modules/audio_mixer/audio_mixer_impl.cc - src - Git at Google

 /*
  *  Copyright (c) 2012 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_mixer/audio_mixer_impl.h"

 #include <stdint.h>

 #include <algorithm>
 #include <iterator>
 #include <type_traits>
 #include <utility>

 #include "modules/audio_mixer/audio_frame_manipulator.h"
 #include "modules/audio_mixer/default_output_rate_calculator.h"
 #include "rtc_base/checks.h"
 #include "rtc_base/logging.h"
 #include "rtc_base/ref_counted_object.h"

 namespace webrtc {

 struct AudioMixerImpl::SourceStatus {
   SourceStatus(Source* audio_source, bool is_mixed, float gain)
       : audio_source(audio_source), is_mixed(is_mixed), gain(gain) {}
   Source* audio_source = nullptr;
   bool is_mixed = false;
   float gain = 0.0f;

   // A frame that will be passed to audio_source->GetAudioFrameWithInfo.
   AudioFrame audio_frame;
 };

 namespace {

 struct SourceFrame {
   SourceFrame() = default;

   SourceFrame(AudioMixerImpl::SourceStatus* source_status,
               AudioFrame* audio_frame,
               bool muted)
       : source_status(source_status), audio_frame(audio_frame), muted(muted) {
     RTC_DCHECK(source_status);
     RTC_DCHECK(audio_frame);
     if (!muted) {
       energy = AudioMixerCalculateEnergy(*audio_frame);
     }
   }

   SourceFrame(AudioMixerImpl::SourceStatus* source_status,
               AudioFrame* audio_frame,
               bool muted,
               uint32_t energy)
       : source_status(source_status),
         audio_frame(audio_frame),
         muted(muted),
         energy(energy) {
     RTC_DCHECK(source_status);
     RTC_DCHECK(audio_frame);
   }

   AudioMixerImpl::SourceStatus* source_status = nullptr;
   AudioFrame* audio_frame = nullptr;
   bool muted = true;
   uint32_t energy = 0;
 };

 // ShouldMixBefore(a, b) is used to select mixer sources.
 // Returns true if `a` is preferred over `b` as a source to be mixed.
 bool ShouldMixBefore(const SourceFrame& a, const SourceFrame& b) {
   if (a.muted != b.muted) {
     return b.muted;
   }

   const auto a_activity = a.audio_frame->vad_activity_;
   const auto b_activity = b.audio_frame->vad_activity_;

   if (a_activity != b_activity) {
     return a_activity == AudioFrame::kVadActive;
   }

   return a.energy > b.energy;
 }

 void RampAndUpdateGain(
     rtc::ArrayView<const SourceFrame> mixed_sources_and_frames) {
   for (const auto& source_frame : mixed_sources_and_frames) {
     float target_gain = source_frame.source_status->is_mixed ? 1.0f : 0.0f;
     Ramp(source_frame.source_status->gain, target_gain,
          source_frame.audio_frame);
     source_frame.source_status->gain = target_gain;
   }
 }

 std::vector<std::unique_ptr<AudioMixerImpl::SourceStatus>>::const_iterator
 FindSourceInList(
     AudioMixerImpl::Source const* audio_source,
     std::vector<std::unique_ptr<AudioMixerImpl::SourceStatus>> const*
         audio_source_list) {
   return std::find_if(
       audio_source_list->begin(), audio_source_list->end(),
       [audio_source](const std::unique_ptr<AudioMixerImpl::SourceStatus>& p) {
         return p->audio_source == audio_source;
       });
 }
 }  // namespace

 struct AudioMixerImpl::HelperContainers {
   void resize(size_t size) {
     audio_to_mix.resize(size);
     audio_source_mixing_data_list.resize(size);
     ramp_list.resize(size);
     preferred_rates.resize(size);
   }

   std::vector<AudioFrame*> audio_to_mix;
   std::vector<SourceFrame> audio_source_mixing_data_list;
   std::vector<SourceFrame> ramp_list;
   std::vector<int> preferred_rates;
 };

 AudioMixerImpl::AudioMixerImpl(
     std::unique_ptr<OutputRateCalculator> output_rate_calculator,
     bool use_limiter,
     int max_sources_to_mix)
     : max_sources_to_mix_(max_sources_to_mix),
       output_rate_calculator_(std::move(output_rate_calculator)),
       audio_source_list_(),
       helper_containers_(std::make_unique<HelperContainers>()),
       frame_combiner_(use_limiter) {
   RTC_CHECK_GE(max_sources_to_mix, 1) << "At least one source must be mixed";
   audio_source_list_.reserve(max_sources_to_mix);
   helper_containers_->resize(max_sources_to_mix);
 }

 AudioMixerImpl::~AudioMixerImpl() {}

 rtc::scoped_refptr<AudioMixerImpl> AudioMixerImpl::Create(
     int max_sources_to_mix) {
   return Create(std::unique_ptr<DefaultOutputRateCalculator>(
                     new DefaultOutputRateCalculator()),
                 /*use_limiter=*/true, max_sources_to_mix);
 }

 rtc::scoped_refptr<AudioMixerImpl> AudioMixerImpl::Create(
     std::unique_ptr<OutputRateCalculator> output_rate_calculator,
     bool use_limiter,
     int max_sources_to_mix) {
   return rtc::make_ref_counted<AudioMixerImpl>(
       std::move(output_rate_calculator), use_limiter, max_sources_to_mix);
 }

 void AudioMixerImpl::Mix(size_t number_of_channels,
                          AudioFrame* audio_frame_for_mixing) {
   RTC_DCHECK(number_of_channels >= 1);
   MutexLock lock(&mutex_);

   size_t number_of_streams = audio_source_list_.size();

   std::transform(audio_source_list_.begin(), audio_source_list_.end(),
                  helper_containers_->preferred_rates.begin(),
                  [&](std::unique_ptr<SourceStatus>& a) {
                    return a->audio_source->PreferredSampleRate();
                  });

   int output_frequency = output_rate_calculator_->CalculateOutputRateFromRange(
       rtc::ArrayView<const int>(helper_containers_->preferred_rates.data(),
                                 number_of_streams));

   frame_combiner_.Combine(GetAudioFromSources(output_frequency),
                           number_of_channels, output_frequency,
                           number_of_streams, audio_frame_for_mixing);
 }

 bool AudioMixerImpl::AddSource(Source* audio_source) {
   RTC_DCHECK(audio_source);
   MutexLock lock(&mutex_);
   RTC_DCHECK(FindSourceInList(audio_source, &audio_source_list_) ==
              audio_source_list_.end())
       << "Source already added to mixer";
   audio_source_list_.emplace_back(new SourceStatus(audio_source, false, 0));
   helper_containers_->resize(audio_source_list_.size());
   return true;
 }

 void AudioMixerImpl::RemoveSource(Source* audio_source) {
   RTC_DCHECK(audio_source);
   MutexLock lock(&mutex_);
   const auto iter = FindSourceInList(audio_source, &audio_source_list_);
   RTC_DCHECK(iter != audio_source_list_.end()) << "Source not present in mixer";
   audio_source_list_.erase(iter);
 }

 rtc::ArrayView<AudioFrame* const> AudioMixerImpl::GetAudioFromSources(
     int output_frequency) {
   // Get audio from the audio sources and put it in the SourceFrame vector.
   int audio_source_mixing_data_count = 0;
   for (auto& source_and_status : audio_source_list_) {
     const auto audio_frame_info =
         source_and_status->audio_source->GetAudioFrameWithInfo(
             output_frequency, &source_and_status->audio_frame);

     if (audio_frame_info == Source::AudioFrameInfo::kError) {
       RTC_LOG_F(LS_WARNING) << "failed to GetAudioFrameWithInfo() from source";
       continue;
     }
     helper_containers_
         ->audio_source_mixing_data_list[audio_source_mixing_data_count++] =
         SourceFrame(source_and_status.get(), &source_and_status->audio_frame,
                     audio_frame_info == Source::AudioFrameInfo::kMuted);
   }
   rtc::ArrayView<SourceFrame> audio_source_mixing_data_view(
       helper_containers_->audio_source_mixing_data_list.data(),
       audio_source_mixing_data_count);

   // Sort frames by sorting function.
   std::sort(audio_source_mixing_data_view.begin(),
             audio_source_mixing_data_view.end(), ShouldMixBefore);

   int max_audio_frame_counter = max_sources_to_mix_;
   int ramp_list_lengh = 0;
   int audio_to_mix_count = 0;
   // Go through list in order and put unmuted frames in result list.
   for (const auto& p : audio_source_mixing_data_view) {
     // Filter muted.
     if (p.muted) {
       p.source_status->is_mixed = false;
       continue;
     }

     // Add frame to result vector for mixing.
     bool is_mixed = false;
     if (max_audio_frame_counter > 0) {
       --max_audio_frame_counter;
       helper_containers_->audio_to_mix[audio_to_mix_count++] = p.audio_frame;
       helper_containers_->ramp_list[ramp_list_lengh++] =
           SourceFrame(p.source_status, p.audio_frame, false, -1);
       is_mixed = true;
     }
     p.source_status->is_mixed = is_mixed;
   }
   RampAndUpdateGain(rtc::ArrayView<SourceFrame>(
       helper_containers_->ramp_list.data(), ramp_list_lengh));
   return rtc::ArrayView<AudioFrame* const>(
       helper_containers_->audio_to_mix.data(), audio_to_mix_count);
 }

 bool AudioMixerImpl::GetAudioSourceMixabilityStatusForTest(
     AudioMixerImpl::Source* audio_source) const {
   MutexLock lock(&mutex_);

   const auto iter = FindSourceInList(audio_source, &audio_source_list_);
   if (iter != audio_source_list_.end()) {
     return (*iter)->is_mixed;
   }

   RTC_LOG(LS_ERROR) << "Audio source unknown";
   return false;
 }
 }  // namespace webrtc
	/*
	* Copyright (c) 2012 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_mixer/audio_mixer_impl.h"

	#include <stdint.h>

	#include <algorithm>
	#include <iterator>
	#include <type_traits>
	#include <utility>

	#include "modules/audio_mixer/audio_frame_manipulator.h"
	#include "modules/audio_mixer/default_output_rate_calculator.h"
	#include "rtc_base/checks.h"
	#include "rtc_base/logging.h"
	#include "rtc_base/ref_counted_object.h"

	namespace webrtc {

	struct AudioMixerImpl::SourceStatus {
	SourceStatus(Source* audio_source, bool is_mixed, float gain)
	: audio_source(audio_source), is_mixed(is_mixed), gain(gain) {}
	Source* audio_source = nullptr;
	bool is_mixed = false;
	float gain = 0.0f;

	// A frame that will be passed to audio_source->GetAudioFrameWithInfo.
	AudioFrame audio_frame;
	};

	namespace {

	struct SourceFrame {
	SourceFrame() = default;

	SourceFrame(AudioMixerImpl::SourceStatus* source_status,
	AudioFrame* audio_frame,
	bool muted)
	: source_status(source_status), audio_frame(audio_frame), muted(muted) {
	RTC_DCHECK(source_status);
	RTC_DCHECK(audio_frame);
	if (!muted) {
	energy = AudioMixerCalculateEnergy(*audio_frame);
	}
	}

	SourceFrame(AudioMixerImpl::SourceStatus* source_status,
	AudioFrame* audio_frame,
	bool muted,
	uint32_t energy)
	: source_status(source_status),
	audio_frame(audio_frame),
	muted(muted),
	energy(energy) {
	RTC_DCHECK(source_status);
	RTC_DCHECK(audio_frame);
	}

	AudioMixerImpl::SourceStatus* source_status = nullptr;
	AudioFrame* audio_frame = nullptr;
	bool muted = true;
	uint32_t energy = 0;
	};

	// ShouldMixBefore(a, b) is used to select mixer sources.
	// Returns true if `a` is preferred over `b` as a source to be mixed.
	bool ShouldMixBefore(const SourceFrame& a, const SourceFrame& b) {
	if (a.muted != b.muted) {
	return b.muted;
	}

	const auto a_activity = a.audio_frame->vad_activity_;
	const auto b_activity = b.audio_frame->vad_activity_;

	if (a_activity != b_activity) {
	return a_activity == AudioFrame::kVadActive;
	}

	return a.energy > b.energy;
	}

	void RampAndUpdateGain(
	rtc::ArrayView<const SourceFrame> mixed_sources_and_frames) {
	for (const auto& source_frame : mixed_sources_and_frames) {
	float target_gain = source_frame.source_status->is_mixed ? 1.0f : 0.0f;
	Ramp(source_frame.source_status->gain, target_gain,
	source_frame.audio_frame);
	source_frame.source_status->gain = target_gain;
	}
	}

	std::vector<std::unique_ptr<AudioMixerImpl::SourceStatus>>::const_iterator
	FindSourceInList(
	AudioMixerImpl::Source const* audio_source,
	std::vector<std::unique_ptr<AudioMixerImpl::SourceStatus>> const*
	audio_source_list) {
	return std::find_if(
	audio_source_list->begin(), audio_source_list->end(),
	[audio_source](const std::unique_ptr<AudioMixerImpl::SourceStatus>& p) {
	return p->audio_source == audio_source;
	});
	}
	} // namespace

	struct AudioMixerImpl::HelperContainers {
	void resize(size_t size) {
	audio_to_mix.resize(size);
	audio_source_mixing_data_list.resize(size);
	ramp_list.resize(size);
	preferred_rates.resize(size);
	}

	std::vector<AudioFrame*> audio_to_mix;
	std::vector<SourceFrame> audio_source_mixing_data_list;
	std::vector<SourceFrame> ramp_list;
	std::vector<int> preferred_rates;
	};

	AudioMixerImpl::AudioMixerImpl(
	std::unique_ptr<OutputRateCalculator> output_rate_calculator,
	bool use_limiter,
	int max_sources_to_mix)
	: max_sources_to_mix_(max_sources_to_mix),
	output_rate_calculator_(std::move(output_rate_calculator)),
	audio_source_list_(),
	helper_containers_(std::make_unique<HelperContainers>()),
	frame_combiner_(use_limiter) {
	RTC_CHECK_GE(max_sources_to_mix, 1) << "At least one source must be mixed";
	audio_source_list_.reserve(max_sources_to_mix);
	helper_containers_->resize(max_sources_to_mix);
	}

	AudioMixerImpl::~AudioMixerImpl() {}

	rtc::scoped_refptr<AudioMixerImpl> AudioMixerImpl::Create(
	int max_sources_to_mix) {
	return Create(std::unique_ptr<DefaultOutputRateCalculator>(
	new DefaultOutputRateCalculator()),
	/use_limiter=/true, max_sources_to_mix);
	}

	rtc::scoped_refptr<AudioMixerImpl> AudioMixerImpl::Create(
	std::unique_ptr<OutputRateCalculator> output_rate_calculator,
	bool use_limiter,
	int max_sources_to_mix) {
	return rtc::make_ref_counted<AudioMixerImpl>(
	std::move(output_rate_calculator), use_limiter, max_sources_to_mix);
	}

	void AudioMixerImpl::Mix(size_t number_of_channels,
	AudioFrame* audio_frame_for_mixing) {
	RTC_DCHECK(number_of_channels >= 1);
	MutexLock lock(&mutex_);

	size_t number_of_streams = audio_source_list_.size();

	std::transform(audio_source_list_.begin(), audio_source_list_.end(),
	helper_containers_->preferred_rates.begin(),
	[&](std::unique_ptr<SourceStatus>& a) {
	return a->audio_source->PreferredSampleRate();
	});

	int output_frequency = output_rate_calculator_->CalculateOutputRateFromRange(
	rtc::ArrayView<const int>(helper_containers_->preferred_rates.data(),
	number_of_streams));

	frame_combiner_.Combine(GetAudioFromSources(output_frequency),
	number_of_channels, output_frequency,
	number_of_streams, audio_frame_for_mixing);
	}

	bool AudioMixerImpl::AddSource(Source* audio_source) {
	RTC_DCHECK(audio_source);
	MutexLock lock(&mutex_);
	RTC_DCHECK(FindSourceInList(audio_source, &audio_source_list_) ==
	audio_source_list_.end())
	<< "Source already added to mixer";
	audio_source_list_.emplace_back(new SourceStatus(audio_source, false, 0));
	helper_containers_->resize(audio_source_list_.size());
	return true;
	}

	void AudioMixerImpl::RemoveSource(Source* audio_source) {
	RTC_DCHECK(audio_source);
	MutexLock lock(&mutex_);
	const auto iter = FindSourceInList(audio_source, &audio_source_list_);
	RTC_DCHECK(iter != audio_source_list_.end()) << "Source not present in mixer";
	audio_source_list_.erase(iter);
	}

	rtc::ArrayView<AudioFrame* const> AudioMixerImpl::GetAudioFromSources(
	int output_frequency) {
	// Get audio from the audio sources and put it in the SourceFrame vector.
	int audio_source_mixing_data_count = 0;
	for (auto& source_and_status : audio_source_list_) {
	const auto audio_frame_info =
	source_and_status->audio_source->GetAudioFrameWithInfo(
	output_frequency, &source_and_status->audio_frame);

	if (audio_frame_info == Source::AudioFrameInfo::kError) {
	RTC_LOG_F(LS_WARNING) << "failed to GetAudioFrameWithInfo() from source";
	continue;
	}
	helper_containers_
	->audio_source_mixing_data_list[audio_source_mixing_data_count++] =
	SourceFrame(source_and_status.get(), &source_and_status->audio_frame,
	audio_frame_info == Source::AudioFrameInfo::kMuted);
	}
	rtc::ArrayView<SourceFrame> audio_source_mixing_data_view(
	helper_containers_->audio_source_mixing_data_list.data(),
	audio_source_mixing_data_count);

	// Sort frames by sorting function.
	std::sort(audio_source_mixing_data_view.begin(),
	audio_source_mixing_data_view.end(), ShouldMixBefore);

	int max_audio_frame_counter = max_sources_to_mix_;
	int ramp_list_lengh = 0;
	int audio_to_mix_count = 0;
	// Go through list in order and put unmuted frames in result list.
	for (const auto& p : audio_source_mixing_data_view) {
	// Filter muted.
	if (p.muted) {
	p.source_status->is_mixed = false;
	continue;
	}

	// Add frame to result vector for mixing.
	bool is_mixed = false;
	if (max_audio_frame_counter > 0) {
	--max_audio_frame_counter;
	helper_containers_->audio_to_mix[audio_to_mix_count++] = p.audio_frame;
	helper_containers_->ramp_list[ramp_list_lengh++] =
	SourceFrame(p.source_status, p.audio_frame, false, -1);
	is_mixed = true;
	}
	p.source_status->is_mixed = is_mixed;
	}
	RampAndUpdateGain(rtc::ArrayView<SourceFrame>(
	helper_containers_->ramp_list.data(), ramp_list_lengh));
	return rtc::ArrayView<AudioFrame* const>(
	helper_containers_->audio_to_mix.data(), audio_to_mix_count);
	}

	bool AudioMixerImpl::GetAudioSourceMixabilityStatusForTest(
	AudioMixerImpl::Source* audio_source) const {
	MutexLock lock(&mutex_);

	const auto iter = FindSourceInList(audio_source, &audio_source_list_);
	if (iter != audio_source_list_.end()) {
	return (*iter)->is_mixed;
	}

	RTC_LOG(LS_ERROR) << "Audio source unknown";
	return false;
	}
	} // namespace webrtc