mirror of
https://gitee.com/openharmony/third_party_benchmark
synced 2024-11-23 15:30:48 +00:00
191 lines
9.2 KiB
C++
191 lines
9.2 KiB
C++
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#undef NDEBUG
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#include "benchmark/benchmark.h"
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#include "output_test.h"
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// ========================================================================= //
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// ---------------------- Testing Prologue Output -------------------------- //
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// ========================================================================= //
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ADD_CASES(TC_ConsoleOut,
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{{"^[-]+$", MR_Next},
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{"^Benchmark %s Time %s CPU %s Iterations UserCounters...$", MR_Next},
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{"^[-]+$", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"%csv_header,\"bar\",\"foo\""}});
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// ========================================================================= //
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// ------------------------- Simple Counters Output ------------------------ //
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// ========================================================================= //
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void BM_Counters_Simple(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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state.counters["foo"] = 1;
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state.counters["bar"] = 2 * state.iterations();
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}
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BENCHMARK(BM_Counters_Simple);
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ADD_CASES(TC_ConsoleOut, {{"^BM_Counters_Simple %console_report bar=%hrfloat foo=%hrfloat$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_Simple\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_Simple\",%csv_report,%float,%float$"}});
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CHECK_BENCHMARK_RESULTS("BM_Counters_Simple", [](ResultsCheckerEntry const& e) {
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double its = e.GetAs< double >("iterations");
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CHECK_COUNTER_VALUE(e, int, "foo", EQ, 1);
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// check that the value of bar is within 0.1% of the expected value
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CHECK_COUNTER_VALUE_EPS(e, "bar", EQ_EPS, 2.*its, 0.001);
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});
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// ========================================================================= //
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// --------------------- Counters+Items+Bytes/s Output --------------------- //
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// ========================================================================= //
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namespace { int num_calls1 = 0; }
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void BM_Counters_WithBytesAndItemsPSec(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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state.counters["foo"] = 1;
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state.counters["bar"] = ++num_calls1;
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state.SetBytesProcessed(364);
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state.SetItemsProcessed(150);
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}
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BENCHMARK(BM_Counters_WithBytesAndItemsPSec);
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ADD_CASES(TC_ConsoleOut,
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{{"^BM_Counters_WithBytesAndItemsPSec %console_report "
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"bar=%hrfloat foo=%hrfloat +%hrfloatB/s +%hrfloat items/s$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_WithBytesAndItemsPSec\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bytes_per_second\": %int,$", MR_Next},
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{"\"items_per_second\": %int,$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_WithBytesAndItemsPSec\","
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"%csv_bytes_items_report,%float,%float$"}});
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CHECK_BENCHMARK_RESULTS("BM_Counters_WithBytesAndItemsPSec",
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[](ResultsCheckerEntry const& e) {
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double t = e.DurationCPUTime(); // this (and not real time) is the time used
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CHECK_COUNTER_VALUE(e, int, "foo", EQ, 1);
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CHECK_COUNTER_VALUE(e, int, "bar", EQ, num_calls1);
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// check that the values are within 0.1% of the expected values
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CHECK_RESULT_VALUE_EPS(e, "bytes_per_second", EQ_EPS, 364./t, 0.001);
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CHECK_RESULT_VALUE_EPS(e, "items_per_second", EQ_EPS, 150./t, 0.001);
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});
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// ========================================================================= //
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// ------------------------- Rate Counters Output -------------------------- //
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// ========================================================================= //
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void BM_Counters_Rate(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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namespace bm = benchmark;
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state.counters["foo"] = bm::Counter{1, bm::Counter::kIsRate};
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state.counters["bar"] = bm::Counter{2, bm::Counter::kIsRate};
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}
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BENCHMARK(BM_Counters_Rate);
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ADD_CASES(TC_ConsoleOut, {{"^BM_Counters_Rate %console_report bar=%hrfloat foo=%hrfloat$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_Rate\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_Rate\",%csv_report,%float,%float$"}});
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CHECK_BENCHMARK_RESULTS("BM_Counters_Rate",
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[](ResultsCheckerEntry const& e) {
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double t = e.DurationCPUTime(); // this (and not real time) is the time used
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// check that the values are within 0.1% of the expected values
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CHECK_COUNTER_VALUE_EPS(e, "foo", EQ_EPS, 1./t, 0.001);
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CHECK_COUNTER_VALUE_EPS(e, "bar", EQ_EPS, 2./t, 0.001);
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});
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// ========================================================================= //
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// ------------------------- Thread Counters Output ------------------------ //
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// ========================================================================= //
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void BM_Counters_Threads(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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state.counters["foo"] = 1;
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state.counters["bar"] = 2;
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}
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BENCHMARK(BM_Counters_Threads)->ThreadRange(1, 8);
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ADD_CASES(TC_ConsoleOut, {{"^BM_Counters_Threads/threads:%int %console_report bar=%hrfloat foo=%hrfloat$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_Threads/threads:%int\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_Threads/threads:%int\",%csv_report,%float,%float$"}});
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CHECK_BENCHMARK_RESULTS("BM_Counters_Threads/threads:%int",
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[](ResultsCheckerEntry const& e) {
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std::cout << "BOO: " << e.name << "\n";
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});
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// ========================================================================= //
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// ---------------------- ThreadAvg Counters Output ------------------------ //
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// ========================================================================= //
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void BM_Counters_AvgThreads(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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namespace bm = benchmark;
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state.counters["foo"] = bm::Counter{1, bm::Counter::kAvgThreads};
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state.counters["bar"] = bm::Counter{2, bm::Counter::kAvgThreads};
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}
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BENCHMARK(BM_Counters_AvgThreads)->ThreadRange(1, 8);
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ADD_CASES(TC_ConsoleOut, {{"^BM_Counters_AvgThreads/threads:%int %console_report bar=%hrfloat foo=%hrfloat$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_AvgThreads/threads:%int\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_AvgThreads/threads:%int\",%csv_report,%float,%float$"}});
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// ========================================================================= //
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// ---------------------- ThreadAvg Counters Output ------------------------ //
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// ========================================================================= //
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void BM_Counters_AvgThreadsRate(benchmark::State& state) {
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while (state.KeepRunning()) {
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}
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namespace bm = benchmark;
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state.counters["foo"] = bm::Counter{1, bm::Counter::kAvgThreadsRate};
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state.counters["bar"] = bm::Counter{2, bm::Counter::kAvgThreadsRate};
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}
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BENCHMARK(BM_Counters_AvgThreadsRate)->ThreadRange(1, 8);
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ADD_CASES(TC_ConsoleOut, {{"^BM_Counters_AvgThreadsRate/threads:%int %console_report bar=%hrfloat foo=%hrfloat$"}});
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ADD_CASES(TC_JSONOut, {{"\"name\": \"BM_Counters_AvgThreadsRate/threads:%int\",$"},
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{"\"iterations\": %int,$", MR_Next},
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{"\"real_time\": %int,$", MR_Next},
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{"\"cpu_time\": %int,$", MR_Next},
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{"\"time_unit\": \"ns\",$", MR_Next},
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{"\"bar\": %float,$", MR_Next},
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{"\"foo\": %float$", MR_Next},
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{"}", MR_Next}});
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ADD_CASES(TC_CSVOut, {{"^\"BM_Counters_AvgThreadsRate/threads:%int\",%csv_report,%float,%float$"}});
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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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