media/libeffects/dynamicsproc/dsp/DPFrequency.h - third_party/android/platform/frameworks/av - Git at Google

 /*
  * Copyright (C) 2018 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */


 #ifndef DPFREQUENCY_H_
 #define DPFREQUENCY_H_

 #include <Eigen/Dense>
 #include <unsupported/Eigen/FFT>

 #include "RDsp.h"
 #include "SHCircularBuffer.h"

 #include "DPBase.h"


 namespace dp_fx {

 using FXBuffer = SHCircularBuffer<float>;

 class ChannelBuffer {
 public:
     FXBuffer cBInput;   // Circular Buffer input
     FXBuffer cBOutput;  // Circular Buffer output
     FloatVec input;     // time domain temp vector for input
     FloatVec output;    // time domain temp vector for output
     FloatVec outTail;   // time domain temp vector for output tail (for overlap-add method)

     Eigen::VectorXcf complexTemp; // complex temp vector for frequency domain operations

     //Current parameters
     float inputGainDb;
     float outputGainDb;
     struct BandParams {
         bool enabled;
         float freqCutoffHz;
         size_t binStart;
         size_t binStop;
     };
     struct EqBandParams : public BandParams {
         float gainDb;
     };
     struct MbcBandParams : public BandParams {
         float gainPreDb;
         float gainPostDb;
         float attackTimeMs;
         float releaseTimeMs;
         float ratio;
         float thresholdDb;
         float kneeWidthDb;
         float noiseGateThresholdDb;
         float expanderRatio;

         //Historic values
         float previousEnvelope;
     };
     struct LimiterParams {
         int32_t linkGroup;
         float attackTimeMs;
         float releaseTimeMs;
         float ratio;
         float thresholdDb;
         float postGainDb;

         //Historic values
         float previousEnvelope;
         float newFactor;
         float linkFactor;
     };

     bool mPreEqInUse;
     bool mPreEqEnabled;
     std::vector<EqBandParams> mPreEqBands;

     bool mMbcInUse;
     bool mMbcEnabled;
     std::vector<MbcBandParams> mMbcBands;

     bool mPostEqInUse;
     bool mPostEqEnabled;
     std::vector<EqBandParams> mPostEqBands;

     bool mLimiterInUse;
     bool mLimiterEnabled;
     LimiterParams mLimiterParams;
     FloatVec mPreEqFactorVector; // temp pre-computed vector to shape spectrum at preEQ stage
     FloatVec mPostEqFactorVector; // temp pre-computed vector to shape spectrum at postEQ stage

     void initBuffers(unsigned int blockSize, unsigned int overlapSize, unsigned int halfFftSize,
             unsigned int samplingRate, DPBase &dpBase);
     void computeBinStartStop(BandParams &bp, size_t binStart);
 private:
     unsigned int mSamplingRate;
     unsigned int mBlockSize;

 };

 using CBufferVector = std::vector<ChannelBuffer>;

 using GroupsMap = std::map<int32_t, IntVec>;

 class LinkedLimiters {
 public:
     void reset();
     void update(int32_t group, int index);
     void remove(int index);
     GroupsMap mGroupsMap;
 };

 class DPFrequency : public DPBase {
 public:
     virtual size_t processSamples(const float *in, float *out, size_t samples);
     virtual void reset();
     void configure(size_t blockSize, size_t overlapSize, size_t samplingRate);
     static size_t getMinBockSize();
     static size_t getMaxBockSize();

 private:
     void updateParameters(ChannelBuffer &cb, int channelIndex);
     size_t processMono(ChannelBuffer &cb);
     size_t processOneVector(FloatVec &output, FloatVec &input, ChannelBuffer &cb);

     size_t processChannelBuffers(CBufferVector &channelBuffers);
     size_t processFirstStages(ChannelBuffer &cb);
     size_t processLastStages(ChannelBuffer &cb);
     void processLinkedLimiters(CBufferVector &channelBuffers);

     size_t mBlockSize;
     size_t mHalfFFTSize;
     size_t mOverlapSize;
     size_t mSamplingRate;

     float mBlocksPerSecond;

     CBufferVector mChannelBuffers;

     LinkedLimiters mLinkedLimiters;

     //dsp
     FloatVec mVWindow;  //window class.
     float mWindowRms;
     Eigen::FFT<float> mFftServer;
 };

 } //namespace dp_fx

 #endif  // DPFREQUENCY_H_
	/*
	* Copyright (C) 2018 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/


	#ifndef DPFREQUENCY_H_
	#define DPFREQUENCY_H_

	#include <Eigen/Dense>
	#include <unsupported/Eigen/FFT>

	#include "RDsp.h"
	#include "SHCircularBuffer.h"

	#include "DPBase.h"


	namespace dp_fx {

	using FXBuffer = SHCircularBuffer<float>;

	class ChannelBuffer {
	public:
	FXBuffer cBInput; // Circular Buffer input
	FXBuffer cBOutput; // Circular Buffer output
	FloatVec input; // time domain temp vector for input
	FloatVec output; // time domain temp vector for output
	FloatVec outTail; // time domain temp vector for output tail (for overlap-add method)

	Eigen::VectorXcf complexTemp; // complex temp vector for frequency domain operations

	//Current parameters
	float inputGainDb;
	float outputGainDb;
	struct BandParams {
	bool enabled;
	float freqCutoffHz;
	size_t binStart;
	size_t binStop;
	};
	struct EqBandParams : public BandParams {
	float gainDb;
	};
	struct MbcBandParams : public BandParams {
	float gainPreDb;
	float gainPostDb;
	float attackTimeMs;
	float releaseTimeMs;
	float ratio;
	float thresholdDb;
	float kneeWidthDb;
	float noiseGateThresholdDb;
	float expanderRatio;

	//Historic values
	float previousEnvelope;
	};
	struct LimiterParams {
	int32_t linkGroup;
	float attackTimeMs;
	float releaseTimeMs;
	float ratio;
	float thresholdDb;
	float postGainDb;

	//Historic values
	float previousEnvelope;
	float newFactor;
	float linkFactor;
	};

	bool mPreEqInUse;
	bool mPreEqEnabled;
	std::vector<EqBandParams> mPreEqBands;

	bool mMbcInUse;
	bool mMbcEnabled;
	std::vector<MbcBandParams> mMbcBands;

	bool mPostEqInUse;
	bool mPostEqEnabled;
	std::vector<EqBandParams> mPostEqBands;

	bool mLimiterInUse;
	bool mLimiterEnabled;
	LimiterParams mLimiterParams;
	FloatVec mPreEqFactorVector; // temp pre-computed vector to shape spectrum at preEQ stage
	FloatVec mPostEqFactorVector; // temp pre-computed vector to shape spectrum at postEQ stage

	void initBuffers(unsigned int blockSize, unsigned int overlapSize, unsigned int halfFftSize,
	unsigned int samplingRate, DPBase &dpBase);
	void computeBinStartStop(BandParams &bp, size_t binStart);
	private:
	unsigned int mSamplingRate;
	unsigned int mBlockSize;

	};

	using CBufferVector = std::vector<ChannelBuffer>;

	using GroupsMap = std::map<int32_t, IntVec>;

	class LinkedLimiters {
	public:
	void reset();
	void update(int32_t group, int index);
	void remove(int index);
	GroupsMap mGroupsMap;
	};

	class DPFrequency : public DPBase {
	public:
	virtual size_t processSamples(const float in, float out, size_t samples);
	virtual void reset();
	void configure(size_t blockSize, size_t overlapSize, size_t samplingRate);
	static size_t getMinBockSize();
	static size_t getMaxBockSize();

	private:
	void updateParameters(ChannelBuffer &cb, int channelIndex);
	size_t processMono(ChannelBuffer &cb);
	size_t processOneVector(FloatVec &output, FloatVec &input, ChannelBuffer &cb);

	size_t processChannelBuffers(CBufferVector &channelBuffers);
	size_t processFirstStages(ChannelBuffer &cb);
	size_t processLastStages(ChannelBuffer &cb);
	void processLinkedLimiters(CBufferVector &channelBuffers);

	size_t mBlockSize;
	size_t mHalfFFTSize;
	size_t mOverlapSize;
	size_t mSamplingRate;

	float mBlocksPerSecond;

	CBufferVector mChannelBuffers;

	LinkedLimiters mLinkedLimiters;

	//dsp
	FloatVec mVWindow; //window class.
	float mWindowRms;
	Eigen::FFT<float> mFftServer;
	};

	} //namespace dp_fx

	#endif // DPFREQUENCY_H_