1
0
mirror of https://github.com/f4exb/sdrangel.git synced 2024-11-25 17:28:50 -05:00
sdrangel/wdsp/emnr.hpp
2024-08-02 08:01:46 +02:00

290 lines
6.9 KiB
C++

/* emnr.h
This file is part of a program that implements a Software-Defined Radio.
Copyright (C) 2015 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_emnr_h
#define wdsp_emnr_h
#include <array>
#include <vector>
#include "fftw3.h"
#include "export.h"
namespace WDSP {
class WDSP_API EMNR
{
public:
int run;
int position;
int bsize;
float* in;
float* out;
int fsize;
int ovrlp;
int incr;
std::vector<float> window;
int iasize;
std::vector<float> inaccum;
std::vector<float> forfftin;
std::vector<float> forfftout;
int msize;
std::vector<double> mask;
std::vector<float> revfftin;
std::vector<float> revfftout;
std::vector<std::vector<float>> save;
int oasize;
std::vector<float> outaccum;
double rate;
int wintype;
double ogain;
double gain;
int nsamps;
int iainidx;
int iaoutidx;
int init_oainidx;
int oainidx;
int oaoutidx;
int saveidx;
fftwf_plan Rfor;
fftwf_plan Rrev;
struct G
{
int incr;
double rate;
int msize;
std::vector<double>& mask;
const std::vector<float>& y;
int gain_method;
int npe_method;
int ae_run;
std::vector<double> lambda_y;
std::vector<double> lambda_d;
std::vector<double> prev_mask;
std::vector<double> prev_gamma;
double gf1p5;
double alpha;
double eps_floor;
double gamma_max;
double q;
double gmax;
//
std::array<double, 241*241> GG;
std::array<double, 241*241> GGS;
FILE* fileb;
G(
int incr,
double rate,
int msize,
std::vector<double>& mask,
const std::vector<float>& y
);
G(const G&) = delete;
G& operator=(const G& other) = delete;
~G() = default;
void calc_gamma0();
void calc_gamma1();
void calc_gamma2();
void calc_lambda_y();
private:
static double getKey(const std::array<double, 241*241>& type, double gamma, double xi);
static double e1xb (double x);
static double bessI0 (double x);
static double bessI1 (double x);
};
G *g;
struct NP
{
int incr;
double rate;
int msize;
std::vector<double>& lambda_y;
std::vector<double>& lambda_d;
double alphaCsmooth;
double alphaMax;
double alphaCmin;
double alphaMin_max_value;
double snrq;
double betamax;
double invQeqMax;
double av;
double Dtime;
int U;
int V;
int D;
std::vector<double> p;
std::vector<double> alphaOptHat;
double alphaC;
std::vector<double> alphaHat;
std::vector<double> sigma2N;
std::vector<double> pbar;
std::vector<double> p2bar;
std::vector<double> Qeq;
double MofD;
double MofV;
std::array<double, 4> invQbar_points;
std::array<double, 4> nsmax;
std::vector<double> bmin;
std::vector<double> bmin_sub;
std::vector<int> k_mod;
std::vector<double> actmin;
std::vector<double> actmin_sub;
int subwc;
std::vector<int> lmin_flag;
std::vector<double> pmin_u;
std::vector<std::vector<double>> actminbuff;
int amb_idx;
NP(
int incr,
double rate,
int msize,
std::vector<double>& lambda_y,
std::vector<double>& lambda_d
);
NP(const NP&) = delete;
NP& operator=(const NP& other) = delete;
~NP() = default;
void LambdaD();
private:
static const std::array<double, 18> DVals;
static const std::array<double, 18> MVals;
static void interpM (
double* res,
double x,
int nvals,
const std::array<double, 18>& xvals,
const std::array<double, 18>& yvals
);
};
NP *np;
struct NPS
{
int incr;
double rate;
int msize;
const std::vector<double>& lambda_y;
std::vector<double>& lambda_d;
double alpha_pow;
double alpha_Pbar;
double epsH1;
double epsH1r;
std::vector<double> sigma2N;
std::vector<double> PH1y;
std::vector<double> Pbar;
std::vector<double> EN2y;
NPS(
int incr,
double rate,
int msize,
const std::vector<double>& lambda_y,
std::vector<double>& lambda_d,
double alpha_pow,
double alpha_Pbar,
double epsH1
);
NPS(const NPS&) = delete;
NPS& operator=(const NPS& other) = delete;
~NPS() = default;
void LambdaDs();
};
NPS *nps;
struct AE
{
int msize;
const std::vector<double>& lambda_y;
double zetaThresh;
double psi;
std::vector<double> nmask;
AE(
int msize,
const std::vector<double>& lambda_y,
double zetaThresh,
double psi
);
AE(const AE&) = delete;
AE& operator=(const AE& other) = delete;
~AE() = default;
};
AE *ae;
EMNR(
int run,
int position,
int size,
float* in,
float* out,
int fsize,
int ovrlp,
int rate,
int wintype,
double gain,
int gain_method,
int npe_method,
int ae_run
);
EMNR(const EMNR&) = delete;
EMNR& operator=(const EMNR& other) = delete;
~EMNR();
void flush();
void execute(int pos);
void setBuffers(float* in, float* out);
void setSamplerate(int rate);
void setSize(int size);
// Public Properties
void setGainMethod(int method);
void setNpeMethod(int method);
void setAeRun(int run);
void setAeZetaThresh(double zetathresh);
void setAePsi(double psi);
private:
void calc_window();
void calc();
void decalc();
void aepf();
void calc_gain();
};
} // namespace WDSP
#endif