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Direktori : /opt/alt/python37/lib64/python3.7/site-packages/sqlalchemy/testing/suite/ |
Current File : //opt/alt/python37/lib64/python3.7/site-packages/sqlalchemy/testing/suite/test_reflection.py |
import operator import re import sqlalchemy as sa from .. import assert_raises_message from .. import config from .. import engines from .. import eq_ from .. import expect_warnings from .. import fixtures from .. import is_ from ..schema import Column from ..schema import Table from ... import event from ... import exc as sa_exc from ... import ForeignKey from ... import inspect from ... import Integer from ... import MetaData from ... import String from ... import testing from ... import types as sql_types from ...engine.reflection import Inspector from ...schema import DDL from ...schema import Index from ...sql.elements import quoted_name 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, name="user_id_fk" ), ), 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, ) Table( "comment_test", metadata, Column("id", sa.Integer, primary_key=True, comment="id comment"), Column("data", sa.String(20), comment="data % comment"), Column( "d2", sa.String(20), comment=r"""Comment types type speedily ' " \ '' Fun!""", ), schema=schema, comment=r"""the test % ' " \ table comment""", ) if testing.requires.cross_schema_fk_reflection.enabled: if schema is None: Table( "local_table", metadata, Column("id", sa.Integer, primary_key=True), Column("data", sa.String(20)), Column( "remote_id", ForeignKey( "%s.remote_table_2.id" % testing.config.test_schema ), ), test_needs_fk=True, schema=config.db.dialect.default_schema_name, ) else: Table( "remote_table", metadata, Column("id", sa.Integer, primary_key=True), Column( "local_id", ForeignKey( "%s.local_table.id" % config.db.dialect.default_schema_name ), ), Column("data", sa.String(20)), schema=schema, test_needs_fk=True, ) Table( "remote_table_2", metadata, Column("id", sa.Integer, primary_key=True), Column("data", sa.String(20)), schema=schema, test_needs_fk=True, ) if testing.requires.index_reflection.enabled: cls.define_index(metadata, users) if not schema: # test_needs_fk is at the moment to force MySQL InnoDB noncol_idx_test_nopk = Table( "noncol_idx_test_nopk", metadata, Column("q", sa.String(5)), test_needs_fk=True, ) noncol_idx_test_pk = Table( "noncol_idx_test_pk", metadata, Column("id", sa.Integer, primary_key=True), Column("q", sa.String(5)), test_needs_fk=True, ) Index("noncol_idx_nopk", noncol_idx_test_nopk.c.q.desc()) Index("noncol_idx_pk", noncol_idx_test_pk.c.q.desc()) 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 ): _ignore_tables = [ "comment_test", "noncol_idx_test_pk", "noncol_idx_test_nopk", "local_table", "remote_table", "remote_table_2", ] meta = self.metadata 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: if order_by: tables = [ rec[0] for rec in insp.get_sorted_table_and_fkc_names(schema) if rec[0] ] else: tables = insp.get_table_names(schema) table_names = [t for t in tables if t not in _ignore_tables] 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.comment_reflection def test_get_comments(self): self._test_get_comments() @testing.requires.comment_reflection @testing.requires.schemas def test_get_comments_with_schema(self): self._test_get_comments(testing.config.test_schema) def _test_get_comments(self, schema=None): insp = inspect(testing.db) eq_( insp.get_table_comment("comment_test", schema=schema), {"text": r"""the test % ' " \ table comment"""}, ) eq_(insp.get_table_comment("users", schema=schema), {"text": None}) eq_( [ {"name": rec["name"], "comment": rec["comment"]} for rec in insp.get_columns("comment_test", schema=schema) ], [ {"comment": "id comment", "name": "id"}, {"comment": "data % comment", "name": "data"}, { "comment": ( r"""Comment types type speedily ' " \ '' Fun!""" ), "name": "d2", }, ], ) @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 = (self.tables.users, self.tables.email_addresses) 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, r".*get_primary_keys\(\) method is deprecated", insp.get_primary_keys, users.name, ) @testing.provide_metadata def _test_get_foreign_keys(self, schema=None): meta = self.metadata users, addresses = (self.tables.users, self.tables.email_addresses) 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(): eq_(fkey1["name"], "user_id_fk") 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.implicitly_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.cross_schema_fk_reflection @testing.requires.schemas def test_get_inter_schema_foreign_keys(self): local_table, remote_table, remote_table_2 = self.tables( "%s.local_table" % testing.db.dialect.default_schema_name, "%s.remote_table" % testing.config.test_schema, "%s.remote_table_2" % testing.config.test_schema, ) insp = inspect(config.db) local_fkeys = insp.get_foreign_keys(local_table.name) eq_(len(local_fkeys), 1) fkey1 = local_fkeys[0] eq_(fkey1["referred_schema"], testing.config.test_schema) eq_(fkey1["referred_table"], remote_table_2.name) eq_(fkey1["referred_columns"], ["id"]) eq_(fkey1["constrained_columns"], ["remote_id"]) remote_fkeys = insp.get_foreign_keys( remote_table.name, schema=testing.config.test_schema ) eq_(len(remote_fkeys), 1) fkey2 = remote_fkeys[0] assert fkey2["referred_schema"] in ( None, testing.db.dialect.default_schema_name, ) eq_(fkey2["referred_table"], local_table.name) eq_(fkey2["referred_columns"], ["id"]) eq_(fkey2["constrained_columns"], ["local_id"]) @testing.requires.foreign_key_constraint_option_reflection_ondelete def test_get_foreign_key_options_ondelete(self): self._test_get_foreign_key_options(ondelete="CASCADE") @testing.requires.foreign_key_constraint_option_reflection_onupdate def test_get_foreign_key_options_onupdate(self): self._test_get_foreign_key_options(onupdate="SET NULL") @testing.provide_metadata def _test_get_foreign_key_options(self, **options): 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", **options ), 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]), options) def _assert_insp_indexes(self, indexes, expected_indexes): 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.provide_metadata def _test_get_indexes(self, schema=None): meta = self.metadata # 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", }, ] self._assert_insp_indexes(indexes, expected_indexes) @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.provide_metadata def _test_get_noncol_index(self, tname, ixname): meta = self.metadata insp = inspect(meta.bind) indexes = insp.get_indexes(tname) # reflecting an index that has "x DESC" in it as the column. # the DB may or may not give us "x", but make sure we get the index # back, it has a name, it's connected to the table. expected_indexes = [{"unique": False, "name": ixname}] self._assert_insp_indexes(indexes, expected_indexes) t = Table(tname, meta, autoload_with=meta.bind) eq_(len(t.indexes), 1) is_(list(t.indexes)[0].table, t) eq_(list(t.indexes)[0].name, ixname) @testing.requires.index_reflection def test_get_noncol_index_no_pk(self): self._test_get_noncol_index("noncol_idx_test_nopk", "noncol_idx_nopk") @testing.requires.index_reflection def test_get_noncol_index_pk(self): self._test_get_noncol_index("noncol_idx_test_pk", "noncol_idx_pk") @testing.requires.indexes_with_expressions @testing.provide_metadata def test_reflect_expression_based_indexes(self): Table( "t", self.metadata, Column("x", String(30)), Column("y", String(30)), ) event.listen( self.metadata, "after_create", DDL("CREATE INDEX t_idx ON t(lower(x), lower(y))"), ) event.listen( self.metadata, "after_create", DDL("CREATE INDEX t_idx_2 ON t(x)") ) self.metadata.create_all() insp = inspect(self.metadata.bind) with expect_warnings( "Skipped unsupported reflection of expression-based index t_idx" ): eq_( insp.get_indexes("t"), [{"name": "t_idx_2", "column_names": ["x"], "unique": 0}], ) @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"), ) names_that_duplicate_index = set() for orig, refl in zip(uniques, reflected): # Different dialects handle duplicate index and constraints # differently, so ignore this flag dupe = refl.pop("duplicates_index", None) if dupe: names_that_duplicate_index.add(dupe) eq_(orig, refl) reflected_metadata = MetaData() reflected = Table( "testtbl", reflected_metadata, autoload_with=orig_meta.bind, schema=schema, ) # test "deduplicates for index" logic. MySQL and Oracle # "unique constraints" are actually unique indexes (with possible # exception of a unique that is a dupe of another one in the case # of Oracle). make sure # they aren't duplicated. idx_names = set([idx.name for idx in reflected.indexes]) uq_names = set( [ uq.name for uq in reflected.constraints if isinstance(uq, sa.UniqueConstraint) ] ).difference(["unique_c_a_b"]) assert not idx_names.intersection(uq_names) if names_that_duplicate_index: eq_(names_that_duplicate_index, idx_names) eq_(uq_names, set()) @testing.requires.check_constraint_reflection def test_get_check_constraints(self): self._test_get_check_constraints() @testing.requires.check_constraint_reflection @testing.requires.schemas def test_get_check_constraints_schema(self): self._test_get_check_constraints(schema=testing.config.test_schema) @testing.provide_metadata def _test_get_check_constraints(self, schema=None): orig_meta = self.metadata Table( "sa_cc", orig_meta, Column("a", Integer()), sa.CheckConstraint("a > 1 AND a < 5", name="cc1"), sa.CheckConstraint("a = 1 OR (a > 2 AND a < 5)", name="cc2"), schema=schema, ) orig_meta.create_all() inspector = inspect(orig_meta.bind) reflected = sorted( inspector.get_check_constraints("sa_cc", schema=schema), key=operator.itemgetter("name"), ) # trying to minimize effect of quoting, parenthesis, etc. # may need to add more to this as new dialects get CHECK # constraint reflection support def normalize(sqltext): return " ".join( re.findall(r"and|\d|=|a|or|<|>", sqltext.lower(), re.I) ) reflected = [ {"name": item["name"], "sqltext": normalize(item["sqltext"])} for item in reflected ] eq_( reflected, [ {"name": "cc1", "sqltext": "a > 1 and a < 5"}, {"name": "cc2", "sqltext": "a = 1 or a > 2 and a < 5"}, ], ) @testing.provide_metadata def _test_get_view_definition(self, schema=None): meta = self.metadata 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 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_ = {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")