modules/audio_processing/audio_buffer.h - src - Git at Google

 /*
  *  Copyright (c) 2011 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.
  */

 #ifndef MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_
 #define MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_

 #include <stddef.h>
 #include <stdint.h>

 #include <memory>
 #include <vector>

 #include "common_audio/channel_buffer.h"
 #include "modules/audio_processing/include/audio_processing.h"

 namespace webrtc {

 class PushSincResampler;
 class SplittingFilter;

 enum Band { kBand0To8kHz = 0, kBand8To16kHz = 1, kBand16To24kHz = 2 };

 // Stores any audio data in a way that allows the audio processing module to
 // operate on it in a controlled manner.
 class AudioBuffer {
  public:
   static const int kSplitBandSize = 160;
   static const size_t kMaxSampleRate = 384000;
   AudioBuffer(size_t input_rate,
               size_t input_num_channels,
               size_t buffer_rate,
               size_t buffer_num_channels,
               size_t output_rate,
               size_t output_num_channels);

   // The constructor below will be deprecated.
   AudioBuffer(size_t input_num_frames,
               size_t input_num_channels,
               size_t buffer_num_frames,
               size_t buffer_num_channels,
               size_t output_num_frames);
   virtual ~AudioBuffer();

   AudioBuffer(const AudioBuffer&) = delete;
   AudioBuffer& operator=(const AudioBuffer&) = delete;

   // Specify that downmixing should be done by selecting a single channel.
   void set_downmixing_to_specific_channel(size_t channel);

   // Specify that downmixing should be done by averaging all channels,.
   void set_downmixing_by_averaging();

   // Set the number of channels in the buffer. The specified number of channels
   // cannot be larger than the specified buffer_num_channels. The number is also
   // reset at each call to CopyFrom or InterleaveFrom.
   void set_num_channels(size_t num_channels);

   size_t num_channels() const { return num_channels_; }
   size_t num_frames() const { return buffer_num_frames_; }
   size_t num_frames_per_band() const { return num_split_frames_; }
   size_t num_bands() const { return num_bands_; }

   // Returns pointer arrays to the full-band channels.
   // Usage:
   // channels()[channel][sample].
   // Where:
   // 0 <= channel < |buffer_num_channels_|
   // 0 <= sample < |buffer_num_frames_|
   float* const* channels() { return data_->channels(); }
   const float* const* channels_const() const { return data_->channels(); }

   // Returns pointer arrays to the bands for a specific channel.
   // Usage:
   // split_bands(channel)[band][sample].
   // Where:
   // 0 <= channel < |buffer_num_channels_|
   // 0 <= band < |num_bands_|
   // 0 <= sample < |num_split_frames_|
   const float* const* split_bands_const(size_t channel) const {
     return split_data_.get() ? split_data_->bands(channel)
                              : data_->bands(channel);
   }
   float* const* split_bands(size_t channel) {
     return split_data_.get() ? split_data_->bands(channel)
                              : data_->bands(channel);
   }

   // Returns a pointer array to the channels for a specific band.
   // Usage:
   // split_channels(band)[channel][sample].
   // Where:
   // 0 <= band < |num_bands_|
   // 0 <= channel < |buffer_num_channels_|
   // 0 <= sample < |num_split_frames_|
   const float* const* split_channels_const(Band band) const {
     if (split_data_.get()) {
       return split_data_->channels(band);
     } else {
       return band == kBand0To8kHz ? data_->channels() : nullptr;
     }
   }

   // Copies data into the buffer.
   void CopyFrom(const int16_t* const interleaved_data,
                 const StreamConfig& stream_config);
   void CopyFrom(const float* const* stacked_data,
                 const StreamConfig& stream_config);

   // Copies data from the buffer.
   void CopyTo(const StreamConfig& stream_config,
               int16_t* const interleaved_data);
   void CopyTo(const StreamConfig& stream_config, float* const* stacked_data);
   void CopyTo(AudioBuffer* buffer) const;

   // Splits the buffer data into frequency bands.
   void SplitIntoFrequencyBands();

   // Recombines the frequency bands into a full-band signal.
   void MergeFrequencyBands();

   // Copies the split bands data into the integer two-dimensional array.
   void ExportSplitChannelData(size_t channel,
                               int16_t* const* split_band_data) const;

   // Copies the data in the integer two-dimensional array into the split_bands
   // data.
   void ImportSplitChannelData(size_t channel,
                               const int16_t* const* split_band_data);

   static const size_t kMaxSplitFrameLength = 160;
   static const size_t kMaxNumBands = 3;

   // Deprecated methods, will be removed soon.
   float* const* channels_f() { return channels(); }
   const float* const* channels_const_f() const { return channels_const(); }
   const float* const* split_bands_const_f(size_t channel) const {
     return split_bands_const(channel);
   }
   float* const* split_bands_f(size_t channel) { return split_bands(channel); }
   const float* const* split_channels_const_f(Band band) const {
     return split_channels_const(band);
   }

  private:
   FRIEND_TEST_ALL_PREFIXES(AudioBufferTest,
                            SetNumChannelsSetsChannelBuffersNumChannels);
   void RestoreNumChannels();

   const size_t input_num_frames_;
   const size_t input_num_channels_;
   const size_t buffer_num_frames_;
   const size_t buffer_num_channels_;
   const size_t output_num_frames_;
   const size_t output_num_channels_;

   size_t num_channels_;
   size_t num_bands_;
   size_t num_split_frames_;

   std::unique_ptr<ChannelBuffer<float>> data_;
   std::unique_ptr<ChannelBuffer<float>> split_data_;
   std::unique_ptr<SplittingFilter> splitting_filter_;
   std::vector<std::unique_ptr<PushSincResampler>> input_resamplers_;
   std::vector<std::unique_ptr<PushSincResampler>> output_resamplers_;
   bool downmix_by_averaging_ = true;
   size_t channel_for_downmixing_ = 0;
 };

 }  // namespace webrtc

 #endif  // MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_
	/*
	* Copyright (c) 2011 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.
	*/

	#ifndef MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_
	#define MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_

	#include <stddef.h>
	#include <stdint.h>

	#include <memory>
	#include <vector>

	#include "common_audio/channel_buffer.h"
	#include "modules/audio_processing/include/audio_processing.h"

	namespace webrtc {

	class PushSincResampler;
	class SplittingFilter;

	enum Band { kBand0To8kHz = 0, kBand8To16kHz = 1, kBand16To24kHz = 2 };

	// Stores any audio data in a way that allows the audio processing module to
	// operate on it in a controlled manner.
	class AudioBuffer {
	public:
	static const int kSplitBandSize = 160;
	static const size_t kMaxSampleRate = 384000;
	AudioBuffer(size_t input_rate,
	size_t input_num_channels,
	size_t buffer_rate,
	size_t buffer_num_channels,
	size_t output_rate,
	size_t output_num_channels);

	// The constructor below will be deprecated.
	AudioBuffer(size_t input_num_frames,
	size_t input_num_channels,
	size_t buffer_num_frames,
	size_t buffer_num_channels,
	size_t output_num_frames);
	virtual ~AudioBuffer();

	AudioBuffer(const AudioBuffer&) = delete;
	AudioBuffer& operator=(const AudioBuffer&) = delete;

	// Specify that downmixing should be done by selecting a single channel.
	void set_downmixing_to_specific_channel(size_t channel);

	// Specify that downmixing should be done by averaging all channels,.
	void set_downmixing_by_averaging();

	// Set the number of channels in the buffer. The specified number of channels
	// cannot be larger than the specified buffer_num_channels. The number is also
	// reset at each call to CopyFrom or InterleaveFrom.
	void set_num_channels(size_t num_channels);

	size_t num_channels() const { return num_channels_; }
	size_t num_frames() const { return buffer_num_frames_; }
	size_t num_frames_per_band() const { return num_split_frames_; }
	size_t num_bands() const { return num_bands_; }

	// Returns pointer arrays to the full-band channels.
	// Usage:
	// channels()[channel][sample].
	// Where:
	// 0 <= channel < \|buffer_num_channels_\|
	// 0 <= sample < \|buffer_num_frames_\|
	float* const* channels() { return data_->channels(); }
	const float* const* channels_const() const { return data_->channels(); }

	// Returns pointer arrays to the bands for a specific channel.
	// Usage:
	// split_bands(channel)[band][sample].
	// Where:
	// 0 <= channel < \|buffer_num_channels_\|
	// 0 <= band < \|num_bands_\|
	// 0 <= sample < \|num_split_frames_\|
	const float* const* split_bands_const(size_t channel) const {
	return split_data_.get() ? split_data_->bands(channel)
	: data_->bands(channel);
	}
	float* const* split_bands(size_t channel) {
	return split_data_.get() ? split_data_->bands(channel)
	: data_->bands(channel);
	}

	// Returns a pointer array to the channels for a specific band.
	// Usage:
	// split_channels(band)[channel][sample].
	// Where:
	// 0 <= band < \|num_bands_\|
	// 0 <= channel < \|buffer_num_channels_\|
	// 0 <= sample < \|num_split_frames_\|
	const float* const* split_channels_const(Band band) const {
	if (split_data_.get()) {
	return split_data_->channels(band);
	} else {
	return band == kBand0To8kHz ? data_->channels() : nullptr;
	}
	}

	// Copies data into the buffer.
	void CopyFrom(const int16_t* const interleaved_data,
	const StreamConfig& stream_config);
	void CopyFrom(const float* const* stacked_data,
	const StreamConfig& stream_config);

	// Copies data from the buffer.
	void CopyTo(const StreamConfig& stream_config,
	int16_t* const interleaved_data);
	void CopyTo(const StreamConfig& stream_config, float* const* stacked_data);
	void CopyTo(AudioBuffer* buffer) const;

	// Splits the buffer data into frequency bands.
	void SplitIntoFrequencyBands();

	// Recombines the frequency bands into a full-band signal.
	void MergeFrequencyBands();

	// Copies the split bands data into the integer two-dimensional array.
	void ExportSplitChannelData(size_t channel,
	int16_t* const* split_band_data) const;

	// Copies the data in the integer two-dimensional array into the split_bands
	// data.
	void ImportSplitChannelData(size_t channel,
	const int16_t* const* split_band_data);

	static const size_t kMaxSplitFrameLength = 160;
	static const size_t kMaxNumBands = 3;

	// Deprecated methods, will be removed soon.
	float* const* channels_f() { return channels(); }
	const float* const* channels_const_f() const { return channels_const(); }
	const float* const* split_bands_const_f(size_t channel) const {
	return split_bands_const(channel);
	}
	float* const* split_bands_f(size_t channel) { return split_bands(channel); }
	const float* const* split_channels_const_f(Band band) const {
	return split_channels_const(band);
	}

	private:
	FRIEND_TEST_ALL_PREFIXES(AudioBufferTest,
	SetNumChannelsSetsChannelBuffersNumChannels);
	void RestoreNumChannels();

	const size_t input_num_frames_;
	const size_t input_num_channels_;
	const size_t buffer_num_frames_;
	const size_t buffer_num_channels_;
	const size_t output_num_frames_;
	const size_t output_num_channels_;

	size_t num_channels_;
	size_t num_bands_;
	size_t num_split_frames_;

	std::unique_ptr<ChannelBuffer<float>> data_;
	std::unique_ptr<ChannelBuffer<float>> split_data_;
	std::unique_ptr<SplittingFilter> splitting_filter_;
	std::vector<std::unique_ptr<PushSincResampler>> input_resamplers_;
	std::vector<std::unique_ptr<PushSincResampler>> output_resamplers_;
	bool downmix_by_averaging_ = true;
	size_t channel_for_downmixing_ = 0;
	};

	} // namespace webrtc

	#endif // MODULES_AUDIO_PROCESSING_AUDIO_BUFFER_H_