#include #include // For benchmarks of parsing speed. #include "benchmarks/descriptor.pb.h" #include "benchmarks/descriptor.upb.h" #include "benchmarks/descriptor.upbdefs.h" #include "benchmarks/descriptor_sv.pb.h" // For for benchmarks of building descriptors. #include "google/ads/googleads/v5/services/google_ads_service.upbdefs.h" #include "google/protobuf/descriptor.pb.h" #include "google/protobuf/descriptor.upb.h" #include "google/protobuf/descriptor.upbdefs.h" #include "upb/def.hpp" upb_strview descriptor = benchmarks_descriptor_proto_upbdefinit.descriptor; namespace protobuf = ::google::protobuf; /* A buffer big enough to parse descriptor.proto without going to heap. */ char buf[65535]; void CollectFileDescriptors(const upb_def_init* file, std::vector& serialized_files, std::unordered_set& seen) { if (!seen.insert(file).second) return; for (upb_def_init **deps = file->deps; *deps; deps++) { CollectFileDescriptors(*deps, serialized_files, seen); } serialized_files.push_back(file->descriptor); } static void BM_ArenaOneAlloc(benchmark::State& state) { for (auto _ : state) { upb_arena* arena = upb_arena_new(); upb_arena_malloc(arena, 1); upb_arena_free(arena); } } BENCHMARK(BM_ArenaOneAlloc); static void BM_ArenaInitialBlockOneAlloc(benchmark::State& state) { for (auto _ : state) { upb_arena* arena = upb_arena_init(buf, sizeof(buf), NULL); upb_arena_malloc(arena, 1); upb_arena_free(arena); } } BENCHMARK(BM_ArenaInitialBlockOneAlloc); static void BM_LoadDescriptor_Upb(benchmark::State& state) { size_t bytes_per_iter; for (auto _ : state) { upb::SymbolTable symtab; google_protobuf_DescriptorProto_getmsgdef(symtab.ptr()); bytes_per_iter = _upb_symtab_bytesloaded(symtab.ptr()); } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK(BM_LoadDescriptor_Upb); static void BM_LoadAdsDescriptor_Upb(benchmark::State& state) { size_t bytes_per_iter; for (auto _ : state) { upb::SymbolTable symtab; google_ads_googleads_v5_services_SearchGoogleAdsRequest_getmsgdef( symtab.ptr()); bytes_per_iter = _upb_symtab_bytesloaded(symtab.ptr()); } state.SetBytesProcessed(state.iterations() * bytes_per_iter); } BENCHMARK(BM_LoadAdsDescriptor_Upb); static void BM_LoadDescriptor_Proto2(benchmark::State& state) { for (auto _ : state) { protobuf::Arena arena; protobuf::StringPiece input(descriptor.data,descriptor.size); auto proto = protobuf::Arena::CreateMessage( &arena); protobuf::DescriptorPool pool; bool ok = proto->ParseFrom(input) && pool.BuildFile(*proto) != nullptr; if (!ok) { printf("Failed to add file.\n"); exit(1); } } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK(BM_LoadDescriptor_Proto2); static void BM_LoadAdsDescriptor_Proto2(benchmark::State& state) { extern upb_def_init google_ads_googleads_v5_services_google_ads_service_proto_upbdefinit; std::vector serialized_files; std::unordered_set seen_files; CollectFileDescriptors( &google_ads_googleads_v5_services_google_ads_service_proto_upbdefinit, serialized_files, seen_files); size_t bytes_per_iter; for (auto _ : state) { bytes_per_iter = 0; protobuf::Arena arena; protobuf::DescriptorPool pool; for (auto file : serialized_files) { protobuf::StringPiece input(file.data, file.size); auto proto = protobuf::Arena::CreateMessage( &arena); bool ok = proto->ParseFrom(input) && pool.BuildFile(*proto) != nullptr; if (!ok) { printf("Failed to add file.\n"); exit(1); } bytes_per_iter += input.size(); } } state.SetBytesProcessed(state.iterations() * bytes_per_iter); } BENCHMARK(BM_LoadAdsDescriptor_Proto2); static void BM_Parse_Upb_FileDesc_WithArena(benchmark::State& state) { size_t bytes = 0; for (auto _ : state) { upb_arena* arena = upb_arena_new(); upb_benchmark_FileDescriptorProto* set = upb_benchmark_FileDescriptorProto_parse(descriptor.data, descriptor.size, arena); if (!set) { printf("Failed to parse.\n"); exit(1); } bytes += descriptor.size; upb_arena_free(arena); } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK(BM_Parse_Upb_FileDesc_WithArena); static void BM_Parse_Upb_FileDesc_WithInitialBlock(benchmark::State& state) { size_t bytes = 0; for (auto _ : state) { upb_arena* arena = upb_arena_init(buf, sizeof(buf), NULL); upb_benchmark_FileDescriptorProto* set = upb_benchmark_FileDescriptorProto_parse(descriptor.data, descriptor.size, arena); if (!set) { printf("Failed to parse.\n"); exit(1); } bytes += descriptor.size; upb_arena_free(arena); } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK(BM_Parse_Upb_FileDesc_WithInitialBlock); template struct NoArena { public: P* GetProto() { return &proto_; } private: P proto_; }; template struct WithArena { public: P* GetProto() { return protobuf::Arena::CreateMessage

(&arena_); } private: protobuf::Arena arena_; }; template struct WithInitialBlock { public: WithInitialBlock() : arena_(GetOptions()) {} P* GetProto() { return protobuf::Arena::CreateMessage

(&arena_); } private: protobuf::ArenaOptions GetOptions() { protobuf::ArenaOptions opts; opts.initial_block = buf; opts.initial_block_size = sizeof(buf); return opts; } protobuf::Arena arena_; }; using FileDesc = ::upb_benchmark::FileDescriptorProto; using FileDescSV = ::upb_benchmark::sv::FileDescriptorProto; const protobuf::MessageLite::ParseFlags kMergePartial = protobuf::MessageLite::ParseFlags::kMergePartial; const protobuf::MessageLite::ParseFlags kAliasStrings = protobuf::MessageLite::ParseFlags::kMergePartialWithAliasing; template class Factory, protobuf::MessageLite::ParseFlags kParseFlags = kMergePartial> void BM_Parse_Proto2(benchmark::State& state) { size_t bytes = 0; for (auto _ : state) { Factory

proto_factory; auto proto = proto_factory.GetProto(); protobuf::StringPiece input(descriptor.data,descriptor.size); bool ok = proto->template ParseFrom(input); if (!ok) { printf("Failed to parse.\n"); exit(1); } bytes += descriptor.size; } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDesc, NoArena); BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDesc, WithArena); BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDesc, WithInitialBlock); //BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, NoArena); //BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, WithArena); BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, WithInitialBlock); //BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, NoArena, kAliasStrings); //BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, WithArena, kAliasStrings); BENCHMARK_TEMPLATE(BM_Parse_Proto2, FileDescSV, WithInitialBlock, kAliasStrings); static void BM_SerializeDescriptor_Proto2(benchmark::State& state) { size_t bytes = 0; upb_benchmark::FileDescriptorProto proto; proto.ParseFromArray(descriptor.data, descriptor.size); for (auto _ : state) { proto.SerializePartialToArray(buf, sizeof(buf)); bytes += descriptor.size; } state.SetBytesProcessed(state.iterations() * descriptor.size); } BENCHMARK(BM_SerializeDescriptor_Proto2); static void BM_SerializeDescriptor_Upb(benchmark::State& state) { int64_t total = 0; upb_arena* arena = upb_arena_new(); upb_benchmark_FileDescriptorProto* set = upb_benchmark_FileDescriptorProto_parse(descriptor.data, descriptor.size, arena); if (!set) { printf("Failed to parse.\n"); exit(1); } for (auto _ : state) { upb_arena* enc_arena = upb_arena_init(buf, sizeof(buf), NULL); size_t size; char* data = upb_benchmark_FileDescriptorProto_serialize(set, enc_arena, &size); if (!data) { printf("Failed to serialize.\n"); exit(1); } total += size; } state.SetBytesProcessed(total); } BENCHMARK(BM_SerializeDescriptor_Upb);