modules/audio_coding/neteq/neteq_decoder_plc_unittest.cc - mirrors/cros/chromiumos/third_party/webrtc-apm - Git at Google

 /*
  *  Copyright (c) 2018 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.
  */

 // Test to verify correct operation when using the decoder-internal PLC.

 #include <algorithm>
 #include <utility>
 #include <vector>

 #include "absl/types/optional.h"
 #include "modules/audio_coding/codecs/pcm16b/audio_encoder_pcm16b.h"
 #include "modules/audio_coding/neteq/tools/audio_checksum.h"
 #include "modules/audio_coding/neteq/tools/audio_sink.h"
 #include "modules/audio_coding/neteq/tools/encode_neteq_input.h"
 #include "modules/audio_coding/neteq/tools/fake_decode_from_file.h"
 #include "modules/audio_coding/neteq/tools/input_audio_file.h"
 #include "modules/audio_coding/neteq/tools/neteq_test.h"
 #include "rtc_base/numerics/safe_conversions.h"
 #include "test/gtest.h"
 #include "test/testsupport/fileutils.h"

 namespace webrtc {
 namespace test {
 namespace {

 // This class implements a fake decoder. The decoder will read audio from a file
 // and present as output, both for regular decoding and for PLC.
 class AudioDecoderPlc : public AudioDecoder {
  public:
   AudioDecoderPlc(std::unique_ptr<InputAudioFile> input, int sample_rate_hz)
       : input_(std::move(input)), sample_rate_hz_(sample_rate_hz) {}

   void Reset() override {}
   int SampleRateHz() const override { return sample_rate_hz_; }
   size_t Channels() const override { return 1; }
   int DecodeInternal(const uint8_t* /*encoded*/,
                      size_t encoded_len,
                      int sample_rate_hz,
                      int16_t* decoded,
                      SpeechType* speech_type) override {
     RTC_CHECK_EQ(encoded_len / 2, 20 * sample_rate_hz_ / 1000);
     RTC_CHECK_EQ(sample_rate_hz, sample_rate_hz_);
     RTC_CHECK(decoded);
     RTC_CHECK(speech_type);
     RTC_CHECK(input_->Read(encoded_len / 2, decoded));
     *speech_type = kSpeech;
     last_was_plc_ = false;
     return encoded_len / 2;
   }

   void GeneratePlc(size_t requested_samples_per_channel,
                    rtc::BufferT<int16_t>* concealment_audio) override {
     // Must keep a local copy of this since DecodeInternal sets it to false.
     const bool last_was_plc = last_was_plc_;
     SpeechType speech_type;
     std::vector<int16_t> decoded(5760);
     int dec_len = DecodeInternal(nullptr, 2 * 20 * sample_rate_hz_ / 1000,
                                  sample_rate_hz_, decoded.data(), &speech_type);
     // This fake decoder can only generate 20 ms of PLC data each time. Make
     // sure the caller didn't ask for more.
     RTC_CHECK_GE(dec_len, requested_samples_per_channel);
     concealment_audio->AppendData(decoded.data(), dec_len);
     concealed_samples_ += rtc::checked_cast<size_t>(dec_len);
     if (!last_was_plc) {
       ++concealment_events_;
     }
     last_was_plc_ = true;
   }

   size_t concealed_samples() { return concealed_samples_; }
   size_t concealment_events() { return concealment_events_; }

  private:
   const std::unique_ptr<InputAudioFile> input_;
   const int sample_rate_hz_;
   size_t concealed_samples_ = 0;
   size_t concealment_events_ = 0;
   bool last_was_plc_ = false;
 };

 // An input sample generator which generates only zero-samples.
 class ZeroSampleGenerator : public EncodeNetEqInput::Generator {
  public:
   rtc::ArrayView<const int16_t> Generate(size_t num_samples) override {
     vec.resize(num_samples, 0);
     rtc::ArrayView<const int16_t> view(vec);
     RTC_DCHECK_EQ(view.size(), num_samples);
     return view;
   }

  private:
   std::vector<int16_t> vec;
 };

 // A NetEqInput which connects to another NetEqInput, but drops a number of
 // packets on the way.
 class LossyInput : public NetEqInput {
  public:
   LossyInput(int loss_cadence, std::unique_ptr<NetEqInput> input)
       : loss_cadence_(loss_cadence), input_(std::move(input)) {}

   absl::optional<int64_t> NextPacketTime() const override {
     return input_->NextPacketTime();
   }

   absl::optional<int64_t> NextOutputEventTime() const override {
     return input_->NextOutputEventTime();
   }

   std::unique_ptr<PacketData> PopPacket() override {
     if (loss_cadence_ != 0 && (++count_ % loss_cadence_) == 0) {
       // Pop one extra packet to create the loss.
       input_->PopPacket();
     }
     return input_->PopPacket();
   }

   void AdvanceOutputEvent() override { return input_->AdvanceOutputEvent(); }

   bool ended() const override { return input_->ended(); }

   absl::optional<RTPHeader> NextHeader() const override {
     return input_->NextHeader();
   }

  private:
   const int loss_cadence_;
   int count_ = 0;
   const std::unique_ptr<NetEqInput> input_;
 };

 class AudioChecksumWithOutput : public AudioChecksum {
  public:
   explicit AudioChecksumWithOutput(std::string* output_str)
       : output_str_(*output_str) {}
   ~AudioChecksumWithOutput() { output_str_ = Finish(); }

  private:
   std::string& output_str_;
 };

 NetEqNetworkStatistics RunTest(int loss_cadence, std::string* checksum) {
   NetEq::Config config;
   config.for_test_no_time_stretching = true;

   // The input is mostly useless. It sends zero-samples to a PCM16b encoder,
   // but the actual encoded samples will never be used by the decoder in the
   // test. See below about the decoder.
   auto generator = absl::make_unique<ZeroSampleGenerator>();
   constexpr int kSampleRateHz = 32000;
   constexpr int kPayloadType = 100;
   AudioEncoderPcm16B::Config encoder_config;
   encoder_config.sample_rate_hz = kSampleRateHz;
   encoder_config.payload_type = kPayloadType;
   auto encoder = absl::make_unique<AudioEncoderPcm16B>(encoder_config);
   constexpr int kRunTimeMs = 10000;
   auto input = absl::make_unique<EncodeNetEqInput>(
       std::move(generator), std::move(encoder), kRunTimeMs);
   // Wrap the input in a loss function.
   auto lossy_input =
       absl::make_unique<LossyInput>(loss_cadence, std::move(input));

   // Settinng up decoders.
   NetEqTest::DecoderMap decoders;
   // Using a fake decoder which simply reads the output audio from a file.
   auto input_file = absl::make_unique<InputAudioFile>(
       webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm"));
   AudioDecoderPlc dec(std::move(input_file), kSampleRateHz);
   // Masquerading as a PCM16b decoder.
   NetEqTest::ExternalDecoderInfo dec_info = {
       &dec, NetEqDecoder::kDecoderPCM16Bswb32kHz, "pcm16b_PLC"};
   NetEqTest::ExtDecoderMap external_decoders;
   external_decoders.insert(std::make_pair(kPayloadType, dec_info));

   // Output is simply a checksum calculator.
   auto output = absl::make_unique<AudioChecksumWithOutput>(checksum);

   // No callback objects.
   NetEqTest::Callbacks callbacks;

   NetEqTest neteq_test(config, decoders, external_decoders,
                        std::move(lossy_input), std::move(output), callbacks);
   EXPECT_LE(kRunTimeMs, neteq_test.Run());

   auto lifetime_stats = neteq_test.LifetimeStats();
   EXPECT_EQ(dec.concealed_samples(), lifetime_stats.concealed_samples);
   EXPECT_EQ(dec.concealment_events(), lifetime_stats.concealment_events);

   return neteq_test.SimulationStats();
 }
 }  // namespace

 TEST(NetEqDecoderPlc, Test) {
   std::string checksum;
   auto stats = RunTest(10, &checksum);

   std::string checksum_no_loss;
   auto stats_no_loss = RunTest(0, &checksum_no_loss);

   EXPECT_EQ(checksum, checksum_no_loss);

   EXPECT_EQ(stats.preemptive_rate, stats_no_loss.preemptive_rate);
   EXPECT_EQ(stats.accelerate_rate, stats_no_loss.accelerate_rate);
   EXPECT_EQ(0, stats_no_loss.expand_rate);
   EXPECT_GT(stats.expand_rate, 0);
 }

 }  // namespace test
 }  // namespace webrtc
	/*
	* Copyright (c) 2018 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.
	*/

	// Test to verify correct operation when using the decoder-internal PLC.

	#include <algorithm>
	#include <utility>
	#include <vector>

	#include "absl/types/optional.h"
	#include "modules/audio_coding/codecs/pcm16b/audio_encoder_pcm16b.h"
	#include "modules/audio_coding/neteq/tools/audio_checksum.h"
	#include "modules/audio_coding/neteq/tools/audio_sink.h"
	#include "modules/audio_coding/neteq/tools/encode_neteq_input.h"
	#include "modules/audio_coding/neteq/tools/fake_decode_from_file.h"
	#include "modules/audio_coding/neteq/tools/input_audio_file.h"
	#include "modules/audio_coding/neteq/tools/neteq_test.h"
	#include "rtc_base/numerics/safe_conversions.h"
	#include "test/gtest.h"
	#include "test/testsupport/fileutils.h"

	namespace webrtc {
	namespace test {
	namespace {

	// This class implements a fake decoder. The decoder will read audio from a file
	// and present as output, both for regular decoding and for PLC.
	class AudioDecoderPlc : public AudioDecoder {
	public:
	AudioDecoderPlc(std::unique_ptr<InputAudioFile> input, int sample_rate_hz)
	: input_(std::move(input)), sample_rate_hz_(sample_rate_hz) {}

	void Reset() override {}
	int SampleRateHz() const override { return sample_rate_hz_; }
	size_t Channels() const override { return 1; }
	int DecodeInternal(const uint8_t* /encoded/,
	size_t encoded_len,
	int sample_rate_hz,
	int16_t* decoded,
	SpeechType* speech_type) override {
	RTC_CHECK_EQ(encoded_len / 2, 20 * sample_rate_hz_ / 1000);
	RTC_CHECK_EQ(sample_rate_hz, sample_rate_hz_);
	RTC_CHECK(decoded);
	RTC_CHECK(speech_type);
	RTC_CHECK(input_->Read(encoded_len / 2, decoded));
	*speech_type = kSpeech;
	last_was_plc_ = false;
	return encoded_len / 2;
	}

	void GeneratePlc(size_t requested_samples_per_channel,
	rtc::BufferT<int16_t>* concealment_audio) override {
	// Must keep a local copy of this since DecodeInternal sets it to false.
	const bool last_was_plc = last_was_plc_;
	SpeechType speech_type;
	std::vector<int16_t> decoded(5760);
	int dec_len = DecodeInternal(nullptr, 2 * 20 * sample_rate_hz_ / 1000,
	sample_rate_hz_, decoded.data(), &speech_type);
	// This fake decoder can only generate 20 ms of PLC data each time. Make
	// sure the caller didn't ask for more.
	RTC_CHECK_GE(dec_len, requested_samples_per_channel);
	concealment_audio->AppendData(decoded.data(), dec_len);
	concealed_samples_ += rtc::checked_cast<size_t>(dec_len);
	if (!last_was_plc) {
	++concealment_events_;
	}
	last_was_plc_ = true;
	}

	size_t concealed_samples() { return concealed_samples_; }
	size_t concealment_events() { return concealment_events_; }

	private:
	const std::unique_ptr<InputAudioFile> input_;
	const int sample_rate_hz_;
	size_t concealed_samples_ = 0;
	size_t concealment_events_ = 0;
	bool last_was_plc_ = false;
	};

	// An input sample generator which generates only zero-samples.
	class ZeroSampleGenerator : public EncodeNetEqInput::Generator {
	public:
	rtc::ArrayView<const int16_t> Generate(size_t num_samples) override {
	vec.resize(num_samples, 0);
	rtc::ArrayView<const int16_t> view(vec);
	RTC_DCHECK_EQ(view.size(), num_samples);
	return view;
	}

	private:
	std::vector<int16_t> vec;
	};

	// A NetEqInput which connects to another NetEqInput, but drops a number of
	// packets on the way.
	class LossyInput : public NetEqInput {
	public:
	LossyInput(int loss_cadence, std::unique_ptr<NetEqInput> input)
	: loss_cadence_(loss_cadence), input_(std::move(input)) {}

	absl::optional<int64_t> NextPacketTime() const override {
	return input_->NextPacketTime();
	}

	absl::optional<int64_t> NextOutputEventTime() const override {
	return input_->NextOutputEventTime();
	}

	std::unique_ptr<PacketData> PopPacket() override {
	if (loss_cadence_ != 0 && (++count_ % loss_cadence_) == 0) {
	// Pop one extra packet to create the loss.
	input_->PopPacket();
	}
	return input_->PopPacket();
	}

	void AdvanceOutputEvent() override { return input_->AdvanceOutputEvent(); }

	bool ended() const override { return input_->ended(); }

	absl::optional<RTPHeader> NextHeader() const override {
	return input_->NextHeader();
	}

	private:
	const int loss_cadence_;
	int count_ = 0;
	const std::unique_ptr<NetEqInput> input_;
	};

	class AudioChecksumWithOutput : public AudioChecksum {
	public:
	explicit AudioChecksumWithOutput(std::string* output_str)
	: output_str_(*output_str) {}
	~AudioChecksumWithOutput() { output_str_ = Finish(); }

	private:
	std::string& output_str_;
	};

	NetEqNetworkStatistics RunTest(int loss_cadence, std::string* checksum) {
	NetEq::Config config;
	config.for_test_no_time_stretching = true;

	// The input is mostly useless. It sends zero-samples to a PCM16b encoder,
	// but the actual encoded samples will never be used by the decoder in the
	// test. See below about the decoder.
	auto generator = absl::make_unique<ZeroSampleGenerator>();
	constexpr int kSampleRateHz = 32000;
	constexpr int kPayloadType = 100;
	AudioEncoderPcm16B::Config encoder_config;
	encoder_config.sample_rate_hz = kSampleRateHz;
	encoder_config.payload_type = kPayloadType;
	auto encoder = absl::make_unique<AudioEncoderPcm16B>(encoder_config);
	constexpr int kRunTimeMs = 10000;
	auto input = absl::make_unique<EncodeNetEqInput>(
	std::move(generator), std::move(encoder), kRunTimeMs);
	// Wrap the input in a loss function.
	auto lossy_input =
	absl::make_unique<LossyInput>(loss_cadence, std::move(input));

	// Settinng up decoders.
	NetEqTest::DecoderMap decoders;
	// Using a fake decoder which simply reads the output audio from a file.
	auto input_file = absl::make_unique<InputAudioFile>(
	webrtc::test::ResourcePath("audio_coding/testfile32kHz", "pcm"));
	AudioDecoderPlc dec(std::move(input_file), kSampleRateHz);
	// Masquerading as a PCM16b decoder.
	NetEqTest::ExternalDecoderInfo dec_info = {
	&dec, NetEqDecoder::kDecoderPCM16Bswb32kHz, "pcm16b_PLC"};
	NetEqTest::ExtDecoderMap external_decoders;
	external_decoders.insert(std::make_pair(kPayloadType, dec_info));

	// Output is simply a checksum calculator.
	auto output = absl::make_unique<AudioChecksumWithOutput>(checksum);

	// No callback objects.
	NetEqTest::Callbacks callbacks;

	NetEqTest neteq_test(config, decoders, external_decoders,
	std::move(lossy_input), std::move(output), callbacks);
	EXPECT_LE(kRunTimeMs, neteq_test.Run());

	auto lifetime_stats = neteq_test.LifetimeStats();
	EXPECT_EQ(dec.concealed_samples(), lifetime_stats.concealed_samples);
	EXPECT_EQ(dec.concealment_events(), lifetime_stats.concealment_events);

	return neteq_test.SimulationStats();
	}
	} // namespace

	TEST(NetEqDecoderPlc, Test) {
	std::string checksum;
	auto stats = RunTest(10, &checksum);

	std::string checksum_no_loss;
	auto stats_no_loss = RunTest(0, &checksum_no_loss);

	EXPECT_EQ(checksum, checksum_no_loss);

	EXPECT_EQ(stats.preemptive_rate, stats_no_loss.preemptive_rate);
	EXPECT_EQ(stats.accelerate_rate, stats_no_loss.accelerate_rate);
	EXPECT_EQ(0, stats_no_loss.expand_rate);
	EXPECT_GT(stats.expand_rate, 0);
	}

	} // namespace test
	} // namespace webrtc