#include #include #include #include #undef NDEBUG #include "../src/commandlineflags.h" #include "../src/perf_counters.h" #include "benchmark/benchmark_api.h" #include "benchmark/registration.h" #include "benchmark/state.h" #include "benchmark/utils.h" #include "output_test.h" namespace benchmark { BM_DECLARE_string(benchmark_perf_counters); } // namespace benchmark namespace { const char kGenericPerfEvent1[] = "CYCLES"; const char kGenericPerfEvent2[] = "INSTRUCTIONS"; std::set UniqueCounterNames( const benchmark::internal::PerfCounters& counters) { return {counters.names().begin(), counters.names().end()}; } bool HasRequiredPerfCounters(const std::vector& names) { if (!benchmark::internal::PerfCounters::kSupported) { return false; } auto counters = benchmark::internal::PerfCounters::Create(names); auto actual_names = UniqueCounterNames(counters); for (const auto& name : names) { if (actual_names.find(name) == actual_names.end()) { return false; } } return true; } void BM_Simple(benchmark::State& state) { for (auto _ : state) { auto iterations = double(state.iterations()) * double(state.iterations()); benchmark::DoNotOptimize(iterations); } } BENCHMARK(BM_Simple); ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Simple\",$"}}); const int kIters = 1000000; void BM_WithoutPauseResume(benchmark::State& state) { int n = 0; for (auto _ : state) { for (auto i = 0; i < kIters; ++i) { n = 1 - n; benchmark::DoNotOptimize(n); } } } BENCHMARK(BM_WithoutPauseResume); ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_WithoutPauseResume\",$"}}); void BM_WithPauseResume(benchmark::State& state) { int m = 0, n = 0; for (auto _ : state) { for (auto i = 0; i < kIters; ++i) { n = 1 - n; benchmark::DoNotOptimize(n); } state.PauseTiming(); for (auto j = 0; j < kIters; ++j) { m = 1 - m; benchmark::DoNotOptimize(m); } state.ResumeTiming(); } } BENCHMARK(BM_WithPauseResume); ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_WithPauseResume\",$"}}); static void CheckSimple(Results const& e) { CHECK_COUNTER_VALUE(e, double, kGenericPerfEvent1, GT, 0); } double withoutPauseResumeInstrCount = 0.0; double withPauseResumeInstrCount = 0.0; void SaveInstrCountWithoutResume(Results const& e) { withoutPauseResumeInstrCount = e.GetAs(kGenericPerfEvent2); } void SaveInstrCountWithResume(Results const& e) { withPauseResumeInstrCount = e.GetAs(kGenericPerfEvent2); } CHECK_BENCHMARK_RESULTS("BM_Simple", &CheckSimple); CHECK_BENCHMARK_RESULTS("BM_WithoutPauseResume", &SaveInstrCountWithoutResume); CHECK_BENCHMARK_RESULTS("BM_WithPauseResume", &SaveInstrCountWithResume); } // end namespace int main(int argc, char* argv[]) { benchmark::MaybeReenterWithoutASLR(argc, argv); if (!HasRequiredPerfCounters({kGenericPerfEvent1, kGenericPerfEvent2})) { return 0; } benchmark::FLAGS_benchmark_perf_counters = std::string(kGenericPerfEvent1) + "," + kGenericPerfEvent2; benchmark::internal::PerfCounters::Initialize(); RunOutputTests(argc, argv); BM_CHECK_GT(withPauseResumeInstrCount, kIters); BM_CHECK_GT(withoutPauseResumeInstrCount, kIters); BM_CHECK_LT(withPauseResumeInstrCount, 1.5 * withoutPauseResumeInstrCount); }