def testOneofClearSetField(self, message_module):
m = message_module.TestAllTypes()
m.oneof_uint32 = 11
m.ClearField('oneof_uint32')
if message_module is unittest_pb2:
self.assertFalse(m.HasField('oneof_field'))
self.assertFalse(m.HasField('oneof_uint32'))
self.assertIs(None, m.WhichOneof('oneof_field'))
python类ClearField()的实例源码
def testOneofClearUnsetField(self, message_module):
m = message_module.TestAllTypes()
m.oneof_uint32 = 11
self.ensureNestedMessageExists(m, 'oneof_nested_message')
m.ClearField('oneof_nested_message')
self.assertEqual(11, m.oneof_uint32)
if message_module is unittest_pb2:
self.assertTrue(m.HasField('oneof_field'))
self.assertTrue(m.HasField('oneof_uint32'))
self.assertEqual('oneof_uint32', m.WhichOneof('oneof_field'))
def testMapValidAfterFieldCleared(self):
# Map needs to work even if field is cleared.
# For the C++ implementation this tests the correctness of
# ScalarMapContainer::Release()
msg = map_unittest_pb2.TestMap()
map = msg.map_int32_int32
map[2] = 4
map[3] = 6
map[4] = 8
msg.ClearField('map_int32_int32')
matching_dict = {2: 4, 3: 6, 4: 8}
self.assertMapIterEquals(map.items(), matching_dict)
def testMapIterValidAfterFieldCleared(self):
# Map iterator needs to work even if field is cleared.
# For the C++ implementation this tests the correctness of
# ScalarMapContainer::Release()
msg = map_unittest_pb2.TestMap()
msg.map_int32_int32[2] = 4
msg.map_int32_int32[3] = 6
msg.map_int32_int32[4] = 8
it = msg.map_int32_int32.items()
msg.ClearField('map_int32_int32')
matching_dict = {2: 4, 3: 6, 4: 8}
self.assertMapIterEquals(it, matching_dict)
message_test.py 文件源码
项目:Vector-Tiles-Reader-QGIS-Plugin
作者: geometalab
项目源码
文件源码
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def testFieldPresence(self):
message = unittest_pb2.TestAllTypes()
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
with self.assertRaises(ValueError):
message.HasField("field_doesnt_exist")
with self.assertRaises(ValueError):
message.HasField("repeated_int32")
with self.assertRaises(ValueError):
message.HasField("repeated_nested_message")
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# Fields are set even when setting the values to default values.
message.optional_int32 = 0
message.optional_bool = False
message.optional_nested_message.bb = 0
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Set the fields to non-default values.
message.optional_int32 = 5
message.optional_bool = True
message.optional_nested_message.bb = 15
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Clearing the fields unsets them and resets their value to default.
message.ClearField("optional_int32")
message.ClearField("optional_bool")
message.ClearField("optional_nested_message")
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# TODO(tibell): The C++ implementations actually allows assignment
# of unknown enum values to *scalar* fields (but not repeated
# fields). Once checked enum fields becomes the default in the
# Python implementation, the C++ implementation should follow suit.
def testFieldPresence(self):
message = unittest_pb2.TestAllTypes()
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
with self.assertRaises(ValueError):
message.HasField("field_doesnt_exist")
with self.assertRaises(ValueError):
message.HasField("repeated_int32")
with self.assertRaises(ValueError):
message.HasField("repeated_nested_message")
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# Fields are set even when setting the values to default values.
message.optional_int32 = 0
message.optional_bool = False
message.optional_nested_message.bb = 0
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Set the fields to non-default values.
message.optional_int32 = 5
message.optional_bool = True
message.optional_nested_message.bb = 15
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Clearing the fields unsets them and resets their value to default.
message.ClearField("optional_int32")
message.ClearField("optional_bool")
message.ClearField("optional_nested_message")
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# TODO(tibell): The C++ implementations actually allows assignment
# of unknown enum values to *scalar* fields (but not repeated
# fields). Once checked enum fields becomes the default in the
# Python implementation, the C++ implementation should follow suit.
def testFieldPresence(self):
message = unittest_pb2.TestAllTypes()
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
with self.assertRaises(ValueError):
message.HasField("field_doesnt_exist")
with self.assertRaises(ValueError):
message.HasField("repeated_int32")
with self.assertRaises(ValueError):
message.HasField("repeated_nested_message")
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# Fields are set even when setting the values to default values.
message.optional_int32 = 0
message.optional_bool = False
message.optional_nested_message.bb = 0
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Set the fields to non-default values.
message.optional_int32 = 5
message.optional_bool = True
message.optional_nested_message.bb = 15
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Clearing the fields unsets them and resets their value to default.
message.ClearField("optional_int32")
message.ClearField("optional_bool")
message.ClearField("optional_nested_message")
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# TODO(tibell): The C++ implementations actually allows assignment
# of unknown enum values to *scalar* fields (but not repeated
# fields). Once checked enum fields becomes the default in the
# Python implementation, the C++ implementation should follow suit.
def testFieldPresence(self):
message = unittest_pb2.TestAllTypes()
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
with self.assertRaises(ValueError):
message.HasField("field_doesnt_exist")
with self.assertRaises(ValueError):
message.HasField("repeated_int32")
with self.assertRaises(ValueError):
message.HasField("repeated_nested_message")
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# Fields are set even when setting the values to default values.
message.optional_int32 = 0
message.optional_bool = False
message.optional_nested_message.bb = 0
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Set the fields to non-default values.
message.optional_int32 = 5
message.optional_bool = True
message.optional_nested_message.bb = 15
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Clearing the fields unsets them and resets their value to default.
message.ClearField("optional_int32")
message.ClearField("optional_bool")
message.ClearField("optional_nested_message")
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# TODO(tibell): The C++ implementations actually allows assignment
# of unknown enum values to *scalar* fields (but not repeated
# fields). Once checked enum fields becomes the default in the
# Python implementation, the C++ implementation should follow suit.
def testFieldPresence(self):
message = unittest_pb2.TestAllTypes()
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
with self.assertRaises(ValueError):
message.HasField("field_doesnt_exist")
with self.assertRaises(ValueError):
message.HasField("repeated_int32")
with self.assertRaises(ValueError):
message.HasField("repeated_nested_message")
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# Fields are set even when setting the values to default values.
message.optional_int32 = 0
message.optional_bool = False
message.optional_nested_message.bb = 0
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Set the fields to non-default values.
message.optional_int32 = 5
message.optional_bool = True
message.optional_nested_message.bb = 15
self.assertTrue(message.HasField("optional_int32"))
self.assertTrue(message.HasField("optional_bool"))
self.assertTrue(message.HasField("optional_nested_message"))
# Clearing the fields unsets them and resets their value to default.
message.ClearField("optional_int32")
message.ClearField("optional_bool")
message.ClearField("optional_nested_message")
self.assertFalse(message.HasField("optional_int32"))
self.assertFalse(message.HasField("optional_bool"))
self.assertFalse(message.HasField("optional_nested_message"))
self.assertEqual(0, message.optional_int32)
self.assertEqual(False, message.optional_bool)
self.assertEqual(0, message.optional_nested_message.bb)
# TODO(tibell): The C++ implementations actually allows assignment
# of unknown enum values to *scalar* fields (but not repeated
# fields). Once checked enum fields becomes the default in the
# Python implementation, the C++ implementation should follow suit.
