalchemy import util
from sqlalchemy.dialects import sqlite
from sqlalchemy.schema import CreateSequence
from sqlalchemy.schema import DropSequence
from sqlalchemy.sql import select
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.assertsql import AllOf
from sqlalchemy.testing.assertsql import CompiledSQL
from sqlalchemy.testing.assertsql import EachOf
from sqlalchemy.testing.schema import Column
from sqlalchemy.testing.schema import Table
class SequenceDDLTest(fixtures.TestBase, testing.AssertsCompiledSQL):
__dialect__ = "default"
__backend__ = True
def test_create_drop_ddl(self):
self.assert_compile(
CreateSequence(Sequence("foo_seq")),
"CREATE SEQUENCE foo_seq START WITH 1",
)
self.assert_compile(
CreateSequence(Sequence("foo_seq", start=5)),
"CREATE SEQUENCE foo_seq START WITH 5",
)
self.assert_compile(
CreateSequence(Sequence("foo_seq", increment=2)),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 1",
)
self.assert_compile(
CreateSequence(Sequence("foo_seq", increment=2, start=5)),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 5",
)
self.assert_compile(
CreateSequence(
Sequence("foo_seq", increment=2, start=0, minvalue=0)
),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 0 MINVALUE 0",
)
self.assert_compile(
CreateSequence(
Sequence("foo_seq", increment=2, start=1, maxvalue=5)
),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 1 MAXVALUE 5",
)
self.assert_compile(
CreateSequence(
Sequence("foo_seq", increment=2, start=1, nomaxvalue=True)
),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 1 NO MAXVALUE",
)
self.assert_compile(
CreateSequence(
Sequence("foo_seq", increment=2, start=0, nominvalue=True)
),
"CREATE SEQUENCE foo_seq INCREMENT BY 2 START WITH 0 NO MINVALUE",
)
self.assert_compile(
CreateSequence(
Sequence("foo_seq", start=1, maxvalue=10, cycle=True)
),
"CREATE SEQUENCE foo_seq START WITH 1 MAXVALUE 10 CYCLE",
)
self.assert_compile(
CreateSequence(Sequence("foo_seq", cache=1000, order=True)),
"CREATE SEQUENCE foo_seq START WITH 1 CACHE 1000 ORDER",
)
self.assert_compile(
CreateSequence(Sequence("foo_seq", order=True)),
"CREATE SEQUENCE foo_seq START WITH 1 ORDER",
)
self.assert_compile(
DropSequence(Sequence("foo_seq")), "DROP SEQUENCE foo_seq"
)
class LegacySequenceExecTest(fixtures.TestBase):
__requires__ = ("sequences",)
__backend__ = True
@classmethod
def setup_class(cls):
cls.seq = Sequence("my_sequence")
cls.seq.create(testing.db)
@classmethod
def teardown_class(cls):
cls.seq.drop(testing.db)
def _assert_seq_result(self, ret):
"""asserts return of next_value is an int"""
assert isinstance(ret, util.int_types)
assert ret >= testing.db.dialect.default_sequence_base
def test_implicit_connectionless(self):
s = Sequence("my_sequence", metadata=MetaData(testing.db))
self._assert_seq_result(s.execute())
def test_explicit(self, connection):
s = Sequence("my_sequence")
self._assert_seq_result(s.execute(connection))
def test_explicit_optional(self):
"""test dialect executes a Sequence, returns nextval, whether
or not "optional" is set """
s = Sequence("my_sequence", optional=True)
self._assert_seq_result(s.execute(testing.db))
def test_func_implicit_connectionless_execute(self):
"""test func.next_value().execute()/.scalar() works
with connectionless execution. """
s = Sequence("my_sequence", metadata=MetaData(testing.db))
self._assert_seq_result(s.next_value().execute().scalar())
def test_func_explicit(self):
s = Sequence("my_sequence")
self._assert_seq_result(testing.db.scalar(s.next_value()))
def test_func_implicit_connectionless_scalar(self):
"""test func.next_value().execute()/.scalar() works. """
s = Sequence("my_sequence", metadata=MetaData(testing.db))
self._assert_seq_result(s.next_value().scalar())
def test_func_embedded_select(self):
"""test can use next_value() in select column expr"""
s = Sequence("my_sequence")
self._assert_seq_result(testing.db.scalar(select(s.next_value())))
class SequenceExecTest(fixtures.TestBase):
__requires__ = ("sequences",)
__backend__ = True
@classmethod
def setup_class(cls):
cls.seq = Sequence("my_sequence")
cls.seq.create(testing.db)
@classmethod
def teardown_class(cls):
cls.seq.drop(testing.db)
def _assert_seq_result(self, ret):
"""asserts return of next_value is an int"""
assert isinstance(ret, util.int_types)
assert ret >= testing.db.dialect.default_sequence_base
def test_execute(self, connection):
s = Sequence("my_sequence")
self._assert_seq_result(connection.execute(s))
def test_execute_optional(self, connection):
"""test dialect executes a Sequence, returns nextval, whether
or not "optional" is set """
s = Sequence("my_sequence", optional=True)
self._assert_seq_result(connection.execute(s))
def test_execute_next_value(self, connection):
"""test func.next_value().execute()/.scalar() works
with connectionless execution. """
s = Sequence("my_sequence")
self._assert_seq_result(connection.scalar(s.next_value()))
def test_execute_optional_next_value(self, connection):
"""test func.next_value().execute()/.scalar() works
with connectionless execution. """
s = Sequence("my_sequence", optional=True)
self._assert_seq_result(connection.scalar(s.next_value()))
def test_func_embedded_select(self, connection):
"""test can use next_value() in select column expr"""
s = Sequence("my_sequence")
self._assert_seq_result(connection.scalar(select(s.next_value())))
@testing.requires.sequences_in_other_clauses
@testing.provide_metadata
def test_func_embedded_whereclause(self, connection):
"""test can use next_value() in whereclause"""
metadata = self.metadata
t1 = Table("t", metadata, Column("x", Integer))
t1.create(testing.db)
connection.execute(t1.insert(), [{"x": 1}, {"x": 300}, {"x": 301}])
s = Sequence("my_sequence")
eq_(
list(
connection.execute(t1.select().where(t1.c.x > s.next_value()))
),
[(300,), (301,)],
)
@testing.provide_metadata
def test_func_embedded_valuesbase(self, connection):
"""test can use next_value() in values() of _ValuesBase"""
metadata = self.metadata
t1 = Table("t", metadata, Column("x", Integer),)
t1.create(testing.db)
s = Sequence("my_sequence")
connection.execute(t1.insert().values(x=s.next_value()))
self._assert_seq_result(connection.scalar(t1.select()))
@testing.provide_metadata
def test_inserted_pk_no_returning(self):
"""test inserted_primary_key contains [None] when
pk_col=next_value(), implicit returning is not used."""
# I'm not really sure what this test wants to accomlish.
metadata = self.metadata
t1 = Table("t", metadata, Column("x", Integer, primary_key=True))
s = Sequence("my_sequence_here", metadata=metadata)
e = engines.testing_engine(options={"implicit_returning": False})
with e.connect() as conn:
t1.create(conn)
s.create(conn)
r = conn.execute(t1.insert().values(x=s.next_value()))
if testing.requires.emulated_lastrowid_even_with_sequences.enabled:
eq_(r.inserted_primary_key, (1,))
else:
eq_(r.inserted_primary_key, (None,))
@testing.requires.returning
@testing.provide_metadata
def test_inserted_pk_implicit_returning(self):
"""test inserted_primary_key contains the result when
pk_col=next_value(), when implicit returning is used."""
metadata = self.metadata
s = Sequence("my_sequence")
t1 = Table("t", metadata, Column("x", Integer, primary_key=True,),)
t1.create(testing.db)
e = engines.testing_engine(options={"implicit_returning": True})
with e.connect() as conn:
r = conn.execute(t1.insert().values(x=s.next_value()))
self._assert_seq_result(r.inserted_primary_key[0])
class FutureSequenceExecTest(fixtures.FutureEngineMixin, SequenceExecTest):
__requires__ = ("sequences",)
__backend__ = True
class SequenceTest(fixtures.TestBase, testing.AssertsCompiledSQL):
__requires__ = ("sequences",)
__backend__ = True
@testing.combinations(
(Sequence("foo_seq"),),
(Sequence("foo_seq", start=8),),
(Sequence("foo_seq", increment=5),),
)
def test_start_increment(self, seq):
seq.create(testing.db)
try:
with testing.db.connect() as conn:
values = [conn.execute(seq) for i in range(3)]
start = seq.start or testing.db.dialect.default_sequence_base
inc = seq.increment or 1
eq_(values, list(range(start, start + inc * 3, inc)))
finally:
seq.drop(testing.db)
def _has_sequence(self, connection, name):
return testing.db.dialect.has_sequence(connection, name)
def test_nextval_unsupported(self):
"""test next_value() used on non-sequence platform
raises NotImplementedError."""
s = Sequence("my_seq")
d = sqlite.dialect()
assert_raises_message(
NotImplementedError,
"Dialect 'sqlite' does not support sequence increments.",
s.next_value().compile,
dialect=d,
)
def test_checkfirst_sequence(self, connection):
s = Sequence("my_sequence")
s.create(connection, checkfirst=False)
assert self._has_sequence(connection, "my_sequence")
s.create(connection, checkfirst=True)
s.drop(connection, checkfirst=False)
assert not self._has_sequence(connection, "my_sequence")
s.drop(connection, checkfirst=True)
def test_checkfirst_metadata(self, connection):
m = MetaData()
Sequence("my_sequence", metadata=m)
m.create_all(connection, checkfirst=False)
assert self._has_sequence(connection, "my_sequence")
m.create_all(connection, checkfirst=True)
m.drop_all(connection, checkfirst=False)
assert not self._has_sequence(connection, "my_sequence")
m.drop_all(connection, checkfirst=True)
def test_checkfirst_table(self, connection):
m = MetaData()
s = Sequence("my_sequence")
t = Table("t", m, Column("c", Integer, s, primary_key=True))
t.create(connection, checkfirst=False)
assert self._has_sequence(connection, "my_sequence")
t.create(connection, checkfirst=True)
t.drop(connection, checkfirst=False)
assert not self._has_sequence(connection, "my_sequence")
t.drop(connection, checkfirst=True)
@testing.provide_metadata
def test_table_overrides_metadata_create(self, connection):
metadata = self.metadata
Sequence("s1", metadata=metadata)
s2 = Sequence("s2", metadata=metadata)
s3 = Sequence("s3")
t = Table("t", metadata, Column("c", Integer, s3, primary_key=True))
assert s3.metadata is metadata
t.create(connection, checkfirst=True)
s3.drop(connection)
# 't' is created, and 's3' won't be
# re-created since it's linked to 't'.
# 's1' and 's2' are, however.
metadata.create_all(connection)
assert self._has_sequence(connection, "s1")
assert self._has_sequence(connection, "s2")
assert not self._has_sequence(connection, "s3")
s2.drop(connection)
assert self._has_sequence(connection, "s1")
assert not self._has_sequence(connection, "s2")
metadata.drop_all(connection)
assert not self._has_sequence(connection, "s1")
assert not self._has_sequence(connection, "s2")
@testing.requires.returning
@testing.requires.supports_sequence_for_autoincrement_column
@testing.provide_metadata
def test_freestanding_sequence_via_autoinc(self, connection):
t = Table(
"some_table",
self.metadata,
Column(
"id",
Integer,
autoincrement=True,
primary_key=True,
default=Sequence(
"my_sequence", metadata=self.metadata
).next_value(),
),
)
self.metadata.create_all(connection)
result = connection.execute(t.insert())
eq_(result.inserted_primary_key, (1,))
class FutureSequenceTest(fixtures.FutureEngineMixin, SequenceTest):
__requires__ = ("sequences",)
__backend__ = True
class TableBoundSequenceTest(fixtures.TablesTest):
__requires__ = ("sequences",)
__backend__ = True
@classmethod
def define_tables(cls, metadata):
Table(
"cartitems",
metadata,
Column(
"cart_id",
Integer,
Sequence("cart_id_seq"),
primary_key=True,
autoincrement=False,
),
Column("description", String(40)),
Column("createdate", sa.DateTime()),
)
# a little bit of implicit case sensitive naming test going on here
Table(
"Manager",
metadata,
Column("obj_id", Integer, Sequence("obj_id_seq"),),
Column("name", String(128)),
Column(
"id",
Integer,
Sequence("Manager_id_seq", optional=True),
primary_key=True,
),
)
def test_insert_via_seq(self, connection):
cartitems = self.tables.cartitems
connection.execute(cartitems.insert(), dict(description="hi"))
connection.execute(cartitems.insert(), dict(description="there"))
r = connection.execute(cartitems.insert(), dict(description="lala"))
expected = 2 + testing.db.dialect.default_sequence_base
eq_(r.inserted_primary_key[0], expected)
eq_(
connection.scalar(
sa.select(cartitems.c.cart_id).where(
cartitems.c.description == "lala"
),
),
expected,
)
def test_seq_nonpk(self):
"""test sequences fire off as defaults on non-pk columns"""
sometable = self.tables.Manager
engine = engines.testing_engine(options={"implicit_returning": False})
with engine.connect() as conn:
result = conn.execute(sometable.insert(), dict(name="somename"))
eq_(result.postfetch_cols(), [sometable.c.obj_id])
result = conn.execute(sometable.insert(), dict(name="someother"))
conn.execute(
sometable.insert(), [{"name": "name3"}, {"name": "name4"}]
)
dsb = testing.db.dialect.default_sequence_base
eq_(
list(
conn.execute(sometable.select().order_by(sometable.c.id))
),
[
(dsb, "somename", dsb,),
(dsb + 1, "someother", dsb + 1,),
(dsb + 2, "name3", dsb + 2,),
(dsb + 3, "name4", dsb + 3,),
],
)
class SequenceAsServerDefaultTest(
testing.AssertsExecutionResults, fixtures.TablesTest
):
__requires__ = ("sequences_as_server_defaults",)
__backend__ = True
run_create_tables = "each"
@classmethod
def define_tables(cls, metadata):
m = metadata
s = Sequence("t_seq", metadata=m)
Table(
"t_seq_test",
m,
Column("id", Integer, s, server_default=s.next_value()),
Column("data", String(50)),
)
s2 = Sequence("t_seq_2", metadata=m)
Table(
"t_seq_test_2",
m,
Column("id", Integer, server_default=s2.next_value()),
Column("data", String(50)),
)
def test_default_textual_w_default(self, connection):
connection.exec_driver_sql(
"insert into t_seq_test (data) values ('some data')"
)
eq_(
connection.exec_driver_sql("select id from t_seq_test").scalar(), 1
)
def test_default_core_w_default(self, connection):
t_seq_test = self.tables.t_seq_test
connection.execute(t_seq_test.insert().values(data="some data"))
eq_(connection.scalar(select(t_seq_test.c.id)), 1)
def test_default_textual_server_only(self, connection):
connection.exec_driver_sql(
"insert into t_seq_test_2 (data) values ('some data')"
)
eq_(
connection.exec_driver_sql("select id from t_seq_test_2").scalar(),
1,
)
def test_default_core_server_only(self, connection):
t_seq_test = self.tables.t_seq_test_2
connection.execute(t_seq_test.insert().values(data="some data"))
eq_(connection.scalar(select(t_seq_test.c.id)), 1)
def test_drop_ordering(self):
with self.sql_execution_asserter(testing.db) as asserter:
self.metadata.drop_all(checkfirst=False)
asserter.assert_(
AllOf(
CompiledSQL("DROP TABLE t_seq_test_2", {}),
EachOf(
CompiledSQL("DROP TABLE t_seq_test", {}),
CompiledSQL(
"DROP SEQUENCE t_seq", # dropped as part of t_seq_test
{},
),
),
),
CompiledSQL(
"DROP SEQUENCE t_seq_2", # dropped as part of metadata level
{},
),
)
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