modules/audio_coding/codecs/red/audio_encoder_copy_red.cc - mirrors/cros/chromiumos/third_party/webrtc-apm - Git at Google

 /*
  *  Copyright (c) 2014 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 "modules/audio_coding/codecs/red/audio_encoder_copy_red.h"

 #include <string.h>
 #include <utility>
 #include <vector>

 #include "rtc_base/checks.h"

 namespace webrtc {

 AudioEncoderCopyRed::Config::Config() = default;
 AudioEncoderCopyRed::Config::Config(Config&&) = default;
 AudioEncoderCopyRed::Config::~Config() = default;

 AudioEncoderCopyRed::AudioEncoderCopyRed(Config&& config)
     : speech_encoder_(std::move(config.speech_encoder)),
       red_payload_type_(config.payload_type) {
   RTC_CHECK(speech_encoder_) << "Speech encoder not provided.";
 }

 AudioEncoderCopyRed::~AudioEncoderCopyRed() = default;

 int AudioEncoderCopyRed::SampleRateHz() const {
   return speech_encoder_->SampleRateHz();
 }

 size_t AudioEncoderCopyRed::NumChannels() const {
   return speech_encoder_->NumChannels();
 }

 int AudioEncoderCopyRed::RtpTimestampRateHz() const {
   return speech_encoder_->RtpTimestampRateHz();
 }

 size_t AudioEncoderCopyRed::Num10MsFramesInNextPacket() const {
   return speech_encoder_->Num10MsFramesInNextPacket();
 }

 size_t AudioEncoderCopyRed::Max10MsFramesInAPacket() const {
   return speech_encoder_->Max10MsFramesInAPacket();
 }

 int AudioEncoderCopyRed::GetTargetBitrate() const {
   return speech_encoder_->GetTargetBitrate();
 }

 AudioEncoder::EncodedInfo AudioEncoderCopyRed::EncodeImpl(
     uint32_t rtp_timestamp,
     rtc::ArrayView<const int16_t> audio,
     rtc::Buffer* encoded) {
   const size_t primary_offset = encoded->size();
   EncodedInfo info = speech_encoder_->Encode(rtp_timestamp, audio, encoded);

   RTC_CHECK(info.redundant.empty()) << "Cannot use nested redundant encoders.";
   RTC_DCHECK_EQ(encoded->size() - primary_offset, info.encoded_bytes);

   if (info.encoded_bytes > 0) {
     // |info| will be implicitly cast to an EncodedInfoLeaf struct, effectively
     // discarding the (empty) vector of redundant information. This is
     // intentional.
     info.redundant.push_back(info);
     RTC_DCHECK_EQ(info.redundant.size(), 1);
     if (secondary_info_.encoded_bytes > 0) {
       encoded->AppendData(secondary_encoded_);
       info.redundant.push_back(secondary_info_);
       RTC_DCHECK_EQ(info.redundant.size(), 2);
     }
     // Save primary to secondary.
     secondary_encoded_.SetData(encoded->data() + primary_offset,
                                info.encoded_bytes);
     secondary_info_ = info;
     RTC_DCHECK_EQ(info.speech, info.redundant[0].speech);
   }
   // Update main EncodedInfo.
   info.payload_type = red_payload_type_;
   info.encoded_bytes = 0;
   for (std::vector<EncodedInfoLeaf>::const_iterator it = info.redundant.begin();
        it != info.redundant.end(); ++it) {
     info.encoded_bytes += it->encoded_bytes;
   }
   return info;
 }

 void AudioEncoderCopyRed::Reset() {
   speech_encoder_->Reset();
   secondary_encoded_.Clear();
   secondary_info_.encoded_bytes = 0;
 }

 bool AudioEncoderCopyRed::SetFec(bool enable) {
   return speech_encoder_->SetFec(enable);
 }

 bool AudioEncoderCopyRed::SetDtx(bool enable) {
   return speech_encoder_->SetDtx(enable);
 }

 bool AudioEncoderCopyRed::SetApplication(Application application) {
   return speech_encoder_->SetApplication(application);
 }

 void AudioEncoderCopyRed::SetMaxPlaybackRate(int frequency_hz) {
   speech_encoder_->SetMaxPlaybackRate(frequency_hz);
 }

 rtc::ArrayView<std::unique_ptr<AudioEncoder>>
 AudioEncoderCopyRed::ReclaimContainedEncoders() {
   return rtc::ArrayView<std::unique_ptr<AudioEncoder>>(&speech_encoder_, 1);
 }

 void AudioEncoderCopyRed::OnReceivedUplinkPacketLossFraction(
     float uplink_packet_loss_fraction) {
   speech_encoder_->OnReceivedUplinkPacketLossFraction(
       uplink_packet_loss_fraction);
 }

 void AudioEncoderCopyRed::OnReceivedUplinkRecoverablePacketLossFraction(
     float uplink_recoverable_packet_loss_fraction) {
   speech_encoder_->OnReceivedUplinkRecoverablePacketLossFraction(
       uplink_recoverable_packet_loss_fraction);
 }

 void AudioEncoderCopyRed::OnReceivedUplinkBandwidth(
     int target_audio_bitrate_bps,
     absl::optional<int64_t> bwe_period_ms) {
   speech_encoder_->OnReceivedUplinkBandwidth(target_audio_bitrate_bps,
                                              bwe_period_ms);
 }

 }  // namespace webrtc
	/*
	* Copyright (c) 2014 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 "modules/audio_coding/codecs/red/audio_encoder_copy_red.h"

	#include <string.h>
	#include <utility>
	#include <vector>

	#include "rtc_base/checks.h"

	namespace webrtc {

	AudioEncoderCopyRed::Config::Config() = default;
	AudioEncoderCopyRed::Config::Config(Config&&) = default;
	AudioEncoderCopyRed::Config::~Config() = default;

	AudioEncoderCopyRed::AudioEncoderCopyRed(Config&& config)
	: speech_encoder_(std::move(config.speech_encoder)),
	red_payload_type_(config.payload_type) {
	RTC_CHECK(speech_encoder_) << "Speech encoder not provided.";
	}

	AudioEncoderCopyRed::~AudioEncoderCopyRed() = default;

	int AudioEncoderCopyRed::SampleRateHz() const {
	return speech_encoder_->SampleRateHz();
	}

	size_t AudioEncoderCopyRed::NumChannels() const {
	return speech_encoder_->NumChannels();
	}

	int AudioEncoderCopyRed::RtpTimestampRateHz() const {
	return speech_encoder_->RtpTimestampRateHz();
	}

	size_t AudioEncoderCopyRed::Num10MsFramesInNextPacket() const {
	return speech_encoder_->Num10MsFramesInNextPacket();
	}

	size_t AudioEncoderCopyRed::Max10MsFramesInAPacket() const {
	return speech_encoder_->Max10MsFramesInAPacket();
	}

	int AudioEncoderCopyRed::GetTargetBitrate() const {
	return speech_encoder_->GetTargetBitrate();
	}

	AudioEncoder::EncodedInfo AudioEncoderCopyRed::EncodeImpl(
	uint32_t rtp_timestamp,
	rtc::ArrayView<const int16_t> audio,
	rtc::Buffer* encoded) {
	const size_t primary_offset = encoded->size();
	EncodedInfo info = speech_encoder_->Encode(rtp_timestamp, audio, encoded);

	RTC_CHECK(info.redundant.empty()) << "Cannot use nested redundant encoders.";
	RTC_DCHECK_EQ(encoded->size() - primary_offset, info.encoded_bytes);

	if (info.encoded_bytes > 0) {
	// \|info\| will be implicitly cast to an EncodedInfoLeaf struct, effectively
	// discarding the (empty) vector of redundant information. This is
	// intentional.
	info.redundant.push_back(info);
	RTC_DCHECK_EQ(info.redundant.size(), 1);
	if (secondary_info_.encoded_bytes > 0) {
	encoded->AppendData(secondary_encoded_);
	info.redundant.push_back(secondary_info_);
	RTC_DCHECK_EQ(info.redundant.size(), 2);
	}
	// Save primary to secondary.
	secondary_encoded_.SetData(encoded->data() + primary_offset,
	info.encoded_bytes);
	secondary_info_ = info;
	RTC_DCHECK_EQ(info.speech, info.redundant[0].speech);
	}
	// Update main EncodedInfo.
	info.payload_type = red_payload_type_;
	info.encoded_bytes = 0;
	for (std::vector<EncodedInfoLeaf>::const_iterator it = info.redundant.begin();
	it != info.redundant.end(); ++it) {
	info.encoded_bytes += it->encoded_bytes;
	}
	return info;
	}

	void AudioEncoderCopyRed::Reset() {
	speech_encoder_->Reset();
	secondary_encoded_.Clear();
	secondary_info_.encoded_bytes = 0;
	}

	bool AudioEncoderCopyRed::SetFec(bool enable) {
	return speech_encoder_->SetFec(enable);
	}

	bool AudioEncoderCopyRed::SetDtx(bool enable) {
	return speech_encoder_->SetDtx(enable);
	}

	bool AudioEncoderCopyRed::SetApplication(Application application) {
	return speech_encoder_->SetApplication(application);
	}

	void AudioEncoderCopyRed::SetMaxPlaybackRate(int frequency_hz) {
	speech_encoder_->SetMaxPlaybackRate(frequency_hz);
	}

	rtc::ArrayView<std::unique_ptr<AudioEncoder>>
	AudioEncoderCopyRed::ReclaimContainedEncoders() {
	return rtc::ArrayView<std::unique_ptr<AudioEncoder>>(&speech_encoder_, 1);
	}

	void AudioEncoderCopyRed::OnReceivedUplinkPacketLossFraction(
	float uplink_packet_loss_fraction) {
	speech_encoder_->OnReceivedUplinkPacketLossFraction(
	uplink_packet_loss_fraction);
	}

	void AudioEncoderCopyRed::OnReceivedUplinkRecoverablePacketLossFraction(
	float uplink_recoverable_packet_loss_fraction) {
	speech_encoder_->OnReceivedUplinkRecoverablePacketLossFraction(
	uplink_recoverable_packet_loss_fraction);
	}

	void AudioEncoderCopyRed::OnReceivedUplinkBandwidth(
	int target_audio_bitrate_bps,
	absl::optional<int64_t> bwe_period_ms) {
	speech_encoder_->OnReceivedUplinkBandwidth(target_audio_bitrate_bps,
	bwe_period_ms);
	}

	} // namespace webrtc