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webrtc / src / refs/heads/main / . / rtc_tools / frame_analyzer / video_quality_analysis_unittest.cc
blob: d0227fb4b369746d59d9bc38b9b3425ce1653344 [file] [log] [blame]
/*
* Copyright (c) 2013 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 "rtc_tools/frame_analyzer/video_quality_analysis.h"
#include <string>
#include <vector>
#include "api/test/metrics/metric.h"
#include "api/test/metrics/metrics_logger.h"
#include "system_wrappers/include/clock.h"
#include "test/gmock.h"
#include "test/gtest.h"
#include "test/testsupport/file_utils.h"
namespace webrtc {
namespace test {
namespace {
using ::testing::IsSupersetOf;
// Metric fields to assert on
struct MetricValidationInfo {
std::string test_case;
std::string name;
Unit unit;
ImprovementDirection improvement_direction;
double mean;
};
bool operator==(const MetricValidationInfo& a, const MetricValidationInfo& b) {
return a.name == b.name && a.test_case == b.test_case && a.unit == b.unit &&
a.improvement_direction == b.improvement_direction;
}
std::ostream& operator<<(std::ostream& os, const MetricValidationInfo& m) {
os << "{ test_case=" << m.test_case << "; name=" << m.name
<< "; unit=" << test::ToString(m.unit)
<< "; improvement_direction=" << test::ToString(m.improvement_direction)
<< " }";
return os;
}
std::vector<MetricValidationInfo> ToValidationInfo(
const std::vector<Metric>& metrics) {
std::vector<MetricValidationInfo> out;
for (const Metric& m : metrics) {
out.push_back(
MetricValidationInfo{.test_case = m.test_case,
.name = m.name,
.unit = m.unit,
.improvement_direction = m.improvement_direction,
.mean = *m.stats.mean});
}
return out;
}
TEST(VideoQualityAnalysisTest, PrintAnalysisResultsEmpty) {
ResultsContainer result;
DefaultMetricsLogger logger(Clock::GetRealTimeClock());
PrintAnalysisResults("Empty", result, logger);
}
TEST(VideoQualityAnalysisTest, PrintAnalysisResultsOneFrame) {
ResultsContainer result;
result.frames.push_back(AnalysisResult(0, 35.0, 0.9));
DefaultMetricsLogger logger(Clock::GetRealTimeClock());
PrintAnalysisResults("OneFrame", result, logger);
}
TEST(VideoQualityAnalysisTest, PrintAnalysisResultsThreeFrames) {
ResultsContainer result;
result.frames.push_back(AnalysisResult(0, 35.0, 0.9));
result.frames.push_back(AnalysisResult(1, 34.0, 0.8));
result.frames.push_back(AnalysisResult(2, 33.0, 0.7));
DefaultMetricsLogger logger(Clock::GetRealTimeClock());
PrintAnalysisResults("ThreeFrames", result, logger);
}
TEST(VideoQualityAnalysisTest, PrintMaxRepeatedAndSkippedFramesSkippedFrames) {
ResultsContainer result;
result.max_repeated_frames = 2;
result.max_skipped_frames = 2;
result.total_skipped_frames = 3;
result.decode_errors_ref = 0;
result.decode_errors_test = 0;
DefaultMetricsLogger logger(Clock::GetRealTimeClock());
PrintAnalysisResults("NormalStatsFile", result, logger);
std::vector<MetricValidationInfo> metrics =
ToValidationInfo(logger.GetCollectedMetrics());
EXPECT_THAT(
metrics,
IsSupersetOf(
{MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Max_repeated",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 2},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Max_skipped",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 2},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Total_skipped",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 3},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Decode_errors_reference",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 0},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Decode_errors_test",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 0}}));
}
TEST(VideoQualityAnalysisTest,
PrintMaxRepeatedAndSkippedFramesDecodeErrorInTest) {
ResultsContainer result;
std::string log_filename =
TempFilename(webrtc::test::OutputPath(), "log.log");
FILE* logfile = fopen(log_filename.c_str(), "w");
ASSERT_TRUE(logfile != NULL);
result.max_repeated_frames = 1;
result.max_skipped_frames = 0;
result.total_skipped_frames = 0;
result.decode_errors_ref = 0;
result.decode_errors_test = 3;
DefaultMetricsLogger logger(Clock::GetRealTimeClock());
PrintAnalysisResults("NormalStatsFile", result, logger);
std::vector<MetricValidationInfo> metrics =
ToValidationInfo(logger.GetCollectedMetrics());
EXPECT_THAT(
metrics,
IsSupersetOf(
{MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Max_repeated",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 1},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Max_skipped",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 0},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Total_skipped",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 0},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Decode_errors_reference",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 0},
MetricValidationInfo{
.test_case = "NormalStatsFile",
.name = "Decode_errors_test",
.unit = Unit::kUnitless,
.improvement_direction = ImprovementDirection::kNeitherIsBetter,
.mean = 3}}));
}
TEST(VideoQualityAnalysisTest, CalculateFrameClustersOneValue) {
const std::vector<Cluster> result = CalculateFrameClusters({1});
EXPECT_EQ(1u, result.size());
EXPECT_EQ(1u, result[0].index);
EXPECT_EQ(1, result[0].number_of_repeated_frames);
}
TEST(VideoQualityAnalysisTest, GetMaxRepeatedFramesOneValue) {
EXPECT_EQ(1, GetMaxRepeatedFrames(CalculateFrameClusters({1})));
}
TEST(VideoQualityAnalysisTest, GetMaxSkippedFramesOneValue) {
EXPECT_EQ(0, GetMaxSkippedFrames(CalculateFrameClusters({1})));
}
TEST(VideoQualityAnalysisTest, GetTotalNumberOfSkippedFramesOneValue) {
EXPECT_EQ(0, GetTotalNumberOfSkippedFrames(CalculateFrameClusters({1})));
}
TEST(VideoQualityAnalysisTest, CalculateFrameClustersOneOneTwo) {
const std::vector<Cluster> result = CalculateFrameClusters({1, 1, 2});
EXPECT_EQ(2u, result.size());
EXPECT_EQ(1u, result[0].index);
EXPECT_EQ(2, result[0].number_of_repeated_frames);
EXPECT_EQ(2u, result[1].index);
EXPECT_EQ(1, result[1].number_of_repeated_frames);
}
TEST(VideoQualityAnalysisTest, GetMaxRepeatedFramesOneOneTwo) {
EXPECT_EQ(2, GetMaxRepeatedFrames(CalculateFrameClusters({1, 1, 2})));
}
TEST(VideoQualityAnalysisTest, GetMaxSkippedFramesOneOneTwo) {
EXPECT_EQ(0, GetMaxSkippedFrames(CalculateFrameClusters({1, 1, 2})));
}
TEST(VideoQualityAnalysisTest, GetTotalNumberOfSkippedFramesOneOneTwo) {
EXPECT_EQ(0,
GetTotalNumberOfSkippedFrames(CalculateFrameClusters({1, 1, 2})));
}
TEST(VideoQualityAnalysisTest, CalculateFrameClustersEmpty) {
EXPECT_TRUE(CalculateFrameClusters({}).empty());
}
TEST(VideoQualityAnalysisTest, GetMaxRepeatedFramesEmpty) {
EXPECT_EQ(0, GetMaxRepeatedFrames({}));
}
TEST(VideoQualityAnalysisTest, GetMaxSkippedFramesEmpty) {
EXPECT_EQ(0, GetMaxSkippedFrames({}));
}
TEST(VideoQualityAnalysisTest, GetTotalNumberOfSkippedFramesEmpty) {
EXPECT_EQ(0, GetTotalNumberOfSkippedFrames({}));
}
} // namespace
} // namespace test
} // namespace webrtc