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- /* Audio Library for Teensy 3.X
- * Copyright (c) 2019, Paul Stoffregen, paul@pjrc.com
- *
- * Development of this audio library was funded by PJRC.COM, LLC by sales of
- * Teensy and Audio Adaptor boards. Please support PJRC's efforts to develop
- * open source software by purchasing Teensy or other PJRC products.
- *
- * Permission is hereby granted, free of charge, to any person obtaining a copy
- * of this software and associated documentation files (the "Software"), to deal
- * in the Software without restriction, including without limitation the rights
- * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
- * copies of the Software, and to permit persons to whom the Software is
- * furnished to do so, subject to the following conditions:
- *
- * The above copyright notice, development funding notice, and this permission
- * notice shall be included in all copies or substantial portions of the Software.
- *
- * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
- * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
- * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
- * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
- * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
- * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
- * THE SOFTWARE.
- */
- /*
- by Alexander Walch
- */
- #include "Quantizer.h"
-
- #define SAMPLEINVALID(sample) (!isfinite(sample) || abs(sample) >= 1.2) //use only for floating point samples (\in [-1.,1.])
-
- Quantizer::Quantizer(float audio_sample_rate){
- #ifdef DEBUG_QUANTIZER
- while(!Serial);
- #endif
- randomSeed(1);
- if(audio_sample_rate==44100.f){
- _noiseSFilter[0]=-0.06935825f;
- _noiseSFilter[1]=0.52540845f;
- _noiseSFilter[2]= -1.20537028f;
- _noiseSFilter[3]= 2.09422811f;
- _noiseSFilter[4]= -3.2177438f;
- _noiseSFilter[5]= 4.04852027f;
- _noiseSFilter[6]= -3.83872701f;
- _noiseSFilter[7]= 3.30584589f;
- _noiseSFilter[8]= -2.38682527f;
- // all coefficients in correct order:
- // {1. , -2.38682527, 3.30584589, -3.83872701, 4.04852027,
- // -3.2177438 , 2.09422811, -1.20537028, 0.52540845, -0.06935825};
- } else if(audio_sample_rate==48000.f){
- _noiseSFilter[0]=0.1967454f;
- _noiseSFilter[1]=-0.30086406f;
- _noiseSFilter[2]= 0.09575588f;
- _noiseSFilter[3]= 0.58209648f;
- _noiseSFilter[4]= -1.88579617f;
- _noiseSFilter[5]= 3.37325788f;
- _noiseSFilter[6]= -3.88076402f;
- _noiseSFilter[7]= 3.58558504f;
- _noiseSFilter[8]= -2.54334066f;
- // all coefficients in correct order:
- // {1. , -2.54334066, 3.58558504, -3.88076402, 3.37325788,
- // -1.88579617, 0.58209648, 0.09575588, -0.30086406, 0.1967454};
- // }
- }
- else {
- _noiseSFilter[0]=0.f;
- _noiseSFilter[1]=0.f;
- _noiseSFilter[2]=0.f;
- _noiseSFilter[3]=0.f;
- _noiseSFilter[4]=0.f;
- _noiseSFilter[5]=0.f;
- _noiseSFilter[6]=0.f;
- _noiseSFilter[7]=0.f;
- _noiseSFilter[8]=0.f;
- }
- _bufferEnd0=&_buffer0[NOISE_SHAPE_F_LENGTH];
- reset();
- }
-
- void Quantizer::configure(bool noiseShaping, bool dither, float factor){
- _noiseShaping=noiseShaping;
- _dither=dither;
- _factor=factor;
- reset();
- }
- void Quantizer::reset(){
- _bPtr0=_buffer0;
- _bPtr1=_buffer1;
- _fOutputLastIt0=0.;
- _fOutputLastIt1=0.;
- memset(_buffer0, 0, NOISE_SHAPE_F_LENGTH*sizeof(float));
- memset(_buffer1, 0, NOISE_SHAPE_F_LENGTH*sizeof(float));
- }
- void Quantizer::quantize(float* input, int16_t* output, uint16_t length){
- float xn, xnD, error;
- const float f2 = 1.f/1000000.f;
- #ifdef DEBUG_QUANTIZER
- float debugFF=1024.f;
- const float factor=(powf(2.f, 15.f)-1.f)/debugFF;
- #endif
-
- for (uint16_t i =0; i< length; i++){
- xn= SAMPLEINVALID(*input) ? 0. : *input*_factor; //-_fOutputLastIt0 according to paper
- ++input;
- if (_noiseShaping){
- xn+=_fOutputLastIt0;
- }
- if(_dither){
- const uint32_t r0=random(1000000);
- const uint32_t r1=random(1000000);
- xnD=xn + (r0 + r1)*f2-1.f;
- }
- else {
- xnD=xn;
- }
- float xnDR=round(xnD);
- if (_noiseShaping){
- //compute quatization error:
- error=xnDR- xn;
- *_bPtr0++=error;
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- }
- float* f=_noiseSFilter;
- _fOutputLastIt0=(*_bPtr0++ * *f++);
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- }
- for (uint16_t j =1; j< NOISE_SHAPE_F_LENGTH; j++){
- _fOutputLastIt0+=(*_bPtr0++ * *f++);
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- }
- }
- }
- #ifdef DEBUG_QUANTIZER
- xnDR*=debugFF;
- #endif
- if (xnDR > _factor){
- *output=(int16_t)_factor;
- }
- else if (xnDR < -_factor){
- *output=(int16_t)_factor;
- }
- else {
- *output=(int16_t)xnDR;
- }
-
- ++output;
- }
- }
-
- void Quantizer::quantize(float* input0, float* input1, int32_t* outputInterleaved, uint16_t length){
- float xn0, xnD0, error0,xnDR0, xn1, xnD1, error1,xnDR1;
- const float f2 = 1.f/1000000.f;
- #ifdef DEBUG_QUANTIZER
- float debugFF=1024.f;
- const float factor=(powf(2.f, 15.f)-1.f)/debugFF;
- #endif
- for (uint16_t i =0; i< length; i++){
- xn0= SAMPLEINVALID(*input0) ? 0. : *input0*_factor; //-_fOutputLastIt0 according to paper
- ++input0;
- xn1= SAMPLEINVALID(*input1) ? 0. : *input1*_factor; //-_fOutputLastIt0 according to paper
- ++input1;
- if (_noiseShaping){
- xn0+=_fOutputLastIt0;
- xn1+=_fOutputLastIt1;
- }
- if(_dither){
- uint32_t r0=random(1000000);
- uint32_t r1=random(1000000);
- xnD0=xn0 + (r0 + r1)*f2-1.f;
- r0=random(1000000);
- r1=random(1000000);
- xnD1=xn1 + (r0 + r1)*f2-1.f;
- }
- else {
- xnD0=xn0;
- xnD1=xn1;
- }
- xnDR0=round(xnD0);
- xnDR1=round(xnD1);
- if (_noiseShaping){
- //compute quatization error0:
- error0=xnDR0- xn0;
- error1=xnDR1- xn1;
- *_bPtr0++=error0;
- *_bPtr1++=error1;
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- _bPtr1=_buffer1;
- }
- float* f=_noiseSFilter;
- _fOutputLastIt0=(*_bPtr0++ * *f);
- _fOutputLastIt1=(*_bPtr1++ * *f++);
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- _bPtr1=_buffer1;
- }
- for (uint16_t j =1 ; j< NOISE_SHAPE_F_LENGTH; j++){
- _fOutputLastIt0+=(*_bPtr0++ * *f);
- _fOutputLastIt1+=(*_bPtr1++ * *f++);
- if (_bPtr0==_bufferEnd0){
- _bPtr0=_buffer0;
- _bPtr1=_buffer1;
- }
- }
- }
- #ifdef DEBUG_QUANTIZER
- xnDR0*=debugFF;
- #endif
- if (xnDR0 > _factor){
- *outputInterleaved++=(int32_t)_factor;
- }
- else if (xnDR0 < -_factor){
- *outputInterleaved++=-(int32_t)_factor;
- }
- else {
- *outputInterleaved++=(int32_t)xnDR0;
- }
- if (xnDR1 > _factor){
- *outputInterleaved++=(int32_t)_factor;
- }
- else if (xnDR1 < -_factor){
- *outputInterleaved++=-(int32_t)_factor;
- }
- else {
- *outputInterleaved++=(int32_t)xnDR1;
- }
- }
- }
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