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

 /*
  *  Copyright (c) 2021 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_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_
 #define MODULES_AUDIO_PROCESSING_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_

 #include <stddef.h>

 #include "modules/audio_processing/audio_buffer.h"
 #include "modules/audio_processing/capture_levels_adjuster/audio_samples_scaler.h"

 namespace webrtc {

 // Adjusts the level of the capture signal before and after all capture-side
 // processing is done using a combination of explicitly specified gains
 // and an emulated analog gain functionality where a specified analog level
 // results in an additional gain. The pre-adjustment is achieved by combining
 // the gain value `pre_gain` and the level `emulated_analog_mic_gain_level` to
 // form a combined gain of `pre_gain`*`emulated_analog_mic_gain_level`/255 which
 // is multiplied to each sample. The intention of the
 // `emulated_analog_mic_gain_level` is to be controlled by the analog AGC
 // functionality and to produce an emulated analog mic gain equal to
 // `emulated_analog_mic_gain_level`/255. The post level adjustment is achieved
 // by multiplying each sample with the value of `post_gain`. Any changes in the
 // gains take are done smoothly over one frame and the scaled samples are
 // clamped to fit into the allowed S16 sample range.
 class CaptureLevelsAdjuster {
  public:
   // C-tor. The values for the level and the gains must fulfill
   // 0 <= emulated_analog_mic_gain_level <= 255.
   // 0.f <= pre_gain.
   // 0.f <= post_gain.
   CaptureLevelsAdjuster(bool emulated_analog_mic_gain_enabled,
                         int emulated_analog_mic_gain_level,
                         float pre_gain,
                         float post_gain);
   CaptureLevelsAdjuster(const CaptureLevelsAdjuster&) = delete;
   CaptureLevelsAdjuster& operator=(const CaptureLevelsAdjuster&) = delete;

   // Adjusts the level of the signal. This should be called before any of the
   // other processing is performed.
   void ApplyPreLevelAdjustment(AudioBuffer& audio_buffer);

   // Adjusts the level of the signal. This should be called after all of the
   // other processing have been performed.
   void ApplyPostLevelAdjustment(AudioBuffer& audio_buffer);

   // Sets the gain to apply to each sample before any of the other processing is
   // performed.
   void SetPreGain(float pre_gain);

   // Returns the total pre-adjustment gain applied, comprising both the pre_gain
   // as well as the gain from the emulated analog mic, to each sample before any
   // of the other processing is performed.
   float GetPreAdjustmentGain() const { return pre_adjustment_gain_; }

   // Sets the gain to apply to each sample after all of the other processing
   // have been performed.
   void SetPostGain(float post_gain);

   // Sets the analog gain level to use for the emulated analog gain.
   // `level` must be in the range [0...255].
   void SetAnalogMicGainLevel(int level);

   // Returns the current analog gain level used for the emulated analog gain.
   int GetAnalogMicGainLevel() const { return emulated_analog_mic_gain_level_; }

  private:
   // Updates the value of `pre_adjustment_gain_` based on the supplied values
   // for `pre_gain` and `emulated_analog_mic_gain_level_`.
   void UpdatePreAdjustmentGain();

   const bool emulated_analog_mic_gain_enabled_;
   int emulated_analog_mic_gain_level_;
   float pre_gain_;
   float pre_adjustment_gain_;
   AudioSamplesScaler pre_scaler_;
   AudioSamplesScaler post_scaler_;
 };
 }  // namespace webrtc

 #endif  // MODULES_AUDIO_PROCESSING_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_
	/*
	* Copyright (c) 2021 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_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_
	#define MODULES_AUDIO_PROCESSING_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_

	#include <stddef.h>

	#include "modules/audio_processing/audio_buffer.h"
	#include "modules/audio_processing/capture_levels_adjuster/audio_samples_scaler.h"

	namespace webrtc {

	// Adjusts the level of the capture signal before and after all capture-side
	// processing is done using a combination of explicitly specified gains
	// and an emulated analog gain functionality where a specified analog level
	// results in an additional gain. The pre-adjustment is achieved by combining
	// the gain value `pre_gain` and the level `emulated_analog_mic_gain_level` to
	// form a combined gain of `pre_gain`*`emulated_analog_mic_gain_level`/255 which
	// is multiplied to each sample. The intention of the
	// `emulated_analog_mic_gain_level` is to be controlled by the analog AGC
	// functionality and to produce an emulated analog mic gain equal to
	// `emulated_analog_mic_gain_level`/255. The post level adjustment is achieved
	// by multiplying each sample with the value of `post_gain`. Any changes in the
	// gains take are done smoothly over one frame and the scaled samples are
	// clamped to fit into the allowed S16 sample range.
	class CaptureLevelsAdjuster {
	public:
	// C-tor. The values for the level and the gains must fulfill
	// 0 <= emulated_analog_mic_gain_level <= 255.
	// 0.f <= pre_gain.
	// 0.f <= post_gain.
	CaptureLevelsAdjuster(bool emulated_analog_mic_gain_enabled,
	int emulated_analog_mic_gain_level,
	float pre_gain,
	float post_gain);
	CaptureLevelsAdjuster(const CaptureLevelsAdjuster&) = delete;
	CaptureLevelsAdjuster& operator=(const CaptureLevelsAdjuster&) = delete;

	// Adjusts the level of the signal. This should be called before any of the
	// other processing is performed.
	void ApplyPreLevelAdjustment(AudioBuffer& audio_buffer);

	// Adjusts the level of the signal. This should be called after all of the
	// other processing have been performed.
	void ApplyPostLevelAdjustment(AudioBuffer& audio_buffer);

	// Sets the gain to apply to each sample before any of the other processing is
	// performed.
	void SetPreGain(float pre_gain);

	// Returns the total pre-adjustment gain applied, comprising both the pre_gain
	// as well as the gain from the emulated analog mic, to each sample before any
	// of the other processing is performed.
	float GetPreAdjustmentGain() const { return pre_adjustment_gain_; }

	// Sets the gain to apply to each sample after all of the other processing
	// have been performed.
	void SetPostGain(float post_gain);

	// Sets the analog gain level to use for the emulated analog gain.
	// `level` must be in the range [0...255].
	void SetAnalogMicGainLevel(int level);

	// Returns the current analog gain level used for the emulated analog gain.
	int GetAnalogMicGainLevel() const { return emulated_analog_mic_gain_level_; }

	private:
	// Updates the value of `pre_adjustment_gain_` based on the supplied values
	// for `pre_gain` and `emulated_analog_mic_gain_level_`.
	void UpdatePreAdjustmentGain();

	const bool emulated_analog_mic_gain_enabled_;
	int emulated_analog_mic_gain_level_;
	float pre_gain_;
	float pre_adjustment_gain_;
	AudioSamplesScaler pre_scaler_;
	AudioSamplesScaler post_scaler_;
	};
	} // namespace webrtc

	#endif // MODULES_AUDIO_PROCESSING_CAPTURE_LEVELS_ADJUSTER_CAPTURE_LEVELS_ADJUSTER_H_