1
0
mirror of https://github.com/f4exb/sdrangel.git synced 2024-11-10 18:43:28 -05:00
sdrangel/wdsp/TXA.hpp
2024-08-07 21:14:09 +02:00

224 lines
5.4 KiB
C++

/* TXA.h
This file is part of a program that implements a Software-Defined Radio.
Copyright (C) 2013, 2017 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_txa_h
#define wdsp_txa_h
#include "comm.hpp"
#include "unit.hpp"
#include "ammod.hpp"
#include "meter.hpp"
#include "resample.hpp"
#include "patchpanel.hpp"
#include "amsq.hpp"
#include "eqp.hpp"
#include "cfcomp.hpp"
#include "compress.hpp"
#include "bandpass.hpp"
#include "bps.hpp"
#include "osctrl.hpp"
#include "wcpAGC.hpp"
#include "emph.hpp"
#include "fmmod.hpp"
#include "siphon.hpp"
#include "gen.hpp"
#include "slew.hpp"
// #include "calcc.h"
#include "iqc.hpp"
#include "cfir.hpp"
#include "export.h"
namespace WDSP {
class METER;
class RESAMPLE;
class PANEL;
class AMSQ;
class EQP;
class PHROT;
class CFCOMP;
class COMPRESSOR;
class BANDPASS;
class BPS;
class OSCTRL;
class WCPAGC;
class AMMOD;
class EMPHP;
class FMMOD;
class SIPHON;
class GEN;
class USLEW;
class IQC;
class CFIR;
class WDSP_API TXA : public Unit
{
public:
enum txaMode
{
TXA_LSB,
TXA_USB,
TXA_DSB,
TXA_CWL,
TXA_CWU,
TXA_FM,
TXA_AM,
TXA_DIGU,
TXA_SPEC,
TXA_DIGL,
TXA_SAM,
TXA_DRM,
TXA_AM_LSB,
TXA_AM_USB
};
enum txaMeterType
{
TXA_MIC_PK,
TXA_MIC_AV,
TXA_EQ_PK,
TXA_EQ_AV,
TXA_LVLR_PK,
TXA_LVLR_AV,
TXA_LVLR_GAIN,
TXA_CFC_PK,
TXA_CFC_AV,
TXA_CFC_GAIN,
TXA_COMP_PK,
TXA_COMP_AV,
TXA_ALC_PK,
TXA_ALC_AV,
TXA_ALC_GAIN,
TXA_OUT_PK,
TXA_OUT_AV,
TXA_METERTYPE_LAST
};
int mode;
float f_low;
float f_high;
double meter[TXA_METERTYPE_LAST];
long upslew;
METER *micmeter;
METER *eqmeter;
METER *lvlrmeter;
METER *cfcmeter;
METER *compmeter;
METER *alcmeter;
METER *outmeter;
RESAMPLE *rsmpin;
RESAMPLE *rsmpout;
PANEL *panel;
AMSQ *amsq;
EQP *eqp;
PHROT *phrot;
CFCOMP *cfcomp;
COMPRESSOR *compressor;
BANDPASS *bp0;
BANDPASS *bp1;
BANDPASS *bp2;
BPS *bps0;
BPS *bps1;
BPS *bps2;
OSCTRL *osctrl;
WCPAGC *leveler;
WCPAGC *alc;
AMMOD *ammod;
EMPHP *preemph;
FMMOD *fmmod;
SIPHON *sip1;
GEN *gen0;
GEN *gen1;
USLEW *uslew;
struct
{
IQC *p0, *p1;
// p0 for dsp-synchronized reference, p1 for other
} iqc;
CFIR *cfir;
TXA(
int in_rate, // input samplerate
int out_rate, // output samplerate
int dsp_rate, // sample rate for mainstream dsp processing
int dsp_size // number complex samples processed per buffer in mainstream dsp processing
);
TXA(const TXA&) = delete;
TXA& operator=(const TXA& other) = delete;
virtual ~TXA();
void flush();
void execute();
void setInputSamplerate(int _in_rate);
void setOutputSamplerate(int _out_rate);
void setDSPSamplerate(int _dsp_rate);
void setDSPBuffsize(int _dsp_size);
int get_insize() const { return Unit::dsp_insize; }
int get_outsize() const { return Unit::dsp_outsize; }
float *get_inbuff() { return Unit::inbuff; }
float *get_outbuff() { return Unit::outbuff; }
// TXA Properties
void setMode(int mode);
void setBandpassFreqs(float f_low, float f_high);
void setBandpassNC(int nc);
void setBandpassMP(int mp);
// BPS
static void SetBPSRun (TXA& txa, int run);
static void SetBPSFreqs (TXA& txa, double low, double high);
static void SetBPSWindow (TXA& txa, int wintype);
// COMPRESSOR
static void SetCompressorRun (TXA& txa, int run);
// OSCTRL
static void SetosctrlRun (TXA& txa, int run);
// IQC
static void GetiqcValues (TXA& txa, std::vector<double>& cm, std::vector<double>& cc, std::vector<double>& cs);
static void SetiqcValues (TXA& txa, const std::vector<double>& cm, const std::vector<double>& cc, const std::vector<double>& cs);
static void SetiqcSwap (TXA& txa, const std::vector<double>& cm, const std::vector<double>& cc, const std::vector<double>& cs);
static void SetiqcStart (TXA& txa, const std::vector<double>& cm, const std::vector<double>& cc, const std::vector<double>& cs);
static void SetiqcEnd (TXA& txa);
static void GetiqcDogCount (TXA& txa, int* count);
static void SetiqcDogCount (TXA& txa, int count);
// Collectives
void setNC(int nc);
void setMP(int mp);
void setFMAFFilter(float low, float high);
void setupBPFilters();
int uslewCheck();
private:
void resCheck();
};
} // namespace WDSP
#endif