// 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. // Author: tgs@google.com (Tom Szymanski) // // Test reflection methods for aggregate access to Repeated[Ptr]Fields. // This test proto2 methods on a proto2 layout. #include #include #include #include #include #include #include namespace google { namespace protobuf { using unittest::ForeignMessage; using unittest::TestAllTypes; using unittest::TestAllExtensions; namespace { static int Func(int i, int j) { return i * j; } static string StrFunc(int i, int j) { string str; SStringPrintf(&str, "%d", Func(i, 4)); return str; } TEST(RepeatedFieldReflectionTest, RegularFields) { TestAllTypes message; const Reflection* refl = message.GetReflection(); const Descriptor* desc = message.GetDescriptor(); for (int i = 0; i < 10; ++i) { message.add_repeated_int32(Func(i, 1)); message.add_repeated_double(Func(i, 2)); message.add_repeated_string(StrFunc(i, 5)); message.add_repeated_foreign_message()->set_c(Func(i, 6)); } // Get FieldDescriptors for all the fields of interest. const FieldDescriptor* fd_repeated_int32 = desc->FindFieldByName("repeated_int32"); const FieldDescriptor* fd_repeated_double = desc->FindFieldByName("repeated_double"); const FieldDescriptor* fd_repeated_string = desc->FindFieldByName("repeated_string"); const FieldDescriptor* fd_repeated_foreign_message = desc->FindFieldByName("repeated_foreign_message"); // Get RepeatedField objects for all fields of interest. const RepeatedField& rf_int32 = refl->GetRepeatedField(message, fd_repeated_int32); const RepeatedField& rf_double = refl->GetRepeatedField(message, fd_repeated_double); // Get mutable RepeatedField objects for all fields of interest. RepeatedField* mrf_int32 = refl->MutableRepeatedField(&message, fd_repeated_int32); RepeatedField* mrf_double = refl->MutableRepeatedField(&message, fd_repeated_double); // Get RepeatedPtrField objects for all fields of interest. const RepeatedPtrField& rpf_string = refl->GetRepeatedPtrField(message, fd_repeated_string); const RepeatedPtrField& rpf_foreign_message = refl->GetRepeatedPtrField( message, fd_repeated_foreign_message); const RepeatedPtrField& rpf_message = refl->GetRepeatedPtrField( message, fd_repeated_foreign_message); // Get mutable RepeatedPtrField objects for all fields of interest. RepeatedPtrField* mrpf_string = refl->MutableRepeatedPtrField(&message, fd_repeated_string); RepeatedPtrField* mrpf_foreign_message = refl->MutableRepeatedPtrField( &message, fd_repeated_foreign_message); RepeatedPtrField* mrpf_message = refl->MutableRepeatedPtrField( &message, fd_repeated_foreign_message); // Make sure we can do gets and sets through the Repeated[Ptr]Field objects. for (int i = 0; i < 10; ++i) { // Check gets through const objects. EXPECT_EQ(rf_int32.Get(i), Func(i, 1)); EXPECT_EQ(rf_double.Get(i), Func(i, 2)); EXPECT_EQ(rpf_string.Get(i), StrFunc(i, 5)); EXPECT_EQ(rpf_foreign_message.Get(i).c(), Func(i, 6)); EXPECT_EQ(down_cast(&rpf_message.Get(i))->c(), Func(i, 6)); // Check gets through mutable objects. EXPECT_EQ(mrf_int32->Get(i), Func(i, 1)); EXPECT_EQ(mrf_double->Get(i), Func(i, 2)); EXPECT_EQ(mrpf_string->Get(i), StrFunc(i, 5)); EXPECT_EQ(mrpf_foreign_message->Get(i).c(), Func(i, 6)); EXPECT_EQ(down_cast(&mrpf_message->Get(i))->c(), Func(i, 6)); // Check sets through mutable objects. mrf_int32->Set(i, Func(i, -1)); mrf_double->Set(i, Func(i, -2)); mrpf_string->Mutable(i)->assign(StrFunc(i, -5)); mrpf_foreign_message->Mutable(i)->set_c(Func(i, -6)); EXPECT_EQ(message.repeated_int32(i), Func(i, -1)); EXPECT_EQ(message.repeated_double(i), Func(i, -2)); EXPECT_EQ(message.repeated_string(i), StrFunc(i, -5)); EXPECT_EQ(message.repeated_foreign_message(i).c(), Func(i, -6)); down_cast(mrpf_message->Mutable(i))->set_c(Func(i, 7)); EXPECT_EQ(message.repeated_foreign_message(i).c(), Func(i, 7)); } #ifdef PROTOBUF_HAS_DEATH_TEST // Make sure types are checked correctly at runtime. const FieldDescriptor* fd_optional_int32 = desc->FindFieldByName("optional_int32"); EXPECT_DEATH(refl->GetRepeatedField( message, fd_optional_int32), "requires a repeated field"); EXPECT_DEATH(refl->GetRepeatedField( message, fd_repeated_int32), "not the right type"); EXPECT_DEATH(refl->GetRepeatedPtrField( message, fd_repeated_foreign_message), "wrong submessage type"); #endif // PROTOBUF_HAS_DEATH_TEST } TEST(RepeatedFieldReflectionTest, ExtensionFields) { TestAllExtensions extended_message; const Reflection* refl = extended_message.GetReflection(); const Descriptor* desc = extended_message.GetDescriptor(); for (int i = 0; i < 10; ++i) { extended_message.AddExtension( unittest::repeated_int64_extension, Func(i, 1)); } const FieldDescriptor* fd_repeated_int64_extension = desc->file()->FindExtensionByName("repeated_int64_extension"); GOOGLE_CHECK(fd_repeated_int64_extension != NULL); const RepeatedField& rf_int64_extension = refl->GetRepeatedField(extended_message, fd_repeated_int64_extension); RepeatedField* mrf_int64_extension = refl->MutableRepeatedField(&extended_message, fd_repeated_int64_extension); for (int i = 0; i < 10; ++i) { EXPECT_EQ(Func(i, 1), rf_int64_extension.Get(i)); mrf_int64_extension->Set(i, Func(i, -1)); EXPECT_EQ(Func(i, -1), extended_message.GetExtension(unittest::repeated_int64_extension, i)); } } template void TestRepeatedFieldRefIterator( const Ref& handle, const MessageType& message, ValueType (MessageType::*GetFunc)(int) const) { int index = 0; for (typename Ref::const_iterator it = handle.begin(); it != handle.end(); ++it) { EXPECT_EQ((message.*GetFunc)(index), *it); ++index; } EXPECT_EQ(handle.size(), index); } TEST(RepeatedFieldReflectionTest, RepeatedFieldRefForRegularFields) { TestAllTypes message; const Reflection* refl = message.GetReflection(); const Descriptor* desc = message.GetDescriptor(); for (int i = 0; i < 10; ++i) { message.add_repeated_int32(Func(i, 1)); message.add_repeated_double(Func(i, 2)); message.add_repeated_string(StrFunc(i, 5)); message.add_repeated_foreign_message()->set_c(Func(i, 6)); } // Get FieldDescriptors for all the fields of interest. const FieldDescriptor* fd_repeated_int32 = desc->FindFieldByName("repeated_int32"); const FieldDescriptor* fd_repeated_double = desc->FindFieldByName("repeated_double"); const FieldDescriptor* fd_repeated_string = desc->FindFieldByName("repeated_string"); const FieldDescriptor* fd_repeated_foreign_message = desc->FindFieldByName("repeated_foreign_message"); // Get RepeatedFieldRef objects for all fields of interest. const RepeatedFieldRef rf_int32 = refl->GetRepeatedFieldRef(message, fd_repeated_int32); const RepeatedFieldRef rf_double = refl->GetRepeatedFieldRef(message, fd_repeated_double); const RepeatedFieldRef rf_string = refl->GetRepeatedFieldRef(message, fd_repeated_string); const RepeatedFieldRef rf_foreign_message = refl->GetRepeatedFieldRef( message, fd_repeated_foreign_message); const RepeatedFieldRef rf_message = refl->GetRepeatedFieldRef( message, fd_repeated_foreign_message); // Get MutableRepeatedFieldRef objects for all fields of interest. const MutableRepeatedFieldRef mrf_int32 = refl->GetMutableRepeatedFieldRef(&message, fd_repeated_int32); const MutableRepeatedFieldRef mrf_double = refl->GetMutableRepeatedFieldRef(&message, fd_repeated_double); const MutableRepeatedFieldRef mrf_string = refl->GetMutableRepeatedFieldRef(&message, fd_repeated_string); const MutableRepeatedFieldRef mrf_foreign_message = refl->GetMutableRepeatedFieldRef( &message, fd_repeated_foreign_message); const MutableRepeatedFieldRef mrf_message = refl->GetMutableRepeatedFieldRef( &message, fd_repeated_foreign_message); EXPECT_EQ(message.repeated_int32_size(), rf_int32.size()); EXPECT_EQ(message.repeated_int32_size(), mrf_int32.size()); EXPECT_EQ(message.repeated_double_size(), rf_double.size()); EXPECT_EQ(message.repeated_double_size(), mrf_double.size()); EXPECT_EQ(message.repeated_string_size(), rf_string.size()); EXPECT_EQ(message.repeated_string_size(), mrf_string.size()); EXPECT_EQ(message.repeated_foreign_message_size(), rf_foreign_message.size()); EXPECT_EQ(message.repeated_foreign_message_size(), mrf_foreign_message.size()); EXPECT_EQ(message.repeated_foreign_message_size(), rf_message.size()); EXPECT_EQ(message.repeated_foreign_message_size(), mrf_message.size()); EXPECT_FALSE(rf_int32.empty()); EXPECT_FALSE(mrf_int32.empty()); EXPECT_FALSE(rf_double.empty()); EXPECT_FALSE(mrf_double.empty()); EXPECT_FALSE(rf_string.empty()); EXPECT_FALSE(mrf_string.empty()); EXPECT_FALSE(rf_foreign_message.empty()); EXPECT_FALSE(mrf_foreign_message.empty()); EXPECT_FALSE(rf_message.empty()); EXPECT_FALSE(mrf_message.empty()); // Make sure we can do gets and sets through the RepeatedFieldRef objects. for (int i = 0; i < 10; ++i) { // Check gets through const objects. EXPECT_EQ(rf_int32.Get(i), Func(i, 1)); EXPECT_EQ(rf_double.Get(i), Func(i, 2)); EXPECT_EQ(rf_string.Get(i), StrFunc(i, 5)); ForeignMessage scratch_space; EXPECT_EQ(rf_foreign_message.Get(i, &scratch_space).c(), Func(i, 6)); EXPECT_EQ(down_cast( rf_message.Get(i, &scratch_space)).c(), Func(i, 6)); // Check gets through mutable objects. EXPECT_EQ(mrf_int32.Get(i), Func(i, 1)); EXPECT_EQ(mrf_double.Get(i), Func(i, 2)); EXPECT_EQ(mrf_string.Get(i), StrFunc(i, 5)); EXPECT_EQ(mrf_foreign_message.Get(i, &scratch_space).c(), Func(i, 6)); EXPECT_EQ(down_cast( mrf_message.Get(i, &scratch_space)).c(), Func(i, 6)); // Check sets through mutable objects. mrf_int32.Set(i, Func(i, -1)); mrf_double.Set(i, Func(i, -2)); mrf_string.Set(i, StrFunc(i, -5)); ForeignMessage foreign_message; foreign_message.set_c(Func(i, -6)); mrf_foreign_message.Set(i, foreign_message); EXPECT_EQ(message.repeated_int32(i), Func(i, -1)); EXPECT_EQ(message.repeated_double(i), Func(i, -2)); EXPECT_EQ(message.repeated_string(i), StrFunc(i, -5)); EXPECT_EQ(message.repeated_foreign_message(i).c(), Func(i, -6)); foreign_message.set_c(Func(i, 7)); mrf_message.Set(i, foreign_message); EXPECT_EQ(message.repeated_foreign_message(i).c(), Func(i, 7)); } // Test iterators. TestRepeatedFieldRefIterator(rf_int32, message, &TestAllTypes::repeated_int32); TestRepeatedFieldRefIterator(rf_double, message, &TestAllTypes::repeated_double); TestRepeatedFieldRefIterator(rf_string, message, &TestAllTypes::repeated_string); // Test iterators for message fields. typedef RepeatedFieldRef::iterator MessageIterator; int index = 0; for (MessageIterator it = rf_foreign_message.begin(); it != rf_foreign_message.end(); ++it) { EXPECT_EQ(message.repeated_foreign_message(index).c(), it->c()); ++index; } EXPECT_EQ(10, index); // Test iterator operators that are not ususally used in regular for-loops. // Including: post increment, assign, ==. MessageIterator old_it = rf_foreign_message.begin(); MessageIterator new_it = old_it++; EXPECT_FALSE(old_it == new_it); // Check that old_it++ increments old_it once. for (index = 1; old_it != rf_foreign_message.end(); ++old_it, ++index) { EXPECT_EQ(message.repeated_foreign_message(index).c(), old_it->c()); } EXPECT_EQ(10, index); // Test assign operator. old_it = new_it; for (index = 0; old_it != rf_foreign_message.end(); ++old_it, ++index) { EXPECT_EQ(message.repeated_foreign_message(index).c(), old_it->c()); } EXPECT_EQ(10, index); // Check that the returned value of old_it++ is the one before increment. for (index = 0; new_it != rf_foreign_message.end(); ++new_it, ++index) { EXPECT_EQ(message.repeated_foreign_message(index).c(), new_it->c()); } EXPECT_EQ(10, index); // Test MutableRepeatedFieldRef::Add() mrf_int32.Add(1234); mrf_double.Add(1234.0); mrf_string.Add("1234"); ForeignMessage foreign_message; foreign_message.set_c(1234); mrf_foreign_message.Add(foreign_message); EXPECT_EQ(1234, message.repeated_int32(10)); EXPECT_EQ(1234.0, message.repeated_double(10)); EXPECT_EQ("1234", message.repeated_string(10)); EXPECT_EQ(1234, message.repeated_foreign_message(10).c()); // Test MutableRepeatedFieldRef::RemoveLast() mrf_int32.RemoveLast(); mrf_double.RemoveLast(); mrf_string.RemoveLast(); mrf_foreign_message.RemoveLast(); EXPECT_EQ(10, message.repeated_int32_size()); EXPECT_EQ(10, message.repeated_double_size()); EXPECT_EQ(10, message.repeated_string_size()); EXPECT_EQ(10, message.repeated_foreign_message_size()); // Test MutableRepeatedFieldRef::SwapElements() mrf_int32.SwapElements(0, 9); mrf_double.SwapElements(0, 9); mrf_string.SwapElements(0, 9); mrf_foreign_message.SwapElements(0, 9); EXPECT_EQ(Func(9, -1), message.repeated_int32(0)); EXPECT_EQ(Func(0, -1), message.repeated_int32(9)); EXPECT_EQ(Func(9, -2), message.repeated_double(0)); EXPECT_EQ(Func(0, -2), message.repeated_double(9)); EXPECT_EQ(StrFunc(9, -5), message.repeated_string(0)); EXPECT_EQ(StrFunc(0, -5), message.repeated_string(9)); EXPECT_EQ(Func(9, 7), message.repeated_foreign_message(0).c()); EXPECT_EQ(Func(0, 7), message.repeated_foreign_message(9).c()); // Test MutableRepeatedFieldRef::Clear() mrf_int32.Clear(); mrf_double.Clear(); mrf_string.Clear(); mrf_foreign_message.Clear(); EXPECT_EQ(0, message.repeated_int32_size()); EXPECT_EQ(0, message.repeated_double_size()); EXPECT_EQ(0, message.repeated_string_size()); EXPECT_EQ(0, message.repeated_foreign_message_size()); // Test (Mutable)RepeatedFieldRef::empty() EXPECT_TRUE(rf_int32.empty()); EXPECT_TRUE(mrf_int32.empty()); EXPECT_TRUE(rf_double.empty()); EXPECT_TRUE(mrf_double.empty()); EXPECT_TRUE(rf_string.empty()); EXPECT_TRUE(mrf_string.empty()); EXPECT_TRUE(rf_foreign_message.empty()); EXPECT_TRUE(mrf_foreign_message.empty()); EXPECT_TRUE(rf_message.empty()); EXPECT_TRUE(mrf_message.empty()); #ifdef PROTOBUF_HAS_DEATH_TEST // Make sure types are checked correctly at runtime. const FieldDescriptor* fd_optional_int32 = desc->FindFieldByName("optional_int32"); EXPECT_DEATH(refl->GetRepeatedFieldRef( message, fd_optional_int32), ""); EXPECT_DEATH(refl->GetRepeatedFieldRef( message, fd_repeated_int32), ""); EXPECT_DEATH(refl->GetRepeatedFieldRef( message, fd_repeated_foreign_message), ""); #endif // PROTOBUF_HAS_DEATH_TEST } TEST(RepeatedFieldReflectionTest, RepeatedFieldRefForEnums) { TestAllTypes message; const Reflection* refl = message.GetReflection(); const Descriptor* desc = message.GetDescriptor(); for (int i = 0; i < 10; ++i) { message.add_repeated_nested_enum(TestAllTypes::BAR); } const FieldDescriptor* fd_repeated_nested_enum = desc->FindFieldByName("repeated_nested_enum"); const RepeatedFieldRef enum_ref = refl->GetRepeatedFieldRef( message, fd_repeated_nested_enum); const MutableRepeatedFieldRef mutable_enum_ref = refl->GetMutableRepeatedFieldRef( &message, fd_repeated_nested_enum); const RepeatedFieldRef int32_ref = refl->GetRepeatedFieldRef( message, fd_repeated_nested_enum); const MutableRepeatedFieldRef mutable_int32_ref = refl->GetMutableRepeatedFieldRef( &message, fd_repeated_nested_enum); EXPECT_EQ(message.repeated_nested_enum_size(), enum_ref.size()); EXPECT_EQ(message.repeated_nested_enum_size(), mutable_enum_ref.size()); EXPECT_EQ(message.repeated_nested_enum_size(), int32_ref.size()); EXPECT_EQ(message.repeated_nested_enum_size(), mutable_int32_ref.size()); EXPECT_FALSE(enum_ref.empty()); EXPECT_FALSE(mutable_enum_ref.empty()); EXPECT_FALSE(int32_ref.empty()); EXPECT_FALSE(mutable_int32_ref.empty()); for (int i = 0; i < 10; ++i) { EXPECT_EQ(TestAllTypes::BAR, enum_ref.Get(i)); EXPECT_EQ(TestAllTypes::BAR, mutable_enum_ref.Get(i)); mutable_enum_ref.Set(i, TestAllTypes::BAZ); EXPECT_EQ(TestAllTypes::BAZ, enum_ref.Get(i)); EXPECT_EQ(TestAllTypes::BAZ, message.repeated_nested_enum(i)); message.set_repeated_nested_enum(i, TestAllTypes::BAR); EXPECT_EQ(TestAllTypes::BAR, int32_ref.Get(i)); EXPECT_EQ(TestAllTypes::BAR, mutable_int32_ref.Get(i)); mutable_int32_ref.Set(i, TestAllTypes::BAZ); EXPECT_EQ(TestAllTypes::BAZ, int32_ref.Get(i)); EXPECT_EQ(TestAllTypes::BAZ, message.repeated_nested_enum(i)); } TestRepeatedFieldRefIterator(enum_ref, message, &TestAllTypes::repeated_nested_enum); TestRepeatedFieldRefIterator(int32_ref, message, &TestAllTypes::repeated_nested_enum); // Test Add() mutable_enum_ref.Add(TestAllTypes::FOO); EXPECT_EQ(TestAllTypes::FOO, message.repeated_nested_enum(10)); mutable_int32_ref.Add(TestAllTypes::BAR); EXPECT_EQ(TestAllTypes::BAR, message.repeated_nested_enum(11)); // Test RemoveLast() mutable_enum_ref.RemoveLast(); EXPECT_EQ(11, message.repeated_nested_enum_size()); mutable_int32_ref.RemoveLast(); EXPECT_EQ(10, message.repeated_nested_enum_size()); // Test SwapElements() mutable_enum_ref.Set(0, TestAllTypes::BAR); mutable_enum_ref.Set(9, TestAllTypes::BAZ); mutable_enum_ref.SwapElements(0, 9); EXPECT_EQ(TestAllTypes::BAZ, enum_ref.Get(0)); EXPECT_EQ(TestAllTypes::BAR, enum_ref.Get(9)); mutable_int32_ref.SwapElements(0, 9); EXPECT_EQ(TestAllTypes::BAR, enum_ref.Get(0)); EXPECT_EQ(TestAllTypes::BAZ, enum_ref.Get(9)); // Test Clear() mutable_enum_ref.Clear(); EXPECT_EQ(0, message.repeated_nested_enum_size()); mutable_enum_ref.Add(TestAllTypes::FOO); EXPECT_EQ(1, message.repeated_nested_enum_size()); mutable_int32_ref.Clear(); EXPECT_EQ(0, message.repeated_nested_enum_size()); // Test empty() EXPECT_TRUE(enum_ref.empty()); EXPECT_TRUE(mutable_enum_ref.empty()); EXPECT_TRUE(int32_ref.empty()); EXPECT_TRUE(mutable_int32_ref.empty()); } TEST(RepeatedFieldReflectionTest, RepeatedFieldRefForExtensionFields) { TestAllExtensions extended_message; const Reflection* refl = extended_message.GetReflection(); const Descriptor* desc = extended_message.GetDescriptor(); for (int i = 0; i < 10; ++i) { extended_message.AddExtension( unittest::repeated_int64_extension, Func(i, 1)); } const FieldDescriptor* fd_repeated_int64_extension = desc->file()->FindExtensionByName("repeated_int64_extension"); GOOGLE_CHECK(fd_repeated_int64_extension != NULL); const RepeatedFieldRef rf_int64_extension = refl->GetRepeatedFieldRef(extended_message, fd_repeated_int64_extension); const MutableRepeatedFieldRef mrf_int64_extension = refl->GetMutableRepeatedFieldRef(&extended_message, fd_repeated_int64_extension); for (int i = 0; i < 10; ++i) { EXPECT_EQ(Func(i, 1), rf_int64_extension.Get(i)); mrf_int64_extension.Set(i, Func(i, -1)); EXPECT_EQ(Func(i, -1), extended_message.GetExtension(unittest::repeated_int64_extension, i)); } } TEST(RepeatedFieldReflectionTest, RepeatedFieldRefMergeFromAndSwap) { // Set-up message content. TestAllTypes m0, m1, m2; for (int i = 0; i < 10; ++i) { m0.add_repeated_int32(Func(i, 1)); m0.add_repeated_double(Func(i, 2)); m0.add_repeated_string(StrFunc(i, 5)); m0.add_repeated_foreign_message()->set_c(Func(i, 6)); m0.add_repeated_nested_enum(TestAllTypes::FOO); m1.add_repeated_int32(Func(i, 11)); m1.add_repeated_double(Func(i, 12)); m1.add_repeated_string(StrFunc(i, 15)); m1.add_repeated_foreign_message()->set_c(Func(i, 16)); m1.add_repeated_nested_enum(TestAllTypes::BAR); m2.add_repeated_int32(Func(i, 21)); m2.add_repeated_double(Func(i, 22)); m2.add_repeated_string(StrFunc(i, 25)); m2.add_repeated_foreign_message()->set_c(Func(i, 26)); m2.add_repeated_nested_enum(TestAllTypes::BAZ); } const Reflection* refl = m0.GetReflection(); const Descriptor* desc = m0.GetDescriptor(); // Get FieldDescriptors for all the fields of interest. const FieldDescriptor* fd_repeated_int32 = desc->FindFieldByName("repeated_int32"); const FieldDescriptor* fd_repeated_double = desc->FindFieldByName("repeated_double"); const FieldDescriptor* fd_repeated_string = desc->FindFieldByName("repeated_string"); const FieldDescriptor* fd_repeated_foreign_message = desc->FindFieldByName("repeated_foreign_message"); const FieldDescriptor* fd_repeated_nested_enum = desc->FindFieldByName("repeated_nested_enum"); // Get MutableRepeatedFieldRef objects for all fields of interest. const MutableRepeatedFieldRef mrf_int32 = refl->GetMutableRepeatedFieldRef(&m0, fd_repeated_int32); const MutableRepeatedFieldRef mrf_double = refl->GetMutableRepeatedFieldRef(&m0, fd_repeated_double); const MutableRepeatedFieldRef mrf_string = refl->GetMutableRepeatedFieldRef(&m0, fd_repeated_string); const MutableRepeatedFieldRef mrf_foreign_message = refl->GetMutableRepeatedFieldRef( &m0, fd_repeated_foreign_message); const MutableRepeatedFieldRef mrf_nested_enum = refl->GetMutableRepeatedFieldRef( &m0, fd_repeated_nested_enum); // Test MutableRepeatedRef::CopyFrom mrf_int32.CopyFrom( refl->GetRepeatedFieldRef(m1, fd_repeated_int32)); mrf_double.CopyFrom( refl->GetRepeatedFieldRef(m1, fd_repeated_double)); mrf_string.CopyFrom( refl->GetRepeatedFieldRef(m1, fd_repeated_string)); mrf_foreign_message.CopyFrom( refl->GetRepeatedFieldRef( m1, fd_repeated_foreign_message)); mrf_nested_enum.CopyFrom( refl->GetRepeatedFieldRef( m1, fd_repeated_nested_enum)); for (int i = 0; i < 10; ++i) { EXPECT_EQ(Func(i, 11), m0.repeated_int32(i)); EXPECT_EQ(Func(i, 12), m0.repeated_double(i)); EXPECT_EQ(StrFunc(i, 15), m0.repeated_string(i)); EXPECT_EQ(Func(i, 16), m0.repeated_foreign_message(i).c()); EXPECT_EQ(TestAllTypes::BAR, m0.repeated_nested_enum(i)); } // Test MutableRepeatedRef::MergeFrom mrf_int32.MergeFrom( refl->GetRepeatedFieldRef(m2, fd_repeated_int32)); mrf_double.MergeFrom( refl->GetRepeatedFieldRef(m2, fd_repeated_double)); mrf_string.MergeFrom( refl->GetRepeatedFieldRef(m2, fd_repeated_string)); mrf_foreign_message.MergeFrom( refl->GetRepeatedFieldRef( m2, fd_repeated_foreign_message)); mrf_nested_enum.MergeFrom( refl->GetRepeatedFieldRef( m2, fd_repeated_nested_enum)); for (int i = 0; i < 10; ++i) { EXPECT_EQ(Func(i, 21), m0.repeated_int32(i + 10)); EXPECT_EQ(Func(i, 22), m0.repeated_double(i + 10)); EXPECT_EQ(StrFunc(i, 25), m0.repeated_string(i + 10)); EXPECT_EQ(Func(i, 26), m0.repeated_foreign_message(i + 10).c()); EXPECT_EQ(TestAllTypes::BAZ, m0.repeated_nested_enum(i + 10)); } // Test MutableRepeatedRef::Swap // Swap between m0 and m2. mrf_int32.Swap( refl->GetMutableRepeatedFieldRef(&m2, fd_repeated_int32)); mrf_double.Swap( refl->GetMutableRepeatedFieldRef(&m2, fd_repeated_double)); mrf_string.Swap( refl->GetMutableRepeatedFieldRef(&m2, fd_repeated_string)); mrf_foreign_message.Swap( refl->GetMutableRepeatedFieldRef( &m2, fd_repeated_foreign_message)); mrf_nested_enum.Swap( refl->GetMutableRepeatedFieldRef( &m2, fd_repeated_nested_enum)); for (int i = 0; i < 10; ++i) { // Check the content of m0. EXPECT_EQ(Func(i, 21), m0.repeated_int32(i)); EXPECT_EQ(Func(i, 22), m0.repeated_double(i)); EXPECT_EQ(StrFunc(i, 25), m0.repeated_string(i)); EXPECT_EQ(Func(i, 26), m0.repeated_foreign_message(i).c()); EXPECT_EQ(TestAllTypes::BAZ, m0.repeated_nested_enum(i)); // Check the content of m2. EXPECT_EQ(Func(i, 11), m2.repeated_int32(i)); EXPECT_EQ(Func(i, 12), m2.repeated_double(i)); EXPECT_EQ(StrFunc(i, 15), m2.repeated_string(i)); EXPECT_EQ(Func(i, 16), m2.repeated_foreign_message(i).c()); EXPECT_EQ(TestAllTypes::BAR, m2.repeated_nested_enum(i)); EXPECT_EQ(Func(i, 21), m2.repeated_int32(i + 10)); EXPECT_EQ(Func(i, 22), m2.repeated_double(i + 10)); EXPECT_EQ(StrFunc(i, 25), m2.repeated_string(i + 10)); EXPECT_EQ(Func(i, 26), m2.repeated_foreign_message(i + 10).c()); EXPECT_EQ(TestAllTypes::BAZ, m2.repeated_nested_enum(i + 10)); } } // Test that GetRepeatedFieldRef/MutableRepeatedFieldRef works with // DynamicMessage. TEST(RepeatedFieldReflectionTest, RepeatedFieldRefDynamicMessage) { // DynamicMessage shares the same memory layout as generated message // and use the same GeneratedMessageReflection code for reflection. // All code paths should already be covered by the other tests for // generated messages. Here we just test one field. const Descriptor* desc = TestAllTypes::descriptor(); const FieldDescriptor* fd_repeated_int32 = desc->FindFieldByName("repeated_int32"); DynamicMessageFactory factory; google::protobuf::scoped_ptr dynamic_message(factory.GetPrototype(desc)->New()); const Reflection* refl = dynamic_message->GetReflection(); MutableRepeatedFieldRef rf_int32 = refl->GetMutableRepeatedFieldRef( dynamic_message.get(), fd_repeated_int32); rf_int32.Add(1234); EXPECT_EQ(1, refl->FieldSize(*dynamic_message, fd_repeated_int32)); EXPECT_EQ(1234, refl->GetRepeatedInt32(*dynamic_message, fd_repeated_int32, 0)); } } // namespace } // namespace protobuf } // namespace google