dibbler/sqlalchemy/testing/suite/test_reflection.py

747 lines
27 KiB
Python

import sqlalchemy as sa
from sqlalchemy import exc as sa_exc
from sqlalchemy import types as sql_types
from sqlalchemy import inspect
from sqlalchemy import MetaData, Integer, String
from sqlalchemy.engine.reflection import Inspector
from sqlalchemy.testing import engines, fixtures
from sqlalchemy.testing.schema import Table, Column
from sqlalchemy.testing import eq_, assert_raises_message
from sqlalchemy import testing
from .. import config
import operator
from sqlalchemy.schema import DDL, Index
from sqlalchemy import event
from sqlalchemy.sql.elements import quoted_name
from sqlalchemy import ForeignKey
metadata, users = None, None
class HasTableTest(fixtures.TablesTest):
__backend__ = True
@classmethod
def define_tables(cls, metadata):
Table('test_table', metadata,
Column('id', Integer, primary_key=True),
Column('data', String(50))
)
def test_has_table(self):
with config.db.begin() as conn:
assert config.db.dialect.has_table(conn, "test_table")
assert not config.db.dialect.has_table(conn, "nonexistent_table")
class ComponentReflectionTest(fixtures.TablesTest):
run_inserts = run_deletes = None
__backend__ = True
@classmethod
def setup_bind(cls):
if config.requirements.independent_connections.enabled:
from sqlalchemy import pool
return engines.testing_engine(
options=dict(poolclass=pool.StaticPool))
else:
return config.db
@classmethod
def define_tables(cls, metadata):
cls.define_reflected_tables(metadata, None)
if testing.requires.schemas.enabled:
cls.define_reflected_tables(metadata, testing.config.test_schema)
@classmethod
def define_reflected_tables(cls, metadata, schema):
if schema:
schema_prefix = schema + "."
else:
schema_prefix = ""
if testing.requires.self_referential_foreign_keys.enabled:
users = Table('users', metadata,
Column('user_id', sa.INT, primary_key=True),
Column('test1', sa.CHAR(5), nullable=False),
Column('test2', sa.Float(5), nullable=False),
Column('parent_user_id', sa.Integer,
sa.ForeignKey('%susers.user_id' %
schema_prefix)),
schema=schema,
test_needs_fk=True,
)
else:
users = Table('users', metadata,
Column('user_id', sa.INT, primary_key=True),
Column('test1', sa.CHAR(5), nullable=False),
Column('test2', sa.Float(5), nullable=False),
schema=schema,
test_needs_fk=True,
)
Table("dingalings", metadata,
Column('dingaling_id', sa.Integer, primary_key=True),
Column('address_id', sa.Integer,
sa.ForeignKey('%semail_addresses.address_id' %
schema_prefix)),
Column('data', sa.String(30)),
schema=schema,
test_needs_fk=True,
)
Table('email_addresses', metadata,
Column('address_id', sa.Integer),
Column('remote_user_id', sa.Integer,
sa.ForeignKey(users.c.user_id)),
Column('email_address', sa.String(20)),
sa.PrimaryKeyConstraint('address_id', name='email_ad_pk'),
schema=schema,
test_needs_fk=True,
)
if testing.requires.index_reflection.enabled:
cls.define_index(metadata, users)
if testing.requires.view_column_reflection.enabled:
cls.define_views(metadata, schema)
if not schema and testing.requires.temp_table_reflection.enabled:
cls.define_temp_tables(metadata)
@classmethod
def define_temp_tables(cls, metadata):
# cheat a bit, we should fix this with some dialect-level
# temp table fixture
if testing.against("oracle"):
kw = {
'prefixes': ["GLOBAL TEMPORARY"],
'oracle_on_commit': 'PRESERVE ROWS'
}
else:
kw = {
'prefixes': ["TEMPORARY"],
}
user_tmp = Table(
"user_tmp", metadata,
Column("id", sa.INT, primary_key=True),
Column('name', sa.VARCHAR(50)),
Column('foo', sa.INT),
sa.UniqueConstraint('name', name='user_tmp_uq'),
sa.Index("user_tmp_ix", "foo"),
**kw
)
if testing.requires.view_reflection.enabled and \
testing.requires.temporary_views.enabled:
event.listen(
user_tmp, "after_create",
DDL("create temporary view user_tmp_v as "
"select * from user_tmp")
)
event.listen(
user_tmp, "before_drop",
DDL("drop view user_tmp_v")
)
@classmethod
def define_index(cls, metadata, users):
Index("users_t_idx", users.c.test1, users.c.test2)
Index("users_all_idx", users.c.user_id, users.c.test2, users.c.test1)
@classmethod
def define_views(cls, metadata, schema):
for table_name in ('users', 'email_addresses'):
fullname = table_name
if schema:
fullname = "%s.%s" % (schema, table_name)
view_name = fullname + '_v'
query = "CREATE VIEW %s AS SELECT * FROM %s" % (
view_name, fullname)
event.listen(
metadata,
"after_create",
DDL(query)
)
event.listen(
metadata,
"before_drop",
DDL("DROP VIEW %s" % view_name)
)
@testing.requires.schema_reflection
def test_get_schema_names(self):
insp = inspect(testing.db)
self.assert_(testing.config.test_schema in insp.get_schema_names())
@testing.requires.schema_reflection
def test_dialect_initialize(self):
engine = engines.testing_engine()
assert not hasattr(engine.dialect, 'default_schema_name')
inspect(engine)
assert hasattr(engine.dialect, 'default_schema_name')
@testing.requires.schema_reflection
def test_get_default_schema_name(self):
insp = inspect(testing.db)
eq_(insp.default_schema_name, testing.db.dialect.default_schema_name)
@testing.provide_metadata
def _test_get_table_names(self, schema=None, table_type='table',
order_by=None):
meta = self.metadata
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
insp = inspect(meta.bind)
if table_type == 'view':
table_names = insp.get_view_names(schema)
table_names.sort()
answer = ['email_addresses_v', 'users_v']
eq_(sorted(table_names), answer)
else:
table_names = insp.get_table_names(schema,
order_by=order_by)
if order_by == 'foreign_key':
answer = ['users', 'email_addresses', 'dingalings']
eq_(table_names, answer)
else:
answer = ['dingalings', 'email_addresses', 'users']
eq_(sorted(table_names), answer)
@testing.requires.temp_table_names
def test_get_temp_table_names(self):
insp = inspect(self.bind)
temp_table_names = insp.get_temp_table_names()
eq_(sorted(temp_table_names), ['user_tmp'])
@testing.requires.view_reflection
@testing.requires.temp_table_names
@testing.requires.temporary_views
def test_get_temp_view_names(self):
insp = inspect(self.bind)
temp_table_names = insp.get_temp_view_names()
eq_(sorted(temp_table_names), ['user_tmp_v'])
@testing.requires.table_reflection
def test_get_table_names(self):
self._test_get_table_names()
@testing.requires.table_reflection
@testing.requires.foreign_key_constraint_reflection
def test_get_table_names_fks(self):
self._test_get_table_names(order_by='foreign_key')
@testing.requires.table_reflection
@testing.requires.schemas
def test_get_table_names_with_schema(self):
self._test_get_table_names(testing.config.test_schema)
@testing.requires.view_column_reflection
def test_get_view_names(self):
self._test_get_table_names(table_type='view')
@testing.requires.view_column_reflection
@testing.requires.schemas
def test_get_view_names_with_schema(self):
self._test_get_table_names(
testing.config.test_schema, table_type='view')
@testing.requires.table_reflection
@testing.requires.view_column_reflection
def test_get_tables_and_views(self):
self._test_get_table_names()
self._test_get_table_names(table_type='view')
def _test_get_columns(self, schema=None, table_type='table'):
meta = MetaData(testing.db)
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
table_names = ['users', 'email_addresses']
if table_type == 'view':
table_names = ['users_v', 'email_addresses_v']
insp = inspect(meta.bind)
for table_name, table in zip(table_names, (users,
addresses)):
schema_name = schema
cols = insp.get_columns(table_name, schema=schema_name)
self.assert_(len(cols) > 0, len(cols))
# should be in order
for i, col in enumerate(table.columns):
eq_(col.name, cols[i]['name'])
ctype = cols[i]['type'].__class__
ctype_def = col.type
if isinstance(ctype_def, sa.types.TypeEngine):
ctype_def = ctype_def.__class__
# Oracle returns Date for DateTime.
if testing.against('oracle') and ctype_def \
in (sql_types.Date, sql_types.DateTime):
ctype_def = sql_types.Date
# assert that the desired type and return type share
# a base within one of the generic types.
self.assert_(len(set(ctype.__mro__).
intersection(ctype_def.__mro__).
intersection([
sql_types.Integer,
sql_types.Numeric,
sql_types.DateTime,
sql_types.Date,
sql_types.Time,
sql_types.String,
sql_types._Binary,
])) > 0, '%s(%s), %s(%s)' %
(col.name, col.type, cols[i]['name'], ctype))
if not col.primary_key:
assert cols[i]['default'] is None
@testing.requires.table_reflection
def test_get_columns(self):
self._test_get_columns()
@testing.provide_metadata
def _type_round_trip(self, *types):
t = Table('t', self.metadata,
*[
Column('t%d' % i, type_)
for i, type_ in enumerate(types)
]
)
t.create()
return [
c['type'] for c in
inspect(self.metadata.bind).get_columns('t')
]
@testing.requires.table_reflection
def test_numeric_reflection(self):
for typ in self._type_round_trip(
sql_types.Numeric(18, 5),
):
assert isinstance(typ, sql_types.Numeric)
eq_(typ.precision, 18)
eq_(typ.scale, 5)
@testing.requires.table_reflection
def test_varchar_reflection(self):
typ = self._type_round_trip(sql_types.String(52))[0]
assert isinstance(typ, sql_types.String)
eq_(typ.length, 52)
@testing.requires.table_reflection
@testing.provide_metadata
def test_nullable_reflection(self):
t = Table('t', self.metadata,
Column('a', Integer, nullable=True),
Column('b', Integer, nullable=False))
t.create()
eq_(
dict(
(col['name'], col['nullable'])
for col in inspect(self.metadata.bind).get_columns('t')
),
{"a": True, "b": False}
)
@testing.requires.table_reflection
@testing.requires.schemas
def test_get_columns_with_schema(self):
self._test_get_columns(schema=testing.config.test_schema)
@testing.requires.temp_table_reflection
def test_get_temp_table_columns(self):
meta = MetaData(self.bind)
user_tmp = self.tables.user_tmp
insp = inspect(meta.bind)
cols = insp.get_columns('user_tmp')
self.assert_(len(cols) > 0, len(cols))
for i, col in enumerate(user_tmp.columns):
eq_(col.name, cols[i]['name'])
@testing.requires.temp_table_reflection
@testing.requires.view_column_reflection
@testing.requires.temporary_views
def test_get_temp_view_columns(self):
insp = inspect(self.bind)
cols = insp.get_columns('user_tmp_v')
eq_(
[col['name'] for col in cols],
['id', 'name', 'foo']
)
@testing.requires.view_column_reflection
def test_get_view_columns(self):
self._test_get_columns(table_type='view')
@testing.requires.view_column_reflection
@testing.requires.schemas
def test_get_view_columns_with_schema(self):
self._test_get_columns(
schema=testing.config.test_schema, table_type='view')
@testing.provide_metadata
def _test_get_pk_constraint(self, schema=None):
meta = self.metadata
users, addresses = self.tables.users, self.tables.email_addresses
insp = inspect(meta.bind)
users_cons = insp.get_pk_constraint(users.name, schema=schema)
users_pkeys = users_cons['constrained_columns']
eq_(users_pkeys, ['user_id'])
addr_cons = insp.get_pk_constraint(addresses.name, schema=schema)
addr_pkeys = addr_cons['constrained_columns']
eq_(addr_pkeys, ['address_id'])
with testing.requires.reflects_pk_names.fail_if():
eq_(addr_cons['name'], 'email_ad_pk')
@testing.requires.primary_key_constraint_reflection
def test_get_pk_constraint(self):
self._test_get_pk_constraint()
@testing.requires.table_reflection
@testing.requires.primary_key_constraint_reflection
@testing.requires.schemas
def test_get_pk_constraint_with_schema(self):
self._test_get_pk_constraint(schema=testing.config.test_schema)
@testing.requires.table_reflection
@testing.provide_metadata
def test_deprecated_get_primary_keys(self):
meta = self.metadata
users = self.tables.users
insp = Inspector(meta.bind)
assert_raises_message(
sa_exc.SADeprecationWarning,
"Call to deprecated method get_primary_keys."
" Use get_pk_constraint instead.",
insp.get_primary_keys, users.name
)
@testing.provide_metadata
def _test_get_foreign_keys(self, schema=None):
meta = self.metadata
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
insp = inspect(meta.bind)
expected_schema = schema
# users
if testing.requires.self_referential_foreign_keys.enabled:
users_fkeys = insp.get_foreign_keys(users.name,
schema=schema)
fkey1 = users_fkeys[0]
with testing.requires.named_constraints.fail_if():
self.assert_(fkey1['name'] is not None)
eq_(fkey1['referred_schema'], expected_schema)
eq_(fkey1['referred_table'], users.name)
eq_(fkey1['referred_columns'], ['user_id', ])
if testing.requires.self_referential_foreign_keys.enabled:
eq_(fkey1['constrained_columns'], ['parent_user_id'])
# addresses
addr_fkeys = insp.get_foreign_keys(addresses.name,
schema=schema)
fkey1 = addr_fkeys[0]
with testing.requires.named_constraints.fail_if():
self.assert_(fkey1['name'] is not None)
eq_(fkey1['referred_schema'], expected_schema)
eq_(fkey1['referred_table'], users.name)
eq_(fkey1['referred_columns'], ['user_id', ])
eq_(fkey1['constrained_columns'], ['remote_user_id'])
@testing.requires.foreign_key_constraint_reflection
def test_get_foreign_keys(self):
self._test_get_foreign_keys()
@testing.requires.foreign_key_constraint_reflection
@testing.requires.schemas
def test_get_foreign_keys_with_schema(self):
self._test_get_foreign_keys(schema=testing.config.test_schema)
@testing.requires.foreign_key_constraint_option_reflection
@testing.provide_metadata
def test_get_foreign_key_options(self):
meta = self.metadata
Table(
'x', meta,
Column('id', Integer, primary_key=True),
test_needs_fk=True
)
Table('table', meta,
Column('id', Integer, primary_key=True),
Column('x_id', Integer, sa.ForeignKey('x.id', name='xid')),
Column('test', String(10)),
test_needs_fk=True)
Table('user', meta,
Column('id', Integer, primary_key=True),
Column('name', String(50), nullable=False),
Column('tid', Integer),
sa.ForeignKeyConstraint(
['tid'], ['table.id'],
name='myfk',
onupdate="SET NULL", ondelete="CASCADE"),
test_needs_fk=True)
meta.create_all()
insp = inspect(meta.bind)
# test 'options' is always present for a backend
# that can reflect these, since alembic looks for this
opts = insp.get_foreign_keys('table')[0]['options']
eq_(
dict(
(k, opts[k])
for k in opts if opts[k]
),
{}
)
opts = insp.get_foreign_keys('user')[0]['options']
eq_(
dict(
(k, opts[k])
for k in opts if opts[k]
),
{'onupdate': 'SET NULL', 'ondelete': 'CASCADE'}
)
@testing.provide_metadata
def _test_get_indexes(self, schema=None):
meta = self.metadata
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
# The database may decide to create indexes for foreign keys, etc.
# so there may be more indexes than expected.
insp = inspect(meta.bind)
indexes = insp.get_indexes('users', schema=schema)
expected_indexes = [
{'unique': False,
'column_names': ['test1', 'test2'],
'name': 'users_t_idx'},
{'unique': False,
'column_names': ['user_id', 'test2', 'test1'],
'name': 'users_all_idx'}
]
index_names = [d['name'] for d in indexes]
for e_index in expected_indexes:
assert e_index['name'] in index_names
index = indexes[index_names.index(e_index['name'])]
for key in e_index:
eq_(e_index[key], index[key])
@testing.requires.index_reflection
def test_get_indexes(self):
self._test_get_indexes()
@testing.requires.index_reflection
@testing.requires.schemas
def test_get_indexes_with_schema(self):
self._test_get_indexes(schema=testing.config.test_schema)
@testing.requires.unique_constraint_reflection
def test_get_unique_constraints(self):
self._test_get_unique_constraints()
@testing.requires.temp_table_reflection
@testing.requires.unique_constraint_reflection
def test_get_temp_table_unique_constraints(self):
insp = inspect(self.bind)
reflected = insp.get_unique_constraints('user_tmp')
for refl in reflected:
# Different dialects handle duplicate index and constraints
# differently, so ignore this flag
refl.pop('duplicates_index', None)
eq_(reflected, [{'column_names': ['name'], 'name': 'user_tmp_uq'}])
@testing.requires.temp_table_reflection
def test_get_temp_table_indexes(self):
insp = inspect(self.bind)
indexes = insp.get_indexes('user_tmp')
for ind in indexes:
ind.pop('dialect_options', None)
eq_(
# TODO: we need to add better filtering for indexes/uq constraints
# that are doubled up
[idx for idx in indexes if idx['name'] == 'user_tmp_ix'],
[{'unique': False, 'column_names': ['foo'], 'name': 'user_tmp_ix'}]
)
@testing.requires.unique_constraint_reflection
@testing.requires.schemas
def test_get_unique_constraints_with_schema(self):
self._test_get_unique_constraints(schema=testing.config.test_schema)
@testing.provide_metadata
def _test_get_unique_constraints(self, schema=None):
# SQLite dialect needs to parse the names of the constraints
# separately from what it gets from PRAGMA index_list(), and
# then matches them up. so same set of column_names in two
# constraints will confuse it. Perhaps we should no longer
# bother with index_list() here since we have the whole
# CREATE TABLE?
uniques = sorted(
[
{'name': 'unique_a', 'column_names': ['a']},
{'name': 'unique_a_b_c', 'column_names': ['a', 'b', 'c']},
{'name': 'unique_c_a_b', 'column_names': ['c', 'a', 'b']},
{'name': 'unique_asc_key', 'column_names': ['asc', 'key']},
{'name': 'i.have.dots', 'column_names': ['b']},
{'name': 'i have spaces', 'column_names': ['c']},
],
key=operator.itemgetter('name')
)
orig_meta = self.metadata
table = Table(
'testtbl', orig_meta,
Column('a', sa.String(20)),
Column('b', sa.String(30)),
Column('c', sa.Integer),
# reserved identifiers
Column('asc', sa.String(30)),
Column('key', sa.String(30)),
schema=schema
)
for uc in uniques:
table.append_constraint(
sa.UniqueConstraint(*uc['column_names'], name=uc['name'])
)
orig_meta.create_all()
inspector = inspect(orig_meta.bind)
reflected = sorted(
inspector.get_unique_constraints('testtbl', schema=schema),
key=operator.itemgetter('name')
)
for orig, refl in zip(uniques, reflected):
# Different dialects handle duplicate index and constraints
# differently, so ignore this flag
refl.pop('duplicates_index', None)
eq_(orig, refl)
@testing.provide_metadata
def _test_get_view_definition(self, schema=None):
meta = self.metadata
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
view_name1 = 'users_v'
view_name2 = 'email_addresses_v'
insp = inspect(meta.bind)
v1 = insp.get_view_definition(view_name1, schema=schema)
self.assert_(v1)
v2 = insp.get_view_definition(view_name2, schema=schema)
self.assert_(v2)
@testing.requires.view_reflection
def test_get_view_definition(self):
self._test_get_view_definition()
@testing.requires.view_reflection
@testing.requires.schemas
def test_get_view_definition_with_schema(self):
self._test_get_view_definition(schema=testing.config.test_schema)
@testing.only_on("postgresql", "PG specific feature")
@testing.provide_metadata
def _test_get_table_oid(self, table_name, schema=None):
meta = self.metadata
users, addresses, dingalings = self.tables.users, \
self.tables.email_addresses, self.tables.dingalings
insp = inspect(meta.bind)
oid = insp.get_table_oid(table_name, schema)
self.assert_(isinstance(oid, int))
def test_get_table_oid(self):
self._test_get_table_oid('users')
@testing.requires.schemas
def test_get_table_oid_with_schema(self):
self._test_get_table_oid('users', schema=testing.config.test_schema)
@testing.requires.table_reflection
@testing.provide_metadata
def test_autoincrement_col(self):
"""test that 'autoincrement' is reflected according to sqla's policy.
Don't mark this test as unsupported for any backend !
(technically it fails with MySQL InnoDB since "id" comes before "id2")
A backend is better off not returning "autoincrement" at all,
instead of potentially returning "False" for an auto-incrementing
primary key column.
"""
meta = self.metadata
insp = inspect(meta.bind)
for tname, cname in [
('users', 'user_id'),
('email_addresses', 'address_id'),
('dingalings', 'dingaling_id'),
]:
cols = insp.get_columns(tname)
id_ = dict((c['name'], c) for c in cols)[cname]
assert id_.get('autoincrement', True)
class NormalizedNameTest(fixtures.TablesTest):
__requires__ = 'denormalized_names',
__backend__ = True
@classmethod
def define_tables(cls, metadata):
Table(
quoted_name('t1', quote=True), metadata,
Column('id', Integer, primary_key=True),
)
Table(
quoted_name('t2', quote=True), metadata,
Column('id', Integer, primary_key=True),
Column('t1id', ForeignKey('t1.id'))
)
def test_reflect_lowercase_forced_tables(self):
m2 = MetaData(testing.db)
t2_ref = Table(quoted_name('t2', quote=True), m2, autoload=True)
t1_ref = m2.tables['t1']
assert t2_ref.c.t1id.references(t1_ref.c.id)
m3 = MetaData(testing.db)
m3.reflect(only=lambda name, m: name.lower() in ('t1', 't2'))
assert m3.tables['t2'].c.t1id.references(m3.tables['t1'].c.id)
def test_get_table_names(self):
tablenames = [
t for t in inspect(testing.db).get_table_names()
if t.lower() in ("t1", "t2")]
eq_(tablenames[0].upper(), tablenames[0].lower())
eq_(tablenames[1].upper(), tablenames[1].lower())
__all__ = ('ComponentReflectionTest', 'HasTableTest', 'NormalizedNameTest')