tests/cpp17/test_cpp17.cpp - RealtimeRoboticsGroup/test - Gitiles

 /*
  * Copyright 2014 Google Inc. All rights reserved.
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 // This is a sandbox for modeling C++17 code generator.
 // C++17 code generator: "flatc --cpp-std c++17".
 // Warning:
 // This is an experimental feature and could change at any time.

 #include "flatbuffers/flatbuffers.h"
 #include "flatbuffers/flexbuffers.h"
 #include "flatbuffers/idl.h"
 #include "flatbuffers/minireflect.h"
 #include "flatbuffers/registry.h"
 #include "flatbuffers/util.h"
 #include "stringify_util.h"
 #include "test_assert.h"

 // Embed generated code into an isolated namespace.
 namespace cpp17 {
 #include "generated_cpp17/monster_test_generated.h"
 #include "generated_cpp17/optional_scalars_generated.h"
 #include "generated_cpp17/union_vector_generated.h"
 }  // namespace cpp17

 namespace cpp11 {
 #include "../monster_test_generated.h"
 #include "../optional_scalars_generated.h"
 }  // namespace cpp11

 using ::cpp17::MyGame::Example::Monster;
 using ::cpp17::MyGame::Example::Vec3;

 /*******************************************************************************
 ** Build some FB objects.
 *******************************************************************************/
 const Monster *BuildMonster(flatbuffers::FlatBufferBuilder &fbb) {
   using ::cpp17::MyGame::Example::Color;
   using ::cpp17::MyGame::Example::MonsterBuilder;
   using ::cpp17::MyGame::Example::Test;
   auto name = fbb.CreateString("my_monster");
   auto inventory = fbb.CreateVector(std::vector<uint8_t>{ 4, 5, 6, 7 });
   MonsterBuilder builder(fbb);
   auto vec3 = Vec3{ /*x=*/1.1f,
                     /*y=*/2.2f,
                     /*z=*/3.3f,
                     /*test1=*/6.6,
                     /*test2=*/Color::Green,
                     /*test3=*/
                     Test(
                         /*a=*/11,
                         /*b=*/90) };
   builder.add_pos(&vec3);
   builder.add_name(name);
   builder.add_mana(1);
   builder.add_hp(2);
   builder.add_testbool(true);
   builder.add_testhashs32_fnv1(4);
   builder.add_testhashu32_fnv1(5);
   builder.add_testhashs64_fnv1(6);
   builder.add_testhashu64_fnv1(7);
   builder.add_testhashs32_fnv1a(8);
   builder.add_testhashu32_fnv1a(9);
   builder.add_testhashs64_fnv1a(10);
   builder.add_testhashu64_fnv1a(11);
   builder.add_testf(12.1f);
   builder.add_testf2(13.1f);
   builder.add_testf3(14.1f);
   builder.add_single_weak_reference(15);
   builder.add_co_owning_reference(16);
   builder.add_non_owning_reference(17);
   builder.add_inventory(inventory);
   fbb.Finish(builder.Finish());
   const Monster *monster =
       flatbuffers::GetRoot<Monster>(fbb.GetBufferPointer());
   return monster;
 }

 /*******************************************************************************
 ** Test Case: Static Field Reflection Traits for Table & Structs.
 *******************************************************************************/
 // This test tests & demonstrates the power of the static reflection. Using it,
 // we can given any Flatbuffer type to a generic function and it will be able to
 // produce is full recursive string representation of it.
 //
 // This test covers all types: primitive types, structs, tables, Vectors, etc.
 //
 void StringifyAnyFlatbuffersTypeTest() {
   flatbuffers::FlatBufferBuilder fbb;
   // We are using a Monster here, but we could have used any type, because the
   // code that follows is totally generic!
   const auto *monster = BuildMonster(fbb);

   std::string expected = R"(MyGame.Example.Monster{
         pos = MyGame.Example.Vec3{
           x = 1.1
           y = 2.2
           z = 3.3
           test1 = 6.6
           test2 = 2
           test3 = MyGame.Example.Test{
             a = 11
             b = 90
           }
         }
         mana = 1
         hp = 2
         name = "my_monster"
         inventory = [
           4,
           5,
           6,
           7
         ]
         color = 8
         test_type = 0
         testbool = 1
         testhashs32_fnv1 = 4
         testhashu32_fnv1 = 5
         testhashs64_fnv1 = 6
         testhashu64_fnv1 = 7
         testhashs32_fnv1a = 8
         testhashu32_fnv1a = 9
         testhashs64_fnv1a = 10
         testhashu64_fnv1a = 11
         testf = 12.1
         testf2 = 13.1
         testf3 = 14.1
         single_weak_reference = 15
         co_owning_reference = 16
         non_owning_reference = 17
         any_unique_type = 0
         any_ambiguous_type = 0
         signed_enum = -1
       })";

   // Call a generic function that has no specific knowledge of the flatbuffer we
   // are passing in; it should use only static reflection to produce a string
   // representations of the field names and values recursively. We give it an
   // initial indentation so that the result can be compared with our raw string
   // above, which we wanted to indent so that it will look nicer in this code.
   //
   // A note about JSON: as can be seen from the string above, this produces a
   // JSON-like notation, but we are not using any of Flatbuffers' JSON infra to
   // produce this! It is produced entirely using compile-time reflection, and
   // thus does not require any runtime access to the *.fbs definition files!
   std::optional<std::string> result =
       cpp17::StringifyFlatbufferValue(*monster, /*indent=*/"      ");

   TEST_ASSERT(result.has_value());
   TEST_EQ_STR(expected.c_str(), result->c_str());
 }

 /*******************************************************************************
 ** Test Traits::FieldType
 *******************************************************************************/
 using pos_type = Monster::Traits::FieldType<0>;
 static_assert(std::is_same_v<pos_type, const Vec3*>);

 using mana_type = Monster::Traits::FieldType<1>;
 static_assert(std::is_same_v<mana_type, int16_t>);

 using name_type = Monster::Traits::FieldType<3>;
 static_assert(std::is_same_v<name_type, const flatbuffers::String*>);

 /*******************************************************************************
 ** Generic Create Function Test.
 *******************************************************************************/
 void CreateTableByTypeTest() {
   flatbuffers::FlatBufferBuilder builder;

   // We will create an object of this type using only the type.
   using type_to_create_t = cpp17::MyGame::Example::Stat;

   [&builder] {
     auto id_str = builder.CreateString("my_id");
     auto table = type_to_create_t::Traits::Create(builder, id_str, 42, 7);
     // Be sure that the correct return type was inferred.
     static_assert(
         std::is_same_v<decltype(table), flatbuffers::Offset<type_to_create_t>>);
     builder.Finish(table);
   }();

   // Access it.
   auto stat =
       flatbuffers::GetRoot<type_to_create_t>(builder.GetBufferPointer());
   TEST_EQ_STR(stat->id()->c_str(), "my_id");
   TEST_EQ(stat->val(), 42);
   TEST_EQ(stat->count(), 7);
 }

 void OptionalScalarsTest() {
   static_assert(
       std::is_same<flatbuffers::Optional<float>, std::optional<float>>::value);
   static_assert(std::is_same<flatbuffers::nullopt_t, std::nullopt_t>::value);

   // test C++ nullable
   flatbuffers::FlatBufferBuilder fbb;
   FinishScalarStuffBuffer(fbb, cpp17::optional_scalars::CreateScalarStuff(
                                    fbb, 1, static_cast<int8_t>(2)));
   auto opts =
       cpp17::optional_scalars::GetMutableScalarStuff(fbb.GetBufferPointer());
   TEST_ASSERT(!opts->maybe_bool());
   TEST_ASSERT(!opts->maybe_f32().has_value());
   TEST_ASSERT(opts->maybe_i8().has_value());
   TEST_EQ(opts->maybe_i8().value(), 2);
   TEST_ASSERT(opts->mutate_maybe_i8(3));
   TEST_ASSERT(opts->maybe_i8().has_value());
   TEST_EQ(opts->maybe_i8().value(), 3);
   TEST_ASSERT(!opts->mutate_maybe_i16(-10));

   cpp17::optional_scalars::ScalarStuffT obj;
   opts->UnPackTo(&obj);
   TEST_ASSERT(!obj.maybe_bool);
   TEST_ASSERT(!obj.maybe_f32.has_value());
   TEST_ASSERT(obj.maybe_i8.has_value() && obj.maybe_i8.value() == 3);
   TEST_ASSERT(obj.maybe_i8 && *obj.maybe_i8 == 3);
   obj.maybe_i32 = -1;

   fbb.Clear();
   FinishScalarStuffBuffer(
       fbb, cpp17::optional_scalars::ScalarStuff::Pack(fbb, &obj));
   opts = cpp17::optional_scalars::GetMutableScalarStuff(fbb.GetBufferPointer());
   TEST_ASSERT(opts->maybe_i8().has_value());
   TEST_EQ(opts->maybe_i8().value(), 3);
   TEST_ASSERT(opts->maybe_i32().has_value());
   TEST_EQ(opts->maybe_i32().value(), -1);

   TEST_EQ(std::optional<int32_t>(opts->maybe_i32()).value(), -1);
   TEST_EQ(std::optional<int64_t>(opts->maybe_i32()).value(), -1);
   TEST_ASSERT(opts->maybe_i32() == std::optional<int64_t>(-1));
 }

 int FlatBufferCpp17Tests() {
   CreateTableByTypeTest();
   OptionalScalarsTest();
   StringifyAnyFlatbuffersTypeTest();
   return 0;
 }

 int main(int /*argc*/, const char * /*argv*/[]) {
   InitTestEngine();

   FlatBufferCpp17Tests();

   if (!testing_fails) {
     TEST_OUTPUT_LINE("C++17: ALL TESTS PASSED");
   } else {
     TEST_OUTPUT_LINE("C++17: %d FAILED TESTS", testing_fails);
   }
   return CloseTestEngine();
 }
	/*
	* Copyright 2014 Google Inc. All rights reserved.
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	// This is a sandbox for modeling C++17 code generator.
	// C++17 code generator: "flatc --cpp-std c++17".
	// Warning:
	// This is an experimental feature and could change at any time.

	#include "flatbuffers/flatbuffers.h"
	#include "flatbuffers/flexbuffers.h"
	#include "flatbuffers/idl.h"
	#include "flatbuffers/minireflect.h"
	#include "flatbuffers/registry.h"
	#include "flatbuffers/util.h"
	#include "stringify_util.h"
	#include "test_assert.h"

	// Embed generated code into an isolated namespace.
	namespace cpp17 {
	#include "generated_cpp17/monster_test_generated.h"
	#include "generated_cpp17/optional_scalars_generated.h"
	#include "generated_cpp17/union_vector_generated.h"
	} // namespace cpp17

	namespace cpp11 {
	#include "../monster_test_generated.h"
	#include "../optional_scalars_generated.h"
	} // namespace cpp11

	using ::cpp17::MyGame::Example::Monster;
	using ::cpp17::MyGame::Example::Vec3;

	/*******************************************************************************
	** Build some FB objects.
	*******************************************************************************/
	const Monster *BuildMonster(flatbuffers::FlatBufferBuilder &fbb) {
	using ::cpp17::MyGame::Example::Color;
	using ::cpp17::MyGame::Example::MonsterBuilder;
	using ::cpp17::MyGame::Example::Test;
	auto name = fbb.CreateString("my_monster");
	auto inventory = fbb.CreateVector(std::vector<uint8_t>{ 4, 5, 6, 7 });
	MonsterBuilder builder(fbb);
	auto vec3 = Vec3{ /x=/1.1f,
	/y=/2.2f,
	/z=/3.3f,
	/test1=/6.6,
	/test2=/Color::Green,
	/test3=/
	Test(
	/a=/11,
	/b=/90) };
	builder.add_pos(&vec3);
	builder.add_name(name);
	builder.add_mana(1);
	builder.add_hp(2);
	builder.add_testbool(true);
	builder.add_testhashs32_fnv1(4);
	builder.add_testhashu32_fnv1(5);
	builder.add_testhashs64_fnv1(6);
	builder.add_testhashu64_fnv1(7);
	builder.add_testhashs32_fnv1a(8);
	builder.add_testhashu32_fnv1a(9);
	builder.add_testhashs64_fnv1a(10);
	builder.add_testhashu64_fnv1a(11);
	builder.add_testf(12.1f);
	builder.add_testf2(13.1f);
	builder.add_testf3(14.1f);
	builder.add_single_weak_reference(15);
	builder.add_co_owning_reference(16);
	builder.add_non_owning_reference(17);
	builder.add_inventory(inventory);
	fbb.Finish(builder.Finish());
	const Monster *monster =
	flatbuffers::GetRoot<Monster>(fbb.GetBufferPointer());
	return monster;
	}

	/*******************************************************************************
	** Test Case: Static Field Reflection Traits for Table & Structs.
	*******************************************************************************/
	// This test tests & demonstrates the power of the static reflection. Using it,
	// we can given any Flatbuffer type to a generic function and it will be able to
	// produce is full recursive string representation of it.
	//
	// This test covers all types: primitive types, structs, tables, Vectors, etc.
	//
	void StringifyAnyFlatbuffersTypeTest() {
	flatbuffers::FlatBufferBuilder fbb;
	// We are using a Monster here, but we could have used any type, because the
	// code that follows is totally generic!
	const auto *monster = BuildMonster(fbb);

	std::string expected = R"(MyGame.Example.Monster{
	pos = MyGame.Example.Vec3{
	x = 1.1
	y = 2.2
	z = 3.3
	test1 = 6.6
	test2 = 2
	test3 = MyGame.Example.Test{
	a = 11
	b = 90
	}
	}
	mana = 1
	hp = 2
	name = "my_monster"
	inventory = [
	4,
	5,
	6,
	7
	]
	color = 8
	test_type = 0
	testbool = 1
	testhashs32_fnv1 = 4
	testhashu32_fnv1 = 5
	testhashs64_fnv1 = 6
	testhashu64_fnv1 = 7
	testhashs32_fnv1a = 8
	testhashu32_fnv1a = 9
	testhashs64_fnv1a = 10
	testhashu64_fnv1a = 11
	testf = 12.1
	testf2 = 13.1
	testf3 = 14.1
	single_weak_reference = 15
	co_owning_reference = 16
	non_owning_reference = 17
	any_unique_type = 0
	any_ambiguous_type = 0
	signed_enum = -1
	})";

	// Call a generic function that has no specific knowledge of the flatbuffer we
	// are passing in; it should use only static reflection to produce a string
	// representations of the field names and values recursively. We give it an
	// initial indentation so that the result can be compared with our raw string
	// above, which we wanted to indent so that it will look nicer in this code.
	//
	// A note about JSON: as can be seen from the string above, this produces a
	// JSON-like notation, but we are not using any of Flatbuffers' JSON infra to
	// produce this! It is produced entirely using compile-time reflection, and
	// thus does not require any runtime access to the *.fbs definition files!
	std::optional<std::string> result =
	cpp17::StringifyFlatbufferValue(monster, /indent=*/" ");

	TEST_ASSERT(result.has_value());
	TEST_EQ_STR(expected.c_str(), result->c_str());
	}

	/*******************************************************************************
	** Test Traits::FieldType
	*******************************************************************************/
	using pos_type = Monster::Traits::FieldType<0>;
	static_assert(std::is_same_v<pos_type, const Vec3*>);

	using mana_type = Monster::Traits::FieldType<1>;
	static_assert(std::is_same_v<mana_type, int16_t>);

	using name_type = Monster::Traits::FieldType<3>;
	static_assert(std::is_same_v<name_type, const flatbuffers::String*>);

	/*******************************************************************************
	** Generic Create Function Test.
	*******************************************************************************/
	void CreateTableByTypeTest() {
	flatbuffers::FlatBufferBuilder builder;

	// We will create an object of this type using only the type.
	using type_to_create_t = cpp17::MyGame::Example::Stat;

	[&builder] {
	auto id_str = builder.CreateString("my_id");
	auto table = type_to_create_t::Traits::Create(builder, id_str, 42, 7);
	// Be sure that the correct return type was inferred.
	static_assert(
	std::is_same_v<decltype(table), flatbuffers::Offset<type_to_create_t>>);
	builder.Finish(table);
	}();

	// Access it.
	auto stat =
	flatbuffers::GetRoot<type_to_create_t>(builder.GetBufferPointer());
	TEST_EQ_STR(stat->id()->c_str(), "my_id");
	TEST_EQ(stat->val(), 42);
	TEST_EQ(stat->count(), 7);
	}

	void OptionalScalarsTest() {
	static_assert(
	std::is_same<flatbuffers::Optional<float>, std::optional<float>>::value);
	static_assert(std::is_same<flatbuffers::nullopt_t, std::nullopt_t>::value);

	// test C++ nullable
	flatbuffers::FlatBufferBuilder fbb;
	FinishScalarStuffBuffer(fbb, cpp17::optional_scalars::CreateScalarStuff(
	fbb, 1, static_cast<int8_t>(2)));
	auto opts =
	cpp17::optional_scalars::GetMutableScalarStuff(fbb.GetBufferPointer());
	TEST_ASSERT(!opts->maybe_bool());
	TEST_ASSERT(!opts->maybe_f32().has_value());
	TEST_ASSERT(opts->maybe_i8().has_value());
	TEST_EQ(opts->maybe_i8().value(), 2);
	TEST_ASSERT(opts->mutate_maybe_i8(3));
	TEST_ASSERT(opts->maybe_i8().has_value());
	TEST_EQ(opts->maybe_i8().value(), 3);
	TEST_ASSERT(!opts->mutate_maybe_i16(-10));

	cpp17::optional_scalars::ScalarStuffT obj;
	opts->UnPackTo(&obj);
	TEST_ASSERT(!obj.maybe_bool);
	TEST_ASSERT(!obj.maybe_f32.has_value());
	TEST_ASSERT(obj.maybe_i8.has_value() && obj.maybe_i8.value() == 3);
	TEST_ASSERT(obj.maybe_i8 && *obj.maybe_i8 == 3);
	obj.maybe_i32 = -1;

	fbb.Clear();
	FinishScalarStuffBuffer(
	fbb, cpp17::optional_scalars::ScalarStuff::Pack(fbb, &obj));
	opts = cpp17::optional_scalars::GetMutableScalarStuff(fbb.GetBufferPointer());
	TEST_ASSERT(opts->maybe_i8().has_value());
	TEST_EQ(opts->maybe_i8().value(), 3);
	TEST_ASSERT(opts->maybe_i32().has_value());
	TEST_EQ(opts->maybe_i32().value(), -1);

	TEST_EQ(std::optional<int32_t>(opts->maybe_i32()).value(), -1);
	TEST_EQ(std::optional<int64_t>(opts->maybe_i32()).value(), -1);
	TEST_ASSERT(opts->maybe_i32() == std::optional<int64_t>(-1));
	}

	int FlatBufferCpp17Tests() {
	CreateTableByTypeTest();
	OptionalScalarsTest();
	StringifyAnyFlatbuffersTypeTest();
	return 0;
	}

	int main(int /argc/, const char * /argv/[]) {
	InitTestEngine();

	FlatBufferCpp17Tests();

	if (!testing_fails) {
	TEST_OUTPUT_LINE("C++17: ALL TESTS PASSED");
	} else {
	TEST_OUTPUT_LINE("C++17: %d FAILED TESTS", testing_fails);
	}
	return CloseTestEngine();
	}