blob: 41db376ed6b605b669a41c9bba26c048d84b6bca [file] [log] [blame]
/*
* Copyright 2023 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/jitter/delay_variation_calculator.h"
#include "api/numerics/samples_stats_counter.h"
#include "api/units/timestamp.h"
#include "test/gmock.h"
#include "test/gtest.h"
namespace webrtc {
namespace test {
MATCHER_P(HasLength, s, "") {
bool c1 = arg.rtp_timestamps.NumSamples() == s;
bool c2 = arg.arrival_times_ms.NumSamples() == s;
bool c3 = arg.sizes_bytes.NumSamples() == s;
bool c4 = arg.inter_departure_times_ms.NumSamples() == s;
bool c5 = arg.inter_arrival_times_ms.NumSamples() == s;
bool c6 = arg.inter_delay_variations_ms.NumSamples() == s;
bool c7 = arg.inter_size_variations_bytes.NumSamples() == s;
*result_listener << "c: " << c1 << c2 << c3 << c4 << c5 << c6 << c7;
return c1 && c2 && c3 && c4 && c5 && c6 && c7;
}
TEST(DelayVariationCalculatorTest, NoTimeSeriesWithoutFrame) {
DelayVariationCalculator calc;
EXPECT_THAT(calc.time_series(), HasLength(0));
}
TEST(DelayVariationCalculatorTest, PartialTimeSeriesWithOneFrame) {
DelayVariationCalculator calc;
calc.Insert(3000, Timestamp::Millis(33), DataSize::Bytes(100));
DelayVariationCalculator::TimeSeries ts = calc.time_series();
ASSERT_THAT(ts, HasLength(1));
auto v0 = [](const SamplesStatsCounter& c) {
return c.GetTimedSamples()[0].value;
};
EXPECT_EQ(v0(ts.rtp_timestamps), 3000);
EXPECT_EQ(v0(ts.arrival_times_ms), 33);
EXPECT_EQ(v0(ts.sizes_bytes), 100);
EXPECT_EQ(v0(ts.inter_departure_times_ms), 0);
EXPECT_EQ(v0(ts.inter_arrival_times_ms), 0);
EXPECT_EQ(v0(ts.inter_delay_variations_ms), 0);
EXPECT_EQ(v0(ts.inter_size_variations_bytes), 0);
}
TEST(DelayVariationCalculatorTest, TimeSeriesWithTwoFrames) {
DelayVariationCalculator calc;
calc.Insert(3000, Timestamp::Millis(33), DataSize::Bytes(100));
calc.Insert(6000, Timestamp::Millis(66), DataSize::Bytes(100));
DelayVariationCalculator::TimeSeries ts = calc.time_series();
ASSERT_THAT(ts, HasLength(2));
auto v1 = [](const SamplesStatsCounter& c) {
return c.GetTimedSamples()[1].value;
};
EXPECT_EQ(v1(ts.rtp_timestamps), 6000);
EXPECT_EQ(v1(ts.arrival_times_ms), 66);
EXPECT_EQ(v1(ts.sizes_bytes), 100);
EXPECT_EQ(v1(ts.inter_departure_times_ms), 33.333);
EXPECT_EQ(v1(ts.inter_arrival_times_ms), 33);
EXPECT_EQ(v1(ts.inter_delay_variations_ms), -0.333);
EXPECT_EQ(v1(ts.inter_size_variations_bytes), 0);
}
TEST(DelayVariationCalculatorTest, MetadataRecordedForAllTimeSeriesAndFrames) {
DelayVariationCalculator calc;
calc.Insert(3000, Timestamp::Millis(33), DataSize::Bytes(100), /*sl=*/0,
/*tl=*/0, VideoFrameType::kVideoFrameKey);
calc.Insert(6000, Timestamp::Millis(66), DataSize::Bytes(100), /*sl=*/0,
/*tl=*/1, VideoFrameType::kVideoFrameDelta);
DelayVariationCalculator::TimeSeries ts = calc.time_series();
ASSERT_THAT(ts, HasLength(2));
auto v = [](const SamplesStatsCounter* c, int n, std::string key) {
return c->GetTimedSamples()[n].metadata.at(key);
};
for (const auto* c :
{&ts.rtp_timestamps, &ts.arrival_times_ms, &ts.sizes_bytes,
&ts.inter_departure_times_ms, &ts.inter_arrival_times_ms,
&ts.inter_delay_variations_ms, &ts.inter_size_variations_bytes}) {
EXPECT_EQ(v(c, 0, "sl"), "0");
EXPECT_EQ(v(c, 0, "tl"), "0");
EXPECT_EQ(v(c, 0, "frame_type"), "key");
EXPECT_EQ(v(c, 1, "sl_prev"), "0");
EXPECT_EQ(v(c, 1, "tl_prev"), "0");
EXPECT_EQ(v(c, 1, "frame_type_prev"), "key");
EXPECT_EQ(v(c, 1, "sl"), "0");
EXPECT_EQ(v(c, 1, "tl"), "1");
EXPECT_EQ(v(c, 1, "frame_type"), "delta");
}
}
} // namespace test
} // namespace webrtc