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Diffstat (limited to 'generator/google/protobuf/internal/reflection_test.py')
-rw-r--r-- | generator/google/protobuf/internal/reflection_test.py | 2984 |
1 files changed, 0 insertions, 2984 deletions
diff --git a/generator/google/protobuf/internal/reflection_test.py b/generator/google/protobuf/internal/reflection_test.py deleted file mode 100644 index 6f3b818..0000000 --- a/generator/google/protobuf/internal/reflection_test.py +++ /dev/null @@ -1,2984 +0,0 @@ -#! /usr/bin/env python -# -*- coding: utf-8 -*- -# -# Protocol Buffers - Google's data interchange format -# Copyright 2008 Google Inc. All rights reserved. -# https://developers.google.com/protocol-buffers/ -# -# Redistribution and use in source and binary forms, with or without -# modification, are permitted provided that the following conditions are -# met: -# -# * Redistributions of source code must retain the above copyright -# notice, this list of conditions and the following disclaimer. -# * Redistributions in binary form must reproduce the above -# copyright notice, this list of conditions and the following disclaimer -# in the documentation and/or other materials provided with the -# distribution. -# * Neither the name of Google Inc. nor the names of its -# contributors may be used to endorse or promote products derived from -# this software without specific prior written permission. -# -# THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS -# "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT -# LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR -# A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT -# OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, -# SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT -# LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, -# DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY -# THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT -# (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE -# OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. - -"""Unittest for reflection.py, which also indirectly tests the output of the -pure-Python protocol compiler. -""" - -import copy -import gc -import operator -import six -import struct - -try: - import unittest2 as unittest #PY26 -except ImportError: - import unittest - -from google.protobuf import unittest_import_pb2 -from google.protobuf import unittest_mset_pb2 -from google.protobuf import unittest_pb2 -from google.protobuf import descriptor_pb2 -from google.protobuf import descriptor -from google.protobuf import message -from google.protobuf import reflection -from google.protobuf import text_format -from google.protobuf.internal import api_implementation -from google.protobuf.internal import more_extensions_pb2 -from google.protobuf.internal import more_messages_pb2 -from google.protobuf.internal import message_set_extensions_pb2 -from google.protobuf.internal import wire_format -from google.protobuf.internal import test_util -from google.protobuf.internal import decoder - - -class _MiniDecoder(object): - """Decodes a stream of values from a string. - - Once upon a time we actually had a class called decoder.Decoder. Then we - got rid of it during a redesign that made decoding much, much faster overall. - But a couple tests in this file used it to check that the serialized form of - a message was correct. So, this class implements just the methods that were - used by said tests, so that we don't have to rewrite the tests. - """ - - def __init__(self, bytes): - self._bytes = bytes - self._pos = 0 - - def ReadVarint(self): - result, self._pos = decoder._DecodeVarint(self._bytes, self._pos) - return result - - ReadInt32 = ReadVarint - ReadInt64 = ReadVarint - ReadUInt32 = ReadVarint - ReadUInt64 = ReadVarint - - def ReadSInt64(self): - return wire_format.ZigZagDecode(self.ReadVarint()) - - ReadSInt32 = ReadSInt64 - - def ReadFieldNumberAndWireType(self): - return wire_format.UnpackTag(self.ReadVarint()) - - def ReadFloat(self): - result = struct.unpack("<f", self._bytes[self._pos:self._pos+4])[0] - self._pos += 4 - return result - - def ReadDouble(self): - result = struct.unpack("<d", self._bytes[self._pos:self._pos+8])[0] - self._pos += 8 - return result - - def EndOfStream(self): - return self._pos == len(self._bytes) - - -class ReflectionTest(unittest.TestCase): - - def assertListsEqual(self, values, others): - self.assertEqual(len(values), len(others)) - for i in range(len(values)): - self.assertEqual(values[i], others[i]) - - def testScalarConstructor(self): - # Constructor with only scalar types should succeed. - proto = unittest_pb2.TestAllTypes( - optional_int32=24, - optional_double=54.321, - optional_string='optional_string', - optional_float=None) - - self.assertEqual(24, proto.optional_int32) - self.assertEqual(54.321, proto.optional_double) - self.assertEqual('optional_string', proto.optional_string) - self.assertFalse(proto.HasField("optional_float")) - - def testRepeatedScalarConstructor(self): - # Constructor with only repeated scalar types should succeed. - proto = unittest_pb2.TestAllTypes( - repeated_int32=[1, 2, 3, 4], - repeated_double=[1.23, 54.321], - repeated_bool=[True, False, False], - repeated_string=["optional_string"], - repeated_float=None) - - self.assertEqual([1, 2, 3, 4], list(proto.repeated_int32)) - self.assertEqual([1.23, 54.321], list(proto.repeated_double)) - self.assertEqual([True, False, False], list(proto.repeated_bool)) - self.assertEqual(["optional_string"], list(proto.repeated_string)) - self.assertEqual([], list(proto.repeated_float)) - - def testRepeatedCompositeConstructor(self): - # Constructor with only repeated composite types should succeed. - proto = unittest_pb2.TestAllTypes( - repeated_nested_message=[ - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.FOO), - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.BAR)], - repeated_foreign_message=[ - unittest_pb2.ForeignMessage(c=-43), - unittest_pb2.ForeignMessage(c=45324), - unittest_pb2.ForeignMessage(c=12)], - repeatedgroup=[ - unittest_pb2.TestAllTypes.RepeatedGroup(), - unittest_pb2.TestAllTypes.RepeatedGroup(a=1), - unittest_pb2.TestAllTypes.RepeatedGroup(a=2)]) - - self.assertEqual( - [unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.FOO), - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.BAR)], - list(proto.repeated_nested_message)) - self.assertEqual( - [unittest_pb2.ForeignMessage(c=-43), - unittest_pb2.ForeignMessage(c=45324), - unittest_pb2.ForeignMessage(c=12)], - list(proto.repeated_foreign_message)) - self.assertEqual( - [unittest_pb2.TestAllTypes.RepeatedGroup(), - unittest_pb2.TestAllTypes.RepeatedGroup(a=1), - unittest_pb2.TestAllTypes.RepeatedGroup(a=2)], - list(proto.repeatedgroup)) - - def testMixedConstructor(self): - # Constructor with only mixed types should succeed. - proto = unittest_pb2.TestAllTypes( - optional_int32=24, - optional_string='optional_string', - repeated_double=[1.23, 54.321], - repeated_bool=[True, False, False], - repeated_nested_message=[ - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.FOO), - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.BAR)], - repeated_foreign_message=[ - unittest_pb2.ForeignMessage(c=-43), - unittest_pb2.ForeignMessage(c=45324), - unittest_pb2.ForeignMessage(c=12)], - optional_nested_message=None) - - self.assertEqual(24, proto.optional_int32) - self.assertEqual('optional_string', proto.optional_string) - self.assertEqual([1.23, 54.321], list(proto.repeated_double)) - self.assertEqual([True, False, False], list(proto.repeated_bool)) - self.assertEqual( - [unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.FOO), - unittest_pb2.TestAllTypes.NestedMessage( - bb=unittest_pb2.TestAllTypes.BAR)], - list(proto.repeated_nested_message)) - self.assertEqual( - [unittest_pb2.ForeignMessage(c=-43), - unittest_pb2.ForeignMessage(c=45324), - unittest_pb2.ForeignMessage(c=12)], - list(proto.repeated_foreign_message)) - self.assertFalse(proto.HasField("optional_nested_message")) - - def testConstructorTypeError(self): - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, optional_int32="foo") - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, optional_string=1234) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, optional_nested_message=1234) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_int32=1234) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_int32=["foo"]) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_string=1234) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_string=[1234]) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_nested_message=1234) - self.assertRaises( - TypeError, unittest_pb2.TestAllTypes, repeated_nested_message=[1234]) - - def testConstructorInvalidatesCachedByteSize(self): - message = unittest_pb2.TestAllTypes(optional_int32 = 12) - self.assertEqual(2, message.ByteSize()) - - message = unittest_pb2.TestAllTypes( - optional_nested_message = unittest_pb2.TestAllTypes.NestedMessage()) - self.assertEqual(3, message.ByteSize()) - - message = unittest_pb2.TestAllTypes(repeated_int32 = [12]) - self.assertEqual(3, message.ByteSize()) - - message = unittest_pb2.TestAllTypes( - repeated_nested_message = [unittest_pb2.TestAllTypes.NestedMessage()]) - self.assertEqual(3, message.ByteSize()) - - def testSimpleHasBits(self): - # Test a scalar. - proto = unittest_pb2.TestAllTypes() - self.assertTrue(not proto.HasField('optional_int32')) - self.assertEqual(0, proto.optional_int32) - # HasField() shouldn't be true if all we've done is - # read the default value. - self.assertTrue(not proto.HasField('optional_int32')) - proto.optional_int32 = 1 - # Setting a value however *should* set the "has" bit. - self.assertTrue(proto.HasField('optional_int32')) - proto.ClearField('optional_int32') - # And clearing that value should unset the "has" bit. - self.assertTrue(not proto.HasField('optional_int32')) - - def testHasBitsWithSinglyNestedScalar(self): - # Helper used to test foreign messages and groups. - # - # composite_field_name should be the name of a non-repeated - # composite (i.e., foreign or group) field in TestAllTypes, - # and scalar_field_name should be the name of an integer-valued - # scalar field within that composite. - # - # I never thought I'd miss C++ macros and templates so much. :( - # This helper is semantically just: - # - # assert proto.composite_field.scalar_field == 0 - # assert not proto.composite_field.HasField('scalar_field') - # assert not proto.HasField('composite_field') - # - # proto.composite_field.scalar_field = 10 - # old_composite_field = proto.composite_field - # - # assert proto.composite_field.scalar_field == 10 - # assert proto.composite_field.HasField('scalar_field') - # assert proto.HasField('composite_field') - # - # proto.ClearField('composite_field') - # - # assert not proto.composite_field.HasField('scalar_field') - # assert not proto.HasField('composite_field') - # assert proto.composite_field.scalar_field == 0 - # - # # Now ensure that ClearField('composite_field') disconnected - # # the old field object from the object tree... - # assert old_composite_field is not proto.composite_field - # old_composite_field.scalar_field = 20 - # assert not proto.composite_field.HasField('scalar_field') - # assert not proto.HasField('composite_field') - def TestCompositeHasBits(composite_field_name, scalar_field_name): - proto = unittest_pb2.TestAllTypes() - # First, check that we can get the scalar value, and see that it's the - # default (0), but that proto.HasField('omposite') and - # proto.composite.HasField('scalar') will still return False. - composite_field = getattr(proto, composite_field_name) - original_scalar_value = getattr(composite_field, scalar_field_name) - self.assertEqual(0, original_scalar_value) - # Assert that the composite object does not "have" the scalar. - self.assertTrue(not composite_field.HasField(scalar_field_name)) - # Assert that proto does not "have" the composite field. - self.assertTrue(not proto.HasField(composite_field_name)) - - # Now set the scalar within the composite field. Ensure that the setting - # is reflected, and that proto.HasField('composite') and - # proto.composite.HasField('scalar') now both return True. - new_val = 20 - setattr(composite_field, scalar_field_name, new_val) - self.assertEqual(new_val, getattr(composite_field, scalar_field_name)) - # Hold on to a reference to the current composite_field object. - old_composite_field = composite_field - # Assert that the has methods now return true. - self.assertTrue(composite_field.HasField(scalar_field_name)) - self.assertTrue(proto.HasField(composite_field_name)) - - # Now call the clear method... - proto.ClearField(composite_field_name) - - # ...and ensure that the "has" bits are all back to False... - composite_field = getattr(proto, composite_field_name) - self.assertTrue(not composite_field.HasField(scalar_field_name)) - self.assertTrue(not proto.HasField(composite_field_name)) - # ...and ensure that the scalar field has returned to its default. - self.assertEqual(0, getattr(composite_field, scalar_field_name)) - - self.assertTrue(old_composite_field is not composite_field) - setattr(old_composite_field, scalar_field_name, new_val) - self.assertTrue(not composite_field.HasField(scalar_field_name)) - self.assertTrue(not proto.HasField(composite_field_name)) - self.assertEqual(0, getattr(composite_field, scalar_field_name)) - - # Test simple, single-level nesting when we set a scalar. - TestCompositeHasBits('optionalgroup', 'a') - TestCompositeHasBits('optional_nested_message', 'bb') - TestCompositeHasBits('optional_foreign_message', 'c') - TestCompositeHasBits('optional_import_message', 'd') - - def testReferencesToNestedMessage(self): - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - del proto - # A previous version had a bug where this would raise an exception when - # hitting a now-dead weak reference. - nested.bb = 23 - - def testDisconnectingNestedMessageBeforeSettingField(self): - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - proto.ClearField('optional_nested_message') # Should disconnect from parent - self.assertTrue(nested is not proto.optional_nested_message) - nested.bb = 23 - self.assertTrue(not proto.HasField('optional_nested_message')) - self.assertEqual(0, proto.optional_nested_message.bb) - - def testGetDefaultMessageAfterDisconnectingDefaultMessage(self): - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - proto.ClearField('optional_nested_message') - del proto - del nested - # Force a garbage collect so that the underlying CMessages are freed along - # with the Messages they point to. This is to make sure we're not deleting - # default message instances. - gc.collect() - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - - def testDisconnectingNestedMessageAfterSettingField(self): - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - nested.bb = 5 - self.assertTrue(proto.HasField('optional_nested_message')) - proto.ClearField('optional_nested_message') # Should disconnect from parent - self.assertEqual(5, nested.bb) - self.assertEqual(0, proto.optional_nested_message.bb) - self.assertTrue(nested is not proto.optional_nested_message) - nested.bb = 23 - self.assertTrue(not proto.HasField('optional_nested_message')) - self.assertEqual(0, proto.optional_nested_message.bb) - - def testDisconnectingNestedMessageBeforeGettingField(self): - proto = unittest_pb2.TestAllTypes() - self.assertTrue(not proto.HasField('optional_nested_message')) - proto.ClearField('optional_nested_message') - self.assertTrue(not proto.HasField('optional_nested_message')) - - def testDisconnectingNestedMessageAfterMerge(self): - # This test exercises the code path that does not use ReleaseMessage(). - # The underlying fear is that if we use ReleaseMessage() incorrectly, - # we will have memory leaks. It's hard to check that that doesn't happen, - # but at least we can exercise that code path to make sure it works. - proto1 = unittest_pb2.TestAllTypes() - proto2 = unittest_pb2.TestAllTypes() - proto2.optional_nested_message.bb = 5 - proto1.MergeFrom(proto2) - self.assertTrue(proto1.HasField('optional_nested_message')) - proto1.ClearField('optional_nested_message') - self.assertTrue(not proto1.HasField('optional_nested_message')) - - def testDisconnectingLazyNestedMessage(self): - # This test exercises releasing a nested message that is lazy. This test - # only exercises real code in the C++ implementation as Python does not - # support lazy parsing, but the current C++ implementation results in - # memory corruption and a crash. - if api_implementation.Type() != 'python': - return - proto = unittest_pb2.TestAllTypes() - proto.optional_lazy_message.bb = 5 - proto.ClearField('optional_lazy_message') - del proto - gc.collect() - - def testHasBitsWhenModifyingRepeatedFields(self): - # Test nesting when we add an element to a repeated field in a submessage. - proto = unittest_pb2.TestNestedMessageHasBits() - proto.optional_nested_message.nestedmessage_repeated_int32.append(5) - self.assertEqual( - [5], proto.optional_nested_message.nestedmessage_repeated_int32) - self.assertTrue(proto.HasField('optional_nested_message')) - - # Do the same test, but with a repeated composite field within the - # submessage. - proto.ClearField('optional_nested_message') - self.assertTrue(not proto.HasField('optional_nested_message')) - proto.optional_nested_message.nestedmessage_repeated_foreignmessage.add() - self.assertTrue(proto.HasField('optional_nested_message')) - - def testHasBitsForManyLevelsOfNesting(self): - # Test nesting many levels deep. - recursive_proto = unittest_pb2.TestMutualRecursionA() - self.assertTrue(not recursive_proto.HasField('bb')) - self.assertEqual(0, recursive_proto.bb.a.bb.a.bb.optional_int32) - self.assertTrue(not recursive_proto.HasField('bb')) - recursive_proto.bb.a.bb.a.bb.optional_int32 = 5 - self.assertEqual(5, recursive_proto.bb.a.bb.a.bb.optional_int32) - self.assertTrue(recursive_proto.HasField('bb')) - self.assertTrue(recursive_proto.bb.HasField('a')) - self.assertTrue(recursive_proto.bb.a.HasField('bb')) - self.assertTrue(recursive_proto.bb.a.bb.HasField('a')) - self.assertTrue(recursive_proto.bb.a.bb.a.HasField('bb')) - self.assertTrue(not recursive_proto.bb.a.bb.a.bb.HasField('a')) - self.assertTrue(recursive_proto.bb.a.bb.a.bb.HasField('optional_int32')) - - def testSingularListFields(self): - proto = unittest_pb2.TestAllTypes() - proto.optional_fixed32 = 1 - proto.optional_int32 = 5 - proto.optional_string = 'foo' - # Access sub-message but don't set it yet. - nested_message = proto.optional_nested_message - self.assertEqual( - [ (proto.DESCRIPTOR.fields_by_name['optional_int32' ], 5), - (proto.DESCRIPTOR.fields_by_name['optional_fixed32'], 1), - (proto.DESCRIPTOR.fields_by_name['optional_string' ], 'foo') ], - proto.ListFields()) - - proto.optional_nested_message.bb = 123 - self.assertEqual( - [ (proto.DESCRIPTOR.fields_by_name['optional_int32' ], 5), - (proto.DESCRIPTOR.fields_by_name['optional_fixed32'], 1), - (proto.DESCRIPTOR.fields_by_name['optional_string' ], 'foo'), - (proto.DESCRIPTOR.fields_by_name['optional_nested_message' ], - nested_message) ], - proto.ListFields()) - - def testRepeatedListFields(self): - proto = unittest_pb2.TestAllTypes() - proto.repeated_fixed32.append(1) - proto.repeated_int32.append(5) - proto.repeated_int32.append(11) - proto.repeated_string.extend(['foo', 'bar']) - proto.repeated_string.extend([]) - proto.repeated_string.append('baz') - proto.repeated_string.extend(str(x) for x in range(2)) - proto.optional_int32 = 21 - proto.repeated_bool # Access but don't set anything; should not be listed. - self.assertEqual( - [ (proto.DESCRIPTOR.fields_by_name['optional_int32' ], 21), - (proto.DESCRIPTOR.fields_by_name['repeated_int32' ], [5, 11]), - (proto.DESCRIPTOR.fields_by_name['repeated_fixed32'], [1]), - (proto.DESCRIPTOR.fields_by_name['repeated_string' ], - ['foo', 'bar', 'baz', '0', '1']) ], - proto.ListFields()) - - def testSingularListExtensions(self): - proto = unittest_pb2.TestAllExtensions() - proto.Extensions[unittest_pb2.optional_fixed32_extension] = 1 - proto.Extensions[unittest_pb2.optional_int32_extension ] = 5 - proto.Extensions[unittest_pb2.optional_string_extension ] = 'foo' - self.assertEqual( - [ (unittest_pb2.optional_int32_extension , 5), - (unittest_pb2.optional_fixed32_extension, 1), - (unittest_pb2.optional_string_extension , 'foo') ], - proto.ListFields()) - - def testRepeatedListExtensions(self): - proto = unittest_pb2.TestAllExtensions() - proto.Extensions[unittest_pb2.repeated_fixed32_extension].append(1) - proto.Extensions[unittest_pb2.repeated_int32_extension ].append(5) - proto.Extensions[unittest_pb2.repeated_int32_extension ].append(11) - proto.Extensions[unittest_pb2.repeated_string_extension ].append('foo') - proto.Extensions[unittest_pb2.repeated_string_extension ].append('bar') - proto.Extensions[unittest_pb2.repeated_string_extension ].append('baz') - proto.Extensions[unittest_pb2.optional_int32_extension ] = 21 - self.assertEqual( - [ (unittest_pb2.optional_int32_extension , 21), - (unittest_pb2.repeated_int32_extension , [5, 11]), - (unittest_pb2.repeated_fixed32_extension, [1]), - (unittest_pb2.repeated_string_extension , ['foo', 'bar', 'baz']) ], - proto.ListFields()) - - def testListFieldsAndExtensions(self): - proto = unittest_pb2.TestFieldOrderings() - test_util.SetAllFieldsAndExtensions(proto) - unittest_pb2.my_extension_int - self.assertEqual( - [ (proto.DESCRIPTOR.fields_by_name['my_int' ], 1), - (unittest_pb2.my_extension_int , 23), - (proto.DESCRIPTOR.fields_by_name['my_string'], 'foo'), - (unittest_pb2.my_extension_string , 'bar'), - (proto.DESCRIPTOR.fields_by_name['my_float' ], 1.0) ], - proto.ListFields()) - - def testDefaultValues(self): - proto = unittest_pb2.TestAllTypes() - self.assertEqual(0, proto.optional_int32) - self.assertEqual(0, proto.optional_int64) - self.assertEqual(0, proto.optional_uint32) - self.assertEqual(0, proto.optional_uint64) - self.assertEqual(0, proto.optional_sint32) - self.assertEqual(0, proto.optional_sint64) - self.assertEqual(0, proto.optional_fixed32) - self.assertEqual(0, proto.optional_fixed64) - self.assertEqual(0, proto.optional_sfixed32) - self.assertEqual(0, proto.optional_sfixed64) - self.assertEqual(0.0, proto.optional_float) - self.assertEqual(0.0, proto.optional_double) - self.assertEqual(False, proto.optional_bool) - self.assertEqual('', proto.optional_string) - self.assertEqual(b'', proto.optional_bytes) - - self.assertEqual(41, proto.default_int32) - self.assertEqual(42, proto.default_int64) - self.assertEqual(43, proto.default_uint32) - self.assertEqual(44, proto.default_uint64) - self.assertEqual(-45, proto.default_sint32) - self.assertEqual(46, proto.default_sint64) - self.assertEqual(47, proto.default_fixed32) - self.assertEqual(48, proto.default_fixed64) - self.assertEqual(49, proto.default_sfixed32) - self.assertEqual(-50, proto.default_sfixed64) - self.assertEqual(51.5, proto.default_float) - self.assertEqual(52e3, proto.default_double) - self.assertEqual(True, proto.default_bool) - self.assertEqual('hello', proto.default_string) - self.assertEqual(b'world', proto.default_bytes) - self.assertEqual(unittest_pb2.TestAllTypes.BAR, proto.default_nested_enum) - self.assertEqual(unittest_pb2.FOREIGN_BAR, proto.default_foreign_enum) - self.assertEqual(unittest_import_pb2.IMPORT_BAR, - proto.default_import_enum) - - proto = unittest_pb2.TestExtremeDefaultValues() - self.assertEqual(u'\u1234', proto.utf8_string) - - def testHasFieldWithUnknownFieldName(self): - proto = unittest_pb2.TestAllTypes() - self.assertRaises(ValueError, proto.HasField, 'nonexistent_field') - - def testClearFieldWithUnknownFieldName(self): - proto = unittest_pb2.TestAllTypes() - self.assertRaises(ValueError, proto.ClearField, 'nonexistent_field') - - def testClearRemovesChildren(self): - # Make sure there aren't any implementation bugs that are only partially - # clearing the message (which can happen in the more complex C++ - # implementation which has parallel message lists). - proto = unittest_pb2.TestRequiredForeign() - for i in range(10): - proto.repeated_message.add() - proto2 = unittest_pb2.TestRequiredForeign() - proto.CopyFrom(proto2) - self.assertRaises(IndexError, lambda: proto.repeated_message[5]) - - def testDisallowedAssignments(self): - # It's illegal to assign values directly to repeated fields - # or to nonrepeated composite fields. Ensure that this fails. - proto = unittest_pb2.TestAllTypes() - # Repeated fields. - self.assertRaises(AttributeError, setattr, proto, 'repeated_int32', 10) - # Lists shouldn't work, either. - self.assertRaises(AttributeError, setattr, proto, 'repeated_int32', [10]) - # Composite fields. - self.assertRaises(AttributeError, setattr, proto, - 'optional_nested_message', 23) - # Assignment to a repeated nested message field without specifying - # the index in the array of nested messages. - self.assertRaises(AttributeError, setattr, proto.repeated_nested_message, - 'bb', 34) - # Assignment to an attribute of a repeated field. - self.assertRaises(AttributeError, setattr, proto.repeated_float, - 'some_attribute', 34) - # proto.nonexistent_field = 23 should fail as well. - self.assertRaises(AttributeError, setattr, proto, 'nonexistent_field', 23) - - def testSingleScalarTypeSafety(self): - proto = unittest_pb2.TestAllTypes() - self.assertRaises(TypeError, setattr, proto, 'optional_int32', 1.1) - self.assertRaises(TypeError, setattr, proto, 'optional_int32', 'foo') - self.assertRaises(TypeError, setattr, proto, 'optional_string', 10) - self.assertRaises(TypeError, setattr, proto, 'optional_bytes', 10) - - def testIntegerTypes(self): - def TestGetAndDeserialize(field_name, value, expected_type): - proto = unittest_pb2.TestAllTypes() - setattr(proto, field_name, value) - self.assertIsInstance(getattr(proto, field_name), expected_type) - proto2 = unittest_pb2.TestAllTypes() - proto2.ParseFromString(proto.SerializeToString()) - self.assertIsInstance(getattr(proto2, field_name), expected_type) - - TestGetAndDeserialize('optional_int32', 1, int) - TestGetAndDeserialize('optional_int32', 1 << 30, int) - TestGetAndDeserialize('optional_uint32', 1 << 30, int) - try: - integer_64 = long - except NameError: # Python3 - integer_64 = int - if struct.calcsize('L') == 4: - # Python only has signed ints, so 32-bit python can't fit an uint32 - # in an int. - TestGetAndDeserialize('optional_uint32', 1 << 31, integer_64) - else: - # 64-bit python can fit uint32 inside an int - TestGetAndDeserialize('optional_uint32', 1 << 31, int) - TestGetAndDeserialize('optional_int64', 1 << 30, integer_64) - TestGetAndDeserialize('optional_int64', 1 << 60, integer_64) - TestGetAndDeserialize('optional_uint64', 1 << 30, integer_64) - TestGetAndDeserialize('optional_uint64', 1 << 60, integer_64) - - def testSingleScalarBoundsChecking(self): - def TestMinAndMaxIntegers(field_name, expected_min, expected_max): - pb = unittest_pb2.TestAllTypes() - setattr(pb, field_name, expected_min) - self.assertEqual(expected_min, getattr(pb, field_name)) - setattr(pb, field_name, expected_max) - self.assertEqual(expected_max, getattr(pb, field_name)) - self.assertRaises(ValueError, setattr, pb, field_name, expected_min - 1) - self.assertRaises(ValueError, setattr, pb, field_name, expected_max + 1) - - TestMinAndMaxIntegers('optional_int32', -(1 << 31), (1 << 31) - 1) - TestMinAndMaxIntegers('optional_uint32', 0, 0xffffffff) - TestMinAndMaxIntegers('optional_int64', -(1 << 63), (1 << 63) - 1) - TestMinAndMaxIntegers('optional_uint64', 0, 0xffffffffffffffff) - - pb = unittest_pb2.TestAllTypes() - pb.optional_nested_enum = 1 - self.assertEqual(1, pb.optional_nested_enum) - - def testRepeatedScalarTypeSafety(self): - proto = unittest_pb2.TestAllTypes() - self.assertRaises(TypeError, proto.repeated_int32.append, 1.1) - self.assertRaises(TypeError, proto.repeated_int32.append, 'foo') - self.assertRaises(TypeError, proto.repeated_string, 10) - self.assertRaises(TypeError, proto.repeated_bytes, 10) - - proto.repeated_int32.append(10) - proto.repeated_int32[0] = 23 - self.assertRaises(IndexError, proto.repeated_int32.__setitem__, 500, 23) - self.assertRaises(TypeError, proto.repeated_int32.__setitem__, 0, 'abc') - - # Repeated enums tests. - #proto.repeated_nested_enum.append(0) - - def testSingleScalarGettersAndSetters(self): - proto = unittest_pb2.TestAllTypes() - self.assertEqual(0, proto.optional_int32) - proto.optional_int32 = 1 - self.assertEqual(1, proto.optional_int32) - - proto.optional_uint64 = 0xffffffffffff - self.assertEqual(0xffffffffffff, proto.optional_uint64) - proto.optional_uint64 = 0xffffffffffffffff - self.assertEqual(0xffffffffffffffff, proto.optional_uint64) - # TODO(robinson): Test all other scalar field types. - - def testSingleScalarClearField(self): - proto = unittest_pb2.TestAllTypes() - # Should be allowed to clear something that's not there (a no-op). - proto.ClearField('optional_int32') - proto.optional_int32 = 1 - self.assertTrue(proto.HasField('optional_int32')) - proto.ClearField('optional_int32') - self.assertEqual(0, proto.optional_int32) - self.assertTrue(not proto.HasField('optional_int32')) - # TODO(robinson): Test all other scalar field types. - - def testEnums(self): - proto = unittest_pb2.TestAllTypes() - self.assertEqual(1, proto.FOO) - self.assertEqual(1, unittest_pb2.TestAllTypes.FOO) - self.assertEqual(2, proto.BAR) - self.assertEqual(2, unittest_pb2.TestAllTypes.BAR) - self.assertEqual(3, proto.BAZ) - self.assertEqual(3, unittest_pb2.TestAllTypes.BAZ) - - def testEnum_Name(self): - self.assertEqual('FOREIGN_FOO', - unittest_pb2.ForeignEnum.Name(unittest_pb2.FOREIGN_FOO)) - self.assertEqual('FOREIGN_BAR', - unittest_pb2.ForeignEnum.Name(unittest_pb2.FOREIGN_BAR)) - self.assertEqual('FOREIGN_BAZ', - unittest_pb2.ForeignEnum.Name(unittest_pb2.FOREIGN_BAZ)) - self.assertRaises(ValueError, - unittest_pb2.ForeignEnum.Name, 11312) - - proto = unittest_pb2.TestAllTypes() - self.assertEqual('FOO', - proto.NestedEnum.Name(proto.FOO)) - self.assertEqual('FOO', - unittest_pb2.TestAllTypes.NestedEnum.Name(proto.FOO)) - self.assertEqual('BAR', - proto.NestedEnum.Name(proto.BAR)) - self.assertEqual('BAR', - unittest_pb2.TestAllTypes.NestedEnum.Name(proto.BAR)) - self.assertEqual('BAZ', - proto.NestedEnum.Name(proto.BAZ)) - self.assertEqual('BAZ', - unittest_pb2.TestAllTypes.NestedEnum.Name(proto.BAZ)) - self.assertRaises(ValueError, - proto.NestedEnum.Name, 11312) - self.assertRaises(ValueError, - unittest_pb2.TestAllTypes.NestedEnum.Name, 11312) - - def testEnum_Value(self): - self.assertEqual(unittest_pb2.FOREIGN_FOO, - unittest_pb2.ForeignEnum.Value('FOREIGN_FOO')) - self.assertEqual(unittest_pb2.FOREIGN_BAR, - unittest_pb2.ForeignEnum.Value('FOREIGN_BAR')) - self.assertEqual(unittest_pb2.FOREIGN_BAZ, - unittest_pb2.ForeignEnum.Value('FOREIGN_BAZ')) - self.assertRaises(ValueError, - unittest_pb2.ForeignEnum.Value, 'FO') - - proto = unittest_pb2.TestAllTypes() - self.assertEqual(proto.FOO, - proto.NestedEnum.Value('FOO')) - self.assertEqual(proto.FOO, - unittest_pb2.TestAllTypes.NestedEnum.Value('FOO')) - self.assertEqual(proto.BAR, - proto.NestedEnum.Value('BAR')) - self.assertEqual(proto.BAR, - unittest_pb2.TestAllTypes.NestedEnum.Value('BAR')) - self.assertEqual(proto.BAZ, - proto.NestedEnum.Value('BAZ')) - self.assertEqual(proto.BAZ, - unittest_pb2.TestAllTypes.NestedEnum.Value('BAZ')) - self.assertRaises(ValueError, - proto.NestedEnum.Value, 'Foo') - self.assertRaises(ValueError, - unittest_pb2.TestAllTypes.NestedEnum.Value, 'Foo') - - def testEnum_KeysAndValues(self): - self.assertEqual(['FOREIGN_FOO', 'FOREIGN_BAR', 'FOREIGN_BAZ'], - list(unittest_pb2.ForeignEnum.keys())) - self.assertEqual([4, 5, 6], - list(unittest_pb2.ForeignEnum.values())) - self.assertEqual([('FOREIGN_FOO', 4), ('FOREIGN_BAR', 5), - ('FOREIGN_BAZ', 6)], - list(unittest_pb2.ForeignEnum.items())) - - proto = unittest_pb2.TestAllTypes() - self.assertEqual(['FOO', 'BAR', 'BAZ', 'NEG'], list(proto.NestedEnum.keys())) - self.assertEqual([1, 2, 3, -1], list(proto.NestedEnum.values())) - self.assertEqual([('FOO', 1), ('BAR', 2), ('BAZ', 3), ('NEG', -1)], - list(proto.NestedEnum.items())) - - def testRepeatedScalars(self): - proto = unittest_pb2.TestAllTypes() - - self.assertTrue(not proto.repeated_int32) - self.assertEqual(0, len(proto.repeated_int32)) - proto.repeated_int32.append(5) - proto.repeated_int32.append(10) - proto.repeated_int32.append(15) - self.assertTrue(proto.repeated_int32) - self.assertEqual(3, len(proto.repeated_int32)) - - self.assertEqual([5, 10, 15], proto.repeated_int32) - - # Test single retrieval. - self.assertEqual(5, proto.repeated_int32[0]) - self.assertEqual(15, proto.repeated_int32[-1]) - # Test out-of-bounds indices. - self.assertRaises(IndexError, proto.repeated_int32.__getitem__, 1234) - self.assertRaises(IndexError, proto.repeated_int32.__getitem__, -1234) - # Test incorrect types passed to __getitem__. - self.assertRaises(TypeError, proto.repeated_int32.__getitem__, 'foo') - self.assertRaises(TypeError, proto.repeated_int32.__getitem__, None) - - # Test single assignment. - proto.repeated_int32[1] = 20 - self.assertEqual([5, 20, 15], proto.repeated_int32) - - # Test insertion. - proto.repeated_int32.insert(1, 25) - self.assertEqual([5, 25, 20, 15], proto.repeated_int32) - - # Test slice retrieval. - proto.repeated_int32.append(30) - self.assertEqual([25, 20, 15], proto.repeated_int32[1:4]) - self.assertEqual([5, 25, 20, 15, 30], proto.repeated_int32[:]) - - # Test slice assignment with an iterator - proto.repeated_int32[1:4] = (i for i in range(3)) - self.assertEqual([5, 0, 1, 2, 30], proto.repeated_int32) - - # Test slice assignment. - proto.repeated_int32[1:4] = [35, 40, 45] - self.assertEqual([5, 35, 40, 45, 30], proto.repeated_int32) - - # Test that we can use the field as an iterator. - result = [] - for i in proto.repeated_int32: - result.append(i) - self.assertEqual([5, 35, 40, 45, 30], result) - - # Test single deletion. - del proto.repeated_int32[2] - self.assertEqual([5, 35, 45, 30], proto.repeated_int32) - - # Test slice deletion. - del proto.repeated_int32[2:] - self.assertEqual([5, 35], proto.repeated_int32) - - # Test extending. - proto.repeated_int32.extend([3, 13]) - self.assertEqual([5, 35, 3, 13], proto.repeated_int32) - - # Test clearing. - proto.ClearField('repeated_int32') - self.assertTrue(not proto.repeated_int32) - self.assertEqual(0, len(proto.repeated_int32)) - - proto.repeated_int32.append(1) - self.assertEqual(1, proto.repeated_int32[-1]) - # Test assignment to a negative index. - proto.repeated_int32[-1] = 2 - self.assertEqual(2, proto.repeated_int32[-1]) - - # Test deletion at negative indices. - proto.repeated_int32[:] = [0, 1, 2, 3] - del proto.repeated_int32[-1] - self.assertEqual([0, 1, 2], proto.repeated_int32) - - del proto.repeated_int32[-2] - self.assertEqual([0, 2], proto.repeated_int32) - - self.assertRaises(IndexError, proto.repeated_int32.__delitem__, -3) - self.assertRaises(IndexError, proto.repeated_int32.__delitem__, 300) - - del proto.repeated_int32[-2:-1] - self.assertEqual([2], proto.repeated_int32) - - del proto.repeated_int32[100:10000] - self.assertEqual([2], proto.repeated_int32) - - def testRepeatedScalarsRemove(self): - proto = unittest_pb2.TestAllTypes() - - self.assertTrue(not proto.repeated_int32) - self.assertEqual(0, len(proto.repeated_int32)) - proto.repeated_int32.append(5) - proto.repeated_int32.append(10) - proto.repeated_int32.append(5) - proto.repeated_int32.append(5) - - self.assertEqual(4, len(proto.repeated_int32)) - proto.repeated_int32.remove(5) - self.assertEqual(3, len(proto.repeated_int32)) - self.assertEqual(10, proto.repeated_int32[0]) - self.assertEqual(5, proto.repeated_int32[1]) - self.assertEqual(5, proto.repeated_int32[2]) - - proto.repeated_int32.remove(5) - self.assertEqual(2, len(proto.repeated_int32)) - self.assertEqual(10, proto.repeated_int32[0]) - self.assertEqual(5, proto.repeated_int32[1]) - - proto.repeated_int32.remove(10) - self.assertEqual(1, len(proto.repeated_int32)) - self.assertEqual(5, proto.repeated_int32[0]) - - # Remove a non-existent element. - self.assertRaises(ValueError, proto.repeated_int32.remove, 123) - - def testRepeatedComposites(self): - proto = unittest_pb2.TestAllTypes() - self.assertTrue(not proto.repeated_nested_message) - self.assertEqual(0, len(proto.repeated_nested_message)) - m0 = proto.repeated_nested_message.add() - m1 = proto.repeated_nested_message.add() - self.assertTrue(proto.repeated_nested_message) - self.assertEqual(2, len(proto.repeated_nested_message)) - self.assertListsEqual([m0, m1], proto.repeated_nested_message) - self.assertIsInstance(m0, unittest_pb2.TestAllTypes.NestedMessage) - - # Test out-of-bounds indices. - self.assertRaises(IndexError, proto.repeated_nested_message.__getitem__, - 1234) - self.assertRaises(IndexError, proto.repeated_nested_message.__getitem__, - -1234) - - # Test incorrect types passed to __getitem__. - self.assertRaises(TypeError, proto.repeated_nested_message.__getitem__, - 'foo') - self.assertRaises(TypeError, proto.repeated_nested_message.__getitem__, - None) - - # Test slice retrieval. - m2 = proto.repeated_nested_message.add() - m3 = proto.repeated_nested_message.add() - m4 = proto.repeated_nested_message.add() - self.assertListsEqual( - [m1, m2, m3], proto.repeated_nested_message[1:4]) - self.assertListsEqual( - [m0, m1, m2, m3, m4], proto.repeated_nested_message[:]) - self.assertListsEqual( - [m0, m1], proto.repeated_nested_message[:2]) - self.assertListsEqual( - [m2, m3, m4], proto.repeated_nested_message[2:]) - self.assertEqual( - m0, proto.repeated_nested_message[0]) - self.assertListsEqual( - [m0], proto.repeated_nested_message[:1]) - - # Test that we can use the field as an iterator. - result = [] - for i in proto.repeated_nested_message: - result.append(i) - self.assertListsEqual([m0, m1, m2, m3, m4], result) - - # Test single deletion. - del proto.repeated_nested_message[2] - self.assertListsEqual([m0, m1, m3, m4], proto.repeated_nested_message) - - # Test slice deletion. - del proto.repeated_nested_message[2:] - self.assertListsEqual([m0, m1], proto.repeated_nested_message) - - # Test extending. - n1 = unittest_pb2.TestAllTypes.NestedMessage(bb=1) - n2 = unittest_pb2.TestAllTypes.NestedMessage(bb=2) - proto.repeated_nested_message.extend([n1,n2]) - self.assertEqual(4, len(proto.repeated_nested_message)) - self.assertEqual(n1, proto.repeated_nested_message[2]) - self.assertEqual(n2, proto.repeated_nested_message[3]) - - # Test clearing. - proto.ClearField('repeated_nested_message') - self.assertTrue(not proto.repeated_nested_message) - self.assertEqual(0, len(proto.repeated_nested_message)) - - # Test constructing an element while adding it. - proto.repeated_nested_message.add(bb=23) - self.assertEqual(1, len(proto.repeated_nested_message)) - self.assertEqual(23, proto.repeated_nested_message[0].bb) - self.assertRaises(TypeError, proto.repeated_nested_message.add, 23) - - def testRepeatedCompositeRemove(self): - proto = unittest_pb2.TestAllTypes() - - self.assertEqual(0, len(proto.repeated_nested_message)) - m0 = proto.repeated_nested_message.add() - # Need to set some differentiating variable so m0 != m1 != m2: - m0.bb = len(proto.repeated_nested_message) - m1 = proto.repeated_nested_message.add() - m1.bb = len(proto.repeated_nested_message) - self.assertTrue(m0 != m1) - m2 = proto.repeated_nested_message.add() - m2.bb = len(proto.repeated_nested_message) - self.assertListsEqual([m0, m1, m2], proto.repeated_nested_message) - - self.assertEqual(3, len(proto.repeated_nested_message)) - proto.repeated_nested_message.remove(m0) - self.assertEqual(2, len(proto.repeated_nested_message)) - self.assertEqual(m1, proto.repeated_nested_message[0]) - self.assertEqual(m2, proto.repeated_nested_message[1]) - - # Removing m0 again or removing None should raise error - self.assertRaises(ValueError, proto.repeated_nested_message.remove, m0) - self.assertRaises(ValueError, proto.repeated_nested_message.remove, None) - self.assertEqual(2, len(proto.repeated_nested_message)) - - proto.repeated_nested_message.remove(m2) - self.assertEqual(1, len(proto.repeated_nested_message)) - self.assertEqual(m1, proto.repeated_nested_message[0]) - - def testHandWrittenReflection(self): - # Hand written extensions are only supported by the pure-Python - # implementation of the API. - if api_implementation.Type() != 'python': - return - - FieldDescriptor = descriptor.FieldDescriptor - foo_field_descriptor = FieldDescriptor( - name='foo_field', full_name='MyProto.foo_field', - index=0, number=1, type=FieldDescriptor.TYPE_INT64, - cpp_type=FieldDescriptor.CPPTYPE_INT64, - label=FieldDescriptor.LABEL_OPTIONAL, default_value=0, - containing_type=None, message_type=None, enum_type=None, - is_extension=False, extension_scope=None, - options=descriptor_pb2.FieldOptions()) - mydescriptor = descriptor.Descriptor( - name='MyProto', full_name='MyProto', filename='ignored', - containing_type=None, nested_types=[], enum_types=[], - fields=[foo_field_descriptor], extensions=[], - options=descriptor_pb2.MessageOptions()) - class MyProtoClass(six.with_metaclass(reflection.GeneratedProtocolMessageType, message.Message)): - DESCRIPTOR = mydescriptor - myproto_instance = MyProtoClass() - self.assertEqual(0, myproto_instance.foo_field) - self.assertTrue(not myproto_instance.HasField('foo_field')) - myproto_instance.foo_field = 23 - self.assertEqual(23, myproto_instance.foo_field) - self.assertTrue(myproto_instance.HasField('foo_field')) - - def testDescriptorProtoSupport(self): - # Hand written descriptors/reflection are only supported by the pure-Python - # implementation of the API. - if api_implementation.Type() != 'python': - return - - def AddDescriptorField(proto, field_name, field_type): - AddDescriptorField.field_index += 1 - new_field = proto.field.add() - new_field.name = field_name - new_field.type = field_type - new_field.number = AddDescriptorField.field_index - new_field.label = descriptor_pb2.FieldDescriptorProto.LABEL_OPTIONAL - - AddDescriptorField.field_index = 0 - - desc_proto = descriptor_pb2.DescriptorProto() - desc_proto.name = 'Car' - fdp = descriptor_pb2.FieldDescriptorProto - AddDescriptorField(desc_proto, 'name', fdp.TYPE_STRING) - AddDescriptorField(desc_proto, 'year', fdp.TYPE_INT64) - AddDescriptorField(desc_proto, 'automatic', fdp.TYPE_BOOL) - AddDescriptorField(desc_proto, 'price', fdp.TYPE_DOUBLE) - # Add a repeated field - AddDescriptorField.field_index += 1 - new_field = desc_proto.field.add() - new_field.name = 'owners' - new_field.type = fdp.TYPE_STRING - new_field.number = AddDescriptorField.field_index - new_field.label = descriptor_pb2.FieldDescriptorProto.LABEL_REPEATED - - desc = descriptor.MakeDescriptor(desc_proto) - self.assertTrue('name' in desc.fields_by_name) - self.assertTrue('year' in desc.fields_by_name) - self.assertTrue('automatic' in desc.fields_by_name) - self.assertTrue('price' in desc.fields_by_name) - self.assertTrue('owners' in desc.fields_by_name) - - class CarMessage(six.with_metaclass(reflection.GeneratedProtocolMessageType, message.Message)): - DESCRIPTOR = desc - - prius = CarMessage() - prius.name = 'prius' - prius.year = 2010 - prius.automatic = True - prius.price = 25134.75 - prius.owners.extend(['bob', 'susan']) - - serialized_prius = prius.SerializeToString() - new_prius = reflection.ParseMessage(desc, serialized_prius) - self.assertTrue(new_prius is not prius) - self.assertEqual(prius, new_prius) - - # these are unnecessary assuming message equality works as advertised but - # explicitly check to be safe since we're mucking about in metaclass foo - self.assertEqual(prius.name, new_prius.name) - self.assertEqual(prius.year, new_prius.year) - self.assertEqual(prius.automatic, new_prius.automatic) - self.assertEqual(prius.price, new_prius.price) - self.assertEqual(prius.owners, new_prius.owners) - - def testTopLevelExtensionsForOptionalScalar(self): - extendee_proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.optional_int32_extension - self.assertTrue(not extendee_proto.HasExtension(extension)) - self.assertEqual(0, extendee_proto.Extensions[extension]) - # As with normal scalar fields, just doing a read doesn't actually set the - # "has" bit. - self.assertTrue(not extendee_proto.HasExtension(extension)) - # Actually set the thing. - extendee_proto.Extensions[extension] = 23 - self.assertEqual(23, extendee_proto.Extensions[extension]) - self.assertTrue(extendee_proto.HasExtension(extension)) - # Ensure that clearing works as well. - extendee_proto.ClearExtension(extension) - self.assertEqual(0, extendee_proto.Extensions[extension]) - self.assertTrue(not extendee_proto.HasExtension(extension)) - - def testTopLevelExtensionsForRepeatedScalar(self): - extendee_proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.repeated_string_extension - self.assertEqual(0, len(extendee_proto.Extensions[extension])) - extendee_proto.Extensions[extension].append('foo') - self.assertEqual(['foo'], extendee_proto.Extensions[extension]) - string_list = extendee_proto.Extensions[extension] - extendee_proto.ClearExtension(extension) - self.assertEqual(0, len(extendee_proto.Extensions[extension])) - self.assertTrue(string_list is not extendee_proto.Extensions[extension]) - # Shouldn't be allowed to do Extensions[extension] = 'a' - self.assertRaises(TypeError, operator.setitem, extendee_proto.Extensions, - extension, 'a') - - def testTopLevelExtensionsForOptionalMessage(self): - extendee_proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.optional_foreign_message_extension - self.assertTrue(not extendee_proto.HasExtension(extension)) - self.assertEqual(0, extendee_proto.Extensions[extension].c) - # As with normal (non-extension) fields, merely reading from the - # thing shouldn't set the "has" bit. - self.assertTrue(not extendee_proto.HasExtension(extension)) - extendee_proto.Extensions[extension].c = 23 - self.assertEqual(23, extendee_proto.Extensions[extension].c) - self.assertTrue(extendee_proto.HasExtension(extension)) - # Save a reference here. - foreign_message = extendee_proto.Extensions[extension] - extendee_proto.ClearExtension(extension) - self.assertTrue(foreign_message is not extendee_proto.Extensions[extension]) - # Setting a field on foreign_message now shouldn't set - # any "has" bits on extendee_proto. - foreign_message.c = 42 - self.assertEqual(42, foreign_message.c) - self.assertTrue(foreign_message.HasField('c')) - self.assertTrue(not extendee_proto.HasExtension(extension)) - # Shouldn't be allowed to do Extensions[extension] = 'a' - self.assertRaises(TypeError, operator.setitem, extendee_proto.Extensions, - extension, 'a') - - def testTopLevelExtensionsForRepeatedMessage(self): - extendee_proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.repeatedgroup_extension - self.assertEqual(0, len(extendee_proto.Extensions[extension])) - group = extendee_proto.Extensions[extension].add() - group.a = 23 - self.assertEqual(23, extendee_proto.Extensions[extension][0].a) - group.a = 42 - self.assertEqual(42, extendee_proto.Extensions[extension][0].a) - group_list = extendee_proto.Extensions[extension] - extendee_proto.ClearExtension(extension) - self.assertEqual(0, len(extendee_proto.Extensions[extension])) - self.assertTrue(group_list is not extendee_proto.Extensions[extension]) - # Shouldn't be allowed to do Extensions[extension] = 'a' - self.assertRaises(TypeError, operator.setitem, extendee_proto.Extensions, - extension, 'a') - - def testNestedExtensions(self): - extendee_proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.TestRequired.single - - # We just test the non-repeated case. - self.assertTrue(not extendee_proto.HasExtension(extension)) - required = extendee_proto.Extensions[extension] - self.assertEqual(0, required.a) - self.assertTrue(not extendee_proto.HasExtension(extension)) - required.a = 23 - self.assertEqual(23, extendee_proto.Extensions[extension].a) - self.assertTrue(extendee_proto.HasExtension(extension)) - extendee_proto.ClearExtension(extension) - self.assertTrue(required is not extendee_proto.Extensions[extension]) - self.assertTrue(not extendee_proto.HasExtension(extension)) - - def testRegisteredExtensions(self): - self.assertTrue('protobuf_unittest.optional_int32_extension' in - unittest_pb2.TestAllExtensions._extensions_by_name) - self.assertTrue(1 in unittest_pb2.TestAllExtensions._extensions_by_number) - # Make sure extensions haven't been registered into types that shouldn't - # have any. - self.assertEqual(0, len(unittest_pb2.TestAllTypes._extensions_by_name)) - - # If message A directly contains message B, and - # a.HasField('b') is currently False, then mutating any - # extension in B should change a.HasField('b') to True - # (and so on up the object tree). - def testHasBitsForAncestorsOfExtendedMessage(self): - # Optional scalar extension. - toplevel = more_extensions_pb2.TopLevelMessage() - self.assertTrue(not toplevel.HasField('submessage')) - self.assertEqual(0, toplevel.submessage.Extensions[ - more_extensions_pb2.optional_int_extension]) - self.assertTrue(not toplevel.HasField('submessage')) - toplevel.submessage.Extensions[ - more_extensions_pb2.optional_int_extension] = 23 - self.assertEqual(23, toplevel.submessage.Extensions[ - more_extensions_pb2.optional_int_extension]) - self.assertTrue(toplevel.HasField('submessage')) - - # Repeated scalar extension. - toplevel = more_extensions_pb2.TopLevelMessage() - self.assertTrue(not toplevel.HasField('submessage')) - self.assertEqual([], toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_int_extension]) - self.assertTrue(not toplevel.HasField('submessage')) - toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_int_extension].append(23) - self.assertEqual([23], toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_int_extension]) - self.assertTrue(toplevel.HasField('submessage')) - - # Optional message extension. - toplevel = more_extensions_pb2.TopLevelMessage() - self.assertTrue(not toplevel.HasField('submessage')) - self.assertEqual(0, toplevel.submessage.Extensions[ - more_extensions_pb2.optional_message_extension].foreign_message_int) - self.assertTrue(not toplevel.HasField('submessage')) - toplevel.submessage.Extensions[ - more_extensions_pb2.optional_message_extension].foreign_message_int = 23 - self.assertEqual(23, toplevel.submessage.Extensions[ - more_extensions_pb2.optional_message_extension].foreign_message_int) - self.assertTrue(toplevel.HasField('submessage')) - - # Repeated message extension. - toplevel = more_extensions_pb2.TopLevelMessage() - self.assertTrue(not toplevel.HasField('submessage')) - self.assertEqual(0, len(toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_message_extension])) - self.assertTrue(not toplevel.HasField('submessage')) - foreign = toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_message_extension].add() - self.assertEqual(foreign, toplevel.submessage.Extensions[ - more_extensions_pb2.repeated_message_extension][0]) - self.assertTrue(toplevel.HasField('submessage')) - - def testDisconnectionAfterClearingEmptyMessage(self): - toplevel = more_extensions_pb2.TopLevelMessage() - extendee_proto = toplevel.submessage - extension = more_extensions_pb2.optional_message_extension - extension_proto = extendee_proto.Extensions[extension] - extendee_proto.ClearExtension(extension) - extension_proto.foreign_message_int = 23 - - self.assertTrue(extension_proto is not extendee_proto.Extensions[extension]) - - def testExtensionFailureModes(self): - extendee_proto = unittest_pb2.TestAllExtensions() - - # Try non-extension-handle arguments to HasExtension, - # ClearExtension(), and Extensions[]... - self.assertRaises(KeyError, extendee_proto.HasExtension, 1234) - self.assertRaises(KeyError, extendee_proto.ClearExtension, 1234) - self.assertRaises(KeyError, extendee_proto.Extensions.__getitem__, 1234) - self.assertRaises(KeyError, extendee_proto.Extensions.__setitem__, 1234, 5) - - # Try something that *is* an extension handle, just not for - # this message... - for unknown_handle in (more_extensions_pb2.optional_int_extension, - more_extensions_pb2.optional_message_extension, - more_extensions_pb2.repeated_int_extension, - more_extensions_pb2.repeated_message_extension): - self.assertRaises(KeyError, extendee_proto.HasExtension, - unknown_handle) - self.assertRaises(KeyError, extendee_proto.ClearExtension, - unknown_handle) - self.assertRaises(KeyError, extendee_proto.Extensions.__getitem__, - unknown_handle) - self.assertRaises(KeyError, extendee_proto.Extensions.__setitem__, - unknown_handle, 5) - - # Try call HasExtension() with a valid handle, but for a - # *repeated* field. (Just as with non-extension repeated - # fields, Has*() isn't supported for extension repeated fields). - self.assertRaises(KeyError, extendee_proto.HasExtension, - unittest_pb2.repeated_string_extension) - - def testStaticParseFrom(self): - proto1 = unittest_pb2.TestAllTypes() - test_util.SetAllFields(proto1) - - string1 = proto1.SerializeToString() - proto2 = unittest_pb2.TestAllTypes.FromString(string1) - - # Messages should be equal. - self.assertEqual(proto2, proto1) - - def testMergeFromSingularField(self): - # Test merge with just a singular field. - proto1 = unittest_pb2.TestAllTypes() - proto1.optional_int32 = 1 - - proto2 = unittest_pb2.TestAllTypes() - # This shouldn't get overwritten. - proto2.optional_string = 'value' - - proto2.MergeFrom(proto1) - self.assertEqual(1, proto2.optional_int32) - self.assertEqual('value', proto2.optional_string) - - def testMergeFromRepeatedField(self): - # Test merge with just a repeated field. - proto1 = unittest_pb2.TestAllTypes() - proto1.repeated_int32.append(1) - proto1.repeated_int32.append(2) - - proto2 = unittest_pb2.TestAllTypes() - proto2.repeated_int32.append(0) - proto2.MergeFrom(proto1) - - self.assertEqual(0, proto2.repeated_int32[0]) - self.assertEqual(1, proto2.repeated_int32[1]) - self.assertEqual(2, proto2.repeated_int32[2]) - - def testMergeFromOptionalGroup(self): - # Test merge with an optional group. - proto1 = unittest_pb2.TestAllTypes() - proto1.optionalgroup.a = 12 - proto2 = unittest_pb2.TestAllTypes() - proto2.MergeFrom(proto1) - self.assertEqual(12, proto2.optionalgroup.a) - - def testMergeFromRepeatedNestedMessage(self): - # Test merge with a repeated nested message. - proto1 = unittest_pb2.TestAllTypes() - m = proto1.repeated_nested_message.add() - m.bb = 123 - m = proto1.repeated_nested_message.add() - m.bb = 321 - - proto2 = unittest_pb2.TestAllTypes() - m = proto2.repeated_nested_message.add() - m.bb = 999 - proto2.MergeFrom(proto1) - self.assertEqual(999, proto2.repeated_nested_message[0].bb) - self.assertEqual(123, proto2.repeated_nested_message[1].bb) - self.assertEqual(321, proto2.repeated_nested_message[2].bb) - - proto3 = unittest_pb2.TestAllTypes() - proto3.repeated_nested_message.MergeFrom(proto2.repeated_nested_message) - self.assertEqual(999, proto3.repeated_nested_message[0].bb) - self.assertEqual(123, proto3.repeated_nested_message[1].bb) - self.assertEqual(321, proto3.repeated_nested_message[2].bb) - - def testMergeFromAllFields(self): - # With all fields set. - proto1 = unittest_pb2.TestAllTypes() - test_util.SetAllFields(proto1) - proto2 = unittest_pb2.TestAllTypes() - proto2.MergeFrom(proto1) - - # Messages should be equal. - self.assertEqual(proto2, proto1) - - # Serialized string should be equal too. - string1 = proto1.SerializeToString() - string2 = proto2.SerializeToString() - self.assertEqual(string1, string2) - - def testMergeFromExtensionsSingular(self): - proto1 = unittest_pb2.TestAllExtensions() - proto1.Extensions[unittest_pb2.optional_int32_extension] = 1 - - proto2 = unittest_pb2.TestAllExtensions() - proto2.MergeFrom(proto1) - self.assertEqual( - 1, proto2.Extensions[unittest_pb2.optional_int32_extension]) - - def testMergeFromExtensionsRepeated(self): - proto1 = unittest_pb2.TestAllExtensions() - proto1.Extensions[unittest_pb2.repeated_int32_extension].append(1) - proto1.Extensions[unittest_pb2.repeated_int32_extension].append(2) - - proto2 = unittest_pb2.TestAllExtensions() - proto2.Extensions[unittest_pb2.repeated_int32_extension].append(0) - proto2.MergeFrom(proto1) - self.assertEqual( - 3, len(proto2.Extensions[unittest_pb2.repeated_int32_extension])) - self.assertEqual( - 0, proto2.Extensions[unittest_pb2.repeated_int32_extension][0]) - self.assertEqual( - 1, proto2.Extensions[unittest_pb2.repeated_int32_extension][1]) - self.assertEqual( - 2, proto2.Extensions[unittest_pb2.repeated_int32_extension][2]) - - def testMergeFromExtensionsNestedMessage(self): - proto1 = unittest_pb2.TestAllExtensions() - ext1 = proto1.Extensions[ - unittest_pb2.repeated_nested_message_extension] - m = ext1.add() - m.bb = 222 - m = ext1.add() - m.bb = 333 - - proto2 = unittest_pb2.TestAllExtensions() - ext2 = proto2.Extensions[ - unittest_pb2.repeated_nested_message_extension] - m = ext2.add() - m.bb = 111 - - proto2.MergeFrom(proto1) - ext2 = proto2.Extensions[ - unittest_pb2.repeated_nested_message_extension] - self.assertEqual(3, len(ext2)) - self.assertEqual(111, ext2[0].bb) - self.assertEqual(222, ext2[1].bb) - self.assertEqual(333, ext2[2].bb) - - def testMergeFromBug(self): - message1 = unittest_pb2.TestAllTypes() - message2 = unittest_pb2.TestAllTypes() - - # Cause optional_nested_message to be instantiated within message1, even - # though it is not considered to be "present". - message1.optional_nested_message - self.assertFalse(message1.HasField('optional_nested_message')) - - # Merge into message2. This should not instantiate the field is message2. - message2.MergeFrom(message1) - self.assertFalse(message2.HasField('optional_nested_message')) - - def testCopyFromSingularField(self): - # Test copy with just a singular field. - proto1 = unittest_pb2.TestAllTypes() - proto1.optional_int32 = 1 - proto1.optional_string = 'important-text' - - proto2 = unittest_pb2.TestAllTypes() - proto2.optional_string = 'value' - - proto2.CopyFrom(proto1) - self.assertEqual(1, proto2.optional_int32) - self.assertEqual('important-text', proto2.optional_string) - - def testCopyFromRepeatedField(self): - # Test copy with a repeated field. - proto1 = unittest_pb2.TestAllTypes() - proto1.repeated_int32.append(1) - proto1.repeated_int32.append(2) - - proto2 = unittest_pb2.TestAllTypes() - proto2.repeated_int32.append(0) - proto2.CopyFrom(proto1) - - self.assertEqual(1, proto2.repeated_int32[0]) - self.assertEqual(2, proto2.repeated_int32[1]) - - def testCopyFromAllFields(self): - # With all fields set. - proto1 = unittest_pb2.TestAllTypes() - test_util.SetAllFields(proto1) - proto2 = unittest_pb2.TestAllTypes() - proto2.CopyFrom(proto1) - - # Messages should be equal. - self.assertEqual(proto2, proto1) - - # Serialized string should be equal too. - string1 = proto1.SerializeToString() - string2 = proto2.SerializeToString() - self.assertEqual(string1, string2) - - def testCopyFromSelf(self): - proto1 = unittest_pb2.TestAllTypes() - proto1.repeated_int32.append(1) - proto1.optional_int32 = 2 - proto1.optional_string = 'important-text' - - proto1.CopyFrom(proto1) - self.assertEqual(1, proto1.repeated_int32[0]) - self.assertEqual(2, proto1.optional_int32) - self.assertEqual('important-text', proto1.optional_string) - - def testCopyFromBadType(self): - # The python implementation doesn't raise an exception in this - # case. In theory it should. - if api_implementation.Type() == 'python': - return - proto1 = unittest_pb2.TestAllTypes() - proto2 = unittest_pb2.TestAllExtensions() - self.assertRaises(TypeError, proto1.CopyFrom, proto2) - - def testDeepCopy(self): - proto1 = unittest_pb2.TestAllTypes() - proto1.optional_int32 = 1 - proto2 = copy.deepcopy(proto1) - self.assertEqual(1, proto2.optional_int32) - - proto1.repeated_int32.append(2) - proto1.repeated_int32.append(3) - container = copy.deepcopy(proto1.repeated_int32) - self.assertEqual([2, 3], container) - - # TODO(anuraag): Implement deepcopy for repeated composite / extension dict - - def testClear(self): - proto = unittest_pb2.TestAllTypes() - # C++ implementation does not support lazy fields right now so leave it - # out for now. - if api_implementation.Type() == 'python': - test_util.SetAllFields(proto) - else: - test_util.SetAllNonLazyFields(proto) - # Clear the message. - proto.Clear() - self.assertEqual(proto.ByteSize(), 0) - empty_proto = unittest_pb2.TestAllTypes() - self.assertEqual(proto, empty_proto) - - # Test if extensions which were set are cleared. - proto = unittest_pb2.TestAllExtensions() - test_util.SetAllExtensions(proto) - # Clear the message. - proto.Clear() - self.assertEqual(proto.ByteSize(), 0) - empty_proto = unittest_pb2.TestAllExtensions() - self.assertEqual(proto, empty_proto) - - def testDisconnectingBeforeClear(self): - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - proto.Clear() - self.assertTrue(nested is not proto.optional_nested_message) - nested.bb = 23 - self.assertTrue(not proto.HasField('optional_nested_message')) - self.assertEqual(0, proto.optional_nested_message.bb) - - proto = unittest_pb2.TestAllTypes() - nested = proto.optional_nested_message - nested.bb = 5 - foreign = proto.optional_foreign_message - foreign.c = 6 - - proto.Clear() - self.assertTrue(nested is not proto.optional_nested_message) - self.assertTrue(foreign is not proto.optional_foreign_message) - self.assertEqual(5, nested.bb) - self.assertEqual(6, foreign.c) - nested.bb = 15 - foreign.c = 16 - self.assertFalse(proto.HasField('optional_nested_message')) - self.assertEqual(0, proto.optional_nested_message.bb) - self.assertFalse(proto.HasField('optional_foreign_message')) - self.assertEqual(0, proto.optional_foreign_message.c) - - def testOneOf(self): - proto = unittest_pb2.TestAllTypes() - proto.oneof_uint32 = 10 - proto.oneof_nested_message.bb = 11 - self.assertEqual(11, proto.oneof_nested_message.bb) - self.assertFalse(proto.HasField('oneof_uint32')) - nested = proto.oneof_nested_message - proto.oneof_string = 'abc' - self.assertEqual('abc', proto.oneof_string) - self.assertEqual(11, nested.bb) - self.assertFalse(proto.HasField('oneof_nested_message')) - - def assertInitialized(self, proto): - self.assertTrue(proto.IsInitialized()) - # Neither method should raise an exception. - proto.SerializeToString() - proto.SerializePartialToString() - - def assertNotInitialized(self, proto): - self.assertFalse(proto.IsInitialized()) - self.assertRaises(message.EncodeError, proto.SerializeToString) - # "Partial" serialization doesn't care if message is uninitialized. - proto.SerializePartialToString() - - def testIsInitialized(self): - # Trivial cases - all optional fields and extensions. - proto = unittest_pb2.TestAllTypes() - self.assertInitialized(proto) - proto = unittest_pb2.TestAllExtensions() - self.assertInitialized(proto) - - # The case of uninitialized required fields. - proto = unittest_pb2.TestRequired() - self.assertNotInitialized(proto) - proto.a = proto.b = proto.c = 2 - self.assertInitialized(proto) - - # The case of uninitialized submessage. - proto = unittest_pb2.TestRequiredForeign() - self.assertInitialized(proto) - proto.optional_message.a = 1 - self.assertNotInitialized(proto) - proto.optional_message.b = 0 - proto.optional_message.c = 0 - self.assertInitialized(proto) - - # Uninitialized repeated submessage. - message1 = proto.repeated_message.add() - self.assertNotInitialized(proto) - message1.a = message1.b = message1.c = 0 - self.assertInitialized(proto) - - # Uninitialized repeated group in an extension. - proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.TestRequired.multi - message1 = proto.Extensions[extension].add() - message2 = proto.Extensions[extension].add() - self.assertNotInitialized(proto) - message1.a = 1 - message1.b = 1 - message1.c = 1 - self.assertNotInitialized(proto) - message2.a = 2 - message2.b = 2 - message2.c = 2 - self.assertInitialized(proto) - - # Uninitialized nonrepeated message in an extension. - proto = unittest_pb2.TestAllExtensions() - extension = unittest_pb2.TestRequired.single - proto.Extensions[extension].a = 1 - self.assertNotInitialized(proto) - proto.Extensions[extension].b = 2 - proto.Extensions[extension].c = 3 - self.assertInitialized(proto) - - # Try passing an errors list. - errors = [] - proto = unittest_pb2.TestRequired() - self.assertFalse(proto.IsInitialized(errors)) - self.assertEqual(errors, ['a', 'b', 'c']) - - @unittest.skipIf( - api_implementation.Type() != 'cpp' or api_implementation.Version() != 2, - 'Errors are only available from the most recent C++ implementation.') - def testFileDescriptorErrors(self): - file_name = 'test_file_descriptor_errors.proto' - package_name = 'test_file_descriptor_errors.proto' - file_descriptor_proto = descriptor_pb2.FileDescriptorProto() - file_descriptor_proto.name = file_name - file_descriptor_proto.package = package_name - m1 = file_descriptor_proto.message_type.add() - m1.name = 'msg1' - # Compiles the proto into the C++ descriptor pool - descriptor.FileDescriptor( - file_name, - package_name, - serialized_pb=file_descriptor_proto.SerializeToString()) - # Add a FileDescriptorProto that has duplicate symbols - another_file_name = 'another_test_file_descriptor_errors.proto' - file_descriptor_proto.name = another_file_name - m2 = file_descriptor_proto.message_type.add() - m2.name = 'msg2' - with self.assertRaises(TypeError) as cm: - descriptor.FileDescriptor( - another_file_name, - package_name, - serialized_pb=file_descriptor_proto.SerializeToString()) - self.assertTrue(hasattr(cm, 'exception'), '%s not raised' % - getattr(cm.expected, '__name__', cm.expected)) - self.assertIn('test_file_descriptor_errors.proto', str(cm.exception)) - # Error message will say something about this definition being a - # duplicate, though we don't check the message exactly to avoid a - # dependency on the C++ logging code. - self.assertIn('test_file_descriptor_errors.msg1', str(cm.exception)) - - def testStringUTF8Encoding(self): - proto = unittest_pb2.TestAllTypes() - - # Assignment of a unicode object to a field of type 'bytes' is not allowed. - self.assertRaises(TypeError, - setattr, proto, 'optional_bytes', u'unicode object') - - # Check that the default value is of python's 'unicode' type. - self.assertEqual(type(proto.optional_string), six.text_type) - - proto.optional_string = six.text_type('Testing') - self.assertEqual(proto.optional_string, str('Testing')) - - # Assign a value of type 'str' which can be encoded in UTF-8. - proto.optional_string = str('Testing') - self.assertEqual(proto.optional_string, six.text_type('Testing')) - - # Try to assign a 'bytes' object which contains non-UTF-8. - self.assertRaises(ValueError, - setattr, proto, 'optional_string', b'a\x80a') - # No exception: Assign already encoded UTF-8 bytes to a string field. - utf8_bytes = u'Тест'.encode('utf-8') - proto.optional_string = utf8_bytes - # No exception: Assign the a non-ascii unicode object. - proto.optional_string = u'Тест' - # No exception thrown (normal str assignment containing ASCII). - proto.optional_string = 'abc' - - def testStringUTF8Serialization(self): - proto = message_set_extensions_pb2.TestMessageSet() - extension_message = message_set_extensions_pb2.TestMessageSetExtension2 - extension = extension_message.message_set_extension - - test_utf8 = u'Тест' - test_utf8_bytes = test_utf8.encode('utf-8') - - # 'Test' in another language, using UTF-8 charset. - proto.Extensions[extension].str = test_utf8 - - # Serialize using the MessageSet wire format (this is specified in the - # .proto file). - serialized = proto.SerializeToString() - - # Check byte size. - self.assertEqual(proto.ByteSize(), len(serialized)) - - raw = unittest_mset_pb2.RawMessageSet() - bytes_read = raw.MergeFromString(serialized) - self.assertEqual(len(serialized), bytes_read) - - message2 = message_set_extensions_pb2.TestMessageSetExtension2() - - self.assertEqual(1, len(raw.item)) - # Check that the type_id is the same as the tag ID in the .proto file. - self.assertEqual(raw.item[0].type_id, 98418634) - - # Check the actual bytes on the wire. - self.assertTrue(raw.item[0].message.endswith(test_utf8_bytes)) - bytes_read = message2.MergeFromString(raw.item[0].message) - self.assertEqual(len(raw.item[0].message), bytes_read) - - self.assertEqual(type(message2.str), six.text_type) - self.assertEqual(message2.str, test_utf8) - - # The pure Python API throws an exception on MergeFromString(), - # if any of the string fields of the message can't be UTF-8 decoded. - # The C++ implementation of the API has no way to check that on - # MergeFromString and thus has no way to throw the exception. - # - # The pure Python API always returns objects of type 'unicode' (UTF-8 - # encoded), or 'bytes' (in 7 bit ASCII). - badbytes = raw.item[0].message.replace( - test_utf8_bytes, len(test_utf8_bytes) * b'\xff') - - unicode_decode_failed = False - try: - message2.MergeFromString(badbytes) - except UnicodeDecodeError: - unicode_decode_failed = True - string_field = message2.str - self.assertTrue(unicode_decode_failed or type(string_field) is bytes) - - def testBytesInTextFormat(self): - proto = unittest_pb2.TestAllTypes(optional_bytes=b'\x00\x7f\x80\xff') - self.assertEqual(u'optional_bytes: "\\000\\177\\200\\377"\n', - six.text_type(proto)) - - def testEmptyNestedMessage(self): - proto = unittest_pb2.TestAllTypes() - proto.optional_nested_message.MergeFrom( - unittest_pb2.TestAllTypes.NestedMessage()) - self.assertTrue(proto.HasField('optional_nested_message')) - - proto = unittest_pb2.TestAllTypes() - proto.optional_nested_message.CopyFrom( - unittest_pb2.TestAllTypes.NestedMessage()) - self.assertTrue(proto.HasField('optional_nested_message')) - - proto = unittest_pb2.TestAllTypes() - bytes_read = proto.optional_nested_message.MergeFromString(b'') - self.assertEqual(0, bytes_read) - self.assertTrue(proto.HasField('optional_nested_message')) - - proto = unittest_pb2.TestAllTypes() - proto.optional_nested_message.ParseFromString(b'') - self.assertTrue(proto.HasField('optional_nested_message')) - - serialized = proto.SerializeToString() - proto2 = unittest_pb2.TestAllTypes() - self.assertEqual( - len(serialized), - proto2.MergeFromString(serialized)) - self.assertTrue(proto2.HasField('optional_nested_message')) - - def testSetInParent(self): - proto = unittest_pb2.TestAllTypes() - self.assertFalse(proto.HasField('optionalgroup')) - proto.optionalgroup.SetInParent() - self.assertTrue(proto.HasField('optionalgroup')) - - def testPackageInitializationImport(self): - """Test that we can import nested messages from their __init__.py. - - Such setup is not trivial since at the time of processing of __init__.py one - can't refer to its submodules by name in code, so expressions like - google.protobuf.internal.import_test_package.inner_pb2 - don't work. They do work in imports, so we have assign an alias at import - and then use that alias in generated code. - """ - # We import here since it's the import that used to fail, and we want - # the failure to have the right context. - # pylint: disable=g-import-not-at-top - from google.protobuf.internal import import_test_package - # pylint: enable=g-import-not-at-top - msg = import_test_package.myproto.Outer() - # Just check the default value. - self.assertEqual(57, msg.inner.value) - -# Since we had so many tests for protocol buffer equality, we broke these out -# into separate TestCase classes. - - -class TestAllTypesEqualityTest(unittest.TestCase): - - def setUp(self): - self.first_proto = unittest_pb2.TestAllTypes() - self.second_proto = unittest_pb2.TestAllTypes() - - def testNotHashable(self): - self.assertRaises(TypeError, hash, self.first_proto) - - def testSelfEquality(self): - self.assertEqual(self.first_proto, self.first_proto) - - def testEmptyProtosEqual(self): - self.assertEqual(self.first_proto, self.second_proto) - - -class FullProtosEqualityTest(unittest.TestCase): - - """Equality tests using completely-full protos as a starting point.""" - - def setUp(self): - self.first_proto = unittest_pb2.TestAllTypes() - self.second_proto = unittest_pb2.TestAllTypes() - test_util.SetAllFields(self.first_proto) - test_util.SetAllFields(self.second_proto) - - def testNotHashable(self): - self.assertRaises(TypeError, hash, self.first_proto) - - def testNoneNotEqual(self): - self.assertNotEqual(self.first_proto, None) - self.assertNotEqual(None, self.second_proto) - - def testNotEqualToOtherMessage(self): - third_proto = unittest_pb2.TestRequired() - self.assertNotEqual(self.first_proto, third_proto) - self.assertNotEqual(third_proto, self.second_proto) - - def testAllFieldsFilledEquality(self): - self.assertEqual(self.first_proto, self.second_proto) - - def testNonRepeatedScalar(self): - # Nonrepeated scalar field change should cause inequality. - self.first_proto.optional_int32 += 1 - self.assertNotEqual(self.first_proto, self.second_proto) - # ...as should clearing a field. - self.first_proto.ClearField('optional_int32') - self.assertNotEqual(self.first_proto, self.second_proto) - - def testNonRepeatedComposite(self): - # Change a nonrepeated composite field. - self.first_proto.optional_nested_message.bb += 1 - self.assertNotEqual(self.first_proto, self.second_proto) - self.first_proto.optional_nested_message.bb -= 1 - self.assertEqual(self.first_proto, self.second_proto) - # Clear a field in the nested message. - self.first_proto.optional_nested_message.ClearField('bb') - self.assertNotEqual(self.first_proto, self.second_proto) - self.first_proto.optional_nested_message.bb = ( - self.second_proto.optional_nested_message.bb) - self.assertEqual(self.first_proto, self.second_proto) - # Remove the nested message entirely. - self.first_proto.ClearField('optional_nested_message') - self.assertNotEqual(self.first_proto, self.second_proto) - - def testRepeatedScalar(self): - # Change a repeated scalar field. - self.first_proto.repeated_int32.append(5) - self.assertNotEqual(self.first_proto, self.second_proto) - self.first_proto.ClearField('repeated_int32') - self.assertNotEqual(self.first_proto, self.second_proto) - - def testRepeatedComposite(self): - # Change value within a repeated composite field. - self.first_proto.repeated_nested_message[0].bb += 1 - self.assertNotEqual(self.first_proto, self.second_proto) - self.first_proto.repeated_nested_message[0].bb -= 1 - self.assertEqual(self.first_proto, self.second_proto) - # Add a value to a repeated composite field. - self.first_proto.repeated_nested_message.add() - self.assertNotEqual(self.first_proto, self.second_proto) - self.second_proto.repeated_nested_message.add() - self.assertEqual(self.first_proto, self.second_proto) - - def testNonRepeatedScalarHasBits(self): - # Ensure that we test "has" bits as well as value for - # nonrepeated scalar field. - self.first_proto.ClearField('optional_int32') - self.second_proto.optional_int32 = 0 - self.assertNotEqual(self.first_proto, self.second_proto) - - def testNonRepeatedCompositeHasBits(self): - # Ensure that we test "has" bits as well as value for - # nonrepeated composite field. - self.first_proto.ClearField('optional_nested_message') - self.second_proto.optional_nested_message.ClearField('bb') - self.assertNotEqual(self.first_proto, self.second_proto) - self.first_proto.optional_nested_message.bb = 0 - self.first_proto.optional_nested_message.ClearField('bb') - self.assertEqual(self.first_proto, self.second_proto) - - -class ExtensionEqualityTest(unittest.TestCase): - - def testExtensionEquality(self): - first_proto = unittest_pb2.TestAllExtensions() - second_proto = unittest_pb2.TestAllExtensions() - self.assertEqual(first_proto, second_proto) - test_util.SetAllExtensions(first_proto) - self.assertNotEqual(first_proto, second_proto) - test_util.SetAllExtensions(second_proto) - self.assertEqual(first_proto, second_proto) - - # Ensure that we check value equality. - first_proto.Extensions[unittest_pb2.optional_int32_extension] += 1 - self.assertNotEqual(first_proto, second_proto) - first_proto.Extensions[unittest_pb2.optional_int32_extension] -= 1 - self.assertEqual(first_proto, second_proto) - - # Ensure that we also look at "has" bits. - first_proto.ClearExtension(unittest_pb2.optional_int32_extension) - second_proto.Extensions[unittest_pb2.optional_int32_extension] = 0 - self.assertNotEqual(first_proto, second_proto) - first_proto.Extensions[unittest_pb2.optional_int32_extension] = 0 - self.assertEqual(first_proto, second_proto) - - # Ensure that differences in cached values - # don't matter if "has" bits are both false. - first_proto = unittest_pb2.TestAllExtensions() - second_proto = unittest_pb2.TestAllExtensions() - self.assertEqual( - 0, first_proto.Extensions[unittest_pb2.optional_int32_extension]) - self.assertEqual(first_proto, second_proto) - - -class MutualRecursionEqualityTest(unittest.TestCase): - - def testEqualityWithMutualRecursion(self): - first_proto = unittest_pb2.TestMutualRecursionA() - second_proto = unittest_pb2.TestMutualRecursionA() - self.assertEqual(first_proto, second_proto) - first_proto.bb.a.bb.optional_int32 = 23 - self.assertNotEqual(first_proto, second_proto) - second_proto.bb.a.bb.optional_int32 = 23 - self.assertEqual(first_proto, second_proto) - - -class ByteSizeTest(unittest.TestCase): - - def setUp(self): - self.proto = unittest_pb2.TestAllTypes() - self.extended_proto = more_extensions_pb2.ExtendedMessage() - self.packed_proto = unittest_pb2.TestPackedTypes() - self.packed_extended_proto = unittest_pb2.TestPackedExtensions() - - def Size(self): - return self.proto.ByteSize() - - def testEmptyMessage(self): - self.assertEqual(0, self.proto.ByteSize()) - - def testSizedOnKwargs(self): - # Use a separate message to ensure testing right after creation. - proto = unittest_pb2.TestAllTypes() - self.assertEqual(0, proto.ByteSize()) - proto_kwargs = unittest_pb2.TestAllTypes(optional_int64 = 1) - # One byte for the tag, one to encode varint 1. - self.assertEqual(2, proto_kwargs.ByteSize()) - - def testVarints(self): - def Test(i, expected_varint_size): - self.proto.Clear() - self.proto.optional_int64 = i - # Add one to the varint size for the tag info - # for tag 1. - self.assertEqual(expected_varint_size + 1, self.Size()) - Test(0, 1) - Test(1, 1) - for i, num_bytes in zip(range(7, 63, 7), range(1, 10000)): - Test((1 << i) - 1, num_bytes) - Test(-1, 10) - Test(-2, 10) - Test(-(1 << 63), 10) - - def testStrings(self): - self.proto.optional_string = '' - # Need one byte for tag info (tag #14), and one byte for length. - self.assertEqual(2, self.Size()) - - self.proto.optional_string = 'abc' - # Need one byte for tag info (tag #14), and one byte for length. - self.assertEqual(2 + len(self.proto.optional_string), self.Size()) - - self.proto.optional_string = 'x' * 128 - # Need one byte for tag info (tag #14), and TWO bytes for length. - self.assertEqual(3 + len(self.proto.optional_string), self.Size()) - - def testOtherNumerics(self): - self.proto.optional_fixed32 = 1234 - # One byte for tag and 4 bytes for fixed32. - self.assertEqual(5, self.Size()) - self.proto = unittest_pb2.TestAllTypes() - - self.proto.optional_fixed64 = 1234 - # One byte for tag and 8 bytes for fixed64. - self.assertEqual(9, self.Size()) - self.proto = unittest_pb2.TestAllTypes() - - self.proto.optional_float = 1.234 - # One byte for tag and 4 bytes for float. - self.assertEqual(5, self.Size()) - self.proto = unittest_pb2.TestAllTypes() - - self.proto.optional_double = 1.234 - # One byte for tag and 8 bytes for float. - self.assertEqual(9, self.Size()) - self.proto = unittest_pb2.TestAllTypes() - - self.proto.optional_sint32 = 64 - # One byte for tag and 2 bytes for zig-zag-encoded 64. - self.assertEqual(3, self.Size()) - self.proto = unittest_pb2.TestAllTypes() - - def testComposites(self): - # 3 bytes. - self.proto.optional_nested_message.bb = (1 << 14) - # Plus one byte for bb tag. - # Plus 1 byte for optional_nested_message serialized size. - # Plus two bytes for optional_nested_message tag. - self.assertEqual(3 + 1 + 1 + 2, self.Size()) - - def testGroups(self): - # 4 bytes. - self.proto.optionalgroup.a = (1 << 21) - # Plus two bytes for |a| tag. - # Plus 2 * two bytes for START_GROUP and END_GROUP tags. - self.assertEqual(4 + 2 + 2*2, self.Size()) - - def testRepeatedScalars(self): - self.proto.repeated_int32.append(10) # 1 byte. - self.proto.repeated_int32.append(128) # 2 bytes. - # Also need 2 bytes for each entry for tag. - self.assertEqual(1 + 2 + 2*2, self.Size()) - - def testRepeatedScalarsExtend(self): - self.proto.repeated_int32.extend([10, 128]) # 3 bytes. - # Also need 2 bytes for each entry for tag. - self.assertEqual(1 + 2 + 2*2, self.Size()) - - def testRepeatedScalarsRemove(self): - self.proto.repeated_int32.append(10) # 1 byte. - self.proto.repeated_int32.append(128) # 2 bytes. - # Also need 2 bytes for each entry for tag. - self.assertEqual(1 + 2 + 2*2, self.Size()) - self.proto.repeated_int32.remove(128) - self.assertEqual(1 + 2, self.Size()) - - def testRepeatedComposites(self): - # Empty message. 2 bytes tag plus 1 byte length. - foreign_message_0 = self.proto.repeated_nested_message.add() - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - foreign_message_1 = self.proto.repeated_nested_message.add() - foreign_message_1.bb = 7 - self.assertEqual(2 + 1 + 2 + 1 + 1 + 1, self.Size()) - - def testRepeatedCompositesDelete(self): - # Empty message. 2 bytes tag plus 1 byte length. - foreign_message_0 = self.proto.repeated_nested_message.add() - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - foreign_message_1 = self.proto.repeated_nested_message.add() - foreign_message_1.bb = 9 - self.assertEqual(2 + 1 + 2 + 1 + 1 + 1, self.Size()) - - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - del self.proto.repeated_nested_message[0] - self.assertEqual(2 + 1 + 1 + 1, self.Size()) - - # Now add a new message. - foreign_message_2 = self.proto.repeated_nested_message.add() - foreign_message_2.bb = 12 - - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - self.assertEqual(2 + 1 + 1 + 1 + 2 + 1 + 1 + 1, self.Size()) - - # 2 bytes tag plus 1 byte length plus 1 byte bb tag 1 byte int. - del self.proto.repeated_nested_message[1] - self.assertEqual(2 + 1 + 1 + 1, self.Size()) - - del self.proto.repeated_nested_message[0] - self.assertEqual(0, self.Size()) - - def testRepeatedGroups(self): - # 2-byte START_GROUP plus 2-byte END_GROUP. - group_0 = self.proto.repeatedgroup.add() - # 2-byte START_GROUP plus 2-byte |a| tag + 1-byte |a| - # plus 2-byte END_GROUP. - group_1 = self.proto.repeatedgroup.add() - group_1.a = 7 - self.assertEqual(2 + 2 + 2 + 2 + 1 + 2, self.Size()) - - def testExtensions(self): - proto = unittest_pb2.TestAllExtensions() - self.assertEqual(0, proto.ByteSize()) - extension = unittest_pb2.optional_int32_extension # Field #1, 1 byte. - proto.Extensions[extension] = 23 - # 1 byte for tag, 1 byte for value. - self.assertEqual(2, proto.ByteSize()) - - def testCacheInvalidationForNonrepeatedScalar(self): - # Test non-extension. - self.proto.optional_int32 = 1 - self.assertEqual(2, self.proto.ByteSize()) - self.proto.optional_int32 = 128 - self.assertEqual(3, self.proto.ByteSize()) - self.proto.ClearField('optional_int32') - self.assertEqual(0, self.proto.ByteSize()) - - # Test within extension. - extension = more_extensions_pb2.optional_int_extension - self.extended_proto.Extensions[extension] = 1 - self.assertEqual(2, self.extended_proto.ByteSize()) - self.extended_proto.Extensions[extension] = 128 - self.assertEqual(3, self.extended_proto.ByteSize()) - self.extended_proto.ClearExtension(extension) - self.assertEqual(0, self.extended_proto.ByteSize()) - - def testCacheInvalidationForRepeatedScalar(self): - # Test non-extension. - self.proto.repeated_int32.append(1) - self.assertEqual(3, self.proto.ByteSize()) - self.proto.repeated_int32.append(1) - self.assertEqual(6, self.proto.ByteSize()) - self.proto.repeated_int32[1] = 128 - self.assertEqual(7, self.proto.ByteSize()) - self.proto.ClearField('repeated_int32') - self.assertEqual(0, self.proto.ByteSize()) - - # Test within extension. - extension = more_extensions_pb2.repeated_int_extension - repeated = self.extended_proto.Extensions[extension] - repeated.append(1) - self.assertEqual(2, self.extended_proto.ByteSize()) - repeated.append(1) - self.assertEqual(4, self.extended_proto.ByteSize()) - repeated[1] = 128 - self.assertEqual(5, self.extended_proto.ByteSize()) - self.extended_proto.ClearExtension(extension) - self.assertEqual(0, self.extended_proto.ByteSize()) - - def testCacheInvalidationForNonrepeatedMessage(self): - # Test non-extension. - self.proto.optional_foreign_message.c = 1 - self.assertEqual(5, self.proto.ByteSize()) - self.proto.optional_foreign_message.c = 128 - self.assertEqual(6, self.proto.ByteSize()) - self.proto.optional_foreign_message.ClearField('c') - self.assertEqual(3, self.proto.ByteSize()) - self.proto.ClearField('optional_foreign_message') - self.assertEqual(0, self.proto.ByteSize()) - - if api_implementation.Type() == 'python': - # This is only possible in pure-Python implementation of the API. - child = self.proto.optional_foreign_message - self.proto.ClearField('optional_foreign_message') - child.c = 128 - self.assertEqual(0, self.proto.ByteSize()) - - # Test within extension. - extension = more_extensions_pb2.optional_message_extension - child = self.extended_proto.Extensions[extension] - self.assertEqual(0, self.extended_proto.ByteSize()) - child.foreign_message_int = 1 - self.assertEqual(4, self.extended_proto.ByteSize()) - child.foreign_message_int = 128 - self.assertEqual(5, self.extended_proto.ByteSize()) - self.extended_proto.ClearExtension(extension) - self.assertEqual(0, self.extended_proto.ByteSize()) - - def testCacheInvalidationForRepeatedMessage(self): - # Test non-extension. - child0 = self.proto.repeated_foreign_message.add() - self.assertEqual(3, self.proto.ByteSize()) - self.proto.repeated_foreign_message.add() - self.assertEqual(6, self.proto.ByteSize()) - child0.c = 1 - self.assertEqual(8, self.proto.ByteSize()) - self.proto.ClearField('repeated_foreign_message') - self.assertEqual(0, self.proto.ByteSize()) - - # Test within extension. - extension = more_extensions_pb2.repeated_message_extension - child_list = self.extended_proto.Extensions[extension] - child0 = child_list.add() - self.assertEqual(2, self.extended_proto.ByteSize()) - child_list.add() - self.assertEqual(4, self.extended_proto.ByteSize()) - child0.foreign_message_int = 1 - self.assertEqual(6, self.extended_proto.ByteSize()) - child0.ClearField('foreign_message_int') - self.assertEqual(4, self.extended_proto.ByteSize()) - self.extended_proto.ClearExtension(extension) - self.assertEqual(0, self.extended_proto.ByteSize()) - - def testPackedRepeatedScalars(self): - self.assertEqual(0, self.packed_proto.ByteSize()) - - self.packed_proto.packed_int32.append(10) # 1 byte. - self.packed_proto.packed_int32.append(128) # 2 bytes. - # The tag is 2 bytes (the field number is 90), and the varint - # storing the length is 1 byte. - int_size = 1 + 2 + 3 - self.assertEqual(int_size, self.packed_proto.ByteSize()) - - self.packed_proto.packed_double.append(4.2) # 8 bytes - self.packed_proto.packed_double.append(3.25) # 8 bytes - # 2 more tag bytes, 1 more length byte. - double_size = 8 + 8 + 3 - self.assertEqual(int_size+double_size, self.packed_proto.ByteSize()) - - self.packed_proto.ClearField('packed_int32') - self.assertEqual(double_size, self.packed_proto.ByteSize()) - - def testPackedExtensions(self): - self.assertEqual(0, self.packed_extended_proto.ByteSize()) - extension = self.packed_extended_proto.Extensions[ - unittest_pb2.packed_fixed32_extension] - extension.extend([1, 2, 3, 4]) # 16 bytes - # Tag is 3 bytes. - self.assertEqual(19, self.packed_extended_proto.ByteSize()) - - -# Issues to be sure to cover include: -# * Handling of unrecognized tags ("uninterpreted_bytes"). -# * Handling of MessageSets. -# * Consistent ordering of tags in the wire format, -# including ordering between extensions and non-extension -# fields. -# * Consistent serialization of negative numbers, especially -# negative int32s. -# * Handling of empty submessages (with and without "has" -# bits set). - -class SerializationTest(unittest.TestCase): - - def testSerializeEmtpyMessage(self): - first_proto = unittest_pb2.TestAllTypes() - second_proto = unittest_pb2.TestAllTypes() - serialized = first_proto.SerializeToString() - self.assertEqual(first_proto.ByteSize(), len(serialized)) - self.assertEqual( - len(serialized), - second_proto.MergeFromString(serialized)) - self.assertEqual(first_proto, second_proto) - - def testSerializeAllFields(self): - first_proto = unittest_pb2.TestAllTypes() - second_proto = unittest_pb2.TestAllTypes() - test_util.SetAllFields(first_proto) - serialized = first_proto.SerializeToString() - self.assertEqual(first_proto.ByteSize(), len(serialized)) - self.assertEqual( - len(serialized), - second_proto.MergeFromString(serialized)) - self.assertEqual(first_proto, second_proto) - - def testSerializeAllExtensions(self): - first_proto = unittest_pb2.TestAllExtensions() - second_proto = unittest_pb2.TestAllExtensions() - test_util.SetAllExtensions(first_proto) - serialized = first_proto.SerializeToString() - self.assertEqual( - len(serialized), - second_proto.MergeFromString(serialized)) - self.assertEqual(first_proto, second_proto) - - def testSerializeWithOptionalGroup(self): - first_proto = unittest_pb2.TestAllTypes() - second_proto = unittest_pb2.TestAllTypes() - first_proto.optionalgroup.a = 242 - serialized = first_proto.SerializeToString() - self.assertEqual( - len(serialized), - second_proto.MergeFromString(serialized)) - self.assertEqual(first_proto, second_proto) - - def testSerializeNegativeValues(self): - first_proto = unittest_pb2.TestAllTypes() - - first_proto.optional_int32 = -1 - first_proto.optional_int64 = -(2 << 40) - first_proto.optional_sint32 = -3 - first_proto.optional_sint64 = -(4 << 40) - first_proto.optional_sfixed32 = -5 - first_proto.optional_sfixed64 = -(6 << 40) - - second_proto = unittest_pb2.TestAllTypes.FromString( - first_proto.SerializeToString()) - - self.assertEqual(first_proto, second_proto) - - def testParseTruncated(self): - # This test is only applicable for the Python implementation of the API. - if api_implementation.Type() != 'python': - return - - first_proto = unittest_pb2.TestAllTypes() - test_util.SetAllFields(first_proto) - serialized = first_proto.SerializeToString() - - for truncation_point in range(len(serialized) + 1): - try: - second_proto = unittest_pb2.TestAllTypes() - unknown_fields = unittest_pb2.TestEmptyMessage() - pos = second_proto._InternalParse(serialized, 0, truncation_point) - # If we didn't raise an error then we read exactly the amount expected. - self.assertEqual(truncation_point, pos) - - # Parsing to unknown fields should not throw if parsing to known fields - # did not. - try: - pos2 = unknown_fields._InternalParse(serialized, 0, truncation_point) - self.assertEqual(truncation_point, pos2) - except message.DecodeError: - self.fail('Parsing unknown fields failed when parsing known fields ' - 'did not.') - except message.DecodeError: - # Parsing unknown fields should also fail. - self.assertRaises(message.DecodeError, unknown_fields._InternalParse, - serialized, 0, truncation_point) - - def testCanonicalSerializationOrder(self): - proto = more_messages_pb2.OutOfOrderFields() - # These are also their tag numbers. Even though we're setting these in - # reverse-tag order AND they're listed in reverse tag-order in the .proto - # file, they should nonetheless be serialized in tag order. - proto.optional_sint32 = 5 - proto.Extensions[more_messages_pb2.optional_uint64] = 4 - proto.optional_uint32 = 3 - proto.Extensions[more_messages_pb2.optional_int64] = 2 - proto.optional_int32 = 1 - serialized = proto.SerializeToString() - self.assertEqual(proto.ByteSize(), len(serialized)) - d = _MiniDecoder(serialized) - ReadTag = d.ReadFieldNumberAndWireType - self.assertEqual((1, wire_format.WIRETYPE_VARINT), ReadTag()) - self.assertEqual(1, d.ReadInt32()) - self.assertEqual((2, wire_format.WIRETYPE_VARINT), ReadTag()) - self.assertEqual(2, d.ReadInt64()) - self.assertEqual((3, wire_format.WIRETYPE_VARINT), ReadTag()) - self.assertEqual(3, d.ReadUInt32()) - self.assertEqual((4, wire_format.WIRETYPE_VARINT), ReadTag()) - self.assertEqual(4, d.ReadUInt64()) - self.assertEqual((5, wire_format.WIRETYPE_VARINT), ReadTag()) - self.assertEqual(5, d.ReadSInt32()) - - def testCanonicalSerializationOrderSameAsCpp(self): - # Copy of the same test we use for C++. - proto = unittest_pb2.TestFieldOrderings() - test_util.SetAllFieldsAndExtensions(proto) - serialized = proto.SerializeToString() - test_util.ExpectAllFieldsAndExtensionsInOrder(serialized) - - def testMergeFromStringWhenFieldsAlreadySet(self): - first_proto = unittest_pb2.TestAllTypes() - first_proto.repeated_string.append('foobar') - first_proto.optional_int32 = 23 - first_proto.optional_nested_message.bb = 42 - serialized = first_proto.SerializeToString() - - second_proto = unittest_pb2.TestAllTypes() - second_proto.repeated_string.append('baz') - second_proto.optional_int32 = 100 - second_proto.optional_nested_message.bb = 999 - - bytes_parsed = second_proto.MergeFromString(serialized) - self.assertEqual(len(serialized), bytes_parsed) - - # Ensure that we append to repeated fields. - self.assertEqual(['baz', 'foobar'], list(second_proto.repeated_string)) - # Ensure that we overwrite nonrepeatd scalars. - self.assertEqual(23, second_proto.optional_int32) - # Ensure that we recursively call MergeFromString() on - # submessages. - self.assertEqual(42, second_proto.optional_nested_message.bb) - - def testMessageSetWireFormat(self): - proto = message_set_extensions_pb2.TestMessageSet() - extension_message1 = message_set_extensions_pb2.TestMessageSetExtension1 - extension_message2 = message_set_extensions_pb2.TestMessageSetExtension2 - extension1 = extension_message1.message_set_extension - extension2 = extension_message2.message_set_extension - extension3 = message_set_extensions_pb2.message_set_extension3 - proto.Extensions[extension1].i = 123 - proto.Extensions[extension2].str = 'foo' - proto.Extensions[extension3].text = 'bar' - - # Serialize using the MessageSet wire format (this is specified in the - # .proto file). - serialized = proto.SerializeToString() - - raw = unittest_mset_pb2.RawMessageSet() - self.assertEqual(False, - raw.DESCRIPTOR.GetOptions().message_set_wire_format) - self.assertEqual( - len(serialized), - raw.MergeFromString(serialized)) - self.assertEqual(3, len(raw.item)) - - message1 = message_set_extensions_pb2.TestMessageSetExtension1() - self.assertEqual( - len(raw.item[0].message), - message1.MergeFromString(raw.item[0].message)) - self.assertEqual(123, message1.i) - - message2 = message_set_extensions_pb2.TestMessageSetExtension2() - self.assertEqual( - len(raw.item[1].message), - message2.MergeFromString(raw.item[1].message)) - self.assertEqual('foo', message2.str) - - message3 = message_set_extensions_pb2.TestMessageSetExtension3() - self.assertEqual( - len(raw.item[2].message), - message3.MergeFromString(raw.item[2].message)) - self.assertEqual('bar', message3.text) - - # Deserialize using the MessageSet wire format. - proto2 = message_set_extensions_pb2.TestMessageSet() - self.assertEqual( - len(serialized), - proto2.MergeFromString(serialized)) - self.assertEqual(123, proto2.Extensions[extension1].i) - self.assertEqual('foo', proto2.Extensions[extension2].str) - self.assertEqual('bar', proto2.Extensions[extension3].text) - - # Check byte size. - self.assertEqual(proto2.ByteSize(), len(serialized)) - self.assertEqual(proto.ByteSize(), len(serialized)) - - def testMessageSetWireFormatUnknownExtension(self): - # Create a message using the message set wire format with an unknown - # message. - raw = unittest_mset_pb2.RawMessageSet() - - # Add an item. - item = raw.item.add() - item.type_id = 98418603 - extension_message1 = message_set_extensions_pb2.TestMessageSetExtension1 - message1 = message_set_extensions_pb2.TestMessageSetExtension1() - message1.i = 12345 - item.message = message1.SerializeToString() - - # Add a second, unknown extension. - item = raw.item.add() - item.type_id = 98418604 - extension_message1 = message_set_extensions_pb2.TestMessageSetExtension1 - message1 = message_set_extensions_pb2.TestMessageSetExtension1() - message1.i = 12346 - item.message = message1.SerializeToString() - - # Add another unknown extension. - item = raw.item.add() - item.type_id = 98418605 - message1 = message_set_extensions_pb2.TestMessageSetExtension2() - message1.str = 'foo' - item.message = message1.SerializeToString() - - serialized = raw.SerializeToString() - - # Parse message using the message set wire format. - proto = message_set_extensions_pb2.TestMessageSet() - self.assertEqual( - len(serialized), - proto.MergeFromString(serialized)) - - # Check that the message parsed well. - extension_message1 = message_set_extensions_pb2.TestMessageSetExtension1 - extension1 = extension_message1.message_set_extension - self.assertEqual(12345, proto.Extensions[extension1].i) - - def testUnknownFields(self): - proto = unittest_pb2.TestAllTypes() - test_util.SetAllFields(proto) - - serialized = proto.SerializeToString() - - # The empty message should be parsable with all of the fields - # unknown. - proto2 = unittest_pb2.TestEmptyMessage() - - # Parsing this message should succeed. - self.assertEqual( - len(serialized), - proto2.MergeFromString(serialized)) - - # Now test with a int64 field set. - proto = unittest_pb2.TestAllTypes() - proto.optional_int64 = 0x0fffffffffffffff - serialized = proto.SerializeToString() - # The empty message should be parsable with all of the fields - # unknown. - proto2 = unittest_pb2.TestEmptyMessage() - # Parsing this message should succeed. - self.assertEqual( - len(serialized), - proto2.MergeFromString(serialized)) - - def _CheckRaises(self, exc_class, callable_obj, exception): - """This method checks if the excpetion type and message are as expected.""" - try: - callable_obj() - except exc_class as ex: - # Check if the exception message is the right one. - self.assertEqual(exception, str(ex)) - return - else: - raise self.failureException('%s not raised' % str(exc_class)) - - def testSerializeUninitialized(self): - proto = unittest_pb2.TestRequired() - self._CheckRaises( - message.EncodeError, - proto.SerializeToString, - 'Message protobuf_unittest.TestRequired is missing required fields: ' - 'a,b,c') - # Shouldn't raise exceptions. - partial = proto.SerializePartialToString() - - proto2 = unittest_pb2.TestRequired() - self.assertFalse(proto2.HasField('a')) - # proto2 ParseFromString does not check that required fields are set. - proto2.ParseFromString(partial) - self.assertFalse(proto2.HasField('a')) - - proto.a = 1 - self._CheckRaises( - message.EncodeError, - proto.SerializeToString, - 'Message protobuf_unittest.TestRequired is missing required fields: b,c') - # Shouldn't raise exceptions. - partial = proto.SerializePartialToString() - - proto.b = 2 - self._CheckRaises( - message.EncodeError, - proto.SerializeToString, - 'Message protobuf_unittest.TestRequired is missing required fields: c') - # Shouldn't raise exceptions. - partial = proto.SerializePartialToString() - - proto.c = 3 - serialized = proto.SerializeToString() - # Shouldn't raise exceptions. - partial = proto.SerializePartialToString() - - proto2 = unittest_pb2.TestRequired() - self.assertEqual( - len(serialized), - proto2.MergeFromString(serialized)) - self.assertEqual(1, proto2.a) - self.assertEqual(2, proto2.b) - self.assertEqual(3, proto2.c) - self.assertEqual( - len(partial), - proto2.MergeFromString(partial)) - self.assertEqual(1, proto2.a) - self.assertEqual(2, proto2.b) - self.assertEqual(3, proto2.c) - - def testSerializeUninitializedSubMessage(self): - proto = unittest_pb2.TestRequiredForeign() - - # Sub-message doesn't exist yet, so this succeeds. - proto.SerializeToString() - - proto.optional_message.a = 1 - self._CheckRaises( - message.EncodeError, - proto.SerializeToString, - 'Message protobuf_unittest.TestRequiredForeign ' - 'is missing required fields: ' - 'optional_message.b,optional_message.c') - - proto.optional_message.b = 2 - proto.optional_message.c = 3 - proto.SerializeToString() - - proto.repeated_message.add().a = 1 - proto.repeated_message.add().b = 2 - self._CheckRaises( - message.EncodeError, - proto.SerializeToString, - 'Message protobuf_unittest.TestRequiredForeign is missing required fields: ' - 'repeated_message[0].b,repeated_message[0].c,' - 'repeated_message[1].a,repeated_message[1].c') - - proto.repeated_message[0].b = 2 - proto.repeated_message[0].c = 3 - proto.repeated_message[1].a = 1 - proto.repeated_message[1].c = 3 - proto.SerializeToString() - - def testSerializeAllPackedFields(self): - first_proto = unittest_pb2.TestPackedTypes() - second_proto = unittest_pb2.TestPackedTypes() - test_util.SetAllPackedFields(first_proto) - serialized = first_proto.SerializeToString() - self.assertEqual(first_proto.ByteSize(), len(serialized)) - bytes_read = second_proto.MergeFromString(serialized) - self.assertEqual(second_proto.ByteSize(), bytes_read) - self.assertEqual(first_proto, second_proto) - - def testSerializeAllPackedExtensions(self): - first_proto = unittest_pb2.TestPackedExtensions() - second_proto = unittest_pb2.TestPackedExtensions() - test_util.SetAllPackedExtensions(first_proto) - serialized = first_proto.SerializeToString() - bytes_read = second_proto.MergeFromString(serialized) - self.assertEqual(second_proto.ByteSize(), bytes_read) - self.assertEqual(first_proto, second_proto) - - def testMergePackedFromStringWhenSomeFieldsAlreadySet(self): - first_proto = unittest_pb2.TestPackedTypes() - first_proto.packed_int32.extend([1, 2]) - first_proto.packed_double.append(3.0) - serialized = first_proto.SerializeToString() - - second_proto = unittest_pb2.TestPackedTypes() - second_proto.packed_int32.append(3) - second_proto.packed_double.extend([1.0, 2.0]) - second_proto.packed_sint32.append(4) - - self.assertEqual( - len(serialized), - second_proto.MergeFromString(serialized)) - self.assertEqual([3, 1, 2], second_proto.packed_int32) - self.assertEqual([1.0, 2.0, 3.0], second_proto.packed_double) - self.assertEqual([4], second_proto.packed_sint32) - - def testPackedFieldsWireFormat(self): - proto = unittest_pb2.TestPackedTypes() - proto.packed_int32.extend([1, 2, 150, 3]) # 1 + 1 + 2 + 1 bytes - proto.packed_double.extend([1.0, 1000.0]) # 8 + 8 bytes - proto.packed_float.append(2.0) # 4 bytes, will be before double - serialized = proto.SerializeToString() - self.assertEqual(proto.ByteSize(), len(serialized)) - d = _MiniDecoder(serialized) - ReadTag = d.ReadFieldNumberAndWireType - self.assertEqual((90, wire_format.WIRETYPE_LENGTH_DELIMITED), ReadTag()) - self.assertEqual(1+1+1+2, d.ReadInt32()) - self.assertEqual(1, d.ReadInt32()) - self.assertEqual(2, d.ReadInt32()) - self.assertEqual(150, d.ReadInt32()) - self.assertEqual(3, d.ReadInt32()) - self.assertEqual((100, wire_format.WIRETYPE_LENGTH_DELIMITED), ReadTag()) - self.assertEqual(4, d.ReadInt32()) - self.assertEqual(2.0, d.ReadFloat()) - self.assertEqual((101, wire_format.WIRETYPE_LENGTH_DELIMITED), ReadTag()) - self.assertEqual(8+8, d.ReadInt32()) - self.assertEqual(1.0, d.ReadDouble()) - self.assertEqual(1000.0, d.ReadDouble()) - self.assertTrue(d.EndOfStream()) - - def testParsePackedFromUnpacked(self): - unpacked = unittest_pb2.TestUnpackedTypes() - test_util.SetAllUnpackedFields(unpacked) - packed = unittest_pb2.TestPackedTypes() - serialized = unpacked.SerializeToString() - self.assertEqual( - len(serialized), - packed.MergeFromString(serialized)) - expected = unittest_pb2.TestPackedTypes() - test_util.SetAllPackedFields(expected) - self.assertEqual(expected, packed) - - def testParseUnpackedFromPacked(self): - packed = unittest_pb2.TestPackedTypes() - test_util.SetAllPackedFields(packed) - unpacked = unittest_pb2.TestUnpackedTypes() - serialized = packed.SerializeToString() - self.assertEqual( - len(serialized), - unpacked.MergeFromString(serialized)) - expected = unittest_pb2.TestUnpackedTypes() - test_util.SetAllUnpackedFields(expected) - self.assertEqual(expected, unpacked) - - def testFieldNumbers(self): - proto = unittest_pb2.TestAllTypes() - self.assertEqual(unittest_pb2.TestAllTypes.NestedMessage.BB_FIELD_NUMBER, 1) - self.assertEqual(unittest_pb2.TestAllTypes.OPTIONAL_INT32_FIELD_NUMBER, 1) - self.assertEqual(unittest_pb2.TestAllTypes.OPTIONALGROUP_FIELD_NUMBER, 16) - self.assertEqual( - unittest_pb2.TestAllTypes.OPTIONAL_NESTED_MESSAGE_FIELD_NUMBER, 18) - self.assertEqual( - unittest_pb2.TestAllTypes.OPTIONAL_NESTED_ENUM_FIELD_NUMBER, 21) - self.assertEqual(unittest_pb2.TestAllTypes.REPEATED_INT32_FIELD_NUMBER, 31) - self.assertEqual(unittest_pb2.TestAllTypes.REPEATEDGROUP_FIELD_NUMBER, 46) - self.assertEqual( - unittest_pb2.TestAllTypes.REPEATED_NESTED_MESSAGE_FIELD_NUMBER, 48) - self.assertEqual( - unittest_pb2.TestAllTypes.REPEATED_NESTED_ENUM_FIELD_NUMBER, 51) - - def testExtensionFieldNumbers(self): - self.assertEqual(unittest_pb2.TestRequired.single.number, 1000) - self.assertEqual(unittest_pb2.TestRequired.SINGLE_FIELD_NUMBER, 1000) - self.assertEqual(unittest_pb2.TestRequired.multi.number, 1001) - self.assertEqual(unittest_pb2.TestRequired.MULTI_FIELD_NUMBER, 1001) - self.assertEqual(unittest_pb2.optional_int32_extension.number, 1) - self.assertEqual(unittest_pb2.OPTIONAL_INT32_EXTENSION_FIELD_NUMBER, 1) - self.assertEqual(unittest_pb2.optionalgroup_extension.number, 16) - self.assertEqual(unittest_pb2.OPTIONALGROUP_EXTENSION_FIELD_NUMBER, 16) - self.assertEqual(unittest_pb2.optional_nested_message_extension.number, 18) - self.assertEqual( - unittest_pb2.OPTIONAL_NESTED_MESSAGE_EXTENSION_FIELD_NUMBER, 18) - self.assertEqual(unittest_pb2.optional_nested_enum_extension.number, 21) - self.assertEqual(unittest_pb2.OPTIONAL_NESTED_ENUM_EXTENSION_FIELD_NUMBER, - 21) - self.assertEqual(unittest_pb2.repeated_int32_extension.number, 31) - self.assertEqual(unittest_pb2.REPEATED_INT32_EXTENSION_FIELD_NUMBER, 31) - self.assertEqual(unittest_pb2.repeatedgroup_extension.number, 46) - self.assertEqual(unittest_pb2.REPEATEDGROUP_EXTENSION_FIELD_NUMBER, 46) - self.assertEqual(unittest_pb2.repeated_nested_message_extension.number, 48) - self.assertEqual( - unittest_pb2.REPEATED_NESTED_MESSAGE_EXTENSION_FIELD_NUMBER, 48) - self.assertEqual(unittest_pb2.repeated_nested_enum_extension.number, 51) - self.assertEqual(unittest_pb2.REPEATED_NESTED_ENUM_EXTENSION_FIELD_NUMBER, - 51) - - def testInitKwargs(self): - proto = unittest_pb2.TestAllTypes( - optional_int32=1, - optional_string='foo', - optional_bool=True, - optional_bytes=b'bar', - optional_nested_message=unittest_pb2.TestAllTypes.NestedMessage(bb=1), - optional_foreign_message=unittest_pb2.ForeignMessage(c=1), - optional_nested_enum=unittest_pb2.TestAllTypes.FOO, - optional_foreign_enum=unittest_pb2.FOREIGN_FOO, - repeated_int32=[1, 2, 3]) - self.assertTrue(proto.IsInitialized()) - self.assertTrue(proto.HasField('optional_int32')) - self.assertTrue(proto.HasField('optional_string')) - self.assertTrue(proto.HasField('optional_bool')) - self.assertTrue(proto.HasField('optional_bytes')) - self.assertTrue(proto.HasField('optional_nested_message')) - self.assertTrue(proto.HasField('optional_foreign_message')) - self.assertTrue(proto.HasField('optional_nested_enum')) - self.assertTrue(proto.HasField('optional_foreign_enum')) - self.assertEqual(1, proto.optional_int32) - self.assertEqual('foo', proto.optional_string) - self.assertEqual(True, proto.optional_bool) - self.assertEqual(b'bar', proto.optional_bytes) - self.assertEqual(1, proto.optional_nested_message.bb) - self.assertEqual(1, proto.optional_foreign_message.c) - self.assertEqual(unittest_pb2.TestAllTypes.FOO, - proto.optional_nested_enum) - self.assertEqual(unittest_pb2.FOREIGN_FOO, proto.optional_foreign_enum) - self.assertEqual([1, 2, 3], proto.repeated_int32) - - def testInitArgsUnknownFieldName(self): - def InitalizeEmptyMessageWithExtraKeywordArg(): - unused_proto = unittest_pb2.TestEmptyMessage(unknown='unknown') - self._CheckRaises( - ValueError, - InitalizeEmptyMessageWithExtraKeywordArg, - 'Protocol message TestEmptyMessage has no "unknown" field.') - - def testInitRequiredKwargs(self): - proto = unittest_pb2.TestRequired(a=1, b=1, c=1) - self.assertTrue(proto.IsInitialized()) - self.assertTrue(proto.HasField('a')) - self.assertTrue(proto.HasField('b')) - self.assertTrue(proto.HasField('c')) - self.assertTrue(not proto.HasField('dummy2')) - self.assertEqual(1, proto.a) - self.assertEqual(1, proto.b) - self.assertEqual(1, proto.c) - - def testInitRequiredForeignKwargs(self): - proto = unittest_pb2.TestRequiredForeign( - optional_message=unittest_pb2.TestRequired(a=1, b=1, c=1)) - self.assertTrue(proto.IsInitialized()) - self.assertTrue(proto.HasField('optional_message')) - self.assertTrue(proto.optional_message.IsInitialized()) - self.assertTrue(proto.optional_message.HasField('a')) - self.assertTrue(proto.optional_message.HasField('b')) - self.assertTrue(proto.optional_message.HasField('c')) - self.assertTrue(not proto.optional_message.HasField('dummy2')) - self.assertEqual(unittest_pb2.TestRequired(a=1, b=1, c=1), - proto.optional_message) - self.assertEqual(1, proto.optional_message.a) - self.assertEqual(1, proto.optional_message.b) - self.assertEqual(1, proto.optional_message.c) - - def testInitRepeatedKwargs(self): - proto = unittest_pb2.TestAllTypes(repeated_int32=[1, 2, 3]) - self.assertTrue(proto.IsInitialized()) - self.assertEqual(1, proto.repeated_int32[0]) - self.assertEqual(2, proto.repeated_int32[1]) - self.assertEqual(3, proto.repeated_int32[2]) - - -class OptionsTest(unittest.TestCase): - - def testMessageOptions(self): - proto = message_set_extensions_pb2.TestMessageSet() - self.assertEqual(True, - proto.DESCRIPTOR.GetOptions().message_set_wire_format) - proto = unittest_pb2.TestAllTypes() - self.assertEqual(False, - proto.DESCRIPTOR.GetOptions().message_set_wire_format) - - def testPackedOptions(self): - proto = unittest_pb2.TestAllTypes() - proto.optional_int32 = 1 - proto.optional_double = 3.0 - for field_descriptor, _ in proto.ListFields(): - self.assertEqual(False, field_descriptor.GetOptions().packed) - - proto = unittest_pb2.TestPackedTypes() - proto.packed_int32.append(1) - proto.packed_double.append(3.0) - for field_descriptor, _ in proto.ListFields(): - self.assertEqual(True, field_descriptor.GetOptions().packed) - self.assertEqual(descriptor.FieldDescriptor.LABEL_REPEATED, - field_descriptor.label) - - - -class ClassAPITest(unittest.TestCase): - - @unittest.skipIf( - api_implementation.Type() == 'cpp' and api_implementation.Version() == 2, - 'C++ implementation requires a call to MakeDescriptor()') - def testMakeClassWithNestedDescriptor(self): - leaf_desc = descriptor.Descriptor('leaf', 'package.parent.child.leaf', '', - containing_type=None, fields=[], - nested_types=[], enum_types=[], - extensions=[]) - child_desc = descriptor.Descriptor('child', 'package.parent.child', '', - containing_type=None, fields=[], - nested_types=[leaf_desc], enum_types=[], - extensions=[]) - sibling_desc = descriptor.Descriptor('sibling', 'package.parent.sibling', - '', containing_type=None, fields=[], - nested_types=[], enum_types=[], - extensions=[]) - parent_desc = descriptor.Descriptor('parent', 'package.parent', '', - containing_type=None, fields=[], - nested_types=[child_desc, sibling_desc], - enum_types=[], extensions=[]) - message_class = reflection.MakeClass(parent_desc) - self.assertIn('child', message_class.__dict__) - self.assertIn('sibling', message_class.__dict__) - self.assertIn('leaf', message_class.child.__dict__) - - def _GetSerializedFileDescriptor(self, name): - """Get a serialized representation of a test FileDescriptorProto. - - Args: - name: All calls to this must use a unique message name, to avoid - collisions in the cpp descriptor pool. - Returns: - A string containing the serialized form of a test FileDescriptorProto. - """ - file_descriptor_str = ( - 'message_type {' - ' name: "' + name + '"' - ' field {' - ' name: "flat"' - ' number: 1' - ' label: LABEL_REPEATED' - ' type: TYPE_UINT32' - ' }' - ' field {' - ' name: "bar"' - ' number: 2' - ' label: LABEL_OPTIONAL' - ' type: TYPE_MESSAGE' - ' type_name: "Bar"' - ' }' - ' nested_type {' - ' name: "Bar"' - ' field {' - ' name: "baz"' - ' number: 3' - ' label: LABEL_OPTIONAL' - ' type: TYPE_MESSAGE' - ' type_name: "Baz"' - ' }' - ' nested_type {' - ' name: "Baz"' - ' enum_type {' - ' name: "deep_enum"' - ' value {' - ' name: "VALUE_A"' - ' number: 0' - ' }' - ' }' - ' field {' - ' name: "deep"' - ' number: 4' - ' label: LABEL_OPTIONAL' - ' type: TYPE_UINT32' - ' }' - ' }' - ' }' - '}') - file_descriptor = descriptor_pb2.FileDescriptorProto() - text_format.Merge(file_descriptor_str, file_descriptor) - return file_descriptor.SerializeToString() - - def testParsingFlatClassWithExplicitClassDeclaration(self): - """Test that the generated class can parse a flat message.""" - # TODO(xiaofeng): This test fails with cpp implemetnation in the call - # of six.with_metaclass(). The other two callsites of with_metaclass - # in this file are both excluded from cpp test, so it might be expected - # to fail. Need someone more familiar with the python code to take a - # look at this. - if api_implementation.Type() != 'python': - return - file_descriptor = descriptor_pb2.FileDescriptorProto() - file_descriptor.ParseFromString(self._GetSerializedFileDescriptor('A')) - msg_descriptor = descriptor.MakeDescriptor( - file_descriptor.message_type[0]) - - class MessageClass(six.with_metaclass(reflection.GeneratedProtocolMessageType, message.Message)): - DESCRIPTOR = msg_descriptor - msg = MessageClass() - msg_str = ( - 'flat: 0 ' - 'flat: 1 ' - 'flat: 2 ') - text_format.Merge(msg_str, msg) - self.assertEqual(msg.flat, [0, 1, 2]) - - def testParsingFlatClass(self): - """Test that the generated class can parse a flat message.""" - file_descriptor = descriptor_pb2.FileDescriptorProto() - file_descriptor.ParseFromString(self._GetSerializedFileDescriptor('B')) - msg_descriptor = descriptor.MakeDescriptor( - file_descriptor.message_type[0]) - msg_class = reflection.MakeClass(msg_descriptor) - msg = msg_class() - msg_str = ( - 'flat: 0 ' - 'flat: 1 ' - 'flat: 2 ') - text_format.Merge(msg_str, msg) - self.assertEqual(msg.flat, [0, 1, 2]) - - def testParsingNestedClass(self): - """Test that the generated class can parse a nested message.""" - file_descriptor = descriptor_pb2.FileDescriptorProto() - file_descriptor.ParseFromString(self._GetSerializedFileDescriptor('C')) - msg_descriptor = descriptor.MakeDescriptor( - file_descriptor.message_type[0]) - msg_class = reflection.MakeClass(msg_descriptor) - msg = msg_class() - msg_str = ( - 'bar {' - ' baz {' - ' deep: 4' - ' }' - '}') - text_format.Merge(msg_str, msg) - self.assertEqual(msg.bar.baz.deep, 4) - -if __name__ == '__main__': - unittest.main() |