forked from OSchip/llvm-project
185 lines
5.5 KiB
C++
185 lines
5.5 KiB
C++
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#undef NDEBUG
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#include <chrono>
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#include <thread>
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#include "../src/timers.h"
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#include "benchmark/benchmark.h"
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#include "output_test.h"
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static const std::chrono::duration<double, std::milli> time_frame(50);
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static const double time_frame_in_sec(
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std::chrono::duration_cast<std::chrono::duration<double, std::ratio<1, 1>>>(
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time_frame)
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.count());
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void MyBusySpinwait() {
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const auto start = benchmark::ChronoClockNow();
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while (true) {
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const auto now = benchmark::ChronoClockNow();
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const auto elapsed = now - start;
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if (std::chrono::duration<double, std::chrono::seconds::period>(elapsed) >=
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time_frame)
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return;
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}
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}
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// ========================================================================= //
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// --------------------------- TEST CASES BEGIN ---------------------------- //
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// ========================================================================= //
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// ========================================================================= //
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// BM_MainThread
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void BM_MainThread(benchmark::State& state) {
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for (auto _ : state) {
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MyBusySpinwait();
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state.SetIterationTime(time_frame_in_sec);
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}
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state.counters["invtime"] =
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benchmark::Counter{1, benchmark::Counter::kIsRate};
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}
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(1);
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(1)->UseRealTime();
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(1)->UseManualTime();
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(1)->MeasureProcessCPUTime();
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BENCHMARK(BM_MainThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_MainThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseManualTime();
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(2);
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(2)->UseRealTime();
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(2)->UseManualTime();
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BENCHMARK(BM_MainThread)->Iterations(1)->Threads(2)->MeasureProcessCPUTime();
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BENCHMARK(BM_MainThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_MainThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseManualTime();
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// ========================================================================= //
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// BM_WorkerThread
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void BM_WorkerThread(benchmark::State& state) {
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for (auto _ : state) {
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std::thread Worker(&MyBusySpinwait);
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Worker.join();
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state.SetIterationTime(time_frame_in_sec);
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}
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state.counters["invtime"] =
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benchmark::Counter{1, benchmark::Counter::kIsRate};
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}
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(1);
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(1)->UseRealTime();
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(1)->UseManualTime();
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(1)->MeasureProcessCPUTime();
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BENCHMARK(BM_WorkerThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_WorkerThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseManualTime();
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(2);
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(2)->UseRealTime();
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(2)->UseManualTime();
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BENCHMARK(BM_WorkerThread)->Iterations(1)->Threads(2)->MeasureProcessCPUTime();
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BENCHMARK(BM_WorkerThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_WorkerThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseManualTime();
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// ========================================================================= //
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// BM_MainThreadAndWorkerThread
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void BM_MainThreadAndWorkerThread(benchmark::State& state) {
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for (auto _ : state) {
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std::thread Worker(&MyBusySpinwait);
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MyBusySpinwait();
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Worker.join();
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state.SetIterationTime(time_frame_in_sec);
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}
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state.counters["invtime"] =
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benchmark::Counter{1, benchmark::Counter::kIsRate};
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}
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BENCHMARK(BM_MainThreadAndWorkerThread)->Iterations(1)->Threads(1);
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(1)
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->UseRealTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(1)
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->UseManualTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(1)
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->MeasureProcessCPUTime()
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->UseManualTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)->Iterations(1)->Threads(2);
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(2)
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->UseRealTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(2)
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->UseManualTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseRealTime();
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BENCHMARK(BM_MainThreadAndWorkerThread)
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->Iterations(1)
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->Threads(2)
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->MeasureProcessCPUTime()
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->UseManualTime();
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// ========================================================================= //
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// ---------------------------- TEST CASES END ----------------------------- //
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// ========================================================================= //
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int main(int argc, char* argv[]) { RunOutputTests(argc, argv); }
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