def test_weak_ref(self): i = self.get_interface() table_name_1 = "".join( random.sample(string.ascii_lowercase, random.randint(5, 15))) table_name_2 = "".join( random.sample(string.ascii_lowercase, random.randint(5, 15))) s_1 = Schema(table_name_1, _id=Field(int, pk=True), foo=Field(int, True)) s_2 = Schema( table_name_2, _id=Field(int, pk=True), s_pk=Field(s_1, False), ) i.set_table(s_1) i.set_table(s_2) pk1 = i.insert(s_1, {'foo': 1}) pk2 = i.insert(s_2, {'s_pk': pk1}) q2 = query.Query() q2.is__id(pk2) # make sure it exists and is visible r = i.get_one(s_2, q2) self.assertGreater(len(r), 0) q1 = query.Query() q1.is__id(pk1) i.delete(s_1, q1) r = i.get_one(s_2, q2) self.assertGreater(len(r), 0) self.assertIsNone(r['s_pk'])
def test__normalize_val_SQL_eq(self): i = self.get_interface() s = Schema("fake_table_name", ts=Field(datetime.datetime, True)) orm_class = s.create_orm() fstr, fargs = orm_class.query.is_ts(day=10).render(placeholder=True) self.assertTrue('EXTRACT(DAY FROM "ts") = %s' in fstr) self.assertEqual(10, fargs[0]) fstr, fargs = orm_class.query.is_ts(day=11, hour=12).render(placeholder=True) self.assertTrue( 'EXTRACT(DAY FROM "ts") = %s AND EXTRACT(HOUR FROM "ts") = %s' in fstr) self.assertEqual(11, fargs[0]) self.assertEqual(12, fargs[1]) fstr, fargs = orm_class.query.is_ts(None).render(placeholder=True) self.assertTrue('"ts" IS %s' in fstr) fstr, fargs = orm_class.query.not_ts(None).render(placeholder=True) self.assertTrue('"ts" IS NOT %s' in fstr) with self.assertRaises(KeyError): fstr, fargs = orm_class.query.is_ts(bogus=5).render( placeholder=True)
def test_transaction_nested_fail_1(self): """make sure 2 new tables in a wrapped transaction work as expected""" i = self.get_interface() table_name_1 = self.get_table_name() table_name_2 = self.get_table_name() s1 = Schema(table_name_1, _id=Field(int, pk=True), foo=Field(int, True)) s2 = Schema( table_name_2, _id=Field(int, pk=True), bar=Field(int, True), s_pk=Field(s1), ) with i.transaction() as connection: pk1 = i.insert(s1, {"foo": 1}, connection=connection) pk2 = i.insert(s2, {"bar": 2, "s_pk": pk1}, connection=connection) q1 = query.Query() q1.is__id(pk1) r1 = i.get_one(s1, q1) self.assertEqual(pk1, r1['_id']) q2 = query.Query() q2.is__id(pk2) r2 = i.get_one(s2, q2) self.assertEqual(pk2, r2['_id']) self.assertEqual(pk1, r2['s_pk'])
def test___getattr__(self): s = Schema("foo") with self.assertRaises(AttributeError): s.foo s.set_field("foo", Field(int, True)) self.assertTrue(isinstance(s.foo, Field))
def test__normalize_date_SQL(self): """this tests the common date kwargs you can use (in both SQLight and Postgres) if we ever add other backends this might need to be moved out of the general generator test""" i = self.get_interface() s = Schema( self.get_table_name(), foo=Field(datetime.datetime, True), _id=Field(int, True, pk=True), index_foo=Index('foo'), ) i.set_table(s) pk20 = i.insert(s, {'foo': datetime.datetime(2014, 4, 20)}) pk21 = i.insert(s, {'foo': datetime.datetime(2014, 4, 21)}) q = query.Query() q.is_foo(day=20) d = i.get_one(s, q) self.assertEqual(d['_id'], pk20) q = query.Query() q.is_foo(day=21, month=4) d = i.get_one(s, q) self.assertEqual(d['_id'], pk21) q = query.Query() q.is_foo(day=21, month=3) d = i.get_one(s, q) self.assertFalse(d)
def test__normalize_val_SQL_with_list(self): i = self.get_interface() s = Schema("fake_table_name", ts=Field(datetime.datetime, True)) kwargs = dict(day=[10]) fstr, fargs = i._normalize_val_SQL(s, { 'symbol': 'IN', 'list': True }, 'ts', None, kwargs) self.assertEqual('EXTRACT(DAY FROM "ts") IN (%s)', fstr) self.assertEqual(kwargs['day'], fargs) kwargs = dict(day=[11, 13], hour=[12]) fstr, fargs = i._normalize_val_SQL(s, { 'symbol': 'IN', 'list': True }, 'ts', None, kwargs) self.assertEqual( 'EXTRACT(DAY FROM "ts") IN (%s, %s) AND EXTRACT(HOUR FROM "ts") IN (%s)', fstr) self.assertEqual(kwargs['day'], fargs[0:2]) self.assertEqual(kwargs['hour'], fargs[2:]) kwargs = dict(bogus=[5]) with self.assertRaises(KeyError): fstr, fargs = i._normalize_val_SQL(s, { 'symbol': 'IN', 'list': True }, 'ts', None, kwargs)
def test__normalize_val_SQL_in(self): i = self.get_interface() s = Schema("fake_table_name", ts=Field(datetime.datetime, True)) orm_class = s.create_orm() fstr, fargs = orm_class.query.in_ts(day=10).render(placeholder=True) self.assertTrue('EXTRACT(DAY FROM "ts") IN (%s)' in fstr) fstr, fargs = orm_class.query.in_ts(day=[11, 13], hour=12).render(placeholder=True) self.assertTrue( 'EXTRACT(DAY FROM "ts") IN (%s, %s) AND EXTRACT(HOUR FROM "ts") IN (%s)' in fstr) self.assertEqual([11, 13, 12], fargs) with self.assertRaises(KeyError): fstr, fargs = orm_class.query.in_ts(bogus=5).render( placeholder=True)
def get_schema(self, table_name=None, **fields_or_indexes): if not fields_or_indexes: fields_or_indexes.setdefault("foo", Field(int, True)) fields_or_indexes.setdefault("bar", Field(str, True)) fields_or_indexes.setdefault("ifoobar", Index("foo", "bar")) fields_or_indexes.setdefault("_id", Field(long, True, pk=True)) s = Schema(self.get_table_name(table_name), **fields_or_indexes) return s
def test___init__(self): """ I had set the class .fields and .indexes attributes to {} instead of None, so you could only ever create one instance of Schema, this test makes sure that's been fixed """ s = Schema("foo") self.assertTrue(isinstance(s.fields, dict)) self.assertTrue(isinstance(s.indexes, dict)) s2 = Schema("bar") self.assertTrue(isinstance(s.fields, dict)) self.assertTrue(isinstance(s.indexes, dict)) s = Schema("foo", bar=Field(int), che=Field(str, True), barche=Index("bar", "che")) self.assertTrue("bar" in s.fields) self.assertTrue("che" in s.fields) self.assertTrue("barche" in s.indexes)
def test_handle_error_ref(self): i = self.get_interface() table_name_1 = self.get_table_name() table_name_2 = self.get_table_name() s_1 = Schema(table_name_1, _id=Field(int, pk=True), foo=Field(int, True)) s_2 = Schema( table_name_2, _id=Field(int, pk=True), bar=Field(int, True), s_pk=Field(s_1), ) q2 = query.Query() q2.is_bar(1) r = i.get_one(s_2, q2) self.assertTrue(i.has_table(table_name_1)) self.assertTrue(i.has_table(table_name_2))
def test_index_ignore_case(self): i = self.get_interface() s = Schema( self.get_table_name(), _id=Field(int, pk=True), foo=Field(str, True, ignore_case=True), bar=Field(str, True), index_foo=Index('foo', 'bar'), ) i.set_table(s) v = '*****@*****.**' d = i.insert(s, {'foo': v, 'bar': 'bar'}) q = query.Query() q.is_foo(v) r = i.get_one(s, q) self.assertGreater(len(r), 0) lv = list(v) for x in range(len(v)): lv[x] = lv[x].upper() qv = "".join(lv) q = query.Query() q.is_foo(qv) r = i.get_one(s, q) self.assertGreater(len(r), 0) lv[x] = lv[x].lower() d = i.insert(s, {'foo': 'FoO', 'bar': 'bar'}) q = query.Query() q.is_foo('foo') r = i.get_one(s, q) self.assertGreater(len(r), 0) self.assertEqual(r['foo'], 'FoO') q = query.Query() q.is_foo('Foo').is_bar('BAR') r = i.get_one(s, q) self.assertEqual(len(r), 0) q = query.Query() q.is_foo('FoO').is_bar('bar') r = i.get_one(s, q) self.assertGreater(len(r), 0) self.assertEqual(r['foo'], 'FoO') d = i.insert(s, {'foo': 'foo2', 'bar': 'bar'}) q = query.Query() q.is_foo('foo2') r = i.get_one(s, q) self.assertGreater(len(r), 0) self.assertEqual(r['foo'], 'foo2')
def test_transaction_context(self): i = self.get_interface() table_name_1 = "{}_1".format(self.get_table_name()) table_name_2 = "{}_2".format(self.get_table_name()) # these 2 tables exist before the transaction starts s1 = Schema(table_name_1, _id=Field(int, pk=True), foo=Field(int, True)) i.set_table(s1) s2 = Schema( table_name_2, _id=Field(int, pk=True), bar=Field(int, True), s_pk=Field(s1, True), ) i.set_table(s2) pk1 = 0 pk2 = 0 try: with i.transaction() as connection: pk1 = i.insert(s1, {"foo": 1}, connection=connection) with i.transaction(connection): pk2 = i.set(s2, { "bar": 2, "s_pk": pk1 }, connection=connection) raise RuntimeError("testing") except Exception as e: pass self.assertEqual(0, i.count(s1, query.Query().is__id(pk1))) self.assertEqual(0, i.count(s2, query.Query().is__id(pk2)))
def get_schema(self, table_name=None, **fields_or_indexes): if not fields_or_indexes: fields_or_indexes.setdefault("foo", Field(int, True)) fields_or_indexes.setdefault("bar", Field(str, True)) fields_or_indexes.setdefault("ifoobar", Index("foo", "bar")) fields_or_indexes.setdefault("_id", Field(long, True, pk=True)) # remove any None values for k in list(fields_or_indexes.keys()): if not fields_or_indexes[k]: fields_or_indexes.pop(k) s = Schema(self.get_table_name(table_name), **fields_or_indexes) return s
def test_group_field_name(self): i = self.get_interface() s = Schema( self.get_table_name(), _id=Field(int, True, pk=True), group=Field(str, True), ) i.set_table(s) text = testdata.get_words() pk = i.insert(s, {'group': text}) q = query.Query().is__id(pk) d = dict(i.get_one(s, q)) self.assertEqual(text, d["group"]) self.assertEqual(pk, d["_id"])
def get_schema_all(self, inter=None): """return a schema that has a field for all supported standard field types""" # this is for foreign key fields orm_class = self.get_orm_class() if inter: orm_class.interface = inter i = inter orm_class.install() s = Schema( self.get_table_name(), _id=Field(long, pk=True), a_bool_y=Field(bool, True), a_bool_n=Field(bool, False), a_sint_y=Field(int, True, size=50), a_sint_n=Field(int, False, size=50), a_dec_y=Field(decimal.Decimal, True), a_dec_n=Field(decimal.Decimal, False), a_float_y=Field(float, True, size=10), a_float_n=Field(float, False, size=10), a_long_y=Field(long, True), a_long_n=Field(long, False), a_fk_y=Field(orm_class, True), a_fk_n=Field(orm_class, False), a_dt_y=Field(datetime.datetime, True), a_dt_n=Field(datetime.datetime, False), a_d_y=Field(datetime.date, True), a_d_n=Field(datetime.date, False), a_int_y=Field(int, True), a_int_n=Field(int, False), a_str_y=Field(str, True), a_str_n=Field(str, False), a_vchar_y=Field(str, True, max_size=512), a_vchar_n=Field(str, False, max_size=512), a_char_y=Field(str, True, size=32), a_char_n=Field(str, False, size=32), ) if inter: #i = self.get_interface() inter.set_table(s) return s
def test_null_values(self): i = self.get_interface() s = Schema( self.get_table_name(), _id=Field(int, pk=True), foo=Field(int, False), bar=Field(int, False), ) # add one with non NULL foo pk1 = i.insert(s, {"bar": 1, "foo": 2}) # and one with NULL foo pk2 = i.insert(s, {"bar": 1}) r = i.get_one(s, query.Query().is_bar(1).is_foo(None)) self.assertEqual(pk2, r['_id']) r = i.get_one(s, query.Query().is_bar(1).not_foo(None)) self.assertEqual(pk1, r['_id'])
def test__normalize_val_SQL(self): i = self.get_interface() s = Schema("fake_table_name", ts=Field(datetime.datetime, True)) #kwargs = dict(day=int(datetime.datetime.utcnow().strftime('%d'))) kwargs = dict(day=10) fstr, fargs = i._normalize_val_SQL(s, {'symbol': '='}, 'ts', None, kwargs) self.assertEqual('EXTRACT(DAY FROM "ts") = %s', fstr) self.assertEqual(10, fargs[0]) kwargs = dict(day=11, hour=12) fstr, fargs = i._normalize_val_SQL(s, {'symbol': '='}, 'ts', None, kwargs) self.assertEqual( 'EXTRACT(DAY FROM "ts") = %s AND EXTRACT(HOUR FROM "ts") = %s', fstr) self.assertEqual(11, fargs[0]) self.assertEqual(12, fargs[1]) fstr, fargs = i._normalize_val_SQL(s, { 'symbol': '=', 'none_symbol': 'IS' }, 'ts', None) self.assertEqual('"ts" IS %s', fstr) fstr, fargs = i._normalize_val_SQL(s, { 'symbol': '!=', 'none_symbol': 'IS NOT' }, 'ts', None) self.assertEqual('"ts" IS NOT %s', fstr) kwargs = dict(bogus=5) with self.assertRaises(KeyError): fstr, fargs = i._normalize_val_SQL(s, {'symbol': '='}, 'ts', None, kwargs)
def test_set_field(self): s = Schema("foo") with self.assertRaises(ValueError): s.set_field("", int) with self.assertRaises(ValueError): s.set_field("foo", "bogus") s.set_field("foo", Field(int)) with self.assertRaises(ValueError): s.set_field("foo", int) s = Schema("foo") s.set_field("foo", Field(int, unique=True)) self.assertTrue("foo" in s.fields) self.assertTrue("foo" in s.indexes) s = Schema("foo") s.set_field("foo", Field(int, ignore_case=True)) self.assertTrue(s.foo.options["ignore_case"])
def test_set_index(self): s = Schema("foo") s.set_field("bar", Field(int, True)) s.set_field("che", Field(str)) with self.assertRaises(ValueError): s.set_index("foo", Index()) with self.assertRaises(ValueError): s.set_index("", Index("bar", "che")) s.set_index("bar_che", Index("che", "bar")) with self.assertRaises(ValueError): s.set_index("bar_che", Index("che", "bar")) s.set_index("testing", Index("che", unique=True)) self.assertTrue(s.indexes["testing"].unique)