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WDSP: ANB, NOB, ANSQ: use vectors instead of C arrays and disable copy constructor

This commit is contained in:
f4exb 2024-07-27 13:45:09 +02:00
parent 59f97f3912
commit 8a267240df
5 changed files with 45 additions and 50 deletions

View File

@ -78,6 +78,7 @@ public:
double _max_tail,
double _muted_gain
);
AMSQ(const AMSQ&) = delete;
~AMSQ();
void flush();

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@ -57,7 +57,7 @@ void ANB::initBlanker()
for (i = 0; i <= trans_count; i++)
wave[i] = 0.5 * cos(i * coef);
std::fill(dline, dline + dline_size * 2, 0);
std::fill(dline.begin(), dline.end(), 0);
}
ANB::ANB (
@ -81,20 +81,20 @@ ANB::ANB (
hangtime(_hangtime),
advtime(_advtime),
backtau(_backtau),
threshold(_threshold)
threshold(_threshold),
dtime(0),
htime(0),
itime(0),
atime(0)
{
wave = new double[((int)(MAX_SAMPLERATE * MAX_TAU) + 1)];
tau = tau < 0.0 ? 0.0 : (tau > MAX_TAU ? MAX_TAU : tau);
hangtime = hangtime < 0.0 ? 0.0 : (hangtime > MAX_ADVTIME ? MAX_ADVTIME : hangtime);
advtime = advtime < 0.0 ? 0.0 : (advtime > MAX_ADVTIME ? MAX_ADVTIME : advtime);
samplerate = samplerate < 0.0 ? 0.0 : (samplerate > MAX_SAMPLERATE ? MAX_SAMPLERATE : samplerate);
wave.resize((int)(MAX_SAMPLERATE * MAX_TAU) + 1);
dline_size = (int)((MAX_TAU + MAX_ADVTIME) * MAX_SAMPLERATE) + 1;
dline = new float[dline_size * 2];
dline.resize(dline_size * 2);
initBlanker();
legacy = new float[2048 * 2]; /////////////// legacy interface - remove
}
ANB::~ANB()
{
delete[] legacy; /////////////// legacy interface - remove
delete[] dline;
delete[] wave;
}
void ANB::flush()

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@ -28,6 +28,8 @@ warren@wpratt.com
#ifndef wdsp_anb_h
#define wdsp_anb_h
#include <vector>
#include "export.h"
namespace WDSP {
@ -37,17 +39,17 @@ class WDSP_API ANB
public:
int run;
int buffsize; // size of input/output buffer
float* in; // input buffer
float* out; // output buffer
float* in; // input buffer
float* out; // output buffer
int dline_size; // length of delay line which is 'double dline[length][2]'
float *dline; // pointer to delay line
std::vector<float> dline; // delay line
double samplerate; // samplerate, used to convert times into sample counts
double tau; // transition time, signal<->zero
double hangtime; // time to stay at zero after noise is no longer detected
double advtime; // deadtime (zero output) in advance of detected noise
double backtau; // time constant used in averaging the magnitude of the input signal
double threshold; // triggers if (noise > threshold * average_signal_magnitude)
double *wave; // pointer to array holding transition waveform
std::vector<double> wave; // array holding transition waveform
int state; // state of the state machine
double avg; // average value of the signal magnitude
int dtime; // count when decreasing the signal magnitude
@ -64,7 +66,6 @@ public:
int count; // set each time a noise sample is detected, counts down
double backmult; // multiplier for waveform averaging
double ombackmult; // multiplier for waveform averaging
float *legacy;
ANB(
int run,
@ -78,7 +79,8 @@ public:
double backtau,
double threshold
);
~ANB();
ANB(const ANB&) = delete;
~ANB() = default;
void flush();
void execute();

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@ -105,15 +105,15 @@ NOB::NOB (
MAX_HANG_SLEW_TIME +
MAX_HANG_TIME +
MAX_SEQ_TIME ) + 2);
dline = new double[dline_size * 2];
imp = new int[dline_size];
awave = new double[(int)(MAX_ADV_SLEW_TIME * MAX_SAMPLERATE + 1)];
hwave = new double[(int)(MAX_HANG_SLEW_TIME * MAX_SAMPLERATE + 1)];
dline.resize(dline_size * 2);
imp.resize(dline_size);
awave.resize((int)(MAX_ADV_SLEW_TIME * MAX_SAMPLERATE + 1));
hwave.resize((int)(MAX_HANG_SLEW_TIME * MAX_SAMPLERATE + 1));
filterlen = 10;
bfbuff = new double[filterlen * 2];
ffbuff = new double[filterlen * 2];
fcoefs = new double[filterlen];
bfbuff.resize(filterlen * 2);
ffbuff.resize(filterlen * 2);
fcoefs.resize(filterlen);
fcoefs[0] = 0.308720593;
fcoefs[1] = 0.216104415;
fcoefs[2] = 0.151273090;
@ -128,17 +128,6 @@ NOB::NOB (
init();
}
NOB::~NOB()
{
delete[] fcoefs;
delete[] ffbuff;
delete[] bfbuff;
delete[] hwave;
delete[] awave;
delete[] imp;
delete[] dline;
}
void NOB::flush()
{
out_idx = 0;
@ -149,10 +138,10 @@ void NOB::flush()
avg = 1.0;
bfb_in_idx = filterlen - 1;
ffb_in_idx = filterlen - 1;
std::fill(dline, dline + dline_size * 2, 0);
std::fill(imp, imp + dline_size, 0);
std::fill(bfbuff, bfbuff + filterlen * 2, 0);
std::fill(ffbuff, ffbuff + filterlen * 2, 0);
std::fill(dline.begin(), dline.end(), 0);
std::fill(imp.begin(), imp.end(), 0);
std::fill(bfbuff.begin(), bfbuff.end(), 0);
std::fill(ffbuff.begin(), ffbuff.end(), 0);
}
void NOB::execute()

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@ -28,6 +28,8 @@ warren@wpratt.com
#ifndef wdsp_nob_h
#define wdsp_nob_h
#include <vector>
#include "export.h"
namespace WDSP {
@ -37,11 +39,11 @@ class WDSP_API NOB
public:
int run;
int buffsize; // size of input/output buffer
float* in; // input buffer
float* out; // output buffer
float* in; // input buffer
float* out; // output buffer
int dline_size; // length of delay line which is 'double dline[length][2]'
double *dline; // pointer to delay line
int *imp;
std::vector<double> dline; // delay line
std::vector<int> imp;
double samplerate; // samplerate, used to convert times into sample counts
int mode;
double advslewtime; // transition time, signal<->zero
@ -50,15 +52,15 @@ public:
double hangtime; // time to stay at zero after noise is no longer detected
double max_imp_seq_time;
int filterlen;
double *fcoefs;
double *bfbuff;
std::vector<double> fcoefs;
std::vector<double> bfbuff;
int bfb_in_idx;
double *ffbuff;
std::vector<double> ffbuff;
int ffb_in_idx;
double backtau; // time constant used in averaging the magnitude of the input signal
double threshold; // triggers if (noise > threshold * average_signal_magnitude)
double *awave; // pointer to array holding transition waveform
double *hwave;
std::vector<double> awave; // array holding transition waveform
std::vector<double> hwave;
int state; // state of the state machine
double avg; // average value of the signal magnitude
int time; // count when decreasing the signal magnitude
@ -96,7 +98,8 @@ public:
double backtau,
double threshold
);
~NOB();
NOB(const NOB&) = delete;
~NOB() = default;
//////////// legacy interface - remove
void flush();
void execute();