2021-08-23 02:41:33 +00:00
# include "cwCommon.h"
# include "cwLog.h"
# include "cwCommonImpl.h"
# include "cwMem.h"
# include "cwFile.h"
# include "cwText.h"
# include "cwObject.h"
# include "cwAudioFile.h"
# include "cwUtility.h"
# include "cwFileSys.h"
# include "cwAudioFileOps.h"
# include "cwVectOps.h"
# include "cwMath.h"
# include "cwDspTypes.h"
# include "cwDsp.h"
# include "cwDspTransforms.h"
namespace cw
{
namespace dsp
{
namespace compressor
{
2024-04-26 21:00:58 +00:00
void _ms_to_samples ( obj_t * p , ftime_t ms , unsigned & outRef )
2021-08-23 02:41:33 +00:00
{
2024-04-26 21:00:58 +00:00
outRef = std : : max ( 1u , ( unsigned ) floor ( ms * p - > srate / 1000.0 ) ) ;
2021-08-23 02:41:33 +00:00
}
}
}
}
2022-12-05 22:21:54 +00:00
//----------------------------------------------------------------------------------------------------------------
// compressor
//
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : compressor : : create ( obj_t * & p , srate_t srate , unsigned procSmpCnt , coeff_t inGain , ftime_t rmsWndMaxMs , ftime_t rmsWndMs , coeff_t threshDb , coeff_t ratio_num , ftime_t atkMs , ftime_t rlsMs , coeff_t outGain , bool bypassFl )
2021-08-23 02:41:33 +00:00
{
p = mem : : allocZ < obj_t > ( ) ;
p - > srate = srate ;
p - > procSmpCnt = procSmpCnt ;
p - > threshDb = threshDb ;
p - > ratio_num = ratio_num ;
set_attack_ms ( p , atkMs ) ;
set_release_ms ( p , rlsMs ) ;
p - > inGain = inGain ;
p - > outGain = outGain ;
p - > bypassFl = bypassFl ;
p - > rmsWndAllocCnt = ( unsigned ) std : : max ( 1.0 , floor ( rmsWndMaxMs * srate / ( 1000.0 * procSmpCnt ) ) ) ;
p - > rmsWnd = mem : : allocZ < sample_t > ( p - > rmsWndAllocCnt ) ;
set_rms_wnd_ms ( p , rmsWndMs ) ;
p - > rmsWndIdx = 0 ;
p - > state = kRlsCompId ;
p - > timeConstDb = 10.0 ;
p - > accumDb = p - > threshDb ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : compressor : : destroy ( obj_t * & p )
{
mem : : release ( p - > rmsWnd ) ;
mem : : release ( p ) ;
return kOkRC ;
}
/*
The ratio determines to what degree a signal above the threshold is reduced .
Given a 2 : 1 ratio , a signal 2 dB above the threshold will be reduced to 1 db above the threshold .
Given a 4 : 1 ratio , a signal 2 dB above the threshold will be reduced to 0.25 db above the threshold .
Gain_reduction_db = ( thresh - signal ) / ratio_numerator ( difference between the threshold and signal level after reduction )
Gain Coeff = 10 ^ ( gain_reduction_db / 20 ) ;
Total_reduction_db = signal - threshold + Gain_reduc_db
( total change in signal level )
The attack can be viewed as beginning at the threshold and moving to the peak
over some period of time . In linear terms this will go from 1.0 to the max gain
reductions . In this case we step from thresh to peak at a fixed rate in dB
based on the attack time .
Db : thresh - [ thesh : peak ] / ratio_num
Linear : pow ( 10 , ( thresh - [ thesh : peak ] / ratio_num ) / 20 ) ;
During attacks p - > accumDb increments toward the p - > pkDb .
During release p - > accumDb decrements toward the threshold .
( thresh - accumDb ) / ratio_num gives the signal level which will be achieved
if this value is converted to linear form and applied as a gain coeff .
See compressor . m
*/
cw : : rc_t cw : : dsp : : compressor : : exec ( obj_t * p , const sample_t * x , sample_t * y , unsigned n )
{
sample_t xx [ n ] ;
vop : : mul ( xx , x , p - > inGain , n ) ; // apply input gain
p - > rmsWnd [ p - > rmsWndIdx ] = vop : : rms ( xx , n ) ; // calc and store signal RMS
p - > rmsWndIdx = ( p - > rmsWndIdx + 1 ) % p - > rmsWndCnt ; // advance the RMS storage buffer
2024-04-26 21:00:58 +00:00
coeff_t rmsLin = vop : : mean ( p - > rmsWnd , p - > rmsWndCnt ) ; // calc avg RMS
coeff_t rmsDb = std : : max ( - 100.0 , 20 * log10 ( std : : max ( ( coeff_t ) 0.00001 , rmsLin ) ) ) ; // convert avg RMS to dB
2021-08-23 02:41:33 +00:00
rmsDb + = 100.0 ;
// if the compressor is bypassed
if ( p - > bypassFl )
{
vop : : copy ( y , x , n ) ; // copy through - with no input gain
return kOkRC ;
}
// if the signal is above the threshold
if ( rmsDb < = p - > threshDb )
p - > state = kRlsCompId ;
else
{
if ( rmsDb > p - > pkDb )
p - > pkDb = rmsDb ;
p - > state = kAtkCompId ;
}
switch ( p - > state )
{
case kAtkCompId :
p - > accumDb = std : : min ( p - > pkDb , p - > accumDb + p - > timeConstDb * n / p - > atkSmp ) ;
break ;
case kRlsCompId :
p - > accumDb = std : : max ( p - > threshDb , p - > accumDb - p - > timeConstDb * n / p - > rlsSmp ) ;
break ;
}
p - > gain = pow ( 10.0 , ( p - > threshDb - p - > accumDb ) / ( p - > ratio_num * 20.0 ) ) ;
vop : : mul ( y , xx , p - > gain * p - > outGain , n ) ;
return kOkRC ;
}
2024-04-26 21:00:58 +00:00
void cw : : dsp : : compressor : : set_attack_ms ( obj_t * p , ftime_t ms )
2021-08-23 02:41:33 +00:00
{
_ms_to_samples ( p , ms , p - > atkSmp ) ;
}
2024-04-26 21:00:58 +00:00
void cw : : dsp : : compressor : : set_release_ms ( obj_t * p , ftime_t ms )
2021-08-23 02:41:33 +00:00
{
_ms_to_samples ( p , ms , p - > rlsSmp ) ;
}
2024-04-26 21:00:58 +00:00
void cw : : dsp : : compressor : : set_rms_wnd_ms ( obj_t * p , ftime_t ms )
2021-08-23 02:41:33 +00:00
{
p - > rmsWndCnt = std : : max ( ( unsigned ) 1 , ( unsigned ) floor ( ms * p - > srate / ( 1000.0 * p - > procSmpCnt ) ) ) ;
// do not allow rmsWndCnt to exceed rmsWndAllocCnt
if ( p - > rmsWndCnt > p - > rmsWndAllocCnt )
p - > rmsWndCnt = p - > rmsWndAllocCnt ;
}
2021-12-19 17:08:10 +00:00
2022-12-05 22:21:54 +00:00
//----------------------------------------------------------------------------------------------------------------
// Limiter
//
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : limiter : : create ( obj_t * & p , srate_t srate , unsigned procSmpCnt , coeff_t thresh , coeff_t igain , coeff_t ogain , bool bypassFl )
2022-12-05 22:21:54 +00:00
{
p = mem : : allocZ < obj_t > ( ) ;
p - > procSmpCnt = procSmpCnt ;
p - > thresh = thresh ;
p - > igain = igain ;
p - > ogain = ogain ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : limiter : : destroy ( obj_t * & p )
{
mem : : release ( p ) ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : limiter : : exec ( obj_t * p , const sample_t * x , sample_t * y , unsigned n )
{
if ( p - > bypassFl )
{
vop : : copy ( y , x , n ) ; // copy through - with no input gain
return kOkRC ;
}
else
{
2024-04-26 21:00:58 +00:00
coeff_t T = p - > thresh * p - > ogain ;
2022-12-05 22:21:54 +00:00
for ( unsigned i = 0 ; i < n ; + + i )
{
sample_t mx = 0.999 ;
sample_t s = x [ i ] < 0.0 ? - mx : mx ;
sample_t v = fabsf ( x [ i ] ) * p - > igain ;
if ( v > = mx )
y [ i ] = s ;
else
{
if ( v < p - > thresh )
{
y [ i ] = s * T * v / p - > thresh ;
}
else
{
// apply a linear limiting function
y [ i ] = s * ( T + ( 1.0f - T ) * ( v - p - > thresh ) / ( 1.0f - p - > thresh ) ) ;
}
}
}
}
return kOkRC ;
}
//----------------------------------------------------------------------------------------------------------------
// dc-filter
//
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : dc_filter : : create ( obj_t * & p , srate_t srate , unsigned procSmpCnt , coeff_t gain , bool bypassFl )
2022-12-05 22:21:54 +00:00
{
p = mem : : allocZ < obj_t > ( ) ;
p - > gain = gain ;
p - > bypassFl = bypassFl ;
p - > b0 = 1 ;
p - > b [ 0 ] = - 1 ;
p - > a [ 0 ] = - 0.999 ;
p - > d [ 0 ] = 0 ;
p - > d [ 1 ] = 0 ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : dc_filter : : destroy ( obj_t * & pp )
{
mem : : release ( pp ) ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : dc_filter : : exec ( obj_t * p , const sample_t * x , sample_t * y , unsigned n )
{
if ( p - > bypassFl )
vop : : copy ( y , x , n ) ;
else
2024-04-26 21:00:58 +00:00
vop : : filter < sample_t , coeff_t > ( y , n , x , n , p - > b0 , p - > b , p - > a , p - > d , 1 ) ;
2022-12-05 22:21:54 +00:00
return kOkRC ;
}
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : dc_filter : : set ( obj_t * p , coeff_t gain , bool bypassFl )
2022-12-05 22:21:54 +00:00
{
p - > gain = gain ;
p - > bypassFl = bypassFl ;
return kOkRC ;
}
2021-12-19 17:08:10 +00:00
2022-12-05 22:21:54 +00:00
//----------------------------------------------------------------------------------------------------------------
// Recorder
//
2021-12-19 17:08:10 +00:00
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : recorder : : create ( obj_t * & pRef , srate_t srate , ftime_t max_secs , unsigned chN )
2021-12-19 17:08:10 +00:00
{
obj_t * p = mem : : allocZ < obj_t > ( ) ;
p - > srate = srate ;
p - > maxFrameN = ( unsigned ) ( max_secs * srate ) ;
p - > chN = chN ;
p - > buf = mem : : allocZ < sample_t > ( p - > maxFrameN * p - > chN ) ;
pRef = p ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : recorder : : destroy ( obj_t * & pRef )
{
obj_t * p = pRef ;
2023-01-05 12:30:57 +00:00
mem : : release ( p - > buf ) ;
mem : : release ( p ) ;
2021-12-19 17:08:10 +00:00
pRef = nullptr ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : recorder : : exec ( obj_t * p , const sample_t * buf , unsigned chN , unsigned frameN )
{
const sample_t * chA [ chN ] ;
for ( unsigned i = 0 ; i < chN ; + + i )
chA [ i ] = buf + ( i * frameN ) ;
return exec ( p , chA , chN , frameN ) ;
}
cw : : rc_t cw : : dsp : : recorder : : exec ( obj_t * p , const sample_t * chA [ ] , unsigned chN , unsigned frameN )
{
chN = std : : min ( chN , p - > chN ) ;
//
if ( p - > frameIdx + frameN > p - > maxFrameN )
frameN = p - > maxFrameN - p - > frameIdx ;
for ( unsigned i = 0 ; i < chN ; + + i )
for ( unsigned j = 0 ; j < frameN ; + + j )
p - > buf [ i * p - > maxFrameN + p - > frameIdx + j ] = chA [ i ] [ j ] ;
p - > frameIdx + = frameN ;
return kOkRC ;
}
cw : : rc_t cw : : dsp : : recorder : : write ( obj_t * p , const char * fname )
{
file : : handle_t h ;
cw : : rc_t rc ;
if ( ( rc = file : : open ( h , fname , file : : kWriteFl ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Recorder file open failed on '%s'. " , cwStringNullGuard ( fname ) ) ;
goto errLabel ;
}
file : : printf ( h , " { \n " ) ;
file : : printf ( h , " \" srate \" :%f, \n " , p - > srate ) ;
file : : printf ( h , " \" maxFrameN \" :%i, \n " , p - > frameIdx ) ;
for ( unsigned i = 0 ; i < p - > chN ; + + i )
{
file : : printf ( h , " \" %i \" :[ " , i ) ;
for ( unsigned j = 0 ; j < p - > frameIdx ; + + j )
file : : printf ( h , " %f%c \n " , p - > buf [ p - > maxFrameN * i + j ] , j + 1 = = p - > frameIdx ? ' ' : ' , ' ) ;
file : : printf ( h , " ] \n " ) ;
}
file : : printf ( h , " } \n " ) ;
errLabel :
if ( ( rc = file : : close ( h ) ) ! = kOkRC )
{
rc = cwLogError ( rc , " Recorder file close failed on '%s'. " , cwStringNullGuard ( fname ) ) ;
goto errLabel ;
}
return rc ;
}
2023-01-05 12:30:57 +00:00
//----------------------------------------------------------------------------------------------------------------
// Audio Meter
//
namespace cw {
namespace dsp {
namespace audio_meter {
sample_t _sum_square ( const sample_t * v , unsigned vn , bool & clipFlRef )
{
sample_t sum = 0 ;
for ( unsigned i = 0 ; i < vn ; + + i )
{
sample_t x = v [ i ] * v [ i ] ;
sum + = x ;
clipFlRef = x > 1.0 ;
}
return sum ;
}
}
}
}
2024-04-26 21:00:58 +00:00
cw : : rc_t cw : : dsp : : audio_meter : : create ( obj_t * & p , srate_t srate , ftime_t maxWndMs , ftime_t wndMs , coeff_t peakThreshDb )
2023-01-05 12:30:57 +00:00
{
rc_t rc = kOkRC ;
if ( maxWndMs < wndMs )
{
cwLogWarning ( " Audio meter Max. window length (%f ms) is less than requested window length (%f ms). Setting max window length to %f ms. " , maxWndMs , wndMs , wndMs ) ;
maxWndMs = wndMs ;
}
p = mem : : allocZ < obj_t > ( ) ;
p - > maxWndMs = maxWndMs ;
p - > maxWndSmpN = ( unsigned ) ( ( maxWndMs * srate ) / 1000.0 ) ;
p - > wndV = mem : : allocZ < sample_t > ( p - > maxWndSmpN ) ;
p - > srate = srate ;
p - > peakThreshDb = peakThreshDb ;
p - > wi = 0 ;
set_window_ms ( p , wndMs ) ;
reset ( p ) ;
return rc ;
}
cw : : rc_t cw : : dsp : : audio_meter : : destroy ( obj_t * & pp )
{
rc_t rc = kOkRC ;
mem : : release ( pp - > wndV ) ;
mem : : release ( pp ) ;
return rc ;
}
cw : : rc_t cw : : dsp : : audio_meter : : exec ( obj_t * p , const sample_t * xV , unsigned xN )
{
rc_t rc = kOkRC ;
unsigned n = 0 ;
// copy the incoming audio samples to the buffer
while ( xN )
{
unsigned n0 = std : : min ( p - > maxWndSmpN - p - > wi , xN ) ;
vop : : copy ( p - > wndV + p - > wi , xV + n , n0 ) ;
n + = n0 ;
xN - = n0 ;
p - > wi = ( p - > wi + n0 ) % p - > maxWndSmpN ;
}
// get the starting and ending locations of the RMS sub-buffers
unsigned i0 = 0 , i1 = 0 ;
unsigned n0 = 0 , n1 = 0 ;
if ( p - > wi > = p - > wndSmpN )
{
i0 = p - > wi - p - > wndSmpN ;
n0 = p - > wndSmpN ;
}
else
{
i1 = 0 ;
n1 = p - > wi ;
n0 = p - > wndSmpN - n1 ;
i0 = p - > maxWndSmpN - n0 ;
}
// calc the squared-sum of the RMS buffers
sample_t sum = _sum_square ( p - > wndV + i0 , n0 , p - > clipFl ) ;
if ( n1 )
sum + = _sum_square ( p - > wndV + i1 , n1 , p - > clipFl ) ;
p - > outLin = std : : sqrt ( sum / ( n0 + n1 ) ) ; // linear RMS
p - > outDb = ampl_to_db ( p - > outLin ) ; // RMS dB
p - > peakFl = p - > outDb > p - > peakThreshDb ; // set peak flag
p - > clipFl = vop : : max ( xV , xN ) > = 1.0 ; // set clip flag
p - > peakCnt + = p - > peakFl ? 1 : 0 ; // count peak violations
return rc ;
}
void cw : : dsp : : audio_meter : : reset ( obj_t * p )
{
p - > peakFl = false ;
p - > clipFl = false ;
p - > peakCnt = 0 ;
p - > clipCnt = 0 ;
}
2024-04-26 21:00:58 +00:00
void cw : : dsp : : audio_meter : : set_window_ms ( obj_t * p , ftime_t wndMs )
2023-01-05 12:30:57 +00:00
{
unsigned wndSmpN = ( unsigned ) ( ( wndMs * p - > srate ) / 1000.0 ) ;
if ( wndSmpN < = p - > maxWndSmpN )
p - > wndSmpN = wndSmpN ;
else
{
cwLogWarning ( " The audio meter window length (%f ms) exceeds the max. window length (%f ms). The window length was reduced to (%f ms). " , wndMs , p - > maxWndMs , p - > maxWndMs ) ;
p - > wndSmpN = p - > maxWndSmpN ;
}
}