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https://gitee.com/openharmony/third_party_benchmark
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Add process_time for better OpenMP and user-managed thread timing
* Google Benchmark now works with OpenMP and other user-managed threading.
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README.md
43
README.md
@ -428,6 +428,49 @@ BENCHMARK(BM_test)->Range(8, 8<<10)->UseRealTime();
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Without `UseRealTime`, CPU time is used by default.
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## CPU timers
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By default, the CPU timer only measures the time spent by the main thread.
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If the benchmark itself uses threads internally, this measurement may not
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be what you are looking for. Instead, there is a way to measure the total
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CPU usage of the process, by all the threads.
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```c++
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void callee(int i);
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static void MyMain(int size) {
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#pragma omp parallel for
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for(int i = 0; i < size; i++)
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callee(i);
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}
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static void BM_OpenMP(benchmark::State& state) {
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for (auto _ : state)
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MyMain(state.range(0);
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}
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// Measure the time spent by the main thread, use it to decide for how long to
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// run the benchmark loop. Depending on the internal implementation detail may
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// measure to anywhere from near-zero (the overhead spent before/after work
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// handoff to worker thread[s]) to the whole single-thread time.
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BENCHMARK(BM_OpenMP)->Range(8, 8<<10);
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// Measure the user-visible time, the wall clock (literally, the time that
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// has passed on the clock on the wall), use it to decide for how long to
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// run the benchmark loop. This will always be meaningful, an will match the
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// time spent by the main thread in single-threaded case, in general decreasing
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// with the number of internal threads doing the work.
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BENCHMARK(BM_OpenMP)->Range(8, 8<<10)->UseRealTime();
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// Measure the total CPU consumption, use it to decide for how long to
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// run the benchmark loop. This will always measure to no less than the
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// time spent by the main thread in single-threaded case.
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BENCHMARK(BM_OpenMP)->Range(8, 8<<10)->MeasureProcessCPUTime();
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// A mixture of the last two. Measure the total CPU consumption, but use the
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// wall clock to decide for how long to run the benchmark loop.
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BENCHMARK(BM_OpenMP)->Range(8, 8<<10)->MeasureProcessCPUTime()->UseRealTime();
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```
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## Controlling timers
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Normally, the entire duration of the work loop (`for (auto _ : state) {}`)
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is measured. But sometimes, it is nessesary to do some work inside of
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@ -874,11 +874,18 @@ class Benchmark {
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// Same as ReportAggregatesOnly(), but applies to display reporter only.
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Benchmark* DisplayAggregatesOnly(bool value = true);
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// If a particular benchmark is I/O bound, runs multiple threads internally or
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// if for some reason CPU timings are not representative, call this method. If
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// called, the elapsed time will be used to control how many iterations are
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// run, and in the printing of items/second or MB/seconds values. If not
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// called, the cpu time used by the benchmark will be used.
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// By default, the CPU time is measured only for the main thread, which may
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// be unrepresentative if the benchmark uses threads internally. If called,
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// the total CPU time spent by all the threads will be measured instead.
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// By default, the only the main thread CPU time will be measured.
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Benchmark* MeasureProcessCPUTime();
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// If a particular benchmark should use the Wall clock instead of the CPU time
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// (be it either the CPU time of the main thread only (default), or the
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// total CPU usage of the benchmark), call this method. If called, the elapsed
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// (wall) time will be used to control how many iterations are run, and in the
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// printing of items/second or MB/seconds values.
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// If not called, the CPU time used by the benchmark will be used.
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Benchmark* UseRealTime();
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// If a benchmark must measure time manually (e.g. if GPU execution time is
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@ -952,6 +959,7 @@ class Benchmark {
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double min_time_;
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size_t iterations_;
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int repetitions_;
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bool measure_process_cpu_time_;
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bool use_real_time_;
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bool use_manual_time_;
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BigO complexity_;
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@ -22,6 +22,7 @@ struct BenchmarkInstance {
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std::vector<int64_t> arg;
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TimeUnit time_unit;
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int range_multiplier;
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bool measure_process_cpu_time;
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bool use_real_time;
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bool use_manual_time;
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BigO complexity;
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@ -165,6 +165,7 @@ bool BenchmarkFamilies::FindBenchmarks(
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instance.min_time = family->min_time_;
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instance.iterations = family->iterations_;
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instance.repetitions = family->repetitions_;
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instance.measure_process_cpu_time = family->measure_process_cpu_time_;
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instance.use_real_time = family->use_real_time_;
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instance.use_manual_time = family->use_manual_time_;
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instance.complexity = family->complexity_;
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@ -202,10 +203,20 @@ bool BenchmarkFamilies::FindBenchmarks(
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instance.name.repetitions =
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StrFormat("repeats:%d", family->repetitions_);
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if (family->measure_process_cpu_time_) {
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instance.name.time_type = "process_time";
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}
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if (family->use_manual_time_) {
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instance.name.time_type = "manual_time";
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if (!instance.name.time_type.empty()) {
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instance.name.time_type += '/';
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}
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instance.name.time_type += "manual_time";
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} else if (family->use_real_time_) {
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instance.name.time_type = "real_time";
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if (!instance.name.time_type.empty()) {
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instance.name.time_type += '/';
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}
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instance.name.time_type += "real_time";
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}
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// Add the number of threads used to the name
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@ -252,6 +263,7 @@ Benchmark::Benchmark(const char* name)
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min_time_(0),
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iterations_(0),
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repetitions_(0),
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measure_process_cpu_time_(false),
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use_real_time_(false),
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use_manual_time_(false),
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complexity_(oNone),
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@ -398,6 +410,12 @@ Benchmark* Benchmark::DisplayAggregatesOnly(bool value) {
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return this;
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}
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Benchmark* Benchmark::MeasureProcessCPUTime() {
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// Can be used together with UseRealTime() / UseManualTime().
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measure_process_cpu_time_ = true;
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return this;
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}
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Benchmark* Benchmark::UseRealTime() {
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CHECK(!use_manual_time_)
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<< "Cannot set UseRealTime and UseManualTime simultaneously.";
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@ -111,7 +111,10 @@ BenchmarkReporter::Run CreateRunReport(
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// Adds the stats collected for the thread into *total.
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void RunInThread(const BenchmarkInstance* b, size_t iters, int thread_id,
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ThreadManager* manager) {
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internal::ThreadTimer timer;
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internal::ThreadTimer timer(
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b->measure_process_cpu_time
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? internal::ThreadTimer::CreateProcessCpuTime()
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: internal::ThreadTimer::Create());
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State st = b->Run(iters, thread_id, &timer, manager);
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CHECK(st.iterations() >= st.max_iterations)
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<< "Benchmark returned before State::KeepRunning() returned false!";
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@ -226,6 +229,8 @@ class BenchmarkRunner {
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// Adjust real/manual time stats since they were reported per thread.
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i.results.real_time_used /= b.threads;
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i.results.manual_time_used /= b.threads;
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// If we were measuring whole-process CPU usage, adjust the CPU time too.
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if (b.measure_process_cpu_time) i.results.cpu_time_used /= b.threads;
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VLOG(2) << "Ran in " << i.results.cpu_time_used << "/"
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<< i.results.real_time_used << "\n";
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@ -8,14 +8,22 @@ namespace benchmark {
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namespace internal {
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class ThreadTimer {
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explicit ThreadTimer(bool measure_process_cpu_time_)
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: measure_process_cpu_time(measure_process_cpu_time_) {}
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public:
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ThreadTimer() = default;
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static ThreadTimer Create() {
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return ThreadTimer(/*measure_process_cpu_time_=*/false);
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}
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static ThreadTimer CreateProcessCpuTime() {
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return ThreadTimer(/*measure_process_cpu_time_=*/true);
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}
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// Called by each thread
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void StartTimer() {
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running_ = true;
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start_real_time_ = ChronoClockNow();
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start_cpu_time_ = ThreadCPUUsage();
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start_cpu_time_ = ReadCpuTimerOfChoice();
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}
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// Called by each thread
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@ -25,7 +33,8 @@ class ThreadTimer {
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real_time_used_ += ChronoClockNow() - start_real_time_;
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// Floating point error can result in the subtraction producing a negative
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// time. Guard against that.
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cpu_time_used_ += std::max<double>(ThreadCPUUsage() - start_cpu_time_, 0);
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cpu_time_used_ +=
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std::max<double>(ReadCpuTimerOfChoice() - start_cpu_time_, 0);
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}
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// Called by each thread
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@ -52,6 +61,14 @@ class ThreadTimer {
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}
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private:
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double ReadCpuTimerOfChoice() const {
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if (measure_process_cpu_time) return ProcessCPUUsage();
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return ThreadCPUUsage();
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}
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// should the thread, or the process, time be measured?
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const bool measure_process_cpu_time;
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bool running_ = false; // Is the timer running
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double start_real_time_ = 0; // If running_
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double start_cpu_time_ = 0; // If running_
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@ -125,6 +125,9 @@ add_test(templated_fixture_test templated_fixture_test --benchmark_min_time=0.01
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compile_output_test(user_counters_test)
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add_test(user_counters_test user_counters_test --benchmark_min_time=0.01)
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compile_output_test(internal_threading_test)
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add_test(internal_threading_test internal_threading_test --benchmark_min_time=0.01)
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compile_output_test(report_aggregates_only_test)
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add_test(report_aggregates_only_test report_aggregates_only_test --benchmark_min_time=0.01)
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184
test/internal_threading_test.cc
Normal file
184
test/internal_threading_test.cc
Normal file
@ -0,0 +1,184 @@
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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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