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sdrangel/sdrbench/test_ft8protocols.cpp

365 lines
10 KiB
C++

///////////////////////////////////////////////////////////////////////////////////
// Copyright (C) 2024 Edouard Griffiths, F4EXB <f4exb06@gmail.com> //
// //
// 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/>. //
///////////////////////////////////////////////////////////////////////////////////
#include <iostream>
#include <fstream>
#include <regex>
#include <random>
#include <QTextStream>
#include "mainbench.h"
#ifndef HAS_FT8
void MainBench::testFT8(const QString& wavFile, const QString& argsStr)
{
(void) wavFile;
(void) argsStr;
qWarning("MainBench::testFT8: this version has no FT8 support");
}
#else
#include "ft8/ft8.h"
#include "ft8/packing.h"
class TestFT8Protocols
{
public:
static void testMsg1(const QStringList& argElements, bool runLDPC = false);
static void testMsg00(const QStringList& argElements, bool runLDPC = false);
static void testOnesZeroes(const QStringList& argElements);
static void testSoftDecode(const QStringList& argElements);
private:
static bool testLDPC(int a77[]);
static bool compareBits(int a[], int r[], int nbBits = 174);
static void debugIntArray(int a[], int length);
};
void MainBench::testFT8Protocols(const QString& argsStr)
{
QStringList argElements = argsStr.split(','); // comma separated list of arguments
if (argElements.size() == 0)
{
qWarning("MainBench::testFT8Protocols: no arguments");
return;
}
QString& testType = argElements[0];
if (testType == "msg1") {
TestFT8Protocols::testMsg1(argElements); // type 1 message test
} else if (testType == "msg00") {
TestFT8Protocols::testMsg00(argElements); // type 0.0 message test
} else if (testType == "msg1L") {
TestFT8Protocols::testMsg1(argElements, true); // type 1 message test with LDPC encoding/decoding test
} else if (testType == "msg00L") {
TestFT8Protocols::testMsg00(argElements, true); // type 0.0 message test with LDPC encoding/decoding test
} else if (testType == "zeroones") {
TestFT8Protocols::testOnesZeroes(argElements);
} else if (testType == "softdec") {
TestFT8Protocols::testSoftDecode(argElements);
} else {
qWarning("MainBench::testFT8Protocols: unrecognized test type");
}
}
void TestFT8Protocols::testMsg1(const QStringList& argElements, bool runLDPC)
{
if (argElements.size() < 4)
{
qWarning("TestFT8Protocols::testMsg1: missing callsigns and locator/report in argument");
return;
}
int c28_1, c28_2, g15;
if (!FT8::Packing::packcall_std(c28_1, argElements[1].toStdString()))
{
qWarning("TestFT8Protocols::testMsg1: callsign %s is not a standard callsign", qPrintable(argElements[1]));
return;
}
if (!FT8::Packing::packcall_std(c28_2, argElements[2].toStdString()))
{
qWarning("TestFT8Protocols::testMsg1: callsign %s is not a standard callsign", qPrintable(argElements[2]));
return;
}
std::string locstr;
int reply;
if (argElements[3].startsWith("R+") || argElements[3].startsWith("R-"))
{
reply = 1;
locstr = argElements[3].mid(1).toStdString();
}
else
{
reply = 0;
locstr = argElements[3].toStdString();
}
if (!FT8::Packing::packgrid(g15, locstr))
{
qWarning("TestFT8Protocols::testMsg1: locator or report %s is not valid", locstr.c_str());
return;
}
qDebug("TestFT8Protocols::testMsg1: c28_1: %d c28_2: %d g15: %d", c28_1, c28_2, g15);
int a77[77];
std::fill(a77, a77 + 77, 0);
FT8::Packing::pack1(a77, c28_1, c28_2, g15, reply);
FT8::Packing packing;
std::string call1, call2, loc;
std::string msg = packing.unpack_1(a77, call1, call2, loc);
qInfo("TestFT8Protocols::testMsg1: msg: %s, call1: %s, call2: %s, loc: %s", msg.c_str(), call1.c_str(), call2.c_str(), loc.c_str());
if (runLDPC)
{
if (testLDPC(a77)) {
qInfo("TestFT8Protocols::testMsg1: LDPC test suceeded");
} else {
qWarning("TestFT8Protocols::testMsg1: LDPC test failed");
}
}
}
void TestFT8Protocols::testMsg00(const QStringList& argElements, bool runLDPC)
{
if (argElements.size() < 2)
{
qWarning("TestFT8Protocols::testMsg00: missing free text in argument");
return;
}
int a77[77];
std::fill(a77, a77 + 77, 0);
if (!FT8::Packing::packfree(a77, argElements[1].toStdString()))
{
qWarning("TestFT8Protocols::testMsg00: message %s is not valid", qPrintable(argElements[1]));
return;
}
std::string call1, call2, loc;
std::string msg = FT8::Packing::unpack_0_0(a77, call1, call2, loc);
qInfo("TestFT8Protocols::testMsg00: msg: %s, call1: %s", msg.c_str(), call1.c_str());
if (runLDPC)
{
if (testLDPC(a77)) {
qInfo("TestFT8Protocols::testMsg00: LDPC test suceeded");
} else {
qWarning("TestFT8Protocols::testMsg00: LDPC test failed");
}
}
}
bool TestFT8Protocols::testLDPC(int a77[])
{
int a174[174], r174[174];
FT8::FT8::encode(a174, a77);
FT8::FT8Params ft8Params;
float ll174[174];
FT8::FT8Params params;
std::string comments;
std::transform(
a174,
a174+174,
ll174,
[](const int& s) -> float { return s == 1 ? -1.0 : 1.0; }
);
if (FT8::FT8::decode(ll174, r174, params, 0, comments) == 0)
{
qInfo("TestFT8Protocols::testLDPC(: LDPC or CRC check failed");
return false;
}
else
{
return compareBits(a174, r174);
}
}
bool TestFT8Protocols::compareBits(int a[], int r[], int nbBits)
{
for (int i=0; i < nbBits; i++)
{
if (a[i] != r[i])
{
qDebug("TestFT8Protocols::compareBits: failed at index %d: %d != %d", i, a[i], r[i]);
return false;
}
}
return true;
}
void TestFT8Protocols::debugIntArray(int a[], int length)
{
QString s;
QTextStream os(&s);
for (int i=0; i < length; i++) {
os << a[i] << " ";
}
qDebug("TestFT8Protocols::debugIntArray: %s", qPrintable(s));
}
void TestFT8Protocols::testOnesZeroes(const QStringList& argElements)
{
if (argElements.size() < 3)
{
qWarning("TestFT8Protocols::testOnesZeroes: not enough elements");
return;
}
int nbBits, bitIndex;
bool intOK;
nbBits = argElements[1].toInt(&intOK);
if (!intOK)
{
qWarning("TestFT8Protocols::testOnesZeroes: first argument is not numeric: %s", qPrintable(argElements[1]));
return;
}
bitIndex = argElements[2].toInt(&intOK);
if (!intOK)
{
qWarning("TestFT8Protocols::testOnesZeroes: second argument is not numeric: %s", qPrintable(argElements[2]));
return;
}
if (nbBits < 2)
{
qWarning("TestFT8Protocols::testOnesZeroes: nbBits too small: %d", nbBits);
return;
}
bitIndex = bitIndex > nbBits - 1 ? nbBits - 1 : bitIndex;
int *ones = new int[1<<nbBits];
int *zeroes = new int[1<<nbBits];
FT8::FT8::set_ones_zeroes(ones, zeroes, nbBits, bitIndex);
QString s;
QTextStream os(&s);
for (int i = 0; i < (1<<(nbBits-1)); i++) {
os << i << ": " << zeroes[i] << ", " << ones[i] << "\n";
}
qInfo("TestFT8Protocols::testOnesZeroes: (%d,%d) index: zeroes, ones:\n%s", nbBits, bitIndex, qPrintable(s));
}
void TestFT8Protocols::testSoftDecode(const QStringList& argElements)
{
if (argElements.size() < 3)
{
qWarning("TestFT8Protocols::testSoftDecode: not enough elements");
return;
}
bool intOK;
int nbBits = argElements[1].toInt(&intOK);
if (!intOK)
{
qWarning("TestFT8Protocols::testSoftDecode: first argument is not numeric: %s", qPrintable(argElements[1]));
return;
}
if ((nbBits < 2) || (nbBits > 12))
{
qWarning("TestFT8Protocols::testSoftDecode: bits peer symbols invalid: %d", nbBits);
return;
}
int symbolSize = 1<<nbBits;
std::vector<float> magSymbols(symbolSize);
std::vector<std::vector<float>> mags;
std::random_device rd;
std::mt19937 gen(rd());
std::uniform_real_distribution<float> dist(0.0, 0.01);
for (int i = 2; i < argElements.size(); i++)
{
int symbol = argElements[i].toInt(&intOK);
if (!intOK)
{
qWarning("TestFT8Protocols::testSoftDecode: symbol is not numeric: %s", qPrintable(argElements[i]));
return;
}
for (auto& m : magSymbols) {
m = 0.01 + dist(gen);
}
symbol = symbol % symbolSize;
magSymbols[symbol] += 0.01;
mags.push_back(magSymbols);
}
QString s;
QTextStream os(&s);
qDebug("TestFT8Protocols::testSoftDecode: mags:");
for (const auto& magrow : mags)
{
for (const auto& mag : magrow) {
os << mag << " ";
}
qDebug("TestFT8Protocols::testSoftDecode: %s", qPrintable(s));
s.clear();
}
float *lls = new float[mags.size()*nbBits];
std::fill(lls, lls+mags.size()*nbBits, 0.0);
FT8::FT8Params params;
FT8::FT8::soft_decode_mags(params, mags, nbBits, lls);
for (unsigned int si = 0; si < mags.size(); si++)
{
for (int biti = 0; biti < nbBits; biti++) {
os << " " << lls[nbBits*si + biti];
}
os << " ";
}
// for (unsigned int i = 0; i < mags.size()*nbBits; i++) {
// os << " " << lls[i];
// }
qInfo("TestFT8Protocols::testSoftDecode: lls: %s", qPrintable(s));
delete[] lls;
}
#endif