mirror of https://github.com/NekoX-Dev/NekoX.git
190 lines
5.2 KiB
C++
190 lines
5.2 KiB
C++
// Copyright 2017 The Chromium Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "base/synchronization/waitable_event.h"
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#include <string>
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#include "base/threading/simple_thread.h"
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#include "base/time/time.h"
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#include "base/timer/elapsed_timer.h"
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#include "testing/gtest/include/gtest/gtest.h"
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#include "testing/perf/perf_result_reporter.h"
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namespace base {
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namespace {
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constexpr char kMetricPrefixWaitableEvent[] = "WaitableEvent.";
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constexpr char kMetricWaitTime[] = "wait_time_per_sample";
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constexpr char kMetricSignalTime[] = "signal_time_per_sample";
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constexpr char kMetricElapsedCycles[] = "elapsed_cycles";
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constexpr char kStorySingleThread[] = "single_thread_1000_samples";
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constexpr char kStoryMultiThreadWaiter[] = "multi_thread_1000_samples_waiter";
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constexpr char kStoryMultiThreadSignaler[] =
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"multi_thread_1000_samples_signaler";
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constexpr char kStoryTimedThroughput[] = "timed_throughput";
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perf_test::PerfResultReporter SetUpReporter(const std::string& story_name) {
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perf_test::PerfResultReporter reporter(kMetricPrefixWaitableEvent,
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story_name);
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reporter.RegisterImportantMetric(kMetricWaitTime, "ns");
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reporter.RegisterImportantMetric(kMetricSignalTime, "ns");
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reporter.RegisterImportantMetric(kMetricElapsedCycles, "count");
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return reporter;
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}
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class TraceWaitableEvent {
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public:
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TraceWaitableEvent() = default;
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~TraceWaitableEvent() = default;
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void Signal() {
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ElapsedTimer timer;
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event_.Signal();
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total_signal_time_ += timer.Elapsed();
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++signal_samples_;
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}
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void Wait() {
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ElapsedTimer timer;
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event_.Wait();
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total_wait_time_ += timer.Elapsed();
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++wait_samples_;
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}
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bool TimedWaitUntil(const TimeTicks& end_time) {
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ElapsedTimer timer;
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const bool signaled = event_.TimedWait(end_time - timer.Begin());
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total_wait_time_ += timer.Elapsed();
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++wait_samples_;
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return signaled;
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}
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bool IsSignaled() { return event_.IsSignaled(); }
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TimeDelta total_signal_time() const { return total_signal_time_; }
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TimeDelta total_wait_time() const { return total_wait_time_; }
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size_t signal_samples() const { return signal_samples_; }
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size_t wait_samples() const { return wait_samples_; }
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private:
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WaitableEvent event_{WaitableEvent::ResetPolicy::AUTOMATIC};
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TimeDelta total_signal_time_;
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TimeDelta total_wait_time_;
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size_t signal_samples_ = 0U;
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size_t wait_samples_ = 0U;
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DISALLOW_COPY_AND_ASSIGN(TraceWaitableEvent);
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};
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class SignalerThread : public SimpleThread {
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public:
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SignalerThread(TraceWaitableEvent* waiter, TraceWaitableEvent* signaler)
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: SimpleThread("WaitableEventPerfTest signaler"),
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waiter_(waiter),
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signaler_(signaler) {}
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~SignalerThread() override = default;
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void Run() override {
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while (!stop_event_.IsSignaled()) {
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if (waiter_)
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waiter_->Wait();
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if (signaler_)
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signaler_->Signal();
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}
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}
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// Signals the thread to stop on the next iteration of its loop (which
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// will happen immediately if no |waiter_| is present or is signaled.
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void RequestStop() { stop_event_.Signal(); }
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private:
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WaitableEvent stop_event_;
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TraceWaitableEvent* waiter_;
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TraceWaitableEvent* signaler_;
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DISALLOW_COPY_AND_ASSIGN(SignalerThread);
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};
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void PrintPerfWaitableEvent(const TraceWaitableEvent* event,
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const std::string& story_name,
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size_t* elapsed_cycles = nullptr) {
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auto reporter = SetUpReporter(story_name);
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reporter.AddResult(
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kMetricSignalTime,
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static_cast<size_t>(event->total_signal_time().InNanoseconds()) /
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event->signal_samples());
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reporter.AddResult(
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kMetricWaitTime,
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static_cast<size_t>(event->total_wait_time().InNanoseconds()) /
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event->wait_samples());
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if (elapsed_cycles) {
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reporter.AddResult(kMetricElapsedCycles, *elapsed_cycles);
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}
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}
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} // namespace
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TEST(WaitableEventPerfTest, SingleThread) {
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const size_t kSamples = 1000;
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TraceWaitableEvent event;
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for (size_t i = 0; i < kSamples; ++i) {
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event.Signal();
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event.Wait();
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}
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PrintPerfWaitableEvent(&event, kStorySingleThread);
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}
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TEST(WaitableEventPerfTest, MultipleThreads) {
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const size_t kSamples = 1000;
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TraceWaitableEvent waiter;
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TraceWaitableEvent signaler;
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// The other thread will wait and signal on the respective opposite events.
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SignalerThread thread(&signaler, &waiter);
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thread.Start();
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for (size_t i = 0; i < kSamples; ++i) {
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signaler.Signal();
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waiter.Wait();
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}
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// Signal the stop event and then make sure the signaler event it is
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// waiting on is also signaled.
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thread.RequestStop();
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signaler.Signal();
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thread.Join();
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PrintPerfWaitableEvent(&waiter, kStoryMultiThreadWaiter);
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PrintPerfWaitableEvent(&signaler, kStoryMultiThreadSignaler);
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}
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TEST(WaitableEventPerfTest, Throughput) {
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TraceWaitableEvent event;
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SignalerThread thread(nullptr, &event);
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thread.Start();
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const TimeTicks end_time = TimeTicks::Now() + TimeDelta::FromSeconds(1);
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size_t count = 0;
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while (event.TimedWaitUntil(end_time)) {
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++count;
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}
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thread.RequestStop();
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thread.Join();
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PrintPerfWaitableEvent(&event, kStoryTimedThroughput, &count);
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}
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} // namespace base
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