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

 /*
  *  Copyright (c) 2020 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_histogram_writer.h"

 #include <memory>
 #include <string>

 #include "test/gtest.h"
 #include "third_party/catapult/tracing/tracing/value/histogram.h"

 namespace webrtc {
 namespace test {

 namespace proto = catapult::tracing::tracing::proto;

 TEST(PerfHistogramWriterUnittest, TestSimpleHistogram) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("-", "-", 0, "ms", false, ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   EXPECT_TRUE(histogram_set.ParseFromString(writer->Serialize()))
       << "Expected valid histogram set";

   ASSERT_EQ(histogram_set.histograms_size(), 1);
 }

 TEST(PerfHistogramWriterUnittest, TestListOfValuesHistogram) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   std::vector<double> samples{0, 1, 2};
   writer->LogResultList("-", "-", samples, "ms", false,
                         ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   EXPECT_TRUE(histogram_set.ParseFromString(writer->Serialize()))
       << "Expected valid histogram set";

   ASSERT_EQ(histogram_set.histograms_size(), 1);
   ASSERT_EQ(histogram_set.histograms(0).sample_values_size(), 3);
   EXPECT_EQ(histogram_set.histograms(0).sample_values(0), 0);
   EXPECT_EQ(histogram_set.histograms(0).sample_values(1), 1);
   EXPECT_EQ(histogram_set.histograms(0).sample_values(2), 2);
 }

 TEST(PerfHistogramWriterUnittest, WritesSamplesAndUserStory) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement", "user_story", 15e7, "Hz", false,
                     ImproveDirection::kBiggerIsBetter);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.name(), "measurement");

   EXPECT_EQ(hist1.unit().unit(), proto::HERTZ);
   EXPECT_EQ(hist1.unit().improvement_direction(), proto::BIGGER_IS_BETTER);

   EXPECT_EQ(hist1.sample_values_size(), 1);
   EXPECT_EQ(hist1.sample_values(0), 15e7);

   EXPECT_EQ(hist1.diagnostics().diagnostic_map().count("stories"), 1u);
   const proto::Diagnostic& stories =
       hist1.diagnostics().diagnostic_map().at("stories");
   ASSERT_EQ(stories.generic_set().values_size(), 1);
   EXPECT_EQ(stories.generic_set().values(0), "\"user_story\"");
 }

 TEST(PerfHistogramWriterUnittest, WritesOneHistogramPerMeasurementAndStory) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement", "story1", 1, "ms", false,
                     ImproveDirection::kNone);
   writer->LogResult("measurement", "story1", 2, "ms", false,
                     ImproveDirection::kNone);
   writer->LogResult("measurement", "story2", 2, "ms", false,
                     ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   ASSERT_EQ(histogram_set.histograms_size(), 2);

   const proto::Histogram& hist1 = histogram_set.histograms(0);
   const proto::Histogram& hist2 = histogram_set.histograms(1);

   EXPECT_EQ(hist1.name(), "measurement");
   EXPECT_EQ(hist2.name(), "measurement");

   const proto::Diagnostic& stories1 =
       hist1.diagnostics().diagnostic_map().at("stories");
   EXPECT_EQ(stories1.generic_set().values(0), "\"story1\"");
   EXPECT_EQ(hist1.sample_values_size(), 2);

   const proto::Diagnostic& stories2 =
       hist2.diagnostics().diagnostic_map().at("stories");
   EXPECT_EQ(stories2.generic_set().values(0), "\"story2\"");
   EXPECT_EQ(hist2.sample_values_size(), 1);
 }

 TEST(PerfHistogramWriterUnittest, IgnoresError) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResultMeanAndError("-", "-", 17, 12345, "ms", false,
                                 ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.running().mean(), 17);
   EXPECT_EQ(hist1.running().variance(), 0) << "The error should be ignored.";
 }

 TEST(PerfHistogramWriterUnittest, WritesDecibelIntoMeasurementName) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement", "-", 0, "dB", false,
                     ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.unit().unit(), proto::UNITLESS)
       << "dB should map to unitless";
   EXPECT_EQ(hist1.name(), "measurement_dB") << "measurement should be renamed";
 }

 TEST(PerfHistogramWriterUnittest, WritesFpsIntoMeasurementName) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement", "-", 0, "fps", false,
                     ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.unit().unit(), proto::HERTZ) << "fps should map to hertz";
   EXPECT_EQ(hist1.name(), "measurement_fps") << "measurement should be renamed";
 }

 TEST(PerfHistogramWriterUnittest, WritesPercentIntoMeasurementName) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement", "-", 0, "%", false, ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.unit().unit(), proto::UNITLESS)
       << "percent should map to hertz";
   EXPECT_EQ(hist1.name(), "measurement_%") << "measurement should be renamed";
 }

 TEST(PerfHistogramWriterUnittest, BitsPerSecondIsConvertedToBytes) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("-", "-", 1024, "bps", false, ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);

   EXPECT_EQ(hist1.sample_values(0), 128) << "1024 bits = 128 bytes";
 }

 TEST(PerfHistogramWriterUnittest, ParsesDirection) {
   std::unique_ptr<PerfTestResultWriter> writer =
       std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

   writer->LogResult("measurement1", "-", 0, "bps", false,
                     ImproveDirection::kBiggerIsBetter);
   writer->LogResult("measurement2", "-", 0, "frames", false,
                     ImproveDirection::kSmallerIsBetter);
   writer->LogResult("measurement3", "-", 0, "sigma", false,
                     ImproveDirection::kNone);

   proto::HistogramSet histogram_set;
   histogram_set.ParseFromString(writer->Serialize());
   const proto::Histogram& hist1 = histogram_set.histograms(0);
   const proto::Histogram& hist2 = histogram_set.histograms(1);
   const proto::Histogram& hist3 = histogram_set.histograms(2);

   EXPECT_EQ(hist1.unit().unit(), proto::BYTES_PER_SECOND);
   EXPECT_EQ(hist1.unit().improvement_direction(), proto::BIGGER_IS_BETTER);

   EXPECT_EQ(hist2.unit().unit(), proto::COUNT);
   EXPECT_EQ(hist2.unit().improvement_direction(), proto::SMALLER_IS_BETTER);

   EXPECT_EQ(hist3.unit().unit(), proto::SIGMA);
   EXPECT_EQ(hist3.unit().improvement_direction(), proto::NOT_SPECIFIED);
 }

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 2020 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_histogram_writer.h"

	#include <memory>
	#include <string>

	#include "test/gtest.h"
	#include "third_party/catapult/tracing/tracing/value/histogram.h"

	namespace webrtc {
	namespace test {

	namespace proto = catapult::tracing::tracing::proto;

	TEST(PerfHistogramWriterUnittest, TestSimpleHistogram) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("-", "-", 0, "ms", false, ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	EXPECT_TRUE(histogram_set.ParseFromString(writer->Serialize()))
	<< "Expected valid histogram set";

	ASSERT_EQ(histogram_set.histograms_size(), 1);
	}

	TEST(PerfHistogramWriterUnittest, TestListOfValuesHistogram) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	std::vector<double> samples{0, 1, 2};
	writer->LogResultList("-", "-", samples, "ms", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	EXPECT_TRUE(histogram_set.ParseFromString(writer->Serialize()))
	<< "Expected valid histogram set";

	ASSERT_EQ(histogram_set.histograms_size(), 1);
	ASSERT_EQ(histogram_set.histograms(0).sample_values_size(), 3);
	EXPECT_EQ(histogram_set.histograms(0).sample_values(0), 0);
	EXPECT_EQ(histogram_set.histograms(0).sample_values(1), 1);
	EXPECT_EQ(histogram_set.histograms(0).sample_values(2), 2);
	}

	TEST(PerfHistogramWriterUnittest, WritesSamplesAndUserStory) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement", "user_story", 15e7, "Hz", false,
	ImproveDirection::kBiggerIsBetter);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.name(), "measurement");

	EXPECT_EQ(hist1.unit().unit(), proto::HERTZ);
	EXPECT_EQ(hist1.unit().improvement_direction(), proto::BIGGER_IS_BETTER);

	EXPECT_EQ(hist1.sample_values_size(), 1);
	EXPECT_EQ(hist1.sample_values(0), 15e7);

	EXPECT_EQ(hist1.diagnostics().diagnostic_map().count("stories"), 1u);
	const proto::Diagnostic& stories =
	hist1.diagnostics().diagnostic_map().at("stories");
	ASSERT_EQ(stories.generic_set().values_size(), 1);
	EXPECT_EQ(stories.generic_set().values(0), "\"user_story\"");
	}

	TEST(PerfHistogramWriterUnittest, WritesOneHistogramPerMeasurementAndStory) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement", "story1", 1, "ms", false,
	ImproveDirection::kNone);
	writer->LogResult("measurement", "story1", 2, "ms", false,
	ImproveDirection::kNone);
	writer->LogResult("measurement", "story2", 2, "ms", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	ASSERT_EQ(histogram_set.histograms_size(), 2);

	const proto::Histogram& hist1 = histogram_set.histograms(0);
	const proto::Histogram& hist2 = histogram_set.histograms(1);

	EXPECT_EQ(hist1.name(), "measurement");
	EXPECT_EQ(hist2.name(), "measurement");

	const proto::Diagnostic& stories1 =
	hist1.diagnostics().diagnostic_map().at("stories");
	EXPECT_EQ(stories1.generic_set().values(0), "\"story1\"");
	EXPECT_EQ(hist1.sample_values_size(), 2);

	const proto::Diagnostic& stories2 =
	hist2.diagnostics().diagnostic_map().at("stories");
	EXPECT_EQ(stories2.generic_set().values(0), "\"story2\"");
	EXPECT_EQ(hist2.sample_values_size(), 1);
	}

	TEST(PerfHistogramWriterUnittest, IgnoresError) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResultMeanAndError("-", "-", 17, 12345, "ms", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.running().mean(), 17);
	EXPECT_EQ(hist1.running().variance(), 0) << "The error should be ignored.";
	}

	TEST(PerfHistogramWriterUnittest, WritesDecibelIntoMeasurementName) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement", "-", 0, "dB", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.unit().unit(), proto::UNITLESS)
	<< "dB should map to unitless";
	EXPECT_EQ(hist1.name(), "measurement_dB") << "measurement should be renamed";
	}

	TEST(PerfHistogramWriterUnittest, WritesFpsIntoMeasurementName) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement", "-", 0, "fps", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.unit().unit(), proto::HERTZ) << "fps should map to hertz";
	EXPECT_EQ(hist1.name(), "measurement_fps") << "measurement should be renamed";
	}

	TEST(PerfHistogramWriterUnittest, WritesPercentIntoMeasurementName) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement", "-", 0, "%", false, ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.unit().unit(), proto::UNITLESS)
	<< "percent should map to hertz";
	EXPECT_EQ(hist1.name(), "measurement_%") << "measurement should be renamed";
	}

	TEST(PerfHistogramWriterUnittest, BitsPerSecondIsConvertedToBytes) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("-", "-", 1024, "bps", false, ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);

	EXPECT_EQ(hist1.sample_values(0), 128) << "1024 bits = 128 bytes";
	}

	TEST(PerfHistogramWriterUnittest, ParsesDirection) {
	std::unique_ptr<PerfTestResultWriter> writer =
	std::unique_ptr<PerfTestResultWriter>(CreateHistogramWriter());

	writer->LogResult("measurement1", "-", 0, "bps", false,
	ImproveDirection::kBiggerIsBetter);
	writer->LogResult("measurement2", "-", 0, "frames", false,
	ImproveDirection::kSmallerIsBetter);
	writer->LogResult("measurement3", "-", 0, "sigma", false,
	ImproveDirection::kNone);

	proto::HistogramSet histogram_set;
	histogram_set.ParseFromString(writer->Serialize());
	const proto::Histogram& hist1 = histogram_set.histograms(0);
	const proto::Histogram& hist2 = histogram_set.histograms(1);
	const proto::Histogram& hist3 = histogram_set.histograms(2);

	EXPECT_EQ(hist1.unit().unit(), proto::BYTES_PER_SECOND);
	EXPECT_EQ(hist1.unit().improvement_direction(), proto::BIGGER_IS_BETTER);

	EXPECT_EQ(hist2.unit().unit(), proto::COUNT);
	EXPECT_EQ(hist2.unit().improvement_direction(), proto::SMALLER_IS_BETTER);

	EXPECT_EQ(hist3.unit().unit(), proto::SIGMA);
	EXPECT_EQ(hist3.unit().improvement_direction(), proto::NOT_SPECIFIED);
	}

	} // namespace test
	} // namespace webrtc