#ifndef TEST_BUILDER_H #define TEST_BUILDER_H #include #include #include "flatbuffers/flatbuffers.h" #include "monster_test_generated.h" #include "test_assert.h" using MyGame::Example::Color; using MyGame::Example::Monster; namespace flatbuffers { namespace grpc { class MessageBuilder; } } // namespace flatbuffers template struct is_same { static const bool value = false; }; template struct is_same { static const bool value = true; }; inline std::string m1_name() { return "Cyberdemon"; } inline std::string m2_name() { return "Imp"; } inline MyGame::Example::Color m1_color() { return MyGame::Example::Color_Red; } inline MyGame::Example::Color m2_color() { return MyGame::Example::Color_Green; } inline void m1_color_check() { // Ensure that all compilation units see the same monster_test_generated.h. extern void CheckTestGeneratedIsValid(const MyGame::Example::Color&); CheckTestGeneratedIsValid(m1_color()); } flatbuffers::Offset populate1(flatbuffers::FlatBufferBuilder &builder); flatbuffers::Offset populate2(flatbuffers::FlatBufferBuilder &builder); uint8_t *release_raw_base(flatbuffers::FlatBufferBuilder &fbb, size_t &size, size_t &offset); void free_raw(flatbuffers::grpc::MessageBuilder &mbb, uint8_t *buf); void free_raw(flatbuffers::FlatBufferBuilder &fbb, uint8_t *buf); bool verify(const flatbuffers::DetachedBuffer &buf, const std::string &expected_name, Color color); bool verify(const uint8_t *buf, size_t offset, const std::string &expected_name, Color color); bool release_n_verify(flatbuffers::FlatBufferBuilder &fbb, const std::string &expected_name, Color color); bool release_n_verify(flatbuffers::grpc::MessageBuilder &mbb, const std::string &expected_name, Color color); // clang-format off #if !defined(FLATBUFFERS_CPP98_STL) // clang-format on // Invokes this function when testing the following Builder types // FlatBufferBuilder, TestHeapBuilder, and GrpcLikeMessageBuilder template void builder_move_assign_after_releaseraw_test(Builder b1) { auto root_offset1 = populate1(b1); b1.Finish(root_offset1); size_t size, offset; std::shared_ptr raw( b1.ReleaseRaw(size, offset), [size](uint8_t *ptr) { flatbuffers::DefaultAllocator::dealloc(ptr, size); }); Builder src; auto root_offset2 = populate2(src); src.Finish(root_offset2); auto src_size = src.GetSize(); // Move into a released builder. b1 = std::move(src); TEST_EQ_FUNC(b1.GetSize(), src_size); TEST_ASSERT_FUNC(release_n_verify(b1, m2_name(), m2_color())); TEST_EQ_FUNC(src.GetSize(), 0); } // clang-format off #endif // !defined(FLATBUFFERS_CPP98_STL) // clang-format on void builder_move_assign_after_releaseraw_test( flatbuffers::grpc::MessageBuilder b1); template struct BuilderTests { // clang-format off #if !defined(FLATBUFFERS_CPP98_STL) // clang-format on static void empty_builder_movector_test() { SrcBuilder src; size_t src_size = src.GetSize(); DestBuilder dst(std::move(src)); size_t dst_size = dst.GetSize(); TEST_EQ_FUNC(src_size, 0); TEST_EQ_FUNC(src_size, dst_size); } static void nonempty_builder_movector_test() { SrcBuilder src; populate1(src); size_t src_size = src.GetSize(); DestBuilder dst(std::move(src)); TEST_EQ_FUNC(src_size, dst.GetSize()); TEST_EQ_FUNC(src.GetSize(), 0); } static void builder_movector_before_finish_test() { SrcBuilder src; auto root_offset1 = populate1(src); DestBuilder dst(std::move(src)); dst.Finish(root_offset1); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); TEST_EQ_FUNC(src.GetSize(), 0); } static void builder_movector_after_finish_test() { SrcBuilder src; auto root_offset1 = populate1(src); src.Finish(root_offset1); auto src_size = src.GetSize(); DestBuilder dst(std::move(src)); TEST_EQ_FUNC(dst.GetSize(), src_size); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); TEST_EQ_FUNC(src.GetSize(), 0); } static void builder_move_assign_before_finish_test() { SrcBuilder src; auto root_offset1 = populate1(src); DestBuilder dst; populate2(dst); dst = std::move(src); dst.Finish(root_offset1); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); TEST_EQ_FUNC(src.GetSize(), 0); } static void builder_move_assign_after_finish_test() { SrcBuilder src; auto root_offset1 = populate1(src); src.Finish(root_offset1); auto src_size = src.GetSize(); DestBuilder dst; auto root_offset2 = populate2(dst); dst.Finish(root_offset2); dst = std::move(src); TEST_EQ_FUNC(dst.GetSize(), src_size); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); TEST_EQ_FUNC(src.GetSize(), 0); } static void builder_move_assign_after_release_test() { DestBuilder dst; auto root_offset1 = populate1(dst); dst.Finish(root_offset1); { flatbuffers::DetachedBuffer dst_detached = dst.Release(); // detached buffer is deleted } SrcBuilder src; auto root_offset2 = populate2(src); src.Finish(root_offset2); auto src_size = src.GetSize(); // Move into a released builder. dst = std::move(src); TEST_EQ_FUNC(dst.GetSize(), src_size); TEST_ASSERT_FUNC(release_n_verify(dst, m2_name(), m2_color())); TEST_EQ_FUNC(src.GetSize(), 0); } // clang-format off #endif // !defined(FLATBUFFERS_CPP98_STL) // clang-format on static void builder_swap_before_finish_test( bool run = is_same::value) { /// Swap is allowed only when lhs and rhs are the same concrete type. if (run) { SrcBuilder src; auto root_offset1 = populate1(src); auto size1 = src.GetSize(); DestBuilder dst; auto root_offset2 = populate2(dst); auto size2 = dst.GetSize(); src.Swap(dst); src.Finish(root_offset2); dst.Finish(root_offset1); TEST_EQ_FUNC(src.GetSize() > size2, true); TEST_EQ_FUNC(dst.GetSize() > size1, true); TEST_ASSERT_FUNC(release_n_verify(src, m2_name(), m2_color())); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); } } static void builder_swap_after_finish_test( bool run = is_same::value) { /// Swap is allowed only when lhs and rhs are the same concrete type. if (run) { SrcBuilder src; auto root_offset1 = populate1(src); src.Finish(root_offset1); auto size1 = src.GetSize(); DestBuilder dst; auto root_offset2 = populate2(dst); dst.Finish(root_offset2); auto size2 = dst.GetSize(); src.Swap(dst); TEST_EQ_FUNC(src.GetSize(), size2); TEST_EQ_FUNC(dst.GetSize(), size1); TEST_ASSERT_FUNC(release_n_verify(src, m2_name(), m2_color())); TEST_ASSERT_FUNC(release_n_verify(dst, m1_name(), m1_color())); } } static void all_tests() { // clang-format off #if !defined(FLATBUFFERS_CPP98_STL) // clang-format on empty_builder_movector_test(); nonempty_builder_movector_test(); builder_movector_before_finish_test(); builder_movector_after_finish_test(); builder_move_assign_before_finish_test(); builder_move_assign_after_finish_test(); builder_move_assign_after_release_test(); builder_move_assign_after_releaseraw_test(DestBuilder()); // clang-format off #endif // !defined(FLATBUFFERS_CPP98_STL) // clang-format on builder_swap_before_finish_test(); builder_swap_after_finish_test(); } }; enum BuilderReuseTestSelector { REUSABLE_AFTER_RELEASE = 1, REUSABLE_AFTER_RELEASE_RAW = 2, REUSABLE_AFTER_RELEASE_MESSAGE = 3, REUSABLE_AFTER_RELEASE_AND_MOVE_ASSIGN = 4, REUSABLE_AFTER_RELEASE_RAW_AND_MOVE_ASSIGN = 5, REUSABLE_AFTER_RELEASE_MESSAGE_AND_MOVE_ASSIGN = 6 }; typedef std::set TestSelector; template struct BuilderReuseTests { static void builder_reusable_after_release_test(TestSelector selector) { if (!selector.count(REUSABLE_AFTER_RELEASE)) { return; } DestBuilder fbb; std::vector buffers; for (int i = 0; i < 5; ++i) { auto root_offset1 = populate1(fbb); fbb.Finish(root_offset1); buffers.push_back(fbb.Release()); TEST_ASSERT_FUNC(verify(buffers[i], m1_name(), m1_color())); } } static void builder_reusable_after_releaseraw_test(TestSelector selector) { if (!selector.count(REUSABLE_AFTER_RELEASE_RAW)) { return; } DestBuilder fbb; for (int i = 0; i < 5; ++i) { auto root_offset1 = populate1(fbb); fbb.Finish(root_offset1); size_t size, offset; uint8_t *buf = release_raw_base(fbb, size, offset); TEST_ASSERT_FUNC(verify(buf, offset, m1_name(), m1_color())); free_raw(fbb, buf); } } // clang-format off #if !defined(FLATBUFFERS_CPP98_STL) // clang-format on static void builder_reusable_after_release_and_move_assign_test( TestSelector selector) { if (!selector.count(REUSABLE_AFTER_RELEASE_AND_MOVE_ASSIGN)) { return; } DestBuilder dst; std::vector buffers; for (int i = 0; i < 5; ++i) { auto root_offset1 = populate1(dst); dst.Finish(root_offset1); buffers.push_back(dst.Release()); TEST_ASSERT_FUNC(verify(buffers[i], m1_name(), m1_color())); SrcBuilder src; dst = std::move(src); TEST_EQ_FUNC(src.GetSize(), 0); } } static void builder_reusable_after_releaseraw_and_move_assign_test( TestSelector selector) { if (!selector.count(REUSABLE_AFTER_RELEASE_RAW_AND_MOVE_ASSIGN)) { return; } DestBuilder dst; for (int i = 0; i < 5; ++i) { auto root_offset1 = populate1(dst); dst.Finish(root_offset1); size_t size, offset; uint8_t *buf = release_raw_base(dst, size, offset); TEST_ASSERT_FUNC(verify(buf, offset, m1_name(), m1_color())); free_raw(dst, buf); SrcBuilder src; dst = std::move(src); TEST_EQ_FUNC(src.GetSize(), 0); } } // clang-format off #endif // !defined(FLATBUFFERS_CPP98_STL) // clang-format on static void run_tests(TestSelector selector) { builder_reusable_after_release_test(selector); builder_reusable_after_releaseraw_test(selector); // clang-format off #if !defined(FLATBUFFERS_CPP98_STL) // clang-format on builder_reusable_after_release_and_move_assign_test(selector); builder_reusable_after_releaseraw_and_move_assign_test(selector); // clang-format off #endif // !defined(FLATBUFFERS_CPP98_STL) // clang-format on } }; #endif // TEST_BUILDER_H