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cobalt / cobalt / c22907dbc00f1b681ca5a66f4cbc333d84fae0a5 / . / src / third_party / protobuf / src / google / protobuf / map_test_util.cc
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// Protocol Buffers - Google's data interchange format
// Copyright 2008 Google Inc. All rights reserved.
// https://developers.google.com/protocol-buffers/
//
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// 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
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// 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,
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#include <google/protobuf/map_test_util.h>
#include <google/protobuf/map_test_util_impl.h>
#include <google/protobuf/descriptor.h>
#include <google/protobuf/message.h>
namespace google {
namespace protobuf {
void MapTestUtil::SetMapFields(unittest::TestMap* message) {
MapTestUtilImpl::SetMapFields<unittest::MapEnum, unittest::MAP_ENUM_BAR,
unittest::MAP_ENUM_BAZ>(message);
}
void MapTestUtil::SetArenaMapFields(unittest::TestArenaMap* message) {
MapTestUtilImpl::SetArenaMapFields<unittest::MapEnum, unittest::MAP_ENUM_BAR,
unittest::MAP_ENUM_BAZ>(message);
}
void MapTestUtil::SetMapFieldsInitialized(unittest::TestMap* message) {
MapTestUtilImpl::SetMapFieldsInitialized(message);
}
void MapTestUtil::ModifyMapFields(unittest::TestMap* message) {
MapTestUtilImpl::ModifyMapFields<unittest::MapEnum, unittest::MAP_ENUM_FOO>(
message);
}
void MapTestUtil::ExpectClear(const unittest::TestMap& message) {
MapTestUtilImpl::ExpectClear(message);
}
void MapTestUtil::ExpectMapFieldsSet(const unittest::TestMap& message) {
MapTestUtilImpl::ExpectMapFieldsSet<unittest::MapEnum, unittest::MAP_ENUM_BAR,
unittest::MAP_ENUM_BAZ>(message);
}
void MapTestUtil::ExpectArenaMapFieldsSet(
const unittest::TestArenaMap& message) {
MapTestUtilImpl::ExpectArenaMapFieldsSet<
unittest::MapEnum, unittest::MAP_ENUM_BAR, unittest::MAP_ENUM_BAZ>(
message);
}
void MapTestUtil::ExpectMapFieldsSetInitialized(
const unittest::TestMap& message) {
MapTestUtilImpl::ExpectMapFieldsSetInitialized<unittest::MapEnum,
unittest::MAP_ENUM_FOO>(
message);
}
void MapTestUtil::ExpectMapFieldsModified(
const unittest::TestMap& message) {
MapTestUtilImpl::ExpectMapFieldsModified<
unittest::MapEnum, unittest::MAP_ENUM_BAR, unittest::MAP_ENUM_FOO>(
message);
}
void MapTestUtil::ExpectMapsSize(
const unittest::TestMap& message, int size) {
const Descriptor* descriptor = message.GetDescriptor();
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int32_int32")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int64_int64")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_uint32_uint32")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_uint64_uint64")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_sint32_sint32")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_sint64_sint64")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_fixed32_fixed32")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_fixed64_fixed64")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_sfixed32_sfixed32")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_sfixed64_sfixed64")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int32_float")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int32_double")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_bool_bool")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_string_string")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int32_bytes")));
EXPECT_EQ(size, message.GetReflection()->FieldSize(
message, descriptor->FindFieldByName("map_int32_foreign_message")));
}
std::vector<const Message*> MapTestUtil::GetMapEntries(
const unittest::TestMap& message, int index) {
const Descriptor* descriptor = message.GetDescriptor();
std::vector<const Message*> result;
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_int32"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int64_int64"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_uint32_uint32"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_uint64_uint64"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_sint32_sint32"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_sint64_sint64"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_fixed32_fixed32"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_fixed64_fixed64"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_sfixed32_sfixed32"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_sfixed64_sfixed64"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_float"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_double"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_bool_bool"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_string_string"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_bytes"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_enum"), index));
result.push_back(&message.GetReflection()->GetRepeatedMessage(
message, descriptor->FindFieldByName("map_int32_foreign_message"), index));
return result;
}
std::vector<const Message*> MapTestUtil::GetMapEntriesFromRelease(
unittest::TestMap* message) {
const Descriptor* descriptor = message->GetDescriptor();
std::vector<const Message*> result;
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_int32")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int64_int64")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_uint32_uint32")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_uint64_uint64")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_sint32_sint32")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_sint64_sint64")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_fixed32_fixed32")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_fixed64_fixed64")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_sfixed32_sfixed32")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_sfixed64_sfixed64")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_float")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_double")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_bool_bool")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_string_string")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_bytes")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_enum")));
result.push_back(message->GetReflection()->ReleaseLast(
message, descriptor->FindFieldByName("map_int32_foreign_message")));
return result;
}
MapReflectionTester::MapReflectionTester(
const Descriptor* base_descriptor)
: base_descriptor_(base_descriptor) {
const DescriptorPool* pool = base_descriptor->file()->pool();
map_enum_foo_ = pool->FindEnumValueByName("protobuf_unittest.MAP_ENUM_FOO");
map_enum_bar_ = pool->FindEnumValueByName("protobuf_unittest.MAP_ENUM_BAR");
map_enum_baz_ = pool->FindEnumValueByName("protobuf_unittest.MAP_ENUM_BAZ");
foreign_c_ = pool->FindFieldByName(
"protobuf_unittest.ForeignMessage.c");
map_int32_int32_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32Int32Entry.key");
map_int32_int32_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32Int32Entry.value");
map_int64_int64_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt64Int64Entry.key");
map_int64_int64_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt64Int64Entry.value");
map_uint32_uint32_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapUint32Uint32Entry.key");
map_uint32_uint32_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapUint32Uint32Entry.value");
map_uint64_uint64_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapUint64Uint64Entry.key");
map_uint64_uint64_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapUint64Uint64Entry.value");
map_sint32_sint32_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSint32Sint32Entry.key");
map_sint32_sint32_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSint32Sint32Entry.value");
map_sint64_sint64_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSint64Sint64Entry.key");
map_sint64_sint64_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSint64Sint64Entry.value");
map_fixed32_fixed32_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapFixed32Fixed32Entry.key");
map_fixed32_fixed32_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapFixed32Fixed32Entry.value");
map_fixed64_fixed64_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapFixed64Fixed64Entry.key");
map_fixed64_fixed64_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapFixed64Fixed64Entry.value");
map_sfixed32_sfixed32_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSfixed32Sfixed32Entry.key");
map_sfixed32_sfixed32_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSfixed32Sfixed32Entry.value");
map_sfixed64_sfixed64_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSfixed64Sfixed64Entry.key");
map_sfixed64_sfixed64_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapSfixed64Sfixed64Entry.value");
map_int32_float_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32FloatEntry.key");
map_int32_float_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32FloatEntry.value");
map_int32_double_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32DoubleEntry.key");
map_int32_double_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32DoubleEntry.value");
map_bool_bool_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapBoolBoolEntry.key");
map_bool_bool_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapBoolBoolEntry.value");
map_string_string_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapStringStringEntry.key");
map_string_string_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapStringStringEntry.value");
map_int32_bytes_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32BytesEntry.key");
map_int32_bytes_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32BytesEntry.value");
map_int32_enum_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32EnumEntry.key");
map_int32_enum_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32EnumEntry.value");
map_int32_foreign_message_key_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32ForeignMessageEntry.key");
map_int32_foreign_message_val_ = pool->FindFieldByName(
"protobuf_unittest.TestMap.MapInt32ForeignMessageEntry.value");
EXPECT_FALSE(map_enum_foo_ == NULL);
EXPECT_FALSE(map_enum_bar_ == NULL);
EXPECT_FALSE(map_enum_baz_ == NULL);
EXPECT_FALSE(map_int32_int32_key_ == NULL);
EXPECT_FALSE(map_int32_int32_val_ == NULL);
EXPECT_FALSE(map_int64_int64_key_ == NULL);
EXPECT_FALSE(map_int64_int64_val_ == NULL);
EXPECT_FALSE(map_uint32_uint32_key_ == NULL);
EXPECT_FALSE(map_uint32_uint32_val_ == NULL);
EXPECT_FALSE(map_uint64_uint64_key_ == NULL);
EXPECT_FALSE(map_uint64_uint64_val_ == NULL);
EXPECT_FALSE(map_sint32_sint32_key_ == NULL);
EXPECT_FALSE(map_sint32_sint32_val_ == NULL);
EXPECT_FALSE(map_sint64_sint64_key_ == NULL);
EXPECT_FALSE(map_sint64_sint64_val_ == NULL);
EXPECT_FALSE(map_fixed32_fixed32_key_ == NULL);
EXPECT_FALSE(map_fixed32_fixed32_val_ == NULL);
EXPECT_FALSE(map_fixed64_fixed64_key_ == NULL);
EXPECT_FALSE(map_fixed64_fixed64_val_ == NULL);
EXPECT_FALSE(map_sfixed32_sfixed32_key_ == NULL);
EXPECT_FALSE(map_sfixed32_sfixed32_val_ == NULL);
EXPECT_FALSE(map_sfixed64_sfixed64_key_ == NULL);
EXPECT_FALSE(map_sfixed64_sfixed64_val_ == NULL);
EXPECT_FALSE(map_int32_float_key_ == NULL);
EXPECT_FALSE(map_int32_float_val_ == NULL);
EXPECT_FALSE(map_int32_double_key_ == NULL);
EXPECT_FALSE(map_int32_double_val_ == NULL);
EXPECT_FALSE(map_bool_bool_key_ == NULL);
EXPECT_FALSE(map_bool_bool_val_ == NULL);
EXPECT_FALSE(map_string_string_key_ == NULL);
EXPECT_FALSE(map_string_string_val_ == NULL);
EXPECT_FALSE(map_int32_bytes_key_ == NULL);
EXPECT_FALSE(map_int32_bytes_val_ == NULL);
EXPECT_FALSE(map_int32_enum_key_ == NULL);
EXPECT_FALSE(map_int32_enum_val_ == NULL);
EXPECT_FALSE(map_int32_foreign_message_key_ == NULL);
EXPECT_FALSE(map_int32_foreign_message_val_ == NULL);
}
// Shorthand to get a FieldDescriptor for a field of unittest::TestMap.
const FieldDescriptor* MapReflectionTester::F(const string& name) {
const FieldDescriptor* result = NULL;
result = base_descriptor_->FindFieldByName(name);
GOOGLE_CHECK(result != NULL);
return result;
}
void MapReflectionTester::SetMapFieldsViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
Message* sub_message = NULL;
Message* sub_foreign_message = NULL;
// Add first element.
sub_message = reflection->AddMessage(message, F("map_int32_int32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_int32_key_, 0);
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_int32_val_, 0);
sub_message = reflection->AddMessage(message, F("map_int64_int64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_int64_int64_key_, 0);
sub_message->GetReflection()
->SetInt64(sub_message, map_int64_int64_val_, 0);
sub_message = reflection->AddMessage(message, F("map_uint32_uint32"));
sub_message->GetReflection()
->SetUInt32(sub_message, map_uint32_uint32_key_, 0);
sub_message->GetReflection()
->SetUInt32(sub_message, map_uint32_uint32_val_, 0);
sub_message = reflection->AddMessage(message, F("map_uint64_uint64"));
sub_message->GetReflection()
->SetUInt64(sub_message, map_uint64_uint64_key_, 0);
sub_message->GetReflection()
->SetUInt64(sub_message, map_uint64_uint64_val_, 0);
sub_message = reflection->AddMessage(message, F("map_sint32_sint32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_sint32_sint32_key_, 0);
sub_message->GetReflection()
->SetInt32(sub_message, map_sint32_sint32_val_, 0);
sub_message = reflection->AddMessage(message, F("map_sint64_sint64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_sint64_sint64_key_, 0);
sub_message->GetReflection()
->SetInt64(sub_message, map_sint64_sint64_val_, 0);
sub_message = reflection->AddMessage(message, F("map_fixed32_fixed32"));
sub_message->GetReflection()
->SetUInt32(sub_message, map_fixed32_fixed32_key_, 0);
sub_message->GetReflection()
->SetUInt32(sub_message, map_fixed32_fixed32_val_, 0);
sub_message = reflection->AddMessage(message, F("map_fixed64_fixed64"));
sub_message->GetReflection()
->SetUInt64(sub_message, map_fixed64_fixed64_key_, 0);
sub_message->GetReflection()
->SetUInt64(sub_message, map_fixed64_fixed64_val_, 0);
sub_message = reflection->AddMessage(message, F("map_sfixed32_sfixed32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_sfixed32_sfixed32_key_, 0);
sub_message->GetReflection()
->SetInt32(sub_message, map_sfixed32_sfixed32_val_, 0);
sub_message = reflection->AddMessage(message, F("map_sfixed64_sfixed64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_sfixed64_sfixed64_key_, 0);
sub_message->GetReflection()
->SetInt64(sub_message, map_sfixed64_sfixed64_val_, 0);
sub_message = reflection->AddMessage(message, F("map_int32_float"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_float_key_, 0);
sub_message->GetReflection()
->SetFloat(sub_message, map_int32_float_val_, 0.0);
sub_message = reflection->AddMessage(message, F("map_int32_double"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_double_key_, 0);
sub_message->GetReflection()
->SetDouble(sub_message, map_int32_double_val_, 0.0);
sub_message = reflection->AddMessage(message, F("map_bool_bool"));
sub_message->GetReflection()
->SetBool(sub_message, map_bool_bool_key_, false);
sub_message->GetReflection()
->SetBool(sub_message, map_bool_bool_val_, false);
sub_message = reflection->AddMessage(message, F("map_string_string"));
sub_message->GetReflection()
->SetString(sub_message, map_string_string_key_, "0");
sub_message->GetReflection()
->SetString(sub_message, map_string_string_val_, "0");
sub_message = reflection->AddMessage(message, F("map_int32_bytes"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_bytes_key_, 0);
sub_message->GetReflection()
->SetString(sub_message, map_int32_bytes_val_, "0");
sub_message = reflection->AddMessage(message, F("map_int32_enum"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_enum_key_, 0);
sub_message->GetReflection()
->SetEnum(sub_message, map_int32_enum_val_, map_enum_bar_);
sub_message = reflection
->AddMessage(message, F("map_int32_foreign_message"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_foreign_message_key_, 0);
sub_foreign_message = sub_message->GetReflection()->
MutableMessage(sub_message, map_int32_foreign_message_val_, NULL);
sub_foreign_message->GetReflection()->
SetInt32(sub_foreign_message, foreign_c_, 0);
// Add second element
sub_message = reflection->AddMessage(message, F("map_int32_int32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_int32_key_, 1);
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_int32_val_, 1);
sub_message = reflection->AddMessage(message, F("map_int64_int64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_int64_int64_key_, 1);
sub_message->GetReflection()
->SetInt64(sub_message, map_int64_int64_val_, 1);
sub_message = reflection->AddMessage(message, F("map_uint32_uint32"));
sub_message->GetReflection()
->SetUInt32(sub_message, map_uint32_uint32_key_, 1);
sub_message->GetReflection()
->SetUInt32(sub_message, map_uint32_uint32_val_, 1);
sub_message = reflection->AddMessage(message, F("map_uint64_uint64"));
sub_message->GetReflection()
->SetUInt64(sub_message, map_uint64_uint64_key_, 1);
sub_message->GetReflection()
->SetUInt64(sub_message, map_uint64_uint64_val_, 1);
sub_message = reflection->AddMessage(message, F("map_sint32_sint32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_sint32_sint32_key_, 1);
sub_message->GetReflection()
->SetInt32(sub_message, map_sint32_sint32_val_, 1);
sub_message = reflection->AddMessage(message, F("map_sint64_sint64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_sint64_sint64_key_, 1);
sub_message->GetReflection()
->SetInt64(sub_message, map_sint64_sint64_val_, 1);
sub_message = reflection->AddMessage(message, F("map_fixed32_fixed32"));
sub_message->GetReflection()
->SetUInt32(sub_message, map_fixed32_fixed32_key_, 1);
sub_message->GetReflection()
->SetUInt32(sub_message, map_fixed32_fixed32_val_, 1);
sub_message = reflection->AddMessage(message, F("map_fixed64_fixed64"));
sub_message->GetReflection()
->SetUInt64(sub_message, map_fixed64_fixed64_key_, 1);
sub_message->GetReflection()
->SetUInt64(sub_message, map_fixed64_fixed64_val_, 1);
sub_message = reflection->AddMessage(message, F("map_sfixed32_sfixed32"));
sub_message->GetReflection()
->SetInt32(sub_message, map_sfixed32_sfixed32_key_, 1);
sub_message->GetReflection()
->SetInt32(sub_message, map_sfixed32_sfixed32_val_, 1);
sub_message = reflection->AddMessage(message, F("map_sfixed64_sfixed64"));
sub_message->GetReflection()
->SetInt64(sub_message, map_sfixed64_sfixed64_key_, 1);
sub_message->GetReflection()
->SetInt64(sub_message, map_sfixed64_sfixed64_val_, 1);
sub_message = reflection->AddMessage(message, F("map_int32_float"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_float_key_, 1);
sub_message->GetReflection()
->SetFloat(sub_message, map_int32_float_val_, 1.0);
sub_message = reflection->AddMessage(message, F("map_int32_double"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_double_key_, 1);
sub_message->GetReflection()
->SetDouble(sub_message, map_int32_double_val_, 1.0);
sub_message = reflection->AddMessage(message, F("map_bool_bool"));
sub_message->GetReflection()
->SetBool(sub_message, map_bool_bool_key_, true);
sub_message->GetReflection()
->SetBool(sub_message, map_bool_bool_val_, true);
sub_message = reflection->AddMessage(message, F("map_string_string"));
sub_message->GetReflection()
->SetString(sub_message, map_string_string_key_, "1");
sub_message->GetReflection()
->SetString(sub_message, map_string_string_val_, "1");
sub_message = reflection->AddMessage(message, F("map_int32_bytes"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_bytes_key_, 1);
sub_message->GetReflection()
->SetString(sub_message, map_int32_bytes_val_, "1");
sub_message = reflection->AddMessage(message, F("map_int32_enum"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_enum_key_, 1);
sub_message->GetReflection()
->SetEnum(sub_message, map_int32_enum_val_, map_enum_baz_);
sub_message = reflection
->AddMessage(message, F("map_int32_foreign_message"));
sub_message->GetReflection()
->SetInt32(sub_message, map_int32_foreign_message_key_, 1);
sub_foreign_message = sub_message->GetReflection()->
MutableMessage(sub_message, map_int32_foreign_message_val_, NULL);
sub_foreign_message->GetReflection()->
SetInt32(sub_foreign_message, foreign_c_, 1);
}
void MapReflectionTester::SetMapFieldsViaMapReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
Message* sub_foreign_message = NULL;
MapValueRef map_val;
// Add first element.
MapKey map_key;
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_int32"), map_key, &map_val));
map_val.SetInt32Value(0);
map_key.SetInt64Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int64_int64"), map_key, &map_val));
map_val.SetInt64Value(0);
map_key.SetUInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_uint32_uint32"), map_key, &map_val));
map_val.SetUInt32Value(0);
map_key.SetUInt64Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_uint64_uint64"), map_key, &map_val));
map_val.SetUInt64Value(0);
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_sint32_sint32"), map_key, &map_val));
map_val.SetInt32Value(0);
map_key.SetInt64Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_sint64_sint64"), map_key, &map_val));
map_val.SetInt64Value(0);
map_key.SetUInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_fixed32_fixed32"), map_key, &map_val));
map_val.SetUInt32Value(0);
map_key.SetUInt64Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_fixed64_fixed64"), map_key, &map_val));
map_val.SetUInt64Value(0);
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_sfixed32_sfixed32"), map_key, &map_val));
map_val.SetInt32Value(0);
map_key.SetInt64Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_sfixed64_sfixed64"), map_key, &map_val));
map_val.SetInt64Value(0);
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_float"), map_key, &map_val));
map_val.SetFloatValue(0.0);
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_double"), map_key, &map_val));
map_val.SetDoubleValue(0.0);
map_key.SetBoolValue(false);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_bool_bool"), map_key, &map_val));
map_val.SetBoolValue(false);
map_key.SetStringValue("0");
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_string_string"), map_key, &map_val));
map_val.SetStringValue("0");
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_bytes"), map_key, &map_val));
map_val.SetStringValue("0");
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_enum"), map_key, &map_val));
map_val.SetEnumValue(map_enum_bar_->number());
map_key.SetInt32Value(0);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_foreign_message"), map_key, &map_val));
sub_foreign_message = map_val.MutableMessageValue();
sub_foreign_message->GetReflection()->SetInt32(
sub_foreign_message, foreign_c_, 0);
// Add second element
map_key.SetInt32Value(1);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_int32"), map_key, &map_val));
map_val.SetInt32Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_int32_int32"), map_key, &map_val));
map_key.SetInt64Value(1);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int64_int64"), map_key, &map_val));
map_val.SetInt64Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_int64_int64"), map_key, &map_val));
map_key.SetUInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_uint32_uint32"), map_key, &map_val);
map_val.SetUInt32Value(1);
map_key.SetUInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_uint64_uint64"), map_key, &map_val);
map_val.SetUInt64Value(1);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sint32_sint32"), map_key, &map_val);
map_val.SetInt32Value(1);
map_key.SetInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sint64_sint64"), map_key, &map_val);
map_val.SetInt64Value(1);
map_key.SetUInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_fixed32_fixed32"), map_key, &map_val);
map_val.SetUInt32Value(1);
map_key.SetUInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_fixed64_fixed64"), map_key, &map_val);
map_val.SetUInt64Value(1);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sfixed32_sfixed32"), map_key, &map_val);
map_val.SetInt32Value(1);
map_key.SetInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sfixed64_sfixed64"), map_key, &map_val);
map_val.SetInt64Value(1);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_float"), map_key, &map_val);
map_val.SetFloatValue(1.0);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_double"), map_key, &map_val);
map_val.SetDoubleValue(1.0);
map_key.SetBoolValue(true);
reflection->InsertOrLookupMapValue(
message, F("map_bool_bool"), map_key, &map_val);
map_val.SetBoolValue(true);
map_key.SetStringValue("1");
reflection->InsertOrLookupMapValue(
message, F("map_string_string"), map_key, &map_val);
map_val.SetStringValue("1");
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_bytes"), map_key, &map_val);
map_val.SetStringValue("1");
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_enum"), map_key, &map_val);
map_val.SetEnumValue(map_enum_baz_->number());
map_key.SetInt32Value(1);
EXPECT_TRUE(reflection->InsertOrLookupMapValue(
message, F("map_int32_foreign_message"), map_key, &map_val));
sub_foreign_message = map_val.MutableMessageValue();
sub_foreign_message->GetReflection()->SetInt32(
sub_foreign_message, foreign_c_, 1);
}
void MapReflectionTester::ClearMapFieldsViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
reflection->ClearField(message, F("map_int32_int32"));
reflection->ClearField(message, F("map_int64_int64"));
reflection->ClearField(message, F("map_uint32_uint32"));
reflection->ClearField(message, F("map_uint64_uint64"));
reflection->ClearField(message, F("map_sint32_sint32"));
reflection->ClearField(message, F("map_sint64_sint64"));
reflection->ClearField(message, F("map_fixed32_fixed32"));
reflection->ClearField(message, F("map_fixed64_fixed64"));
reflection->ClearField(message, F("map_sfixed32_sfixed32"));
reflection->ClearField(message, F("map_sfixed64_sfixed64"));
reflection->ClearField(message, F("map_int32_float"));
reflection->ClearField(message, F("map_int32_double"));
reflection->ClearField(message, F("map_bool_bool"));
reflection->ClearField(message, F("map_string_string"));
reflection->ClearField(message, F("map_int32_bytes"));
reflection->ClearField(message, F("map_int32_enum"));
reflection->ClearField(message, F("map_int32_foreign_message"));
}
void MapReflectionTester::ModifyMapFieldsViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
MapValueRef map_val;
Message* sub_foreign_message;
// Modify the second element
MapKey map_key;
map_key.SetInt32Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_int32_int32"), map_key, &map_val));
map_val.SetInt32Value(2);
map_key.SetInt64Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_int64_int64"), map_key, &map_val));
map_val.SetInt64Value(2);
map_key.SetUInt32Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_uint32_uint32"), map_key, &map_val));
map_val.SetUInt32Value(2);
map_key.SetUInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_uint64_uint64"), map_key, &map_val);
map_val.SetUInt64Value(2);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sint32_sint32"), map_key, &map_val);
map_val.SetInt32Value(2);
map_key.SetInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sint64_sint64"), map_key, &map_val);
map_val.SetInt64Value(2);
map_key.SetUInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_fixed32_fixed32"), map_key, &map_val);
map_val.SetUInt32Value(2);
map_key.SetUInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_fixed64_fixed64"), map_key, &map_val);
map_val.SetUInt64Value(2);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sfixed32_sfixed32"), map_key, &map_val);
map_val.SetInt32Value(2);
map_key.SetInt64Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_sfixed64_sfixed64"), map_key, &map_val);
map_val.SetInt64Value(2);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_float"), map_key, &map_val);
map_val.SetFloatValue(2.0);
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_double"), map_key, &map_val);
map_val.SetDoubleValue(2.0);
map_key.SetBoolValue(true);
reflection->InsertOrLookupMapValue(
message, F("map_bool_bool"), map_key, &map_val);
map_val.SetBoolValue(false);
map_key.SetStringValue("1");
reflection->InsertOrLookupMapValue(
message, F("map_string_string"), map_key, &map_val);
map_val.SetStringValue("2");
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_bytes"), map_key, &map_val);
map_val.SetStringValue("2");
map_key.SetInt32Value(1);
reflection->InsertOrLookupMapValue(
message, F("map_int32_enum"), map_key, &map_val);
map_val.SetEnumValue(map_enum_foo_->number());
map_key.SetInt32Value(1);
EXPECT_FALSE(reflection->InsertOrLookupMapValue(
message, F("map_int32_foreign_message"), map_key, &map_val));
sub_foreign_message = map_val.MutableMessageValue();
sub_foreign_message->GetReflection()->SetInt32(
sub_foreign_message, foreign_c_, 2);
}
void MapReflectionTester::RemoveLastMapsViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
vector<const FieldDescriptor*> output;
reflection->ListFields(*message, &output);
for (int i = 0; i < output.size(); ++i) {
const FieldDescriptor* field = output[i];
if (!field->is_repeated()) continue;
reflection->RemoveLast(message, field);
}
}
void MapReflectionTester::ReleaseLastMapsViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
vector<const FieldDescriptor*> output;
reflection->ListFields(*message, &output);
for (int i = 0; i < output.size(); ++i) {
const FieldDescriptor* field = output[i];
if (!field->is_repeated()) continue;
if (field->cpp_type() != FieldDescriptor::CPPTYPE_MESSAGE) continue;
Message* released = reflection->ReleaseLast(message, field);
ASSERT_TRUE(released != NULL) << "ReleaseLast returned NULL for: "
<< field->name();
delete released;
}
}
void MapReflectionTester::SwapMapsViaReflection(Message* message) {
const Reflection* reflection = message->GetReflection();
vector<const FieldDescriptor*> output;
reflection->ListFields(*message, &output);
for (int i = 0; i < output.size(); ++i) {
const FieldDescriptor* field = output[i];
if (!field->is_repeated()) continue;
reflection->SwapElements(message, field, 0, 1);
}
}
void MapReflectionTester::
MutableUnknownFieldsOfMapFieldsViaReflection(Message* message) {
const Reflection* reflection = message->GetReflection();
Message* sub_message = NULL;
sub_message = reflection->AddMessage(message, F("map_int32_int32"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int64_int64"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_uint32_uint32"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_uint64_uint64"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_sint32_sint32"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_sint64_sint64"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_fixed32_fixed32"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_fixed64_fixed64"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_sfixed32_sfixed32"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_sfixed64_sfixed64"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int32_float"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int32_double"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_bool_bool"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_string_string"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int32_bytes"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int32_enum"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
sub_message = reflection->AddMessage(message, F("map_int32_foreign_message"));
EXPECT_TRUE(sub_message->GetReflection()->MutableUnknownFields(sub_message) !=
NULL);
}
void MapReflectionTester::ExpectMapFieldsSetViaReflection(
const Message& message) {
string scratch;
const Reflection* reflection = message.GetReflection();
const Message* sub_message;
MapKey map_key;
// -----------------------------------------------------------------
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_int32")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int64_int64")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_uint32_uint32")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_uint64_uint64")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_sint32_sint32")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_sint64_sint64")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_fixed32_fixed32")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_fixed64_fixed64")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_sfixed32_sfixed32")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_sfixed64_sfixed64")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_float")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_double")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_bool_bool")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_string_string")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_bytes")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_enum")));
ASSERT_EQ(2, reflection->FieldSize(message, F("map_int32_foreign_message")));
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
// Check with RepeatedField Reflection
sub_message =
&reflection->GetRepeatedMessage(message, F("map_int32_int32"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_int32_key_);
int32 val = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_int32_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_TRUE(reflection->ContainsMapKey(
message, F("map_int32_int32"), map_key));
}
}
{
std::map<int64, int64> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
// Check with RepeatedField Reflection
sub_message =
&reflection->GetRepeatedMessage(message, F("map_int64_int64"), i);
int64 key = sub_message->GetReflection()->GetInt64(
*sub_message, map_int64_int64_key_);
int64 val = sub_message->GetReflection()->GetInt64(
*sub_message, map_int64_int64_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt64Value(key);
EXPECT_TRUE(reflection->ContainsMapKey(
message, F("map_int64_int64"), map_key));
}
}
{
std::map<uint32, uint32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
// Check with RepeatedField Reflection
sub_message =
&reflection->GetRepeatedMessage(message, F("map_uint32_uint32"), i);
uint32 key = sub_message->GetReflection()->GetUInt32(
*sub_message, map_uint32_uint32_key_);
uint32 val = sub_message->GetReflection()->GetUInt32(
*sub_message, map_uint32_uint32_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetUInt32Value(key);
EXPECT_TRUE(reflection->ContainsMapKey(
message, F("map_uint32_uint32"), map_key));
}
}
{
std::map<uint64, uint64> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_uint64_uint64"), i);
uint64 key = sub_message->GetReflection()->GetUInt64(
*sub_message, map_uint64_uint64_key_);
uint64 val = sub_message->GetReflection()->GetUInt64(
*sub_message, map_uint64_uint64_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetUInt64Value(key);
EXPECT_TRUE(reflection->ContainsMapKey(
message, F("map_uint64_uint64"), map_key));
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_sint32_sint32"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_sint32_sint32_key_);
int32 val = sub_message->GetReflection()->GetInt32(
*sub_message, map_sint32_sint32_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_sint32_sint32"), map_key));
}
}
{
std::map<int64, int64> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_sint64_sint64"), i);
int64 key = sub_message->GetReflection()->GetInt64(
*sub_message, map_sint64_sint64_key_);
int64 val = sub_message->GetReflection()->GetInt64(
*sub_message, map_sint64_sint64_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt64Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_sint64_sint64"), map_key));
}
}
{
std::map<uint32, uint32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_fixed32_fixed32"), i);
uint32 key = sub_message->GetReflection()->GetUInt32(
*sub_message, map_fixed32_fixed32_key_);
uint32 val = sub_message->GetReflection()->GetUInt32(
*sub_message, map_fixed32_fixed32_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetUInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_fixed32_fixed32"), map_key));
}
}
{
std::map<uint64, uint64> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_fixed64_fixed64"), i);
uint64 key = sub_message->GetReflection()->GetUInt64(
*sub_message, map_fixed64_fixed64_key_);
uint64 val = sub_message->GetReflection()->GetUInt64(
*sub_message, map_fixed64_fixed64_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetUInt64Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_fixed64_fixed64"), map_key));
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message = &reflection->GetRepeatedMessage(
message, F("map_sfixed32_sfixed32"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_sfixed32_sfixed32_key_);
int32 val = sub_message->GetReflection()->GetInt32(
*sub_message, map_sfixed32_sfixed32_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_sfixed32_sfixed32"), map_key));
}
}
{
std::map<int64, int64> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message = &reflection->GetRepeatedMessage(
message, F("map_sfixed64_sfixed64"), i);
int64 key = sub_message->GetReflection()->GetInt64(
*sub_message, map_sfixed64_sfixed64_key_);
int64 val = sub_message->GetReflection()->GetInt64(
*sub_message, map_sfixed64_sfixed64_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt64Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_sfixed64_sfixed64"), map_key));
}
}
{
std::map<int32, float> map;
map[0] = 0.0;
map[1] = 1.0;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_int32_float"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_float_key_);
float val = sub_message->GetReflection()->GetFloat(
*sub_message, map_int32_float_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_int32_float"), map_key));
}
}
{
std::map<int32, double> map;
map[0] = 0.0;
map[1] = 1.0;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_int32_double"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_double_key_);
double val = sub_message->GetReflection()->GetDouble(
*sub_message, map_int32_double_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_int32_double"), map_key));
}
}
{
std::map<bool, bool> map;
map[false] = false;
map[true] = true;
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_bool_bool"), i);
bool key = sub_message->GetReflection()->GetBool(
*sub_message, map_bool_bool_key_);
bool val = sub_message->GetReflection()->GetBool(
*sub_message, map_bool_bool_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetBoolValue(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_bool_bool"), map_key));
}
}
{
std::map<string, string> map;
map["0"] = "0";
map["1"] = "1";
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_string_string"), i);
string key = sub_message->GetReflection()->GetString(
*sub_message, map_string_string_key_);
string val = sub_message->GetReflection()->GetString(
*sub_message, map_string_string_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetStringValue(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_string_string"), map_key));
}
}
{
std::map<int32, string> map;
map[0] = "0";
map[1] = "1";
for (int i = 0; i < 2; i++) {
sub_message =
&reflection->GetRepeatedMessage(message, F("map_int32_bytes"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_bytes_key_);
string val = sub_message->GetReflection()->GetString(
*sub_message, map_int32_bytes_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_int32_bytes"), map_key));
}
}
{
std::map<int32, const EnumValueDescriptor*> map;
map[0] = map_enum_bar_;
map[1] = map_enum_baz_;
for (int i = 0; i < 2; i++) {
sub_message = &reflection->GetRepeatedMessage(
message, F("map_int32_enum"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_enum_key_);
const EnumValueDescriptor* val = sub_message->GetReflection()->GetEnum(
*sub_message, map_int32_enum_val_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_int32_enum"), map_key));
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (int i = 0; i < 2; i++) {
sub_message = &reflection->GetRepeatedMessage(
message, F("map_int32_foreign_message"), i);
int32 key = sub_message->GetReflection()->GetInt32(
*sub_message, map_int32_foreign_message_key_);
const Message& foreign_message = sub_message->GetReflection()->GetMessage(
*sub_message, map_int32_foreign_message_val_);
int32 val = foreign_message.GetReflection()->GetInt32(
foreign_message, foreign_c_);
EXPECT_EQ(map[key], val);
// Check with Map Reflection
map_key.SetInt32Value(key);
EXPECT_EQ(true, reflection->ContainsMapKey(
message, F("map_int32_foreign_message"), map_key));
}
}
}
void MapReflectionTester::ExpectMapFieldsSetViaReflectionIterator(
Message* message) {
string scratch;
string serialized;
const Reflection* reflection = message->GetReflection();
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_int32")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int64_int64")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_uint32_uint32")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_uint64_uint64")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_sint32_sint32")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_sint64_sint64")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_fixed32_fixed32")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_fixed64_fixed64")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_sfixed32_sfixed32")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_sfixed64_sfixed64")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_float")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_double")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_bool_bool")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_string_string")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_bytes")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_enum")));
ASSERT_EQ(2, reflection->FieldSize(*message, F("map_int32_foreign_message")));
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
int size = 0;
for (MapIterator iter = reflection->MapBegin(message, F("map_int32_int32"));
iter != reflection->MapEnd(message, F("map_int32_int32"));
++iter, ++size) {
// Check const methods do not invalidate map.
message->DebugString();
message->ShortDebugString();
message->SerializeToString(&serialized);
message->SpaceUsed();
message->ByteSize();
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetInt32Value());
}
EXPECT_EQ(size, 2);
}
{
std::map<int64, int64> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(message, F("map_int64_int64"));
iter != reflection->MapEnd(message, F("map_int64_int64")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt64Value()],
iter.GetValueRef().GetInt64Value());
}
}
{
std::map<uint32, uint32> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_uint32_uint32"));
iter != reflection->MapEnd(message, F("map_uint32_uint32"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetUInt32Value()],
iter.GetValueRef().GetUInt32Value());
}
}
{
std::map<uint64, uint64> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_uint64_uint64"));
iter != reflection->MapEnd(message, F("map_uint64_uint64"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetUInt64Value()],
iter.GetValueRef().GetUInt64Value());
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_sint32_sint32"));
iter != reflection->MapEnd(message, F("map_sint32_sint32"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetInt32Value());
}
}
{
std::map<int64, int64> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_sint64_sint64"));
iter != reflection->MapEnd(message, F("map_sint64_sint64")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt64Value()],
iter.GetValueRef().GetInt64Value());
}
}
{
std::map<uint32, uint32> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_fixed32_fixed32"));
iter != reflection->MapEnd(message, F("map_fixed32_fixed32"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetUInt32Value()],
iter.GetValueRef().GetUInt32Value());
}
}
{
std::map<uint64, uint64> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_fixed64_fixed64"));
iter != reflection->MapEnd(message, F("map_fixed64_fixed64"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetUInt64Value()],
iter.GetValueRef().GetUInt64Value());
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
for (MapIterator iter = reflection->MapBegin(
message, F("map_sfixed32_sfixed32"));
iter != reflection->MapEnd(message, F("map_sfixed32_sfixed32"));
++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetInt32Value());
}
}
{
std::map<int32, float> map;
map[0] = 0.0;
map[1] = 1.0;
for (MapIterator iter = reflection->MapBegin(message, F("map_int32_float"));
iter != reflection->MapEnd(message, F("map_int32_float")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetFloatValue());
}
}
{
std::map<int32, double> map;
map[0] = 0.0;
map[1] = 1.0;
for (MapIterator iter = reflection->MapBegin(
message, F("map_int32_double"));
iter != reflection->MapEnd(message, F("map_int32_double")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetDoubleValue());
}
}
{
std::map<bool, bool> map;
map[false] = false;
map[true] = true;
for (MapIterator iter = reflection->MapBegin(message, F("map_bool_bool"));
iter != reflection->MapEnd(message, F("map_bool_bool")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetBoolValue()],
iter.GetValueRef().GetBoolValue());
}
}
{
std::map<string, string> map;
map["0"] = "0";
map["1"] = "1";
int size = 0;
for (MapIterator iter = reflection->MapBegin(
message, F("map_string_string"));
iter != reflection->MapEnd(message, F("map_string_string"));
++iter, ++size) {
// Check const methods do not invalidate map.
message->DebugString();
message->ShortDebugString();
message->SerializeToString(&serialized);
message->SpaceUsed();
message->ByteSize();
EXPECT_EQ(map[iter.GetKey().GetStringValue()],
iter.GetValueRef().GetStringValue());
}
EXPECT_EQ(size, 2);
}
{
std::map<int32, string> map;
map[0] = "0";
map[1] = "1";
for (MapIterator iter = reflection->MapBegin(message, F("map_int32_bytes"));
iter != reflection->MapEnd(message, F("map_int32_bytes")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
iter.GetValueRef().GetStringValue());
}
}
{
std::map<int32, const EnumValueDescriptor*> map;
map[0] = map_enum_bar_;
map[1] = map_enum_baz_;
for (MapIterator iter = reflection->MapBegin(message, F("map_int32_enum"));
iter != reflection->MapEnd(message, F("map_int32_enum")); ++iter) {
EXPECT_EQ(map[iter.GetKey().GetInt32Value()]->number(),
iter.GetValueRef().GetEnumValue());
}
}
{
std::map<int32, int32> map;
map[0] = 0;
map[1] = 1;
int size = 0;
for (MapIterator iter = reflection->MapBegin(
message, F("map_int32_foreign_message"));
iter != reflection->MapEnd(message, F("map_int32_foreign_message"));
++iter, ++size) {
// Check const methods do not invalidate map.
message->DebugString();
message->ShortDebugString();
message->SerializeToString(&serialized);
message->SpaceUsed();
message->ByteSize();
const Message& sub_message = iter.GetValueRef().GetMessageValue();
EXPECT_EQ(map[iter.GetKey().GetInt32Value()],
sub_message.GetReflection()->GetInt32(sub_message, foreign_c_));
}
EXPECT_EQ(size, 2);
}
}
void MapReflectionTester::ExpectClearViaReflection(
const Message& message) {
const Reflection* reflection = message.GetReflection();
// Map fields are empty.
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_int32")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int64_int64")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_uint32_uint32")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_uint64_uint64")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_sint32_sint32")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_sint64_sint64")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_fixed32_fixed32")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_fixed64_fixed64")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_sfixed32_sfixed32")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_sfixed64_sfixed64")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_float")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_double")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_bool_bool")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_string_string")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_bytes")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_enum")));
EXPECT_EQ(0, reflection->FieldSize(message, F("map_int32_foreign_message")));
}
void MapReflectionTester::ExpectClearViaReflectionIterator(
Message* message) {
const Reflection* reflection = message->GetReflection();
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_int32")) ==
reflection->MapEnd(message, F("map_int32_int32")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int64_int64")) ==
reflection->MapEnd(message, F("map_int64_int64")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_uint32_uint32")) ==
reflection->MapEnd(message, F("map_uint32_uint32")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_uint64_uint64")) ==
reflection->MapEnd(message, F("map_uint64_uint64")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_sint32_sint32")) ==
reflection->MapEnd(message, F("map_sint32_sint32")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_sint64_sint64")) ==
reflection->MapEnd(message, F("map_sint64_sint64")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_fixed32_fixed32")) ==
reflection->MapEnd(message, F("map_fixed32_fixed32")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_fixed64_fixed64")) ==
reflection->MapEnd(message, F("map_fixed64_fixed64")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_sfixed32_sfixed32")) ==
reflection->MapEnd(message, F("map_sfixed32_sfixed32")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_sfixed64_sfixed64")) ==
reflection->MapEnd(message, F("map_sfixed64_sfixed64")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_float")) ==
reflection->MapEnd(message, F("map_int32_float")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_double")) ==
reflection->MapEnd(message, F("map_int32_double")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_bool_bool")) ==
reflection->MapEnd(message, F("map_bool_bool")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_string_string")) ==
reflection->MapEnd(message, F("map_string_string")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_bytes")) ==
reflection->MapEnd(message, F("map_int32_bytes")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_enum")) ==
reflection->MapEnd(message, F("map_int32_enum")));
EXPECT_TRUE(reflection->MapBegin(message, F("map_int32_foreign_message")) ==
reflection->MapEnd(message, F("map_int32_foreign_message")));
}
void MapReflectionTester::ExpectMapEntryClearViaReflection(
Message* message) {
const Reflection* reflection = message->GetReflection();
const Message* sub_message;
{
const FieldDescriptor* descriptor = F("map_int32_int32");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int32_int32"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_int64_int64");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int64_int64"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_uint32_uint32");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_uint32_uint32"));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt32(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_uint64_uint64");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_uint64_uint64"));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt64(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt64(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_sint32_sint32");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_sint32_sint32"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_sint64_sint64");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_sint64_sint64"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_fixed32_fixed32");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_fixed32_fixed32"));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt32(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_fixed64_fixed64");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_fixed64_fixed64"));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt64(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetUInt64(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_sfixed32_sfixed32");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_sfixed32_sfixed32"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_sfixed64_sfixed64");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_sfixed64_sfixed64"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt64(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_int32_float");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int32_float"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetFloat(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_int32_double");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int32_double"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()->GetDouble(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_bool_bool");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_bool_bool"));
EXPECT_EQ(false, sub_message->GetReflection()->GetBool(*sub_message,
key_descriptor));
EXPECT_EQ(false, sub_message->GetReflection()->GetBool(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_string_string");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_string_string"));
EXPECT_EQ("", sub_message->GetReflection()->GetString(*sub_message,
key_descriptor));
EXPECT_EQ("", sub_message->GetReflection()->GetString(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_int32_bytes");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int32_bytes"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ("", sub_message->GetReflection()->GetString(*sub_message,
value_descriptor));
}
{
const FieldDescriptor* descriptor = F("map_int32_enum");
const FieldDescriptor* key_descriptor =
descriptor->message_type()->FindFieldByName("key");
const FieldDescriptor* value_descriptor =
descriptor->message_type()->FindFieldByName("value");
sub_message = reflection->AddMessage(message, F("map_int32_enum"));
EXPECT_EQ(0, sub_message->GetReflection()->GetInt32(*sub_message,
key_descriptor));
EXPECT_EQ(0, sub_message->GetReflection()
->GetEnum(*sub_message, value_descriptor)
->number());
}
// Map using message as value has been tested in other place. Thus, we don't
// test it here.
}
} // namespace protobuf
} // namespace google