test/testsupport/perf_test.cc - src - Git at Google

 /*
  *  Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
  *
  *  Use of this source code is governed by a BSD-style license
  *  that can be found in the LICENSE file in the root of the source
  *  tree. An additional intellectual property rights grant can be found
  *  in the file PATENTS.  All contributing project authors may
  *  be found in the AUTHORS file in the root of the source tree.
  */

 #include "test/testsupport/perf_test.h"

 #include <stdio.h>

 #include <fstream>
 #include <set>
 #include <sstream>
 #include <vector>

 #include "absl/strings/string_view.h"
 #include "api/numerics/samples_stats_counter.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/strings/string_builder.h"
 #include "rtc_base/synchronization/mutex.h"
 #include "test/testsupport/file_utils.h"
 #include "test/testsupport/perf_test_histogram_writer.h"

 namespace webrtc {
 namespace test {

 namespace {

 std::string UnitWithDirection(
     absl::string_view units,
     webrtc::test::ImproveDirection improve_direction) {
   switch (improve_direction) {
     case webrtc::test::ImproveDirection::kNone:
       return std::string(units);
     case webrtc::test::ImproveDirection::kSmallerIsBetter:
       return std::string(units) + "_smallerIsBetter";
     case webrtc::test::ImproveDirection::kBiggerIsBetter:
       return std::string(units) + "_biggerIsBetter";
   }
 }

 std::vector<SamplesStatsCounter::StatsSample> GetSortedSamples(
     const SamplesStatsCounter& counter) {
   rtc::ArrayView<const SamplesStatsCounter::StatsSample> view =
       counter.GetTimedSamples();
   std::vector<SamplesStatsCounter::StatsSample> out(view.begin(), view.end());
   std::sort(out.begin(), out.end(),
             [](const SamplesStatsCounter::StatsSample& a,
                const SamplesStatsCounter::StatsSample& b) {
               return a.time < b.time;
             });
   return out;
 }

 template <typename Container>
 void OutputListToStream(std::ostream* ostream, const Container& values) {
   const char* sep = "";
   for (const auto& v : values) {
     (*ostream) << sep << v;
     sep = ",";
   }
 }

 struct PlottableCounter {
   std::string graph_name;
   std::string trace_name;
   webrtc::SamplesStatsCounter counter;
   std::string units;
 };

 class PlottableCounterPrinter {
  public:
   PlottableCounterPrinter() : output_(stdout) {}

   void SetOutput(FILE* output) {
     MutexLock lock(&mutex_);
     output_ = output;
   }

   void AddCounter(absl::string_view graph_name,
                   absl::string_view trace_name,
                   const webrtc::SamplesStatsCounter& counter,
                   absl::string_view units) {
     MutexLock lock(&mutex_);
     plottable_counters_.push_back({std::string(graph_name),
                                    std::string(trace_name), counter,
                                    std::string(units)});
   }

   void Print(const std::vector<std::string>& desired_graphs_raw) const {
     std::set<std::string> desired_graphs(desired_graphs_raw.begin(),
                                          desired_graphs_raw.end());
     MutexLock lock(&mutex_);
     for (auto& counter : plottable_counters_) {
       if (!desired_graphs.empty()) {
         auto it = desired_graphs.find(counter.graph_name);
         if (it == desired_graphs.end()) {
           continue;
         }
       }

       std::ostringstream value_stream;
       value_stream.precision(8);
       value_stream << R"({"graph_name":")" << counter.graph_name << R"(",)";
       value_stream << R"("trace_name":")" << counter.trace_name << R"(",)";
       value_stream << R"("units":")" << counter.units << R"(",)";
       if (!counter.counter.IsEmpty()) {
         value_stream << R"("mean":)" << counter.counter.GetAverage() << ',';
         value_stream << R"("std":)" << counter.counter.GetStandardDeviation()
                      << ',';
       }
       value_stream << R"("samples":[)";
       const char* sep = "";
       for (const auto& sample : counter.counter.GetTimedSamples()) {
         value_stream << sep << R"({"time":)" << sample.time.us() << ','
                      << R"("value":)" << sample.value << '}';
         sep = ",";
       }
       value_stream << "]}";

       fprintf(output_, "PLOTTABLE_DATA: %s\n", value_stream.str().c_str());
     }
   }

  private:
   mutable Mutex mutex_;
   std::vector<PlottableCounter> plottable_counters_ RTC_GUARDED_BY(&mutex_);
   FILE* output_ RTC_GUARDED_BY(&mutex_);
 };

 PlottableCounterPrinter& GetPlottableCounterPrinter() {
   static PlottableCounterPrinter* printer_ = new PlottableCounterPrinter();
   return *printer_;
 }

 class ResultsLinePrinter {
  public:
   ResultsLinePrinter() : output_(stdout) {}

   void SetOutput(FILE* output) {
     MutexLock lock(&mutex_);
     output_ = output;
   }

   void PrintResult(absl::string_view graph_name,
                    absl::string_view trace_name,
                    const double value,
                    absl::string_view units,
                    bool important,
                    ImproveDirection improve_direction) {
     std::ostringstream value_stream;
     value_stream.precision(8);
     value_stream << value;

     PrintResultImpl(graph_name, trace_name, value_stream.str(), std::string(),
                     std::string(), UnitWithDirection(units, improve_direction),
                     important);
   }

   void PrintResultMeanAndError(absl::string_view graph_name,
                                absl::string_view trace_name,
                                const double mean,
                                const double error,
                                absl::string_view units,
                                bool important,
                                ImproveDirection improve_direction) {
     std::ostringstream value_stream;
     value_stream.precision(8);
     value_stream << mean << ',' << error;
     PrintResultImpl(graph_name, trace_name, value_stream.str(), "{", "}",
                     UnitWithDirection(units, improve_direction), important);
   }

   void PrintResultList(absl::string_view graph_name,
                        absl::string_view trace_name,
                        const rtc::ArrayView<const double> values,
                        absl::string_view units,
                        const bool important,
                        webrtc::test::ImproveDirection improve_direction) {
     std::ostringstream value_stream;
     value_stream.precision(8);
     OutputListToStream(&value_stream, values);
     PrintResultImpl(graph_name, trace_name, value_stream.str(), "[", "]", units,
                     important);
   }

  private:
   void PrintResultImpl(absl::string_view graph_name,
                        absl::string_view trace_name,
                        absl::string_view values,
                        absl::string_view prefix,
                        absl::string_view suffix,
                        absl::string_view units,
                        bool important) {
     MutexLock lock(&mutex_);
     rtc::StringBuilder message;
     message << (important ? "*" : "") << "RESULT " << graph_name << ": "
             << trace_name << "= " << prefix << values << suffix << " " << units;
     // <*>RESULT <graph_name>: <trace_name>= <value> <units>
     // <*>RESULT <graph_name>: <trace_name>= {<mean>, <std deviation>} <units>
     // <*>RESULT <graph_name>: <trace_name>= [<value>,value,value,...,] <units>
     fprintf(output_, "%s\n", message.str().c_str());
   }

   Mutex mutex_;
   FILE* output_ RTC_GUARDED_BY(&mutex_);
 };

 ResultsLinePrinter& GetResultsLinePrinter() {
   static ResultsLinePrinter* const printer_ = new ResultsLinePrinter();
   return *printer_;
 }

 PerfTestResultWriter& GetPerfWriter() {
   static PerfTestResultWriter* writer = CreateHistogramWriter();
   return *writer;
 }

 }  // namespace

 void ClearPerfResults() {
   GetPerfWriter().ClearResults();
 }

 void SetPerfResultsOutput(FILE* output) {
   GetPlottableCounterPrinter().SetOutput(output);
   GetResultsLinePrinter().SetOutput(output);
 }

 std::string GetPerfResults() {
   return GetPerfWriter().Serialize();
 }

 void PrintPlottableResults(const std::vector<std::string>& desired_graphs) {
   GetPlottableCounterPrinter().Print(desired_graphs);
 }

 bool WritePerfResults(const std::string& output_path) {
   std::string results = GetPerfResults();
   CreateDir(DirName(output_path));
   FILE* output = fopen(output_path.c_str(), "wb");
   if (output == NULL) {
     printf("Failed to write to %s.\n", output_path.c_str());
     return false;
   }
   size_t written =
       fwrite(results.c_str(), sizeof(char), results.size(), output);
   fclose(output);

   if (written != results.size()) {
     long expected = results.size();
     printf("Wrote %zu, tried to write %lu\n", written, expected);
     return false;
   }

   return true;
 }

 void PrintResult(absl::string_view measurement,
                  absl::string_view modifier,
                  absl::string_view trace,
                  const double value,
                  absl::string_view units,
                  bool important,
                  ImproveDirection improve_direction) {
   rtc::StringBuilder graph_name;
   graph_name << measurement << modifier;
   RTC_CHECK(std::isfinite(value))
       << "Expected finite value for graph " << graph_name.str()
       << ", trace name " << trace << ", units " << units << ", got " << value;
   GetPerfWriter().LogResult(graph_name.str(), trace, value, units, important,
                             improve_direction);
   GetResultsLinePrinter().PrintResult(graph_name.str(), trace, value, units,
                                       important, improve_direction);
 }

 void PrintResult(absl::string_view measurement,
                  absl::string_view modifier,
                  absl::string_view trace,
                  const SamplesStatsCounter& counter,
                  absl::string_view units,
                  const bool important,
                  ImproveDirection improve_direction) {
   rtc::StringBuilder graph_name;
   graph_name << measurement << modifier;
   GetPlottableCounterPrinter().AddCounter(graph_name.str(), trace, counter,
                                           units);

   double mean = counter.IsEmpty() ? 0 : counter.GetAverage();
   double error = counter.IsEmpty() ? 0 : counter.GetStandardDeviation();

   std::vector<SamplesStatsCounter::StatsSample> timed_samples =
       GetSortedSamples(counter);
   std::vector<double> samples(timed_samples.size());
   for (size_t i = 0; i < timed_samples.size(); ++i) {
     samples[i] = timed_samples[i].value;
   }
   // If we have an empty counter, default it to 0.
   if (samples.empty()) {
     samples.push_back(0);
   }

   GetPerfWriter().LogResultList(graph_name.str(), trace, samples, units,
                                 important, improve_direction);
   GetResultsLinePrinter().PrintResultMeanAndError(graph_name.str(), trace, mean,
                                                   error, units, important,
                                                   improve_direction);
 }

 void PrintResultMeanAndError(absl::string_view measurement,
                              absl::string_view modifier,
                              absl::string_view trace,
                              const double mean,
                              const double error,
                              absl::string_view units,
                              bool important,
                              ImproveDirection improve_direction) {
   RTC_CHECK(std::isfinite(mean));
   RTC_CHECK(std::isfinite(error));

   rtc::StringBuilder graph_name;
   graph_name << measurement << modifier;
   GetPerfWriter().LogResultMeanAndError(graph_name.str(), trace, mean, error,
                                         units, important, improve_direction);
   GetResultsLinePrinter().PrintResultMeanAndError(graph_name.str(), trace, mean,
                                                   error, units, important,
                                                   improve_direction);
 }

 void PrintResultList(absl::string_view measurement,
                      absl::string_view modifier,
                      absl::string_view trace,
                      const rtc::ArrayView<const double> values,
                      absl::string_view units,
                      bool important,
                      ImproveDirection improve_direction) {
   for (double v : values) {
     RTC_CHECK(std::isfinite(v));
   }

   rtc::StringBuilder graph_name;
   graph_name << measurement << modifier;
   GetPerfWriter().LogResultList(graph_name.str(), trace, values, units,
                                 important, improve_direction);
   GetResultsLinePrinter().PrintResultList(graph_name.str(), trace, values,
                                           units, important, improve_direction);
 }

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 2012 The WebRTC project authors. All Rights Reserved.
	*
	* Use of this source code is governed by a BSD-style license
	* that can be found in the LICENSE file in the root of the source
	* tree. An additional intellectual property rights grant can be found
	* in the file PATENTS. All contributing project authors may
	* be found in the AUTHORS file in the root of the source tree.
	*/

	#include "test/testsupport/perf_test.h"

	#include <stdio.h>

	#include <fstream>
	#include <set>
	#include <sstream>
	#include <vector>

	#include "absl/strings/string_view.h"
	#include "api/numerics/samples_stats_counter.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/strings/string_builder.h"
	#include "rtc_base/synchronization/mutex.h"
	#include "test/testsupport/file_utils.h"
	#include "test/testsupport/perf_test_histogram_writer.h"

	namespace webrtc {
	namespace test {

	namespace {

	std::string UnitWithDirection(
	absl::string_view units,
	webrtc::test::ImproveDirection improve_direction) {
	switch (improve_direction) {
	case webrtc::test::ImproveDirection::kNone:
	return std::string(units);
	case webrtc::test::ImproveDirection::kSmallerIsBetter:
	return std::string(units) + "_smallerIsBetter";
	case webrtc::test::ImproveDirection::kBiggerIsBetter:
	return std::string(units) + "_biggerIsBetter";
	}
	}

	std::vector<SamplesStatsCounter::StatsSample> GetSortedSamples(
	const SamplesStatsCounter& counter) {
	rtc::ArrayView<const SamplesStatsCounter::StatsSample> view =
	counter.GetTimedSamples();
	std::vector<SamplesStatsCounter::StatsSample> out(view.begin(), view.end());
	std::sort(out.begin(), out.end(),
	[](const SamplesStatsCounter::StatsSample& a,
	const SamplesStatsCounter::StatsSample& b) {
	return a.time < b.time;
	});
	return out;
	}

	template <typename Container>
	void OutputListToStream(std::ostream* ostream, const Container& values) {
	const char* sep = "";
	for (const auto& v : values) {
	(*ostream) << sep << v;
	sep = ",";
	}
	}

	struct PlottableCounter {
	std::string graph_name;
	std::string trace_name;
	webrtc::SamplesStatsCounter counter;
	std::string units;
	};

	class PlottableCounterPrinter {
	public:
	PlottableCounterPrinter() : output_(stdout) {}

	void SetOutput(FILE* output) {
	MutexLock lock(&mutex_);
	output_ = output;
	}

	void AddCounter(absl::string_view graph_name,
	absl::string_view trace_name,
	const webrtc::SamplesStatsCounter& counter,
	absl::string_view units) {
	MutexLock lock(&mutex_);
	plottable_counters_.push_back({std::string(graph_name),
	std::string(trace_name), counter,
	std::string(units)});
	}

	void Print(const std::vector<std::string>& desired_graphs_raw) const {
	std::set<std::string> desired_graphs(desired_graphs_raw.begin(),
	desired_graphs_raw.end());
	MutexLock lock(&mutex_);
	for (auto& counter : plottable_counters_) {
	if (!desired_graphs.empty()) {
	auto it = desired_graphs.find(counter.graph_name);
	if (it == desired_graphs.end()) {
	continue;
	}
	}

	std::ostringstream value_stream;
	value_stream.precision(8);
	value_stream << R"({"graph_name":")" << counter.graph_name << R"(",)";
	value_stream << R"("trace_name":")" << counter.trace_name << R"(",)";
	value_stream << R"("units":")" << counter.units << R"(",)";
	if (!counter.counter.IsEmpty()) {
	value_stream << R"("mean":)" << counter.counter.GetAverage() << ',';
	value_stream << R"("std":)" << counter.counter.GetStandardDeviation()
	<< ',';
	}
	value_stream << R"("samples":[)";
	const char* sep = "";
	for (const auto& sample : counter.counter.GetTimedSamples()) {
	value_stream << sep << R"({"time":)" << sample.time.us() << ','
	<< R"("value":)" << sample.value << '}';
	sep = ",";
	}
	value_stream << "]}";

	fprintf(output_, "PLOTTABLE_DATA: %s\n", value_stream.str().c_str());
	}
	}

	private:
	mutable Mutex mutex_;
	std::vector<PlottableCounter> plottable_counters_ RTC_GUARDED_BY(&mutex_);
	FILE* output_ RTC_GUARDED_BY(&mutex_);
	};

	PlottableCounterPrinter& GetPlottableCounterPrinter() {
	static PlottableCounterPrinter* printer_ = new PlottableCounterPrinter();
	return *printer_;
	}

	class ResultsLinePrinter {
	public:
	ResultsLinePrinter() : output_(stdout) {}

	void SetOutput(FILE* output) {
	MutexLock lock(&mutex_);
	output_ = output;
	}

	void PrintResult(absl::string_view graph_name,
	absl::string_view trace_name,
	const double value,
	absl::string_view units,
	bool important,
	ImproveDirection improve_direction) {
	std::ostringstream value_stream;
	value_stream.precision(8);
	value_stream << value;

	PrintResultImpl(graph_name, trace_name, value_stream.str(), std::string(),
	std::string(), UnitWithDirection(units, improve_direction),
	important);
	}

	void PrintResultMeanAndError(absl::string_view graph_name,
	absl::string_view trace_name,
	const double mean,
	const double error,
	absl::string_view units,
	bool important,
	ImproveDirection improve_direction) {
	std::ostringstream value_stream;
	value_stream.precision(8);
	value_stream << mean << ',' << error;
	PrintResultImpl(graph_name, trace_name, value_stream.str(), "{", "}",
	UnitWithDirection(units, improve_direction), important);
	}

	void PrintResultList(absl::string_view graph_name,
	absl::string_view trace_name,
	const rtc::ArrayView<const double> values,
	absl::string_view units,
	const bool important,
	webrtc::test::ImproveDirection improve_direction) {
	std::ostringstream value_stream;
	value_stream.precision(8);
	OutputListToStream(&value_stream, values);
	PrintResultImpl(graph_name, trace_name, value_stream.str(), "[", "]", units,
	important);
	}

	private:
	void PrintResultImpl(absl::string_view graph_name,
	absl::string_view trace_name,
	absl::string_view values,
	absl::string_view prefix,
	absl::string_view suffix,
	absl::string_view units,
	bool important) {
	MutexLock lock(&mutex_);
	rtc::StringBuilder message;
	message << (important ? "*" : "") << "RESULT " << graph_name << ": "
	<< trace_name << "= " << prefix << values << suffix << " " << units;
	// <*>RESULT <graph_name>: <trace_name>= <value> <units>
	// <*>RESULT <graph_name>: <trace_name>= {<mean>, <std deviation>} <units>
	// <*>RESULT <graph_name>: <trace_name>= [<value>,value,value,...,] <units>
	fprintf(output_, "%s\n", message.str().c_str());
	}

	Mutex mutex_;
	FILE* output_ RTC_GUARDED_BY(&mutex_);
	};

	ResultsLinePrinter& GetResultsLinePrinter() {
	static ResultsLinePrinter* const printer_ = new ResultsLinePrinter();
	return *printer_;
	}

	PerfTestResultWriter& GetPerfWriter() {
	static PerfTestResultWriter* writer = CreateHistogramWriter();
	return *writer;
	}

	} // namespace

	void ClearPerfResults() {
	GetPerfWriter().ClearResults();
	}

	void SetPerfResultsOutput(FILE* output) {
	GetPlottableCounterPrinter().SetOutput(output);
	GetResultsLinePrinter().SetOutput(output);
	}

	std::string GetPerfResults() {
	return GetPerfWriter().Serialize();
	}

	void PrintPlottableResults(const std::vector<std::string>& desired_graphs) {
	GetPlottableCounterPrinter().Print(desired_graphs);
	}

	bool WritePerfResults(const std::string& output_path) {
	std::string results = GetPerfResults();
	CreateDir(DirName(output_path));
	FILE* output = fopen(output_path.c_str(), "wb");
	if (output == NULL) {
	printf("Failed to write to %s.\n", output_path.c_str());
	return false;
	}
	size_t written =
	fwrite(results.c_str(), sizeof(char), results.size(), output);
	fclose(output);

	if (written != results.size()) {
	long expected = results.size();
	printf("Wrote %zu, tried to write %lu\n", written, expected);
	return false;
	}

	return true;
	}

	void PrintResult(absl::string_view measurement,
	absl::string_view modifier,
	absl::string_view trace,
	const double value,
	absl::string_view units,
	bool important,
	ImproveDirection improve_direction) {
	rtc::StringBuilder graph_name;
	graph_name << measurement << modifier;
	RTC_CHECK(std::isfinite(value))
	<< "Expected finite value for graph " << graph_name.str()
	<< ", trace name " << trace << ", units " << units << ", got " << value;
	GetPerfWriter().LogResult(graph_name.str(), trace, value, units, important,
	improve_direction);
	GetResultsLinePrinter().PrintResult(graph_name.str(), trace, value, units,
	important, improve_direction);
	}

	void PrintResult(absl::string_view measurement,
	absl::string_view modifier,
	absl::string_view trace,
	const SamplesStatsCounter& counter,
	absl::string_view units,
	const bool important,
	ImproveDirection improve_direction) {
	rtc::StringBuilder graph_name;
	graph_name << measurement << modifier;
	GetPlottableCounterPrinter().AddCounter(graph_name.str(), trace, counter,
	units);

	double mean = counter.IsEmpty() ? 0 : counter.GetAverage();
	double error = counter.IsEmpty() ? 0 : counter.GetStandardDeviation();

	std::vector<SamplesStatsCounter::StatsSample> timed_samples =
	GetSortedSamples(counter);
	std::vector<double> samples(timed_samples.size());
	for (size_t i = 0; i < timed_samples.size(); ++i) {
	samples[i] = timed_samples[i].value;
	}
	// If we have an empty counter, default it to 0.
	if (samples.empty()) {
	samples.push_back(0);
	}

	GetPerfWriter().LogResultList(graph_name.str(), trace, samples, units,
	important, improve_direction);
	GetResultsLinePrinter().PrintResultMeanAndError(graph_name.str(), trace, mean,
	error, units, important,
	improve_direction);
	}

	void PrintResultMeanAndError(absl::string_view measurement,
	absl::string_view modifier,
	absl::string_view trace,
	const double mean,
	const double error,
	absl::string_view units,
	bool important,
	ImproveDirection improve_direction) {
	RTC_CHECK(std::isfinite(mean));
	RTC_CHECK(std::isfinite(error));

	rtc::StringBuilder graph_name;
	graph_name << measurement << modifier;
	GetPerfWriter().LogResultMeanAndError(graph_name.str(), trace, mean, error,
	units, important, improve_direction);
	GetResultsLinePrinter().PrintResultMeanAndError(graph_name.str(), trace, mean,
	error, units, important,
	improve_direction);
	}

	void PrintResultList(absl::string_view measurement,
	absl::string_view modifier,
	absl::string_view trace,
	const rtc::ArrayView<const double> values,
	absl::string_view units,
	bool important,
	ImproveDirection improve_direction) {
	for (double v : values) {
	RTC_CHECK(std::isfinite(v));
	}

	rtc::StringBuilder graph_name;
	graph_name << measurement << modifier;
	GetPerfWriter().LogResultList(graph_name.str(), trace, values, units,
	important, improve_direction);
	GetResultsLinePrinter().PrintResultList(graph_name.str(), trace, values,
	units, important, improve_direction);
	}

	} // namespace test
	} // namespace webrtc