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#include "benchmark/benchmark.h"
#define BASIC_BENCHMARK_TEST(x) BENCHMARK(x)->Arg(8)->Arg(512)->Arg(8192)
void BM_empty(benchmark::State& state) {
for (auto _ : state) {
benchmark::DoNotOptimize(state.iterations());
}
}
BENCHMARK(BM_empty);
BENCHMARK(BM_empty)->ThreadPerCpu();
void BM_spin_empty(benchmark::State& state) {
for (auto _ : state) {
for (int x = 0; x < state.range(0); ++x) {
benchmark::DoNotOptimize(x);
}
}
}
BASIC_BENCHMARK_TEST(BM_spin_empty);
BASIC_BENCHMARK_TEST(BM_spin_empty)->ThreadPerCpu();
void BM_spin_pause_before(benchmark::State& state) {
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
for (auto _ : state) {
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
}
BASIC_BENCHMARK_TEST(BM_spin_pause_before);
BASIC_BENCHMARK_TEST(BM_spin_pause_before)->ThreadPerCpu();
void BM_spin_pause_during(benchmark::State& state) {
for (auto _ : state) {
state.PauseTiming();
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
state.ResumeTiming();
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
}
BASIC_BENCHMARK_TEST(BM_spin_pause_during);
BASIC_BENCHMARK_TEST(BM_spin_pause_during)->ThreadPerCpu();
void BM_pause_during(benchmark::State& state) {
for (auto _ : state) {
state.PauseTiming();
state.ResumeTiming();
}
}
BENCHMARK(BM_pause_during);
BENCHMARK(BM_pause_during)->ThreadPerCpu();
BENCHMARK(BM_pause_during)->UseRealTime();
BENCHMARK(BM_pause_during)->UseRealTime()->ThreadPerCpu();
void BM_spin_pause_after(benchmark::State& state) {
for (auto _ : state) {
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
BASIC_BENCHMARK_TEST(BM_spin_pause_after);
BASIC_BENCHMARK_TEST(BM_spin_pause_after)->ThreadPerCpu();
void BM_spin_pause_before_and_after(benchmark::State& state) {
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
for (auto _ : state) {
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
for (int i = 0; i < state.range(0); ++i) {
benchmark::DoNotOptimize(i);
}
}
BASIC_BENCHMARK_TEST(BM_spin_pause_before_and_after);
BASIC_BENCHMARK_TEST(BM_spin_pause_before_and_after)->ThreadPerCpu();
void BM_empty_stop_start(benchmark::State& state) {
for (auto _ : state) {
}
}
BENCHMARK(BM_empty_stop_start);
BENCHMARK(BM_empty_stop_start)->ThreadPerCpu();
void BM_KeepRunning(benchmark::State& state) {
size_t iter_count = 0;
assert(iter_count == state.iterations());
while (state.KeepRunning()) {
++iter_count;
}
assert(iter_count == state.iterations());
}
BENCHMARK(BM_KeepRunning);
void BM_KeepRunningBatch(benchmark::State& state) {
// Choose a prime batch size to avoid evenly dividing max_iterations.
const size_t batch_size = 101;
size_t iter_count = 0;
while (state.KeepRunningBatch(batch_size)) {
iter_count += batch_size;
}
assert(state.iterations() == iter_count);
}
BENCHMARK(BM_KeepRunningBatch);
void BM_RangedFor(benchmark::State& state) {
size_t iter_count = 0;
for (auto _ : state) {
++iter_count;
}
assert(iter_count == state.max_iterations);
}
BENCHMARK(BM_RangedFor);
// Ensure that StateIterator provides all the necessary typedefs required to
// instantiate std::iterator_traits.
static_assert(std::is_same<
typename std::iterator_traits<benchmark::State::StateIterator>::value_type,
typename benchmark::State::StateIterator::value_type>::value, "");
BENCHMARK_MAIN();