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sdrangel/plugins/channelrx/demoddatv/datvdvbs2constellation.h

225 lines
6.9 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2018-2019, 2021 Edouard Griffiths, F4EXB <f4exb06@gmail.com> //
// Copyright (C) 2019 F4HKW //
// for F4EXB / SDRAngel //
// using LeanSDR Framework (C) 2016 F4DAV //
// //
// 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 as version 3 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 V3 for more details. //
// //
// You should have received a copy of the GNU General Public License //
// along with this program. If not, see <http://www.gnu.org/licenses/>. //
///////////////////////////////////////////////////////////////////////////////////
#ifndef DATVDVBS2CONSTELLATION_H
#define DATVDVBS2CONSTELLATION_H
#include <vector>
#include "leansdr/framework.h"
#include "gui/tvscreen.h"
namespace leansdr {
static const int DEFAULT_GUI_DVBS2_DECIMATION = 64;
static inline cstln_lut<llr_ss, 256> * make_dvbs2_constellation(
cstln_lut<llr_ss, 256>::predef c,
code_rate r
)
{
float gamma1 = 1, gamma2 = 1, gamma3 = 1;
switch (c)
{
case cstln_lut<llr_ss, 256>::APSK16:
// EN 302 307, section 5.4.3, Table 9
switch (r)
{
case FEC23:
case FEC46:
gamma1 = 3.15;
break;
case FEC34:
gamma1 = 2.85;
break;
case FEC45:
gamma1 = 2.75;
break;
case FEC56:
gamma1 = 2.70;
break;
case FEC89:
gamma1 = 2.60;
break;
case FEC910:
gamma1 = 2.57;
break;
default:
fail("cstln_lut<256>::make_dvbs2_constellation: Code rate not supported with APSK16");
return 0;
}
break;
case cstln_lut<llr_ss, 256>::APSK32:
// EN 302 307, section 5.4.4, Table 10
switch (r)
{
case FEC34:
gamma1 = 2.84;
gamma2 = 5.27;
break;
case FEC45:
gamma1 = 2.72;
gamma2 = 4.87;
break;
case FEC56:
gamma1 = 2.64;
gamma2 = 4.64;
break;
case FEC89:
gamma1 = 2.54;
gamma2 = 4.33;
break;
case FEC910:
gamma1 = 2.53;
gamma2 = 4.30;
break;
default:
fail("cstln_lut<llr_ss, 256>::make_dvbs2_constellation: Code rate not supported with APSK32");
return 0;
}
break;
case cstln_lut<llr_ss, 256>::APSK64E:
// EN 302 307-2, section 5.4.5, Table 13f
gamma1 = 2.4;
gamma2 = 4.3;
gamma3 = 7;
break;
default:
break;
}
cstln_lut<llr_ss, 256> *newCstln = new cstln_lut<llr_ss, 256>(c, 10, gamma1, gamma2, gamma3);
newCstln->m_rateCode = r < code_rate::FEC_COUNT ? r : -1;
newCstln->m_typeCode = c < cstln_lut<llr_ss, 256>::predef::COUNT ? c : -1;
newCstln->m_setByModcod = false;
return newCstln;
}
template<typename T> struct datvdvbs2constellation: runnable
{
T xymin, xymax;
unsigned long decimation;
long pixels_per_frame;
/*cstln_lut<llr_ss, 256>*/ cstln_base **cstln; // Optional ptr to optional constellation
TVScreen *m_objDATVScreen;
pipereader<std::complex<T> > in;
unsigned long phase;
std::vector<int> cstln_rows;
std::vector<int> cstln_cols;
datvdvbs2constellation(
scheduler *sch,
pipebuf<std::complex<T> > &_in,
T _xymin,
T _xymax,
const char *_name = nullptr,
TVScreen *objDATVScreen = nullptr) :
runnable(sch, _name ? _name : _in.name),
xymin(_xymin),
xymax(_xymax),
decimation(DEFAULT_GUI_DVBS2_DECIMATION),
pixels_per_frame(1024),
cstln(0),
m_objDATVScreen(objDATVScreen),
in(_in),
phase(0)
{
}
void run()
{
phase=0;
//Symbols
while (in.readable() >= pixels_per_frame)
{
if ((!phase) && m_objDATVScreen)
{
m_objDATVScreen->resetImage();
std::complex<T> *p = in.rd(), *pend = p + pixels_per_frame;
for (; p < pend; ++p)
{
m_objDATVScreen->selectRow(256 * (p->real() - xymin) / (xymax - xymin));
m_objDATVScreen->setDataColor(
256 - 256 * ((p->imag() - xymin) / (xymax - xymin)),
255, 0, 255);
}
if (cstln && (*cstln))
{
// Plot constellation points
std::vector<int>::const_iterator row_it = cstln_rows.begin();
std::vector<int>::const_iterator col_it = cstln_cols.begin();
for (;(row_it != cstln_rows.end()) && (col_it != cstln_cols.end()); ++row_it, ++col_it)
{
m_objDATVScreen->selectRow(*row_it);
m_objDATVScreen->setDataColor(*col_it, 250, 250, 250);
}
}
m_objDATVScreen->renderImage(0);
}
in.read(pixels_per_frame);
if (++phase >= decimation) {
phase = 0;
}
}
}
void draw_begin()
{
}
void calculate_cstln_points()
{
if (!(*cstln)) {
return;
}
cstln_rows.clear();
cstln_cols.clear();
for (int i = 0; i < (*cstln)->nsymbols; ++i)
{
std::complex<signed char> *p = &(*cstln)->symbols[i];
int x = 256 * (p->real() - xymin) / (xymax - xymin);
int y = 256 - 256 * (p->imag() - xymin) / (xymax - xymin);
for (int d = -4; d <= 4; ++d)
{
cstln_rows.push_back(x + d);
cstln_cols.push_back(y);
cstln_rows.push_back(x);
cstln_cols.push_back(y + d);
}
}
}
};
} // leansdr
#endif // DATVDVBS2CONSTELLATION_H