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sdrangel/wdsp/rmatch.hpp

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/* rmatch.h
This file is part of a program that implements a Software-Defined Radio.
Copyright (C) 2017, 2022 Warren Pratt, NR0V
Copyright (C) 2024 Edouard Griffiths, F4EXB Adapted to SDRangel
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
The author can be reached by email at
warren@wpratt.com
*/
#ifndef wdsp_rmatch_h
#define wdsp_rmatch_h
#include "export.h"
namespace WDSP {
class VARSAMP;
class WDSP_API MAV
{
public:
int ringmin;
int ringmax; // must be a power of two
int* ring;
int mask;
int i;
int load;
int sum;
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float nom_value;
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static MAV* create_mav (int ringmin, int ringmax, float nom_value);
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static void destroy_mav (MAV *a);
static void flush_mav (MAV *a);
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static void xmav (MAV *a, int input, float* output);
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};
class WDSP_API AAMAV
{
public:
int ringmin;
int ringmax; // must be a power of two
int* ring;
int mask;
int i;
int load;
int pos;
int neg;
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float nom_ratio;
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static AAMAV* create_aamav (int ringmin, int ringmax, float nom_ratio);
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static void destroy_aamav (AAMAV *a);
static void flush_aamav (AAMAV *a);
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static void xaamav (AAMAV *a, int input, float* output);
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};
class WDSP_API RMATCH
{
public:
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long run;
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float* in;
float* out;
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int insize;
int outsize;
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float* resout;
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int nom_inrate;
int nom_outrate;
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float nom_ratio;
float inv_nom_ratio;
float fc_high;
float fc_low;
float gain;
float startup_delay;
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int auto_ringsize;
int ringsize;
int rsize;
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float* ring;
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int n_ring;
int iin;
int iout;
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float var;
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int R;
AAMAV *ffmav;
MAV *propmav;
int ff_ringmin;
int ff_ringmax; // must be a power of two
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float ff_alpha;
float feed_forward;
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int prop_ringmin;
int prop_ringmax; // must be a power of two
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float prop_gain;
float pr_gain;
float av_deviation;
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VARSAMP *v;
int varmode;
// blend / slew
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float tslew;
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int ntslew;
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float* cslew;
float* baux;
float dlast[2];
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int ucnt;
// variables to check start-up time for control to become active
unsigned int readsamps;
unsigned int writesamps;
unsigned int read_startup;
unsigned int write_startup;
int control_flag;
// diagnostics
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long underflows;
long overflows;
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int force;
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float fvar;
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static RMATCH* create_rmatch (
int run, // 0 - input and output calls do nothing; 1 - operates normally
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float* in, // pointer to input buffer
float* out, // pointer to output buffer
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int insize, // size of input buffer
int outsize, // size of output buffer
int nom_inrate, // nominal input samplerate
int nom_outrate, // nominal output samplerate
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float fc_high, // high cutoff frequency if lower than max
float fc_low, // low cutoff frequency if higher than zero
float gain, // gain to be applied during this process
float startup_delay, // time (seconds) to delay before beginning measurements to control variable resampler
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int auto_ringsize, // 0 specified ringsize is used; 1 ringsize is auto-optimized - FEATURE NOT IMPLEMENTED!!
int ringsize, // specified ringsize; max ringsize if 'auto' is enabled
int R, // density factor for varsamp coefficients
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float var, // initial value of variable resampler ratio (value of ~1.0)
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int ffmav_min, // minimum feed-forward moving average size to put full weight on data in the ring
int ffmav_max, // maximum feed-forward moving average size - MUST BE A POWER OF TWO!
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float ff_alpha, // feed-forward exponential averaging multiplier
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int prop_ringmin, // proportional feedback min moving average ringsize
int prop_ringmax, // proportional feedback max moving average ringsize - MUST BE A POWER OF TWO!
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float prop_gain, // proportional feedback gain factor
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int varmode, // 0 - use same var for all samples of the buffer; 1 - interpolate from old_var to this var
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float tslew // slew/blend time (seconds)
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);
static void destroy_rmatch (RMATCH *a);
static void reset_rmatch (RMATCH *a);
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static void* create_rmatchV(int in_size, int out_size, int nom_inrate, int nom_outrate, int ringsize, float var);
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static void* create_rmatchLegacyV(int in_size, int out_size, int nom_inrate, int nom_outrate, int ringsize);
static void destroy_rmatchV (void* ptr);
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static void xrmatchOUT (void* b, float* out);
static void xrmatchIN (void* b, float* in);
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static void setRMatchInsize (void* ptr, int insize);
static void setRMatchOutsize (void* ptr, int outsize);
static void setRMatchNomInrate (void* ptr, int nom_inrate);
static void setRMatchNomOutrate (void* ptr, int nom_outrate);
static void setRMatchRingsize (void* ptr, int ringsize);
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static void getRMatchDiags (void* b, int* underflows, int* overflows, float* var, int* ringsize, int* nring);
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static void resetRMatchDiags (void* b);
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static void forceRMatchVar (void* b, int force, float fvar);
static void setRMatchFeedbackGain(void* b, float feedback_gain);
static void setRMatchSlewTime(void* b, float slew_time);
static void setRMatchSlewTime1(void* b, float slew_time);
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static void setRMatchPropRingMin(void* ptr, int prop_min);
static void setRMatchPropRingMax(void* ptr, int prop_max);
static void setRMatchFFRingMin(void* ptr, int ff_ringmin);
static void setRMatchFFRingMax(void* ptr, int ff_ringmax);
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static void setRMatchFFAlpha(void* ptr, float ff_alpha);
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static void getControlFlag(void* ptr, int* control_flag);
private:
static void calc_rmatch (RMATCH *a);
static void decalc_rmatch (RMATCH *a);
static void control (RMATCH *a, int change);
static void blend (RMATCH *a);
static void upslew (RMATCH *a, int newsamps);
static void dslew (RMATCH *a);
};
} // namespace WDSP
#endif