#!coding: utf-8 """SQLite-specific tests.""" import datetime import json import os from sqlalchemy import and_ from sqlalchemy import bindparam from sqlalchemy import CheckConstraint from sqlalchemy import Column from sqlalchemy import column from sqlalchemy import Computed from sqlalchemy import create_engine from sqlalchemy import DefaultClause from sqlalchemy import event from sqlalchemy import exc from sqlalchemy import extract from sqlalchemy import ForeignKey from sqlalchemy import func from sqlalchemy import Index from sqlalchemy import inspect from sqlalchemy import MetaData from sqlalchemy import pool from sqlalchemy import PrimaryKeyConstraint from sqlalchemy import schema from sqlalchemy import select from sqlalchemy import sql from sqlalchemy import Table from sqlalchemy import testing from sqlalchemy import text from sqlalchemy import tuple_ from sqlalchemy import types as sqltypes from sqlalchemy import UniqueConstraint from sqlalchemy import util from sqlalchemy.dialects.sqlite import base as sqlite from sqlalchemy.dialects.sqlite import pysqlite as pysqlite_dialect from sqlalchemy.engine.reflection import Inspector from sqlalchemy.engine.url import make_url from sqlalchemy.schema import CreateTable from sqlalchemy.schema import FetchedValue from sqlalchemy.testing import assert_raises from sqlalchemy.testing import assert_raises_message from sqlalchemy.testing import AssertsCompiledSQL from sqlalchemy.testing import AssertsExecutionResults from sqlalchemy.testing import combinations from sqlalchemy.testing import engines from sqlalchemy.testing import eq_ from sqlalchemy.testing import expect_warnings from sqlalchemy.testing import fixtures from sqlalchemy.testing import is_ from sqlalchemy.testing import mock from sqlalchemy.types import Boolean from sqlalchemy.types import Date from sqlalchemy.types import DateTime from sqlalchemy.types import Integer from sqlalchemy.types import String from sqlalchemy.types import Time from sqlalchemy.util import u from sqlalchemy.util import ue class TestTypes(fixtures.TestBase, AssertsExecutionResults): __only_on__ = "sqlite" def test_boolean(self): """Test that the boolean only treats 1 as True""" meta = MetaData(testing.db) t = Table( "bool_table", meta, Column("id", Integer, primary_key=True), Column("boo", Boolean(create_constraint=False)), ) try: meta.create_all() testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (1, 'false');" ) testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (2, 'true');" ) testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (3, '1');" ) testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (4, '0');" ) testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (5, 1);" ) testing.db.execute( "INSERT INTO bool_table (id, boo) " "VALUES (6, 0);" ) eq_( t.select(t.c.boo).order_by(t.c.id).execute().fetchall(), [(3, True), (5, True)], ) finally: meta.drop_all() def test_string_dates_passed_raise(self): assert_raises( exc.StatementError, testing.db.execute, select([1]).where(bindparam("date", type_=Date)), date=str(datetime.date(2007, 10, 30)), ) def test_cant_parse_datetime_message(self): for (typ, disp) in [ (Time, "time"), (DateTime, "datetime"), (Date, "date"), ]: assert_raises_message( ValueError, "Couldn't parse %s string." % disp, lambda: testing.db.execute( text("select 'ASDF' as value").columns(value=typ) ).scalar(), ) def test_native_datetime(self): dbapi = testing.db.dialect.dbapi connect_args = { "detect_types": dbapi.PARSE_DECLTYPES | dbapi.PARSE_COLNAMES } engine = engines.testing_engine( options={"connect_args": connect_args, "native_datetime": True} ) t = Table( "datetest", MetaData(), Column("id", Integer, primary_key=True), Column("d1", Date), Column("d2", sqltypes.TIMESTAMP), ) t.create(engine) try: engine.execute( t.insert(), { "d1": datetime.date(2010, 5, 10), "d2": datetime.datetime(2010, 5, 10, 12, 15, 25), }, ) row = engine.execute(t.select()).first() eq_( row, ( 1, datetime.date(2010, 5, 10), datetime.datetime(2010, 5, 10, 12, 15, 25), ), ) r = engine.execute(func.current_date()).scalar() assert isinstance(r, util.string_types) finally: t.drop(engine) engine.dispose() @testing.provide_metadata def test_custom_datetime(self): sqlite_date = sqlite.DATETIME( # 2004-05-21T00:00:00 storage_format="%(year)04d-%(month)02d-%(day)02d" "T%(hour)02d:%(minute)02d:%(second)02d", regexp=r"(\d+)-(\d+)-(\d+)T(\d+):(\d+):(\d+)", ) t = Table("t", self.metadata, Column("d", sqlite_date)) self.metadata.create_all(testing.db) testing.db.execute( t.insert().values(d=datetime.datetime(2010, 10, 15, 12, 37, 0)) ) testing.db.execute("insert into t (d) values ('2004-05-21T00:00:00')") eq_( testing.db.execute("select * from t order by d").fetchall(), [("2004-05-21T00:00:00",), ("2010-10-15T12:37:00",)], ) eq_( testing.db.execute(select([t.c.d]).order_by(t.c.d)).fetchall(), [ (datetime.datetime(2004, 5, 21, 0, 0),), (datetime.datetime(2010, 10, 15, 12, 37),), ], ) @testing.provide_metadata def test_custom_datetime_text_affinity(self): sqlite_date = sqlite.DATETIME( storage_format="%(year)04d%(month)02d%(day)02d" "%(hour)02d%(minute)02d%(second)02d", regexp=r"(\d{4})(\d{2})(\d{2})(\d{2})(\d{2})(\d{2})", ) t = Table("t", self.metadata, Column("d", sqlite_date)) self.metadata.create_all(testing.db) testing.db.execute( t.insert().values(d=datetime.datetime(2010, 10, 15, 12, 37, 0)) ) testing.db.execute("insert into t (d) values ('20040521000000')") eq_( testing.db.execute("select * from t order by d").fetchall(), [("20040521000000",), ("20101015123700",)], ) eq_( testing.db.execute(select([t.c.d]).order_by(t.c.d)).fetchall(), [ (datetime.datetime(2004, 5, 21, 0, 0),), (datetime.datetime(2010, 10, 15, 12, 37),), ], ) @testing.provide_metadata def test_custom_date_text_affinity(self): sqlite_date = sqlite.DATE( storage_format="%(year)04d%(month)02d%(day)02d", regexp=r"(\d{4})(\d{2})(\d{2})", ) t = Table("t", self.metadata, Column("d", sqlite_date)) self.metadata.create_all(testing.db) testing.db.execute(t.insert().values(d=datetime.date(2010, 10, 15))) testing.db.execute("insert into t (d) values ('20040521')") eq_( testing.db.execute("select * from t order by d").fetchall(), [("20040521",), ("20101015",)], ) eq_( testing.db.execute(select([t.c.d]).order_by(t.c.d)).fetchall(), [(datetime.date(2004, 5, 21),), (datetime.date(2010, 10, 15),)], ) @testing.provide_metadata def test_custom_date(self): sqlite_date = sqlite.DATE( # 2004-05-21T00:00:00 storage_format="%(year)04d|%(month)02d|%(day)02d", regexp=r"(\d+)\|(\d+)\|(\d+)", ) t = Table("t", self.metadata, Column("d", sqlite_date)) self.metadata.create_all(testing.db) testing.db.execute(t.insert().values(d=datetime.date(2010, 10, 15))) testing.db.execute("insert into t (d) values ('2004|05|21')") eq_( testing.db.execute("select * from t order by d").fetchall(), [("2004|05|21",), ("2010|10|15",)], ) eq_( testing.db.execute(select([t.c.d]).order_by(t.c.d)).fetchall(), [(datetime.date(2004, 5, 21),), (datetime.date(2010, 10, 15),)], ) def test_no_convert_unicode(self): """test no utf-8 encoding occurs""" dialect = sqlite.dialect() for t in ( String(), sqltypes.CHAR(), sqltypes.Unicode(), sqltypes.UnicodeText(), String(), sqltypes.CHAR(), sqltypes.Unicode(), sqltypes.UnicodeText(), ): bindproc = t.dialect_impl(dialect).bind_processor(dialect) assert not bindproc or isinstance( bindproc(util.u("some string")), util.text_type ) class JSONTest(fixtures.TestBase): __requires__ = ("json_type",) __only_on__ = "sqlite" @testing.provide_metadata @testing.requires.reflects_json_type def test_reflection(self): Table("json_test", self.metadata, Column("foo", sqlite.JSON)) self.metadata.create_all() reflected = Table("json_test", MetaData(), autoload_with=testing.db) is_(reflected.c.foo.type._type_affinity, sqltypes.JSON) assert isinstance(reflected.c.foo.type, sqlite.JSON) @testing.provide_metadata def test_rudimentary_roundtrip(self): sqlite_json = Table( "json_test", self.metadata, Column("foo", sqlite.JSON) ) self.metadata.create_all() value = {"json": {"foo": "bar"}, "recs": ["one", "two"]} with testing.db.connect() as conn: conn.execute(sqlite_json.insert(), foo=value) eq_(conn.scalar(select([sqlite_json.c.foo])), value) @testing.provide_metadata def test_extract_subobject(self): sqlite_json = Table( "json_test", self.metadata, Column("foo", sqlite.JSON) ) self.metadata.create_all() value = {"json": {"foo": "bar"}} with testing.db.connect() as conn: conn.execute(sqlite_json.insert(), foo=value) eq_( conn.scalar(select([sqlite_json.c.foo["json"]])), value["json"] ) @testing.provide_metadata def test_deprecated_serializer_args(self): sqlite_json = Table( "json_test", self.metadata, Column("foo", sqlite.JSON) ) data_element = {"foo": "bar"} js = mock.Mock(side_effect=json.dumps) jd = mock.Mock(side_effect=json.loads) with testing.expect_deprecated( "The _json_deserializer argument to the SQLite " "dialect has been renamed", "The _json_serializer argument to the SQLite " "dialect has been renamed", ): engine = engines.testing_engine( options=dict(_json_serializer=js, _json_deserializer=jd) ) self.metadata.create_all(engine) engine.execute(sqlite_json.insert(), {"foo": data_element}) row = engine.execute(select([sqlite_json.c.foo])).first() eq_(row, (data_element,)) eq_(js.mock_calls, [mock.call(data_element)]) eq_(jd.mock_calls, [mock.call(json.dumps(data_element))]) class DateTimeTest(fixtures.TestBase, AssertsCompiledSQL): def test_time_microseconds(self): dt = datetime.datetime(2008, 6, 27, 12, 0, 0, 125) eq_(str(dt), "2008-06-27 12:00:00.000125") sldt = sqlite.DATETIME() bp = sldt.bind_processor(None) eq_(bp(dt), "2008-06-27 12:00:00.000125") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) def test_truncate_microseconds(self): dt = datetime.datetime(2008, 6, 27, 12, 0, 0, 125) dt_out = datetime.datetime(2008, 6, 27, 12, 0, 0) eq_(str(dt), "2008-06-27 12:00:00.000125") sldt = sqlite.DATETIME(truncate_microseconds=True) bp = sldt.bind_processor(None) eq_(bp(dt), "2008-06-27 12:00:00") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt_out) def test_custom_format_compact(self): dt = datetime.datetime(2008, 6, 27, 12, 0, 0, 125) eq_(str(dt), "2008-06-27 12:00:00.000125") sldt = sqlite.DATETIME( storage_format=( "%(year)04d%(month)02d%(day)02d" "%(hour)02d%(minute)02d%(second)02d%(microsecond)06d" ), regexp=r"(\d{4})(\d{2})(\d{2})(\d{2})(\d{2})(\d{2})(\d{6})", ) bp = sldt.bind_processor(None) eq_(bp(dt), "20080627120000000125") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) class DateTest(fixtures.TestBase, AssertsCompiledSQL): def test_default(self): dt = datetime.date(2008, 6, 27) eq_(str(dt), "2008-06-27") sldt = sqlite.DATE() bp = sldt.bind_processor(None) eq_(bp(dt), "2008-06-27") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) def test_custom_format(self): dt = datetime.date(2008, 6, 27) eq_(str(dt), "2008-06-27") sldt = sqlite.DATE( storage_format="%(month)02d/%(day)02d/%(year)04d", regexp=r"(?P\d+)/(?P\d+)/(?P\d+)", ) bp = sldt.bind_processor(None) eq_(bp(dt), "06/27/2008") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) class TimeTest(fixtures.TestBase, AssertsCompiledSQL): def test_default(self): dt = datetime.date(2008, 6, 27) eq_(str(dt), "2008-06-27") sldt = sqlite.DATE() bp = sldt.bind_processor(None) eq_(bp(dt), "2008-06-27") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) def test_truncate_microseconds(self): dt = datetime.time(12, 0, 0, 125) dt_out = datetime.time(12, 0, 0) eq_(str(dt), "12:00:00.000125") sldt = sqlite.TIME(truncate_microseconds=True) bp = sldt.bind_processor(None) eq_(bp(dt), "12:00:00") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt_out) def test_custom_format(self): dt = datetime.date(2008, 6, 27) eq_(str(dt), "2008-06-27") sldt = sqlite.DATE( storage_format="%(year)04d%(month)02d%(day)02d", regexp=r"(\d{4})(\d{2})(\d{2})", ) bp = sldt.bind_processor(None) eq_(bp(dt), "20080627") rp = sldt.result_processor(None, None) eq_(rp(bp(dt)), dt) class DefaultsTest(fixtures.TestBase, AssertsCompiledSQL): __only_on__ = "sqlite" @testing.exclude( "sqlite", "<", (3, 3, 8), "sqlite3 changesets 3353 and 3440 modified " "behavior of default displayed in pragma " "table_info()", ) def test_default_reflection(self): # (ask_for, roundtripped_as_if_different) specs = [ (String(3), '"foo"'), (sqltypes.NUMERIC(10, 2), "100.50"), (Integer, "5"), (Boolean, "False"), ] columns = [ Column("c%i" % (i + 1), t[0], server_default=text(t[1])) for (i, t) in enumerate(specs) ] db = testing.db m = MetaData(db) Table("t_defaults", m, *columns) try: m.create_all() m2 = MetaData(db) rt = Table("t_defaults", m2, autoload=True) expected = [c[1] for c in specs] for i, reflected in enumerate(rt.c): eq_(str(reflected.server_default.arg), expected[i]) finally: m.drop_all() @testing.exclude( "sqlite", "<", (3, 3, 8), "sqlite3 changesets 3353 and 3440 modified " "behavior of default displayed in pragma " "table_info()", ) def test_default_reflection_2(self): db = testing.db m = MetaData(db) expected = ["'my_default'", "0"] table = """CREATE TABLE r_defaults ( data VARCHAR(40) DEFAULT 'my_default', val INTEGER NOT NULL DEFAULT 0 )""" try: db.execute(table) rt = Table("r_defaults", m, autoload=True) for i, reflected in enumerate(rt.c): eq_(str(reflected.server_default.arg), expected[i]) finally: db.execute("DROP TABLE r_defaults") def test_default_reflection_3(self): db = testing.db table = """CREATE TABLE r_defaults ( data VARCHAR(40) DEFAULT 'my_default', val INTEGER NOT NULL DEFAULT 0 )""" try: db.execute(table) m1 = MetaData(db) t1 = Table("r_defaults", m1, autoload=True) db.execute("DROP TABLE r_defaults") t1.create() m2 = MetaData(db) t2 = Table("r_defaults", m2, autoload=True) self.assert_compile( CreateTable(t2), "CREATE TABLE r_defaults (data VARCHAR(40) " "DEFAULT 'my_default', val INTEGER DEFAULT 0 " "NOT NULL)", ) finally: db.execute("DROP TABLE r_defaults") @testing.provide_metadata def test_boolean_default(self): t = Table( "t", self.metadata, Column("x", Boolean, server_default=sql.false()), ) t.create(testing.db) with testing.db.connect() as conn: conn.execute(t.insert()) conn.execute(t.insert().values(x=True)) eq_( conn.execute(t.select().order_by(t.c.x)).fetchall(), [(False,), (True,)], ) @testing.provide_metadata def test_function_default(self): t = Table( "t", self.metadata, Column("id", Integer, primary_key=True), Column("x", DateTime(), server_default=func.now()), ) t.create(testing.db) with testing.db.connect() as conn: now = conn.scalar(func.now()) today = datetime.datetime.today() conn.execute(t.insert()) conn.execute(t.insert().values(x=today)) eq_( conn.execute(select([t.c.x]).order_by(t.c.id)).fetchall(), [(now,), (today,)], ) @testing.provide_metadata def test_expression_with_function_default(self): t = Table( "t", self.metadata, Column("id", Integer, primary_key=True), Column("x", Integer(), server_default=func.abs(-5) + 17), ) t.create(testing.db) with testing.db.connect() as conn: conn.execute(t.insert()) conn.execute(t.insert().values(x=35)) eq_( conn.execute(select([t.c.x]).order_by(t.c.id)).fetchall(), [(22,), (35,)], ) def test_old_style_default(self): """test non-quoted integer value on older sqlite pragma""" dialect = sqlite.dialect() info = dialect._get_column_info( "foo", "INTEGER", False, 3, False, False, False, None ) eq_(info["default"], "3") class DialectTest( fixtures.TestBase, AssertsExecutionResults, AssertsCompiledSQL ): __only_on__ = "sqlite" def test_extra_reserved_words(self): """Tests reserved words in identifiers. 'true', 'false', and 'column' are undocumented reserved words when used as column identifiers (as of 3.5.1). Covering them here to ensure they remain in place if the dialect's reserved_words set is updated in the future.""" meta = MetaData(testing.db) t = Table( "reserved", meta, Column("safe", Integer), Column("true", Integer), Column("false", Integer), Column("column", Integer), Column("exists", Integer), ) try: meta.create_all() t.insert().execute(safe=1) list(t.select().execute()) finally: meta.drop_all() @testing.provide_metadata def test_quoted_identifiers_functional_one(self): """Tests autoload of tables created with quoted column names.""" metadata = self.metadata testing.db.execute( """CREATE TABLE "django_content_type" ( "id" integer NOT NULL PRIMARY KEY, "django_stuff" text NULL ) """ ) testing.db.execute( """ CREATE TABLE "django_admin_log" ( "id" integer NOT NULL PRIMARY KEY, "action_time" datetime NOT NULL, "content_type_id" integer NULL REFERENCES "django_content_type" ("id"), "object_id" text NULL, "change_message" text NOT NULL ) """ ) table1 = Table("django_admin_log", metadata, autoload=True) table2 = Table("django_content_type", metadata, autoload=True) j = table1.join(table2) assert j.onclause.compare(table1.c.content_type_id == table2.c.id) @testing.provide_metadata def test_quoted_identifiers_functional_two(self): """ "test the edgiest of edge cases, quoted table/col names that start and end with quotes. SQLite claims to have fixed this in http://www.sqlite.org/src/info/600482d161, however it still fails if the FK points to a table name that actually has quotes as part of its name. """ metadata = self.metadata testing.db.execute( r'''CREATE TABLE """a""" ( """id""" integer NOT NULL PRIMARY KEY ) ''' ) # unfortunately, still can't do this; sqlite quadruples # up the quotes on the table name here for pragma foreign_key_list # testing.db.execute(r''' # CREATE TABLE """b""" ( # """id""" integer NOT NULL PRIMARY KEY, # """aid""" integer NULL # REFERENCES """a""" ("""id""") # ) # ''') table1 = Table(r'"a"', metadata, autoload=True) assert '"id"' in table1.c # table2 = Table(r'"b"', metadata, autoload=True) # j = table1.join(table2) # assert j.onclause.compare(table1.c['"id"'] # == table2.c['"aid"']) @testing.provide_metadata def test_description_encoding(self): # amazingly, pysqlite seems to still deliver cursor.description # as encoded bytes in py2k t = Table( "x", self.metadata, Column(u("méil"), Integer, primary_key=True), Column(ue("\u6e2c\u8a66"), Integer), ) self.metadata.create_all(testing.db) result = testing.db.execute(t.select()) assert u("méil") in result.keys() assert ue("\u6e2c\u8a66") in result.keys() def test_pool_class(self): e = create_engine("sqlite+pysqlite://") assert e.pool.__class__ is pool.SingletonThreadPool e = create_engine("sqlite+pysqlite:///:memory:") assert e.pool.__class__ is pool.SingletonThreadPool e = create_engine("sqlite+pysqlite:///foo.db") assert e.pool.__class__ is pool.NullPool @combinations( ( "sqlite:///foo.db", # file path is absolute ([os.path.abspath("foo.db")], {}), ), ( "sqlite:////abs/path/to/foo.db", ([os.path.abspath("/abs/path/to/foo.db")], {}), ), ("sqlite://", ([":memory:"], {})), ( "sqlite:///?check_same_thread=true", ([":memory:"], {"check_same_thread": True}), ), ( "sqlite:///file:path/to/database?" "check_same_thread=true&timeout=10&mode=ro&nolock=1&uri=true", ( ["file:path/to/database?mode=ro&nolock=1"], {"check_same_thread": True, "timeout": 10.0, "uri": True}, ), ), ( "sqlite:///file:path/to/database?" "mode=ro&uri=true", (["file:path/to/database?mode=ro"], {"uri": True}), ), ( "sqlite:///file:path/to/database?uri=true", (["file:path/to/database"], {"uri": True}), ), ) def test_connect_args(self, url, expected): """test create_connect_args scenarios including support for uri=True""" d = pysqlite_dialect.dialect() url = make_url(url) eq_(d.create_connect_args(url), expected) @testing.combinations( ("no_persisted", "", "ignore"), ("persisted_none", "", None), ("persisted_true", " STORED", True), ("persisted_false", " VIRTUAL", False), id_="iaa", ) def test_column_computed(self, text, persisted): m = MetaData() kwargs = {"persisted": persisted} if persisted != "ignore" else {} t = Table( "t", m, Column("x", Integer), Column("y", Integer, Computed("x + 2", **kwargs)), ) self.assert_compile( schema.CreateTable(t), "CREATE TABLE t (x INTEGER," " y INTEGER GENERATED ALWAYS AS (x + 2)%s)" % text, ) class AttachedDBTest(fixtures.TestBase): __only_on__ = "sqlite" def _fixture(self): meta = self.metadata self.conn = testing.db.connect() Table("created", meta, Column("foo", Integer), Column("bar", String)) Table("local_only", meta, Column("q", Integer), Column("p", Integer)) ct = Table( "created", meta, Column("id", Integer), Column("name", String), schema="test_schema", ) Table( "another_created", meta, Column("bat", Integer), Column("hoho", String), schema="test_schema", ) meta.create_all(self.conn) return ct def setup(self): self.conn = testing.db.connect() self.metadata = MetaData() def teardown(self): self.metadata.drop_all(self.conn) self.conn.close() def test_no_tables(self): insp = inspect(self.conn) eq_(insp.get_table_names("test_schema"), []) def test_column_names(self): self._fixture() insp = inspect(self.conn) eq_( [ d["name"] for d in insp.get_columns("created", schema="test_schema") ], ["id", "name"], ) eq_( [d["name"] for d in insp.get_columns("created", schema=None)], ["foo", "bar"], ) eq_( [ d["name"] for d in insp.get_columns("nonexistent", schema="test_schema") ], [], ) eq_( [ d["name"] for d in insp.get_columns("another_created", schema=None) ], [], ) eq_( [ d["name"] for d in insp.get_columns("local_only", schema="test_schema") ], [], ) eq_([d["name"] for d in insp.get_columns("local_only")], ["q", "p"]) def test_table_names_present(self): self._fixture() insp = inspect(self.conn) eq_( set(insp.get_table_names("test_schema")), {"created", "another_created"}, ) def test_table_names_system(self): self._fixture() insp = inspect(self.conn) eq_( set(insp.get_table_names("test_schema")), {"created", "another_created"}, ) def test_schema_names(self): self._fixture() insp = inspect(self.conn) eq_(insp.get_schema_names(), ["main", "test_schema"]) # implicitly creates a "temp" schema self.conn.execute("select * from sqlite_temp_master") # we're not including it insp = inspect(self.conn) eq_(insp.get_schema_names(), ["main", "test_schema"]) def test_reflect_system_table(self): meta = MetaData(self.conn) alt_master = Table( "sqlite_master", meta, autoload=True, autoload_with=self.conn, schema="test_schema", ) assert len(alt_master.c) > 0 def test_reflect_user_table(self): self._fixture() m2 = MetaData() c2 = Table("created", m2, autoload=True, autoload_with=self.conn) eq_(len(c2.c), 2) def test_crud(self): ct = self._fixture() self.conn.execute(ct.insert(), {"id": 1, "name": "foo"}) eq_(self.conn.execute(ct.select()).fetchall(), [(1, "foo")]) self.conn.execute(ct.update(), {"id": 2, "name": "bar"}) eq_(self.conn.execute(ct.select()).fetchall(), [(2, "bar")]) self.conn.execute(ct.delete()) eq_(self.conn.execute(ct.select()).fetchall(), []) def test_col_targeting(self): ct = self._fixture() self.conn.execute(ct.insert(), {"id": 1, "name": "foo"}) row = self.conn.execute(ct.select()).first() eq_(row["id"], 1) eq_(row["name"], "foo") def test_col_targeting_union(self): ct = self._fixture() self.conn.execute(ct.insert(), {"id": 1, "name": "foo"}) row = self.conn.execute(ct.select().union(ct.select())).first() eq_(row["id"], 1) eq_(row["name"], "foo") class SQLTest(fixtures.TestBase, AssertsCompiledSQL): """Tests SQLite-dialect specific compilation.""" __dialect__ = sqlite.dialect() def test_extract(self): t = sql.table("t", sql.column("col1")) mapping = { "month": "%m", "day": "%d", "year": "%Y", "second": "%S", "hour": "%H", "doy": "%j", "minute": "%M", "epoch": "%s", "dow": "%w", "week": "%W", } for field, subst in mapping.items(): self.assert_compile( select([extract(field, t.c.col1)]), "SELECT CAST(STRFTIME('%s', t.col1) AS " "INTEGER) AS anon_1 FROM t" % subst, ) def test_true_false(self): self.assert_compile(sql.false(), "0") self.assert_compile(sql.true(), "1") def test_is_distinct_from(self): self.assert_compile( sql.column("x").is_distinct_from(None), "x IS NOT NULL" ) self.assert_compile( sql.column("x").isnot_distinct_from(False), "x IS 0" ) def test_localtime(self): self.assert_compile( func.localtimestamp(), 'DATETIME(CURRENT_TIMESTAMP, "localtime")' ) def test_constraints_with_schemas(self): metadata = MetaData() Table( "t1", metadata, Column("id", Integer, primary_key=True), schema="master", ) t2 = Table( "t2", metadata, Column("id", Integer, primary_key=True), Column("t1_id", Integer, ForeignKey("master.t1.id")), schema="master", ) t3 = Table( "t3", metadata, Column("id", Integer, primary_key=True), Column("t1_id", Integer, ForeignKey("master.t1.id")), schema="alternate", ) t4 = Table( "t4", metadata, Column("id", Integer, primary_key=True), Column("t1_id", Integer, ForeignKey("master.t1.id")), ) # schema->schema, generate REFERENCES with no schema name self.assert_compile( schema.CreateTable(t2), "CREATE TABLE master.t2 (" "id INTEGER NOT NULL, " "t1_id INTEGER, " "PRIMARY KEY (id), " "FOREIGN KEY(t1_id) REFERENCES t1 (id)" ")", ) # schema->different schema, don't generate REFERENCES self.assert_compile( schema.CreateTable(t3), "CREATE TABLE alternate.t3 (" "id INTEGER NOT NULL, " "t1_id INTEGER, " "PRIMARY KEY (id)" ")", ) # same for local schema self.assert_compile( schema.CreateTable(t4), "CREATE TABLE t4 (" "id INTEGER NOT NULL, " "t1_id INTEGER, " "PRIMARY KEY (id)" ")", ) def test_column_defaults_ddl(self): t = Table( "t", MetaData(), Column("x", Boolean, server_default=sql.false()) ) self.assert_compile( CreateTable(t), "CREATE TABLE t (x BOOLEAN DEFAULT (0), CHECK (x IN (0, 1)))", ) t = Table( "t", MetaData(), Column("x", String(), server_default=func.sqlite_version()), ) self.assert_compile( CreateTable(t), "CREATE TABLE t (x VARCHAR DEFAULT (sqlite_version()))", ) t = Table( "t", MetaData(), Column("x", Integer(), server_default=func.abs(-5) + 17), ) self.assert_compile( CreateTable(t), "CREATE TABLE t (x INTEGER DEFAULT (abs(-5) + 17))" ) def test_create_partial_index(self): m = MetaData() tbl = Table("testtbl", m, Column("data", Integer)) idx = Index( "test_idx1", tbl.c.data, sqlite_where=and_(tbl.c.data > 5, tbl.c.data < 10), ) # test quoting and all that idx2 = Index( "test_idx2", tbl.c.data, sqlite_where=and_(tbl.c.data > "a", tbl.c.data < "b's"), ) self.assert_compile( schema.CreateIndex(idx), "CREATE INDEX test_idx1 ON testtbl (data) " "WHERE data > 5 AND data < 10", dialect=sqlite.dialect(), ) self.assert_compile( schema.CreateIndex(idx2), "CREATE INDEX test_idx2 ON testtbl (data) " "WHERE data > 'a' AND data < 'b''s'", dialect=sqlite.dialect(), ) def test_no_autoinc_on_composite_pk(self): m = MetaData() t = Table( "t", m, Column("x", Integer, primary_key=True, autoincrement=True), Column("y", Integer, primary_key=True), ) assert_raises_message( exc.CompileError, "SQLite does not support autoincrement for composite", CreateTable(t).compile, dialect=sqlite.dialect(), ) def test_in_tuple(self): self.assert_compile( tuple_(column("q"), column("p")).in_([(1, 2), (3, 4)]), "(q, p) IN (VALUES (?, ?), (?, ?))", ) def test_create_table_without_rowid(self): m = MetaData() tbl = Table( "atable", m, Column("id", Integer), sqlite_with_rowid=False ) self.assert_compile( schema.CreateTable(tbl), "CREATE TABLE atable (id INTEGER) WITHOUT ROWID", ) class OnConflictDDLTest(fixtures.TestBase, AssertsCompiledSQL): __dialect__ = sqlite.dialect() def test_on_conflict_clause_column_not_null(self): c = Column( "test", Integer, nullable=False, sqlite_on_conflict_not_null="FAIL" ) self.assert_compile( schema.CreateColumn(c), "test INTEGER NOT NULL " "ON CONFLICT FAIL", dialect=sqlite.dialect(), ) def test_on_conflict_clause_column_many_clause(self): meta = MetaData() t = Table( "n", meta, Column( "test", Integer, nullable=False, primary_key=True, sqlite_on_conflict_not_null="FAIL", sqlite_on_conflict_primary_key="IGNORE", ), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (" "test INTEGER NOT NULL ON CONFLICT FAIL, " "PRIMARY KEY (test) ON CONFLICT IGNORE)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_unique_constraint_from_column(self): meta = MetaData() t = Table( "n", meta, Column( "x", String(30), unique=True, sqlite_on_conflict_unique="FAIL" ), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (x VARCHAR(30), " "UNIQUE (x) ON CONFLICT FAIL)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_unique_constraint(self): meta = MetaData() t = Table( "n", meta, Column("id", Integer), Column("x", String(30)), UniqueConstraint("id", "x", sqlite_on_conflict="FAIL"), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (id INTEGER, x VARCHAR(30), " "UNIQUE (id, x) ON CONFLICT FAIL)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_primary_key(self): meta = MetaData() t = Table( "n", meta, Column( "id", Integer, primary_key=True, sqlite_on_conflict_primary_key="FAIL", ), sqlite_autoincrement=True, ) self.assert_compile( CreateTable(t), "CREATE TABLE n (id INTEGER NOT NULL " "PRIMARY KEY ON CONFLICT FAIL AUTOINCREMENT)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_primary_key_constraint_from_column(self): meta = MetaData() t = Table( "n", meta, Column( "x", String(30), sqlite_on_conflict_primary_key="FAIL", primary_key=True, ), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (x VARCHAR(30) NOT NULL, " "PRIMARY KEY (x) ON CONFLICT FAIL)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_check_constraint(self): meta = MetaData() t = Table( "n", meta, Column("id", Integer), Column("x", Integer), CheckConstraint("id > x", sqlite_on_conflict="FAIL"), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (id INTEGER, x INTEGER, " "CHECK (id > x) ON CONFLICT FAIL)", dialect=sqlite.dialect(), ) def test_on_conflict_clause_check_constraint_from_column(self): meta = MetaData() t = Table( "n", meta, Column( "x", Integer, CheckConstraint("x > 1", sqlite_on_conflict="FAIL"), ), ) assert_raises_message( exc.CompileError, "SQLite does not support on conflict " "clause for column check constraint", CreateTable(t).compile, dialect=sqlite.dialect(), ) def test_on_conflict_clause_primary_key_constraint(self): meta = MetaData() t = Table( "n", meta, Column("id", Integer), Column("x", String(30)), PrimaryKeyConstraint("id", "x", sqlite_on_conflict="FAIL"), ) self.assert_compile( CreateTable(t), "CREATE TABLE n (" "id INTEGER NOT NULL, " "x VARCHAR(30) NOT NULL, " "PRIMARY KEY (id, x) ON CONFLICT FAIL)", dialect=sqlite.dialect(), ) class InsertTest(fixtures.TestBase, AssertsExecutionResults): """Tests inserts and autoincrement.""" __only_on__ = "sqlite" # empty insert (i.e. INSERT INTO table DEFAULT VALUES) fails on # 3.3.7 and before def _test_empty_insert(self, table, expect=1): try: table.create() for wanted in expect, expect * 2: table.insert().execute() rows = table.select().execute().fetchall() eq_(len(rows), wanted) finally: table.drop() @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk1(self): self._test_empty_insert( Table( "a", MetaData(testing.db), Column("id", Integer, primary_key=True), ) ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk2(self): # now warns due to [ticket:3216] with expect_warnings( "Column 'b.x' is marked as a member of the " "primary key for table 'b'", "Column 'b.y' is marked as a member of the " "primary key for table 'b'", ): assert_raises( exc.IntegrityError, self._test_empty_insert, Table( "b", MetaData(testing.db), Column("x", Integer, primary_key=True), Column("y", Integer, primary_key=True), ), ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk2_fv(self): assert_raises( exc.DBAPIError, self._test_empty_insert, Table( "b", MetaData(testing.db), Column( "x", Integer, primary_key=True, server_default=FetchedValue(), ), Column( "y", Integer, primary_key=True, server_default=FetchedValue(), ), ), ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk3(self): # now warns due to [ticket:3216] with expect_warnings( "Column 'c.x' is marked as a member of the primary key for table" ): assert_raises( exc.IntegrityError, self._test_empty_insert, Table( "c", MetaData(testing.db), Column("x", Integer, primary_key=True), Column( "y", Integer, DefaultClause("123"), primary_key=True ), ), ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk3_fv(self): assert_raises( exc.DBAPIError, self._test_empty_insert, Table( "c", MetaData(testing.db), Column( "x", Integer, primary_key=True, server_default=FetchedValue(), ), Column("y", Integer, DefaultClause("123"), primary_key=True), ), ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_pk4(self): self._test_empty_insert( Table( "d", MetaData(testing.db), Column("x", Integer, primary_key=True), Column("y", Integer, DefaultClause("123")), ) ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_nopk1(self): self._test_empty_insert( Table("e", MetaData(testing.db), Column("id", Integer)) ) @testing.exclude("sqlite", "<", (3, 3, 8), "no database support") def test_empty_insert_nopk2(self): self._test_empty_insert( Table( "f", MetaData(testing.db), Column("x", Integer), Column("y", Integer), ) ) def test_inserts_with_spaces(self): tbl = Table( "tbl", MetaData("sqlite:///"), Column("with space", Integer), Column("without", Integer), ) tbl.create() try: tbl.insert().execute({"without": 123}) assert list(tbl.select().execute()) == [(None, 123)] tbl.insert().execute({"with space": 456}) assert list(tbl.select().execute()) == [(None, 123), (456, None)] finally: tbl.drop() def full_text_search_missing(): """Test if full text search is not implemented and return False if it is and True otherwise.""" try: testing.db.execute("CREATE VIRTUAL TABLE t using FTS3;") testing.db.execute("DROP TABLE t;") return False except Exception: return True metadata = cattable = matchtable = None class MatchTest(fixtures.TestBase, AssertsCompiledSQL): __only_on__ = "sqlite" __skip_if__ = (full_text_search_missing,) @classmethod def setup_class(cls): global metadata, cattable, matchtable metadata = MetaData(testing.db) testing.db.execute( """ CREATE VIRTUAL TABLE cattable using FTS3 ( id INTEGER NOT NULL, description VARCHAR(50), PRIMARY KEY (id) ) """ ) cattable = Table("cattable", metadata, autoload=True) testing.db.execute( """ CREATE VIRTUAL TABLE matchtable using FTS3 ( id INTEGER NOT NULL, title VARCHAR(200), category_id INTEGER NOT NULL, PRIMARY KEY (id) ) """ ) matchtable = Table("matchtable", metadata, autoload=True) metadata.create_all() cattable.insert().execute( [ {"id": 1, "description": "Python"}, {"id": 2, "description": "Ruby"}, ] ) matchtable.insert().execute( [ { "id": 1, "title": "Agile Web Development with Rails", "category_id": 2, }, {"id": 2, "title": "Dive Into Python", "category_id": 1}, { "id": 3, "title": "Programming Matz's Ruby", "category_id": 2, }, { "id": 4, "title": "The Definitive Guide to Django", "category_id": 1, }, {"id": 5, "title": "Python in a Nutshell", "category_id": 1}, ] ) @classmethod def teardown_class(cls): metadata.drop_all() def test_expression(self): self.assert_compile( matchtable.c.title.match("somstr"), "matchtable.title MATCH ?", dialect=sqlite.dialect(), ) def test_simple_match(self): results = ( matchtable.select() .where(matchtable.c.title.match("python")) .order_by(matchtable.c.id) .execute() .fetchall() ) eq_([2, 5], [r.id for r in results]) def test_simple_prefix_match(self): results = ( matchtable.select() .where(matchtable.c.title.match("nut*")) .execute() .fetchall() ) eq_([5], [r.id for r in results]) def test_or_match(self): results2 = ( matchtable.select() .where(matchtable.c.title.match("nutshell OR ruby")) .order_by(matchtable.c.id) .execute() .fetchall() ) eq_([3, 5], [r.id for r in results2]) def test_and_match(self): results2 = ( matchtable.select() .where(matchtable.c.title.match("python nutshell")) .execute() .fetchall() ) eq_([5], [r.id for r in results2]) def test_match_across_joins(self): results = ( matchtable.select() .where( and_( cattable.c.id == matchtable.c.category_id, cattable.c.description.match("Ruby"), ) ) .order_by(matchtable.c.id) .execute() .fetchall() ) eq_([1, 3], [r.id for r in results]) class AutoIncrementTest(fixtures.TestBase, AssertsCompiledSQL): def test_sqlite_autoincrement(self): table = Table( "autoinctable", MetaData(), Column("id", Integer, primary_key=True), Column("x", Integer, default=None), sqlite_autoincrement=True, ) self.assert_compile( schema.CreateTable(table), "CREATE TABLE autoinctable (id INTEGER NOT " "NULL PRIMARY KEY AUTOINCREMENT, x INTEGER)", dialect=sqlite.dialect(), ) def test_sqlite_autoincrement_constraint(self): table = Table( "autoinctable", MetaData(), Column("id", Integer, primary_key=True), Column("x", Integer, default=None), UniqueConstraint("x"), sqlite_autoincrement=True, ) self.assert_compile( schema.CreateTable(table), "CREATE TABLE autoinctable (id INTEGER NOT " "NULL PRIMARY KEY AUTOINCREMENT, x " "INTEGER, UNIQUE (x))", dialect=sqlite.dialect(), ) def test_sqlite_no_autoincrement(self): table = Table( "noautoinctable", MetaData(), Column("id", Integer, primary_key=True), Column("x", Integer, default=None), ) self.assert_compile( schema.CreateTable(table), "CREATE TABLE noautoinctable (id INTEGER " "NOT NULL, x INTEGER, PRIMARY KEY (id))", dialect=sqlite.dialect(), ) def test_sqlite_autoincrement_int_affinity(self): class MyInteger(sqltypes.TypeDecorator): impl = Integer table = Table( "autoinctable", MetaData(), Column("id", MyInteger, primary_key=True), sqlite_autoincrement=True, ) self.assert_compile( schema.CreateTable(table), "CREATE TABLE autoinctable (id INTEGER NOT " "NULL PRIMARY KEY AUTOINCREMENT)", dialect=sqlite.dialect(), ) class ReflectHeadlessFKsTest(fixtures.TestBase): __only_on__ = "sqlite" def setup(self): testing.db.execute("CREATE TABLE a (id INTEGER PRIMARY KEY)") # this syntax actually works on other DBs perhaps we'd want to add # tests to test_reflection testing.db.execute( "CREATE TABLE b (id INTEGER PRIMARY KEY REFERENCES a)" ) def teardown(self): testing.db.execute("drop table b") testing.db.execute("drop table a") def test_reflect_tables_fk_no_colref(self): meta = MetaData() a = Table("a", meta, autoload=True, autoload_with=testing.db) b = Table("b", meta, autoload=True, autoload_with=testing.db) assert b.c.id.references(a.c.id) class KeywordInDatabaseNameTest(fixtures.TestBase): __only_on__ = "sqlite" @classmethod def setup_class(cls): with testing.db.begin() as conn: conn.execute('ATTACH %r AS "default"' % conn.engine.url.database) conn.execute('CREATE TABLE "default".a (id INTEGER PRIMARY KEY)') @classmethod def teardown_class(cls): with testing.db.begin() as conn: try: conn.execute('drop table "default".a') except Exception: pass conn.execute('DETACH DATABASE "default"') def test_reflect(self): with testing.db.begin() as conn: meta = MetaData(bind=conn, schema="default") meta.reflect() assert "default.a" in meta.tables class ConstraintReflectionTest(fixtures.TestBase): __only_on__ = "sqlite" @classmethod def setup_class(cls): with testing.db.begin() as conn: conn.execute("CREATE TABLE a1 (id INTEGER PRIMARY KEY)") conn.execute("CREATE TABLE a2 (id INTEGER PRIMARY KEY)") conn.execute( "CREATE TABLE b (id INTEGER PRIMARY KEY, " "FOREIGN KEY(id) REFERENCES a1(id)," "FOREIGN KEY(id) REFERENCES a2(id)" ")" ) conn.execute( "CREATE TABLE c (id INTEGER, " "CONSTRAINT bar PRIMARY KEY(id)," "CONSTRAINT foo1 FOREIGN KEY(id) REFERENCES a1(id)," "CONSTRAINT foo2 FOREIGN KEY(id) REFERENCES a2(id)" ")" ) conn.execute( # the lower casing + inline is intentional here "CREATE TABLE d (id INTEGER, x INTEGER unique)" ) conn.execute( # the lower casing + inline is intentional here "CREATE TABLE d1 " '(id INTEGER, "some ( STUPID n,ame" INTEGER unique)' ) conn.execute( # the lower casing + inline is intentional here 'CREATE TABLE d2 ( "some STUPID n,ame" INTEGER unique)' ) conn.execute( # the lower casing + inline is intentional here 'CREATE TABLE d3 ( "some STUPID n,ame" INTEGER NULL unique)' ) conn.execute( # lower casing + inline is intentional "CREATE TABLE e (id INTEGER, x INTEGER references a2(id))" ) conn.execute( 'CREATE TABLE e1 (id INTEGER, "some ( STUPID n,ame" INTEGER ' 'references a2 ("some ( STUPID n,ame"))' ) conn.execute( "CREATE TABLE e2 (id INTEGER, " '"some ( STUPID n,ame" INTEGER NOT NULL ' 'references a2 ("some ( STUPID n,ame"))' ) conn.execute( "CREATE TABLE f (x INTEGER, CONSTRAINT foo_fx UNIQUE(x))" ) conn.execute( "CREATE TEMPORARY TABLE g " "(x INTEGER, CONSTRAINT foo_gx UNIQUE(x))" ) conn.execute( # intentional broken casing "CREATE TABLE h (x INTEGER, COnstraINT foo_hx unIQUE(x))" ) conn.execute( "CREATE TABLE i (x INTEGER, y INTEGER, PRIMARY KEY(x, y))" ) conn.execute( "CREATE TABLE j (id INTEGER, q INTEGER, p INTEGER, " "PRIMARY KEY(id), FOreiGN KEY(q,p) REFERENCes i(x,y))" ) conn.execute( "CREATE TABLE k (id INTEGER, q INTEGER, p INTEGER, " "PRIMARY KEY(id), " "conSTRAINT my_fk FOreiGN KEY ( q , p ) " "REFERENCes i ( x , y ))" ) meta = MetaData() Table("l", meta, Column("bar", String, index=True), schema="main") Table( "m", meta, Column("id", Integer, primary_key=True), Column("x", String(30)), UniqueConstraint("x"), ) Table( "n", meta, Column("id", Integer, primary_key=True), Column("x", String(30)), UniqueConstraint("x"), prefixes=["TEMPORARY"], ) Table( "p", meta, Column("id", Integer), PrimaryKeyConstraint("id", name="pk_name"), ) Table("q", meta, Column("id", Integer), PrimaryKeyConstraint("id")) meta.create_all(conn) # will contain an "autoindex" conn.execute("create table o (foo varchar(20) primary key)") conn.execute( "CREATE TABLE onud_test (id INTEGER PRIMARY KEY, " "c1 INTEGER, c2 INTEGER, c3 INTEGER, c4 INTEGER, " "CONSTRAINT fk1 FOREIGN KEY (c1) REFERENCES a1(id) " "ON DELETE SET NULL, " "CONSTRAINT fk2 FOREIGN KEY (c2) REFERENCES a1(id) " "ON UPDATE CASCADE, " "CONSTRAINT fk3 FOREIGN KEY (c3) REFERENCES a2(id) " "ON DELETE CASCADE ON UPDATE SET NULL," "CONSTRAINT fk4 FOREIGN KEY (c4) REFERENCES a2(id) " "ON UPDATE NO ACTION)" ) conn.execute( "CREATE TABLE cp (" "q INTEGER check (q > 1 AND q < 6),\n" "CONSTRAINT cq CHECK (q == 1 OR (q > 2 AND q < 5))\n" ")" ) conn.execute( "CREATE TABLE implicit_referred (pk integer primary key)" ) # single col foreign key with no referred column given, # must assume primary key of referred table conn.execute( "CREATE TABLE implicit_referrer " "(id integer REFERENCES implicit_referred)" ) conn.execute( "CREATE TABLE implicit_referred_comp " "(pk1 integer, pk2 integer, primary key (pk1, pk2))" ) # composite foreign key with no referred columns given, # must assume primary key of referred table conn.execute( "CREATE TABLE implicit_referrer_comp " "(id1 integer, id2 integer, foreign key(id1, id2) " "REFERENCES implicit_referred_comp)" ) # worst case - FK that refers to nonexistent table so we cant # get pks. requires FK pragma is turned off conn.execute( "CREATE TABLE implicit_referrer_comp_fake " "(id1 integer, id2 integer, foreign key(id1, id2) " "REFERENCES fake_table)" ) @classmethod def teardown_class(cls): with testing.db.begin() as conn: for name in [ "implicit_referrer_comp_fake", "implicit_referrer", "implicit_referred", "implicit_referrer_comp", "implicit_referred_comp", "m", "main.l", "k", "j", "i", "h", "g", "f", "e", "e1", "d", "d1", "d2", "c", "b", "a1", "a2", ]: try: conn.execute("drop table %s" % name) except Exception: pass def test_legacy_quoted_identifiers_unit(self): dialect = sqlite.dialect() dialect._broken_fk_pragma_quotes = True for row in [ (0, None, "target", "tid", "id", None), (0, None, '"target"', "tid", "id", None), (0, None, "[target]", "tid", "id", None), (0, None, "'target'", "tid", "id", None), (0, None, "`target`", "tid", "id", None), ]: def _get_table_pragma(*arg, **kw): return [row] def _get_table_sql(*arg, **kw): return ( "CREATE TABLE foo " "(tid INTEGER, " "FOREIGN KEY(tid) REFERENCES %s (id))" % row[2] ) with mock.patch.object( dialect, "_get_table_pragma", _get_table_pragma ): with mock.patch.object( dialect, "_get_table_sql", _get_table_sql ): fkeys = dialect.get_foreign_keys(None, "foo") eq_( fkeys, [ { "referred_table": "target", "referred_columns": ["id"], "referred_schema": None, "name": None, "constrained_columns": ["tid"], "options": {}, } ], ) def test_foreign_key_name_is_none(self): # and not "0" inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("b") eq_( fks, [ { "referred_table": "a1", "referred_columns": ["id"], "referred_schema": None, "name": None, "constrained_columns": ["id"], "options": {}, }, { "referred_table": "a2", "referred_columns": ["id"], "referred_schema": None, "name": None, "constrained_columns": ["id"], "options": {}, }, ], ) def test_foreign_key_name_is_not_none(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("c") eq_( fks, [ { "referred_table": "a1", "referred_columns": ["id"], "referred_schema": None, "name": "foo1", "constrained_columns": ["id"], "options": {}, }, { "referred_table": "a2", "referred_columns": ["id"], "referred_schema": None, "name": "foo2", "constrained_columns": ["id"], "options": {}, }, ], ) def test_foreign_key_implicit_parent(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("implicit_referrer") eq_( fks, [ { "name": None, "constrained_columns": ["id"], "referred_schema": None, "referred_table": "implicit_referred", "referred_columns": ["pk"], "options": {}, } ], ) def test_foreign_key_composite_implicit_parent(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("implicit_referrer_comp") eq_( fks, [ { "name": None, "constrained_columns": ["id1", "id2"], "referred_schema": None, "referred_table": "implicit_referred_comp", "referred_columns": ["pk1", "pk2"], "options": {}, } ], ) def test_foreign_key_implicit_missing_parent(self): # test when the FK refers to a non-existent table and column names # aren't given. only sqlite allows this case to exist inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("implicit_referrer_comp_fake") # the referred table doesn't exist but the operation does not fail eq_( fks, [ { "name": None, "constrained_columns": ["id1", "id2"], "referred_schema": None, "referred_table": "fake_table", "referred_columns": [], "options": {}, } ], ) def test_foreign_key_implicit_missing_parent_reflection(self): # full Table reflection fails however, which is not a new behavior m = MetaData() assert_raises_message( exc.NoSuchTableError, "fake_table", Table, "implicit_referrer_comp_fake", m, autoload_with=testing.db, ) def test_unnamed_inline_foreign_key(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("e") eq_( fks, [ { "referred_table": "a2", "referred_columns": ["id"], "referred_schema": None, "name": None, "constrained_columns": ["x"], "options": {}, } ], ) def test_unnamed_inline_foreign_key_quoted(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("e1") eq_( fks, [ { "referred_table": "a2", "referred_columns": ["some ( STUPID n,ame"], "referred_schema": None, "options": {}, "name": None, "constrained_columns": ["some ( STUPID n,ame"], } ], ) fks = inspector.get_foreign_keys("e2") eq_( fks, [ { "referred_table": "a2", "referred_columns": ["some ( STUPID n,ame"], "referred_schema": None, "options": {}, "name": None, "constrained_columns": ["some ( STUPID n,ame"], } ], ) def test_foreign_key_composite_broken_casing(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("j") eq_( fks, [ { "referred_table": "i", "referred_columns": ["x", "y"], "referred_schema": None, "name": None, "constrained_columns": ["q", "p"], "options": {}, } ], ) fks = inspector.get_foreign_keys("k") eq_( fks, [ { "referred_table": "i", "referred_columns": ["x", "y"], "referred_schema": None, "name": "my_fk", "constrained_columns": ["q", "p"], "options": {}, } ], ) def test_foreign_key_ondelete_onupdate(self): inspector = Inspector(testing.db) fks = inspector.get_foreign_keys("onud_test") eq_( fks, [ { "referred_table": "a1", "referred_columns": ["id"], "referred_schema": None, "name": "fk1", "constrained_columns": ["c1"], "options": {"ondelete": "SET NULL"}, }, { "referred_table": "a1", "referred_columns": ["id"], "referred_schema": None, "name": "fk2", "constrained_columns": ["c2"], "options": {"onupdate": "CASCADE"}, }, { "referred_table": "a2", "referred_columns": ["id"], "referred_schema": None, "name": "fk3", "constrained_columns": ["c3"], "options": {"ondelete": "CASCADE", "onupdate": "SET NULL"}, }, { "referred_table": "a2", "referred_columns": ["id"], "referred_schema": None, "name": "fk4", "constrained_columns": ["c4"], "options": {"onupdate": "NO ACTION"}, }, ], ) def test_foreign_key_options_unnamed_inline(self): with testing.db.connect() as conn: conn.execute( "create table foo (id integer, " "foreign key (id) references bar (id) on update cascade)" ) insp = inspect(conn) eq_( insp.get_foreign_keys("foo"), [ { "name": None, "referred_columns": ["id"], "referred_table": "bar", "constrained_columns": ["id"], "referred_schema": None, "options": {"onupdate": "CASCADE"}, } ], ) def test_dont_reflect_autoindex(self): inspector = Inspector(testing.db) eq_(inspector.get_indexes("o"), []) eq_( inspector.get_indexes("o", include_auto_indexes=True), [ { "unique": 1, "name": "sqlite_autoindex_o_1", "column_names": ["foo"], } ], ) def test_create_index_with_schema(self): """Test creation of index with explicit schema""" inspector = Inspector(testing.db) eq_( inspector.get_indexes("l", schema="main"), [ { "unique": 0, "name": u"ix_main_l_bar", "column_names": [u"bar"], } ], ) def test_unique_constraint_named(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("f"), [{"column_names": ["x"], "name": "foo_fx"}], ) def test_unique_constraint_named_broken_casing(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("h"), [{"column_names": ["x"], "name": "foo_hx"}], ) def test_unique_constraint_named_broken_temp(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("g"), [{"column_names": ["x"], "name": "foo_gx"}], ) def test_unique_constraint_unnamed_inline(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("d"), [{"column_names": ["x"], "name": None}], ) def test_unique_constraint_unnamed_inline_quoted(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("d1"), [{"column_names": ["some ( STUPID n,ame"], "name": None}], ) eq_( inspector.get_unique_constraints("d2"), [{"column_names": ["some STUPID n,ame"], "name": None}], ) eq_( inspector.get_unique_constraints("d3"), [{"column_names": ["some STUPID n,ame"], "name": None}], ) def test_unique_constraint_unnamed_normal(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("m"), [{"column_names": ["x"], "name": None}], ) def test_unique_constraint_unnamed_normal_temporary(self): inspector = Inspector(testing.db) eq_( inspector.get_unique_constraints("n"), [{"column_names": ["x"], "name": None}], ) def test_primary_key_constraint_named(self): inspector = Inspector(testing.db) eq_( inspector.get_pk_constraint("p"), {"constrained_columns": ["id"], "name": "pk_name"}, ) def test_primary_key_constraint_unnamed(self): inspector = Inspector(testing.db) eq_( inspector.get_pk_constraint("q"), {"constrained_columns": ["id"], "name": None}, ) def test_primary_key_constraint_no_pk(self): inspector = Inspector(testing.db) eq_( inspector.get_pk_constraint("d"), {"constrained_columns": [], "name": None}, ) def test_check_constraint(self): inspector = Inspector(testing.db) eq_( inspector.get_check_constraints("cp"), [ {"sqltext": "q > 1 AND q < 6", "name": None}, {"sqltext": "q == 1 OR (q > 2 AND q < 5)", "name": "cq"}, ], ) class SavepointTest(fixtures.TablesTest): """test that savepoints work when we use the correct event setup""" __only_on__ = "sqlite" @classmethod def define_tables(cls, metadata): Table( "users", metadata, Column("user_id", Integer, primary_key=True), Column("user_name", String), ) @classmethod def setup_bind(cls): engine = engines.testing_engine(options={"use_reaper": False}) @event.listens_for(engine, "connect") def do_connect(dbapi_connection, connection_record): # disable pysqlite's emitting of the BEGIN statement entirely. # also stops it from emitting COMMIT before any DDL. dbapi_connection.isolation_level = None @event.listens_for(engine, "begin") def do_begin(conn): # emit our own BEGIN conn.execute("BEGIN") return engine def test_nested_subtransaction_rollback(self): users = self.tables.users connection = self.bind.connect() transaction = connection.begin() connection.execute(users.insert(), user_id=1, user_name="user1") trans2 = connection.begin_nested() connection.execute(users.insert(), user_id=2, user_name="user2") trans2.rollback() connection.execute(users.insert(), user_id=3, user_name="user3") transaction.commit() eq_( connection.execute( select([users.c.user_id]).order_by(users.c.user_id) ).fetchall(), [(1,), (3,)], ) connection.close() def test_nested_subtransaction_commit(self): users = self.tables.users connection = self.bind.connect() transaction = connection.begin() connection.execute(users.insert(), user_id=1, user_name="user1") trans2 = connection.begin_nested() connection.execute(users.insert(), user_id=2, user_name="user2") trans2.commit() connection.execute(users.insert(), user_id=3, user_name="user3") transaction.commit() eq_( connection.execute( select([users.c.user_id]).order_by(users.c.user_id) ).fetchall(), [(1,), (2,), (3,)], ) connection.close() def test_rollback_to_subtransaction(self): users = self.tables.users connection = self.bind.connect() transaction = connection.begin() connection.execute(users.insert(), user_id=1, user_name="user1") connection.begin_nested() connection.execute(users.insert(), user_id=2, user_name="user2") trans3 = connection.begin() connection.execute(users.insert(), user_id=3, user_name="user3") trans3.rollback() connection.execute(users.insert(), user_id=4, user_name="user4") transaction.commit() eq_( connection.execute( select([users.c.user_id]).order_by(users.c.user_id) ).fetchall(), [(1,), (4,)], ) connection.close() class TypeReflectionTest(fixtures.TestBase): __only_on__ = "sqlite" def _fixed_lookup_fixture(self): return [ (sqltypes.String(), sqltypes.VARCHAR()), (sqltypes.String(1), sqltypes.VARCHAR(1)), (sqltypes.String(3), sqltypes.VARCHAR(3)), (sqltypes.Text(), sqltypes.TEXT()), (sqltypes.Unicode(), sqltypes.VARCHAR()), (sqltypes.Unicode(1), sqltypes.VARCHAR(1)), (sqltypes.UnicodeText(), sqltypes.TEXT()), (sqltypes.CHAR(3), sqltypes.CHAR(3)), (sqltypes.NUMERIC, sqltypes.NUMERIC()), (sqltypes.NUMERIC(10, 2), sqltypes.NUMERIC(10, 2)), (sqltypes.Numeric, sqltypes.NUMERIC()), (sqltypes.Numeric(10, 2), sqltypes.NUMERIC(10, 2)), (sqltypes.DECIMAL, sqltypes.DECIMAL()), (sqltypes.DECIMAL(10, 2), sqltypes.DECIMAL(10, 2)), (sqltypes.INTEGER, sqltypes.INTEGER()), (sqltypes.BIGINT, sqltypes.BIGINT()), (sqltypes.Float, sqltypes.FLOAT()), (sqltypes.TIMESTAMP, sqltypes.TIMESTAMP()), (sqltypes.DATETIME, sqltypes.DATETIME()), (sqltypes.DateTime, sqltypes.DATETIME()), (sqltypes.DateTime(), sqltypes.DATETIME()), (sqltypes.DATE, sqltypes.DATE()), (sqltypes.Date, sqltypes.DATE()), (sqltypes.TIME, sqltypes.TIME()), (sqltypes.Time, sqltypes.TIME()), (sqltypes.BOOLEAN, sqltypes.BOOLEAN()), (sqltypes.Boolean, sqltypes.BOOLEAN()), ( sqlite.DATE(storage_format="%(year)04d%(month)02d%(day)02d"), sqltypes.DATE(), ), ( sqlite.TIME( storage_format="%(hour)02d%(minute)02d%(second)02d" ), sqltypes.TIME(), ), ( sqlite.DATETIME( storage_format="%(year)04d%(month)02d%(day)02d" "%(hour)02d%(minute)02d%(second)02d" ), sqltypes.DATETIME(), ), ] def _unsupported_args_fixture(self): return [ ("INTEGER(5)", sqltypes.INTEGER()), ("DATETIME(6, 12)", sqltypes.DATETIME()), ] def _type_affinity_fixture(self): return [ ("LONGTEXT", sqltypes.TEXT()), ("TINYINT", sqltypes.INTEGER()), ("MEDIUMINT", sqltypes.INTEGER()), ("INT2", sqltypes.INTEGER()), ("UNSIGNED BIG INT", sqltypes.INTEGER()), ("INT8", sqltypes.INTEGER()), ("CHARACTER(20)", sqltypes.TEXT()), ("CLOB", sqltypes.TEXT()), ("CLOBBER", sqltypes.TEXT()), ("VARYING CHARACTER(70)", sqltypes.TEXT()), ("NATIVE CHARACTER(70)", sqltypes.TEXT()), ("BLOB", sqltypes.BLOB()), ("BLOBBER", sqltypes.NullType()), ("DOUBLE PRECISION", sqltypes.REAL()), ("FLOATY", sqltypes.REAL()), ("SOMETHING UNKNOWN", sqltypes.NUMERIC()), ] def _fixture_as_string(self, fixture): for from_, to_ in fixture: if isinstance(from_, sqltypes.TypeEngine): from_ = str(from_.compile()) elif isinstance(from_, type): from_ = str(from_().compile()) yield from_, to_ def _test_lookup_direct(self, fixture, warnings=False): dialect = sqlite.dialect() for from_, to_ in self._fixture_as_string(fixture): if warnings: def go(): return dialect._resolve_type_affinity(from_) final_type = testing.assert_warnings( go, ["Could not instantiate"], regex=True ) else: final_type = dialect._resolve_type_affinity(from_) expected_type = type(to_) is_(type(final_type), expected_type) def _test_round_trip(self, fixture, warnings=False): from sqlalchemy import inspect conn = testing.db.connect() for from_, to_ in self._fixture_as_string(fixture): inspector = inspect(conn) conn.execute("CREATE TABLE foo (data %s)" % from_) try: if warnings: def go(): return inspector.get_columns("foo")[0] col_info = testing.assert_warnings( go, ["Could not instantiate"], regex=True ) else: col_info = inspector.get_columns("foo")[0] expected_type = type(to_) is_(type(col_info["type"]), expected_type) # test args for attr in ("scale", "precision", "length"): if getattr(to_, attr, None) is not None: eq_( getattr(col_info["type"], attr), getattr(to_, attr, None), ) finally: conn.execute("DROP TABLE foo") def test_lookup_direct_lookup(self): self._test_lookup_direct(self._fixed_lookup_fixture()) def test_lookup_direct_unsupported_args(self): self._test_lookup_direct( self._unsupported_args_fixture(), warnings=True ) def test_lookup_direct_type_affinity(self): self._test_lookup_direct(self._type_affinity_fixture()) def test_round_trip_direct_lookup(self): self._test_round_trip(self._fixed_lookup_fixture()) def test_round_trip_direct_unsupported_args(self): self._test_round_trip(self._unsupported_args_fixture(), warnings=True) def test_round_trip_direct_type_affinity(self): self._test_round_trip(self._type_affinity_fixture())