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added the maximum filter length to the parameters

dds
awalch6679 hace 4 años
padre
commit
7e7cb4dbb8
Se han modificado 5 ficheros con 37 adiciones y 44 borrados
  1. +19
    -31
      Resampler.cpp
  2. +5
    -2
      Resampler.h
  3. +5
    -4
      async_input_spdif3.cpp
  4. +4
    -5
      async_input_spdif3.h
  5. +4
    -2
      examples/HardwareTesting/PassThroughAsyncSpdif/PassThroughAsyncSpdif.ino

+ 19
- 31
Resampler.cpp Ver fichero

@@ -30,7 +30,10 @@
#include "Resampler.h"
#include <math.h>

Resampler::Resampler(StepAdaptionParameters settings){
Resampler::Resampler(float attenuation, int32_t minHalfFilterLength, int32_t maxHalfFilterLength, StepAdaptionParameters settings): _targetAttenuation(attenuation)
{
_maxHalfFilterLength=max(1, min(MAX_HALF_FILTER_LENGTH, maxHalfFilterLength));
_minHalfFilterLength=max(1, min(maxHalfFilterLength, minHalfFilterLength));
#ifdef DEBUG_RESAMPLER
while (!Serial);
#endif
@@ -138,7 +141,7 @@ int32_t Resampler::getHalfFilterLength() const{
void Resampler::reset(){
_initialized=false;
}
void Resampler::configure(float fs, float newFs, float attenuation, int32_t minHalfFilterLength){
void Resampler::configure(float fs, float newFs){
// Serial.print("configure, fs: ");
// Serial.println(fs);
if (fs<=0. || newFs <=0.){
@@ -147,6 +150,7 @@ void Resampler::configure(float fs, float newFs, float attenuation, int32_t minH
_initialized=false;
return;
}
_attenuation=_targetAttenuation;
_step=(double)fs/newFs;
_configuredStep=_step;
_stepAdapted=_step;
@@ -154,7 +158,7 @@ void Resampler::configure(float fs, float newFs, float attenuation, int32_t minH
_oldDiffs[0]=0.;
_oldDiffs[1]=0.;
for (uint8_t i =0; i< MAX_NO_CHANNELS; i++){
memset(_buffer[i], 0, sizeof(float)*MAX_HALF_FILTER_LENGTH*2);
memset(_buffer[i], 0, sizeof(float)*_maxHalfFilterLength*2);
}

float cutOffFrequ, kaiserBeta;
@@ -163,7 +167,7 @@ void Resampler::configure(float fs, float newFs, float attenuation, int32_t minH
_attenuation=0;
cutOffFrequ=1.;
kaiserBeta=10;
_halfFilterLength=min(minHalfFilterLength,MAX_HALF_FILTER_LENGTH);
_halfFilterLength=min(_minHalfFilterLength,_maxHalfFilterLength);
}
else{
cutOffFrequ=newFs/fs;
@@ -172,38 +176,23 @@ void Resampler::configure(float fs, float newFs, float attenuation, int32_t minH
Serial.print("b: ");
Serial.println(b);
#endif
double hfl=(int32_t)((attenuation-8)/(2.*2.285*TWO_PI*b)+0.5);
if (hfl >= minHalfFilterLength && hfl <= MAX_HALF_FILTER_LENGTH){
double hfl=(int32_t)((_attenuation-8)/(2.*2.285*TWO_PI*b)+0.5);
if (hfl >= _minHalfFilterLength && hfl <= _maxHalfFilterLength){
_halfFilterLength=hfl;
#ifdef DEBUG_RESAMPLER
Serial.print("Attenuation: ");
#endif
}
else if (hfl < minHalfFilterLength){
_halfFilterLength=minHalfFilterLength;
attenuation=((2*_halfFilterLength+1)-1)*(2.285*TWO_PI*b)+8;
#ifdef DEBUG_RESAMPLER
Serial.println("Resmapler: sinc filter length increased");
Serial.print("Attenuation increased to ");
#endif
else if (hfl < _minHalfFilterLength){
_halfFilterLength=_minHalfFilterLength;
_attenuation=((2*_halfFilterLength+1)-1)*(2.285*TWO_PI*b)+8;
}
else{
_halfFilterLength=MAX_HALF_FILTER_LENGTH;
attenuation=((2*_halfFilterLength+1)-1)*(2.285*TWO_PI*b)+8;
#ifdef DEBUG_RESAMPLER
Serial.println("Resmapler: needed sinc filter length too long");
Serial.print("Attenuation decreased to ");
#endif
_halfFilterLength=_maxHalfFilterLength;
_attenuation=((2*_halfFilterLength+1)-1)*(2.285*TWO_PI*b)+8;
}
#ifdef DEBUG_RESAMPLER
Serial.print(attenuation);
Serial.println("dB");
#endif
if (attenuation>50.){
kaiserBeta=0.1102*(attenuation-8.7);
if (_attenuation>50.){
kaiserBeta=0.1102*(_attenuation-8.7);
}
else if (21<=attenuation && attenuation<=50){
kaiserBeta=0.5842*(float)pow(attenuation-21.,0.4)+0.07886*(attenuation-21.);
else if (21<=_attenuation && _attenuation<=50){
kaiserBeta=0.5842*(float)pow(_attenuation-21.,0.4)+0.07886*(_attenuation-21.);
}
else{
kaiserBeta=0.;
@@ -213,7 +202,6 @@ void Resampler::configure(float fs, float newFs, float attenuation, int32_t minH
int32_t f = (noSamples-1)/(MAX_FILTER_SAMPLES-1)+1;
_overSamplingFactor/=f;
}
_attenuation=attenuation;
}

#ifdef DEBUG_RESAMPLER

+ 5
- 2
Resampler.h Ver fichero

@@ -49,11 +49,11 @@ class Resampler {
double ki=0.00012;
double kd= 1.8;
};
Resampler(StepAdaptionParameters settings=StepAdaptionParameters());
Resampler(float attenuation=100, int32_t minHalfFilterLength=20, int32_t maxHalfFilterLength=80, StepAdaptionParameters settings=StepAdaptionParameters());
void reset();
///@param attenuation target attenuation [dB] of the anti-aliasing filter. Only used if newFs<fs. The attenuation can't be reached if the needed filter length exceeds 2*MAX_FILTER_SAMPLES+1
///@param minHalfFilterLength If newFs >= fs, the filter length of the resampling filter is 2*minHalfFilterLength+1. If fs y newFs the filter is maybe longer to reach the desired attenuation
void configure(float fs, float newFs, float attenuation=100, int32_t minHalfFilterLength=20);
void configure(float fs, float newFs);
///@param input0 first input array/ channel
///@param input1 second input array/ channel
///@param inputLength length of each input array
@@ -207,6 +207,8 @@ class Resampler {
float _buffer[MAX_NO_CHANNELS][MAX_HALF_FILTER_LENGTH*2];
float* _endOfBuffer[MAX_NO_CHANNELS];

int32_t _minHalfFilterLength;
int32_t _maxHalfFilterLength;
int32_t _overSamplingFactor;
int32_t _halfFilterLength;
int32_t _filterLength;
@@ -222,6 +224,7 @@ class Resampler {
double _oldDiffs[2];
double _attenuation=0;
float _targetAttenuation=100;
};

#endif

+ 5
- 4
async_input_spdif3.cpp Ver fichero

@@ -65,9 +65,10 @@ AsyncAudioInputSPDIF3::~AsyncAudioInputSPDIF3(){
}

PROGMEM
AsyncAudioInputSPDIF3::AsyncAudioInputSPDIF3(bool dither, bool noiseshaping,float attenuation, int32_t minHalfFilterLength) : AudioStream(0, NULL) {
_attenuation=attenuation;
_minHalfFilterLength=minHalfFilterLength;
AsyncAudioInputSPDIF3::AsyncAudioInputSPDIF3(bool dither, bool noiseshaping,float attenuation, int32_t minHalfFilterLength, int32_t maxHalfFilterLength):
AudioStream(0, NULL),
_resampler(attenuation, minHalfFilterLength, maxHalfFilterLength)
{
const float factor = powf(2, 15)-1.f; // to 16 bit audio
quantizer[0]=new Quantizer(AUDIO_SAMPLE_RATE_EXACT);
quantizer[0]->configure(noiseshaping, dither, factor);
@@ -251,7 +252,7 @@ void AsyncAudioInputSPDIF3::configure(){
__disable_irq();
resample_offset = targetLatency <= buffer_offset ? buffer_offset - targetLatency : bufferLength -(targetLatency-buffer_offset);
__enable_irq();
_resampler.configure(inputF, AUDIO_SAMPLE_RATE_EXACT, _attenuation, _minHalfFilterLength);
_resampler.configure(inputF, AUDIO_SAMPLE_RATE_EXACT);
#ifdef DEBUG_SPDIF_IN
Serial.print("_maxLatency: ");
Serial.println(_maxLatency);

+ 4
- 5
async_input_spdif3.h Ver fichero

@@ -40,9 +40,10 @@
class AsyncAudioInputSPDIF3 : public AudioStream
{
public:
///@param attenuation target attenuation [dB] of the anti-aliasing filter. Only used if newFs<fs. The attenuation can't be reached if the needed filter length exceeds 2*MAX_FILTER_SAMPLES+1
///@param minHalfFilterLength If newFs >= fs, the filter length of the resampling filter is 2*minHalfFilterLength+1. If fs y newFs the filter is maybe longer to reach the desired attenuation
AsyncAudioInputSPDIF3(bool dither=true, bool noiseshaping=true,float attenuation=100, int32_t minHalfFilterLength=20);
///@param attenuation target attenuation [dB] of the anti-aliasing filter. Only used if AUDIO_SAMPLE_RATE_EXACT < input sample rate (input fs). The attenuation can't be reached if the needed filter length exceeds 2*MAX_FILTER_SAMPLES+1
///@param minHalfFilterLength If AUDIO_SAMPLE_RATE_EXACT >= input fs), the filter length of the resampling filter is 2*minHalfFilterLength+1. If AUDIO_SAMPLE_RATE_EXACT < input fs the filter is maybe longer to reach the desired attenuation
///@param maxHalfFilterLength Can be used to restrict the maximum filter length at the cost of a lower attenuation
AsyncAudioInputSPDIF3(bool dither=true, bool noiseshaping=true,float attenuation=100, int32_t minHalfFilterLength=20, int32_t maxHalfFilterLength=80);
~AsyncAudioInputSPDIF3();
virtual void update(void);
void begin();
@@ -69,8 +70,6 @@ private:
static volatile uint32_t microsLast;
//====================

float _attenuation;
int32_t _minHalfFilterLength;
Resampler _resampler;
Quantizer* quantizer[2];
arm_biquad_cascade_df2T_instance_f32 _bufferLPFilter;

+ 4
- 2
examples/HardwareTesting/PassThroughAsyncSpdif/PassThroughAsyncSpdif.ino Ver fichero

@@ -1,7 +1,7 @@

#include <Audio.h>

AsyncAudioInputSPDIF3 spdifIn(false, false, 100, 20); //dither = false, noiseshaping = false, anti-aliasing attenuation=100dB, minimum resampling filter length=20
AsyncAudioInputSPDIF3 spdifIn(false, false, 100, 20, 80); //dither = true, noiseshaping = true, anti-aliasing attenuation=100dB, minimum half resampling filter length=20, maximum half resampling filter length=80
AudioOutputSPDIF3 spdifOut;

AudioConnection patchCord1(spdifIn, 0, spdifOut, 0);
@@ -30,7 +30,9 @@ void loop() {
Serial.print("resampling goup delay [milli seconds]: ");
Serial.println(spdifIn.getHalfFilterLength()/inputFrequency*1e3,2);
Serial.print("half filter length: ");
Serial.println(spdifIn.getHalfFilterLength());
double pUsageIn=spdifIn.processorUsage();
Serial.print("processor usage [%]: ");

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