// Part of BNC, a utility for retrieving decoding and // converting GNSS data streams from NTRIP broadcasters. // // Copyright (C) 2007 // German Federal Agency for Cartography and Geodesy (BKG) // http://www.bkg.bund.de // Czech Technical University Prague, Department of Geodesy // http://www.fsv.cvut.cz // // Email: euref-ip@bkg.bund.de // // 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, version 2. // // 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., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. /* ------------------------------------------------------------------------- * BKG NTRIP Client * ------------------------------------------------------------------------- * * Class: RTCM3coDecoder * * Purpose: RTCM3 Clock Orbit Decoder * * Author: L. Mervart * * Created: 05-May-2008 * * Changes: * * -----------------------------------------------------------------------*/ #include #include #include "RTCM3coDecoder.h" #include "bncutils.h" #include "bncrinex.h" #include "bnccore.h" #include "bncsettings.h" #include "bnctime.h" using namespace std; // Constructor //////////////////////////////////////////////////////////////////////////// RTCM3coDecoder::RTCM3coDecoder(const QString& staID) { _staID = staID; // File Output // ----------- bncSettings settings; QString path = settings.value("corrPath").toString(); if (!path.isEmpty()) { expandEnvVar(path); if ( path.length() > 0 && path[path.length()-1] != QDir::separator() ) { path += QDir::separator(); } _fileNameSkl = path + staID; } _out = 0; connect(this, SIGNAL(newOrbCorrections(QList)), BNC_CORE, SLOT(slotNewOrbCorrections(QList))); connect(this, SIGNAL(newClkCorrections(QList)), BNC_CORE, SLOT(slotNewClkCorrections(QList))); connect(this, SIGNAL(newCodeBiases(QList)), BNC_CORE, SLOT(slotNewCodeBiases(QList))); connect(this, SIGNAL(newPhaseBiases(QList)), BNC_CORE, SLOT(slotNewPhaseBiases(QList))); connect(this, SIGNAL(newTec(t_vTec)), BNC_CORE, SLOT(slotNewTec(t_vTec))); connect(this, SIGNAL(providerIDChanged(QString)), BNC_CORE, SIGNAL(providerIDChanged(QString))); connect(this, SIGNAL(newMessage(QByteArray,bool)), BNC_CORE, SLOT(slotMessage(const QByteArray,bool))); reset(); _providerID[0] = -1; _providerID[1] = -1; _providerID[2] = -1; } // Destructor //////////////////////////////////////////////////////////////////////////// RTCM3coDecoder::~RTCM3coDecoder() { delete _out; _IODs.clear(); _orbCorrections.clear(); _clkCorrections.clear(); _lastClkCorrections.clear(); _codeBiases.clear(); _phaseBiases.clear(); _vTecMap.clear(); } // //////////////////////////////////////////////////////////////////////////// void RTCM3coDecoder::reset() { memset(&_clkOrb, 0, sizeof(_clkOrb)); memset(&_codeBias, 0, sizeof(_codeBias)); memset(&_phaseBias, 0, sizeof(_phaseBias)); memset(&_vTEC, 0, sizeof(_vTEC)); } // Reopen Output File //////////////////////////////////////////////////////////////////////// void RTCM3coDecoder::reopen() { if (!_fileNameSkl.isEmpty()) { bncSettings settings; QDateTime datTim = currentDateAndTimeGPS(); QString hlpStr = bncRinex::nextEpochStr(datTim, settings.value("corrIntr").toString(), false); QString fileNameHlp = _fileNameSkl + QString("%1").arg(datTim.date().dayOfYear(), 3, 10, QChar('0')) + hlpStr + datTim.toString(".yyC"); if (_fileName == fileNameHlp) { return; } else { _fileName = fileNameHlp; } delete _out; if ( Qt::CheckState(settings.value("rnxAppend").toInt()) == Qt::Checked) { _out = new ofstream( _fileName.toAscii().data(), ios_base::out | ios_base::app ); } else { _out = new ofstream( _fileName.toAscii().data() ); } } } // //////////////////////////////////////////////////////////////////////////// t_irc RTCM3coDecoder::Decode(char* buffer, int bufLen, vector& errmsg) { errmsg.clear(); _buffer.append(QByteArray(buffer,bufLen)); t_irc retCode = failure; while(_buffer.size()) { struct ClockOrbit clkOrbSav; struct CodeBias codeBiasSav; struct PhaseBias phaseBiasSav; struct VTEC vTECSav; memcpy(&clkOrbSav, &_clkOrb, sizeof(clkOrbSav)); // save state memcpy(&codeBiasSav, &_codeBias, sizeof(codeBiasSav)); memcpy(&phaseBiasSav, &_phaseBias, sizeof(phaseBiasSav)); memcpy(&vTECSav, &_vTEC, sizeof(vTECSav)); int bytesused = 0; GCOB_RETURN irc = GetSSR(&_clkOrb, &_codeBias, &_vTEC, &_phaseBias, _buffer.data(), _buffer.size(), &bytesused); if (irc <= -30) { // not enough data - restore state and exit loop memcpy(&_clkOrb, &clkOrbSav, sizeof(clkOrbSav)); memcpy(&_codeBias, &codeBiasSav, sizeof(codeBiasSav)); memcpy(&_phaseBias, &phaseBiasSav, sizeof(phaseBiasSav)); memcpy(&_vTEC, &vTECSav, sizeof(vTECSav)); break; } else if (irc < 0) { // error - skip 1 byte and retry reset(); _buffer = _buffer.mid(bytesused ? bytesused : 1); } else { // OK or MESSAGEFOLLOWS _buffer = _buffer.mid(bytesused); if (irc == GCOBR_OK || irc == GCOBR_MESSAGEFOLLOWS ) { setEpochTime(); // sets _lastTime if (_lastTime.valid()) { reopen(); checkProviderID(); sendResults(); retCode = success; } else { retCode = failure; } reset(); } } } return retCode; } // //////////////////////////////////////////////////////////////////////////// void RTCM3coDecoder::sendResults() { // Orbit and clock corrections of all satellites // --------------------------------------------- for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS + CLOCKORBIT_NUMSBAS + _clkOrb.NumberOfSat[CLOCKORBIT_SATBDS]; ii++) { char sysCh = ' '; int flag = 0; if (ii < _clkOrb.NumberOfSat[CLOCKORBIT_SATGPS]) { sysCh = 'G'; } else if (ii >= CLOCKORBIT_OFFSETGLONASS && ii < CLOCKORBIT_OFFSETGLONASS + _clkOrb.NumberOfSat[CLOCKORBIT_SATGLONASS]) { sysCh = 'R'; } else if (ii >= CLOCKORBIT_OFFSETGALILEO && ii < CLOCKORBIT_OFFSETGALILEO + _clkOrb.NumberOfSat[CLOCKORBIT_SATGALILEO]) { sysCh = 'E'; flag = 1; // I/NAV clock has been chosen as reference clock for Galileo SSR corrections } else if (ii >= CLOCKORBIT_OFFSETQZSS && ii < CLOCKORBIT_OFFSETQZSS + _clkOrb.NumberOfSat[CLOCKORBIT_SATQZSS]) { sysCh = 'J'; } else if (ii >= CLOCKORBIT_OFFSETSBAS && ii < CLOCKORBIT_OFFSETSBAS + _clkOrb.NumberOfSat[CLOCKORBIT_SATSBAS]) { sysCh = 'S'; } else if (ii >= CLOCKORBIT_OFFSETBDS && ii < CLOCKORBIT_OFFSETBDS + _clkOrb.NumberOfSat[CLOCKORBIT_SATBDS]) { sysCh = 'C'; } else { continue; } // Orbit correction // ---------------- if ( _clkOrb.messageType == COTYPE_GPSCOMBINED || _clkOrb.messageType == COTYPE_GLONASSCOMBINED || _clkOrb.messageType == COTYPE_GALILEOCOMBINED || _clkOrb.messageType == COTYPE_QZSSCOMBINED || _clkOrb.messageType == COTYPE_SBASCOMBINED || _clkOrb.messageType == COTYPE_BDSCOMBINED || _clkOrb.messageType == COTYPE_GPSORBIT || _clkOrb.messageType == COTYPE_GLONASSORBIT || _clkOrb.messageType == COTYPE_GALILEOORBIT || _clkOrb.messageType == COTYPE_QZSSORBIT || _clkOrb.messageType == COTYPE_SBASORBIT || _clkOrb.messageType == COTYPE_BDSORBIT ) { t_orbCorr orbCorr; orbCorr._prn.set(sysCh, _clkOrb.Sat[ii].ID, flag); orbCorr._staID = _staID.toStdString(); orbCorr._iod = _clkOrb.Sat[ii].IOD; orbCorr._time = _lastTime; orbCorr._updateInt = _clkOrb.UpdateInterval; orbCorr._system = sysCh; orbCorr._xr[0] = _clkOrb.Sat[ii].Orbit.DeltaRadial; orbCorr._xr[1] = _clkOrb.Sat[ii].Orbit.DeltaAlongTrack; orbCorr._xr[2] = _clkOrb.Sat[ii].Orbit.DeltaCrossTrack; orbCorr._dotXr[0] = _clkOrb.Sat[ii].Orbit.DotDeltaRadial; orbCorr._dotXr[1] = _clkOrb.Sat[ii].Orbit.DotDeltaAlongTrack; orbCorr._dotXr[2] = _clkOrb.Sat[ii].Orbit.DotDeltaCrossTrack; _orbCorrections[_lastTime].append(orbCorr); _IODs[orbCorr._prn] = _clkOrb.Sat[ii].IOD; } // Clock Corrections // ----------------- if ( _clkOrb.messageType == COTYPE_GPSCOMBINED || _clkOrb.messageType == COTYPE_GLONASSCOMBINED || _clkOrb.messageType == COTYPE_GALILEOCOMBINED || _clkOrb.messageType == COTYPE_QZSSCOMBINED || _clkOrb.messageType == COTYPE_SBASCOMBINED || _clkOrb.messageType == COTYPE_BDSCOMBINED || _clkOrb.messageType == COTYPE_GPSCLOCK || _clkOrb.messageType == COTYPE_GLONASSCLOCK || _clkOrb.messageType == COTYPE_GALILEOCLOCK || _clkOrb.messageType == COTYPE_QZSSCLOCK || _clkOrb.messageType == COTYPE_SBASCLOCK || _clkOrb.messageType == COTYPE_BDSCLOCK) { t_clkCorr clkCorr; clkCorr._prn.set(sysCh, _clkOrb.Sat[ii].ID, flag); clkCorr._staID = _staID.toStdString(); clkCorr._time = _lastTime; clkCorr._updateInt = _clkOrb.UpdateInterval; clkCorr._dClk = _clkOrb.Sat[ii].Clock.DeltaA0 / t_CST::c; clkCorr._dotDClk = _clkOrb.Sat[ii].Clock.DeltaA1 / t_CST::c; clkCorr._dotDotDClk = _clkOrb.Sat[ii].Clock.DeltaA2 / t_CST::c; _lastClkCorrections[clkCorr._prn] = clkCorr; if (_IODs.contains(clkCorr._prn)) { clkCorr._iod = _IODs[clkCorr._prn]; _clkCorrections[_lastTime].append(clkCorr); } } // High-Resolution Clocks // ---------------------- if ( _clkOrb.messageType == COTYPE_GPSHR || _clkOrb.messageType == COTYPE_GLONASSHR || _clkOrb.messageType == COTYPE_GALILEOHR || _clkOrb.messageType == COTYPE_QZSSHR || _clkOrb.messageType == COTYPE_SBASHR || _clkOrb.messageType == COTYPE_BDSHR) { t_prn prn(sysCh, _clkOrb.Sat[ii].ID, flag); if (_lastClkCorrections.contains(prn)) { t_clkCorr clkCorr; clkCorr = _lastClkCorrections[prn]; clkCorr._time = _lastTime; clkCorr._updateInt = _clkOrb.UpdateInterval; clkCorr._dClk += _clkOrb.Sat[ii].hrclock / t_CST::c; if (_IODs.contains(clkCorr._prn)) { clkCorr._iod = _IODs[clkCorr._prn]; _clkCorrections[_lastTime].push_back(clkCorr); } } } } // Code Biases // ----------- for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS + CLOCKORBIT_NUMSBAS + _codeBias.NumberOfSat[CLOCKORBIT_SATBDS]; ii++) { char sysCh = ' '; if (ii < _codeBias.NumberOfSat[CLOCKORBIT_SATGPS]) { sysCh = 'G'; } else if (ii >= CLOCKORBIT_OFFSETGLONASS && ii < CLOCKORBIT_OFFSETGLONASS + _codeBias.NumberOfSat[CLOCKORBIT_SATGLONASS]) { sysCh = 'R'; } else if (ii >= CLOCKORBIT_OFFSETGALILEO && ii < CLOCKORBIT_OFFSETGALILEO + _codeBias.NumberOfSat[CLOCKORBIT_SATGALILEO]) { sysCh = 'E'; } else if (ii >= CLOCKORBIT_OFFSETQZSS && ii < CLOCKORBIT_OFFSETQZSS + _codeBias.NumberOfSat[CLOCKORBIT_SATQZSS]) { sysCh = 'J'; } else if (ii >= CLOCKORBIT_OFFSETSBAS && ii < CLOCKORBIT_OFFSETSBAS + _codeBias.NumberOfSat[CLOCKORBIT_SATSBAS]) { sysCh = 'S'; } else if (ii >= CLOCKORBIT_OFFSETBDS && ii < CLOCKORBIT_OFFSETBDS + _codeBias.NumberOfSat[CLOCKORBIT_SATBDS]) { sysCh = 'C'; } else { continue; } t_satCodeBias satCodeBias; satCodeBias._prn.set(sysCh, _codeBias.Sat[ii].ID); satCodeBias._staID = _staID.toStdString(); satCodeBias._time = _lastTime; satCodeBias._updateInt = _codeBias.UpdateInterval; for (unsigned jj = 0; jj < _codeBias.Sat[ii].NumberOfCodeBiases; jj++) { const CodeBias::BiasSat::CodeBiasEntry& biasEntry = _codeBias.Sat[ii].Biases[jj]; t_frqCodeBias frqCodeBias; frqCodeBias._rnxType2ch.assign(codeTypeToRnxType(sysCh, biasEntry.Type)); frqCodeBias._value = biasEntry.Bias; if (!frqCodeBias._rnxType2ch.empty()) { satCodeBias._bias.push_back(frqCodeBias); } } _codeBiases[_lastTime].append(satCodeBias); } // Phase Biases // ----------- for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + CLOCKORBIT_NUMGLONASS + CLOCKORBIT_NUMGALILEO + CLOCKORBIT_NUMQZSS + CLOCKORBIT_NUMSBAS + _phaseBias.NumberOfSat[CLOCKORBIT_SATBDS]; ii++) { char sysCh = ' '; if (ii < _phaseBias.NumberOfSat[CLOCKORBIT_SATGPS]) { sysCh = 'G'; } else if (ii >= CLOCKORBIT_OFFSETGLONASS && ii < CLOCKORBIT_OFFSETGLONASS + _phaseBias.NumberOfSat[CLOCKORBIT_SATGLONASS]) { sysCh = 'R'; } else if (ii >= CLOCKORBIT_OFFSETGALILEO && ii < CLOCKORBIT_OFFSETGALILEO + _phaseBias.NumberOfSat[CLOCKORBIT_SATGALILEO]) { sysCh = 'E'; } else if (ii >= CLOCKORBIT_OFFSETQZSS && ii < CLOCKORBIT_OFFSETQZSS + _phaseBias.NumberOfSat[CLOCKORBIT_SATQZSS]) { sysCh = 'J'; } else if (ii >= CLOCKORBIT_OFFSETSBAS && ii < CLOCKORBIT_OFFSETSBAS + _phaseBias.NumberOfSat[CLOCKORBIT_SATSBAS]) { sysCh = 'S'; } else if (ii >= CLOCKORBIT_OFFSETBDS && ii < CLOCKORBIT_OFFSETBDS + _phaseBias.NumberOfSat[CLOCKORBIT_SATBDS]) { sysCh = 'C'; } else { continue; } t_satPhaseBias satPhaseBias; satPhaseBias._prn.set(sysCh, _phaseBias.Sat[ii].ID); satPhaseBias._staID = _staID.toStdString(); satPhaseBias._time = _lastTime; satPhaseBias._updateInt = _phaseBias.UpdateInterval; satPhaseBias._dispBiasConstistInd = _phaseBias.DispersiveBiasConsistencyIndicator; satPhaseBias._MWConsistInd = _phaseBias.MWConsistencyIndicator; satPhaseBias._yawDeg = _phaseBias.Sat[ii].YawAngle * 180.0 / M_PI; satPhaseBias._yawDegRate = _phaseBias.Sat[ii].YawRate * 180.0 / M_PI; for (unsigned jj = 0; jj < _phaseBias.Sat[ii].NumberOfPhaseBiases; jj++) { const PhaseBias::PhaseBiasSat::PhaseBiasEntry& biasEntry = _phaseBias.Sat[ii].Biases[jj]; t_frqPhaseBias frqPhaseBias; frqPhaseBias._rnxType2ch.assign(codeTypeToRnxType(sysCh, biasEntry.Type)); frqPhaseBias._value = biasEntry.Bias; frqPhaseBias._fixIndicator = biasEntry.SignalIntegerIndicator; frqPhaseBias._fixWideLaneIndicator = biasEntry.SignalsWideLaneIntegerIndicator; frqPhaseBias._jumpCounter = biasEntry.SignalDiscontinuityCounter; if (!frqPhaseBias._rnxType2ch.empty()) { satPhaseBias._bias.push_back(frqPhaseBias); } } _phaseBiases[_lastTime].append(satPhaseBias); } // Ionospheric Model // ----------------- if (_vTEC.NumLayers > 0) { _vTecMap[_lastTime]._time = _lastTime; _vTecMap[_lastTime]._updateInt = _vTEC.UpdateInterval; _vTecMap[_lastTime]._staID = _staID.toStdString(); for (unsigned ii = 0; ii < _vTEC.NumLayers; ii++) { const VTEC::IonoLayers& ionoLayer = _vTEC.Layers[ii]; t_vTecLayer layer; layer._height = ionoLayer.Height; layer._C.ReSize(ionoLayer.Degree+1, ionoLayer.Order+1); layer._S.ReSize(ionoLayer.Degree+1, ionoLayer.Order+1); for (unsigned iDeg = 0; iDeg <= ionoLayer.Degree; iDeg++) { for (unsigned iOrd = 0; iOrd <= ionoLayer.Order; iOrd++) { layer._C[iDeg][iOrd] = ionoLayer.Cosinus[iDeg][iOrd]; layer._S[iDeg][iOrd] = ionoLayer.Sinus[iDeg][iOrd]; } } _vTecMap[_lastTime]._layers.push_back(layer); } } // Dump all older epochs // --------------------- QMutableMapIterator > itOrb(_orbCorrections); while (itOrb.hasNext()) { itOrb.next(); if (itOrb.key() < _lastTime) { emit newOrbCorrections(itOrb.value()); t_orbCorr::writeEpoch(_out, itOrb.value()); itOrb.remove(); } } QMutableMapIterator > itClk(_clkCorrections); while (itClk.hasNext()) { itClk.next(); if (itClk.key() < _lastTime) { emit newClkCorrections(itClk.value()); t_clkCorr::writeEpoch(_out, itClk.value()); itClk.remove(); } } QMutableMapIterator > itCB(_codeBiases); while (itCB.hasNext()) { itCB.next(); if (itCB.key() < _lastTime) { emit newCodeBiases(itCB.value()); t_satCodeBias::writeEpoch(_out, itCB.value()); itCB.remove(); } } QMutableMapIterator > itPB(_phaseBiases); while (itPB.hasNext()) { itPB.next(); if (itPB.key() < _lastTime) { emit newPhaseBiases(itPB.value()); t_satPhaseBias::writeEpoch(_out, itPB.value()); itPB.remove(); } } QMutableMapIterator itTec(_vTecMap); while (itTec.hasNext()) { itTec.next(); if (itTec.key() < _lastTime) { emit newTec(itTec.value()); t_vTec::write(_out, itTec.value()); itTec.remove(); } } } // //////////////////////////////////////////////////////////////////////////// void RTCM3coDecoder::checkProviderID() { if (_clkOrb.SSRProviderID == 0 && _clkOrb.SSRSolutionID == 0 && _clkOrb.SSRIOD == 0) { return; } int newProviderID[3]; newProviderID[0] = _clkOrb.SSRProviderID; newProviderID[1] = _clkOrb.SSRSolutionID; newProviderID[2] = _clkOrb.SSRIOD; bool alreadySet = false; bool different = false; for (unsigned ii = 0; ii < 3; ii++) { if (_providerID[ii] != -1) { alreadySet = true; } if (_providerID[ii] != newProviderID[ii]) { different = true; } _providerID[ii] = newProviderID[ii]; } if (alreadySet && different) { emit newMessage("RTCM3coDecoder: Provider Changed: " + _staID.toAscii(), true); emit providerIDChanged(_staID); } } // //////////////////////////////////////////////////////////////////////////// void RTCM3coDecoder::setEpochTime() { _lastTime.reset(); double epoSecGPS = -1.0; double epoSecGlo = -1.0; double epoSecGal = -1.0; double epoSecQzss = -1.0; double epoSecSbas = -1.0; double epoSecBds = -1.0; if (_clkOrb.NumberOfSat[CLOCKORBIT_SATGPS] > 0) { epoSecGPS = _clkOrb.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATGPS] > 0) { epoSecGPS = _codeBias.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATGPS] > 0) { epoSecGPS = _phaseBias.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s } else if (_vTEC.NumLayers > 0) { epoSecGPS = _vTEC.EpochTime; // 0 .. 604799 s } else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) { epoSecGlo = _clkOrb.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) { epoSecGlo = _codeBias.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) { epoSecGlo = _phaseBias.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s } else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0) { epoSecGal = _clkOrb.EpochTime[CLOCKORBIT_SATGALILEO]; } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0) { epoSecGal = _codeBias.EpochTime[CLOCKORBIT_SATGALILEO]; } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATGALILEO] > 0) { epoSecGal = _phaseBias.EpochTime[CLOCKORBIT_SATGALILEO]; } else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATQZSS] > 0) { epoSecQzss = _clkOrb.EpochTime[CLOCKORBIT_SATQZSS]; } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATQZSS] > 0) { epoSecQzss = _codeBias.EpochTime[CLOCKORBIT_SATQZSS]; } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATQZSS] > 0) { epoSecQzss = _phaseBias.EpochTime[CLOCKORBIT_SATQZSS]; } else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATSBAS] > 0) { epoSecSbas = _clkOrb.EpochTime[CLOCKORBIT_SATSBAS]; } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATSBAS] > 0) { epoSecSbas = _codeBias.EpochTime[CLOCKORBIT_SATSBAS]; } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATSBAS] > 0) { epoSecSbas = _phaseBias.EpochTime[CLOCKORBIT_SATSBAS]; } else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATBDS] > 0) { epoSecBds = _clkOrb.EpochTime[CLOCKORBIT_SATBDS]; } else if (_codeBias.NumberOfSat[CLOCKORBIT_SATBDS] > 0) { epoSecBds = _codeBias.EpochTime[CLOCKORBIT_SATBDS]; } else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATBDS] > 0) { epoSecBds = _phaseBias.EpochTime[CLOCKORBIT_SATBDS]; } // Retrieve current time // --------------------- int currentWeek = 0; double currentSec = 0.0; currentGPSWeeks(currentWeek, currentSec); bncTime currentTime(currentWeek, currentSec); // Set _lastTime close to currentTime // ---------------------------------- if (epoSecGPS != -1) { _lastTime.set(currentWeek, epoSecGPS); } else if (epoSecGlo != -1) { QDate date = dateAndTimeFromGPSweek(currentTime.gpsw(), currentTime.gpssec()).date(); epoSecGlo = epoSecGlo - 3 * 3600 + gnumleap(date.year(), date.month(), date.day()); _lastTime.set(currentWeek, epoSecGlo); } else if (epoSecGal != -1) { _lastTime.set(currentWeek, epoSecGal); } else if (epoSecQzss != -1) { _lastTime.set(currentWeek, epoSecQzss); } else if (epoSecSbas != -1) { _lastTime.set(currentWeek, epoSecSbas); } else if (epoSecBds != -1) { epoSecBds += 14.0; if (epoSecBds > 604800.0) { epoSecBds -= 7.0*24.0*60.0*60.0; } _lastTime.set(currentWeek, epoSecBds); } if (_lastTime.valid()) { double maxDiff = 12 * 3600.0; while (_lastTime < currentTime - maxDiff) { _lastTime = _lastTime + maxDiff; } while (_lastTime > currentTime + maxDiff) { _lastTime = _lastTime - maxDiff; } } } // //////////////////////////////////////////////////////////////////////////// string RTCM3coDecoder::codeTypeToRnxType(char system, CodeType type) const { if (system == 'G') { switch (type) { case CODETYPEGPS_L1_CA: return "1C"; case CODETYPEGPS_L1_P: return "1P"; case CODETYPEGPS_L1_Z: return "1W"; case CODETYPEGPS_L2_CA: return "2C"; case CODETYPEGPS_SEMI_CODELESS: return "?N"; // which carrier ? case CODETYPEGPS_L2_CM: return "2S"; case CODETYPEGPS_L2_CL: return "2L"; case CODETYPEGPS_L2_CML: return "2X"; case CODETYPEGPS_L2_P: return "2P"; case CODETYPEGPS_L2_Z: return "2W"; case CODETYPEGPS_L5_I: return "5I"; case CODETYPEGPS_L5_Q: return "5Q"; default: return ""; } } else if (system == 'R') { switch (type) { case CODETYPEGLONASS_L1_CA: return "1C"; case CODETYPEGLONASS_L1_P: return "1P"; case CODETYPEGLONASS_L2_CA: return "2C"; case CODETYPEGLONASS_L2_P: return "2P"; default: return ""; } } else if (system == 'E') { switch (type) { case CODETYPEGALILEO_E1_A: return "1A"; case CODETYPEGALILEO_E1_B: return "1B"; case CODETYPEGALILEO_E1_C: return "1C"; case CODETYPEGALILEO_E1_BC: return "1X"; case CODETYPEGALILEO_E1_ABC: return "1Z"; case CODETYPEGALILEO_E5A_I: return "5I"; case CODETYPEGALILEO_E5A_Q: return "5Q"; case CODETYPEGALILEO_E5A_IQ: return "5X"; case CODETYPEGALILEO_E5B_I: return "7I"; case CODETYPEGALILEO_E5B_Q: return "7Q"; case CODETYPEGALILEO_E5B_IQ: return "7X"; case CODETYPEGALILEO_E5_I: return "8I"; case CODETYPEGALILEO_E5_Q: return "8Q"; case CODETYPEGALILEO_E5_IQ: return "8X"; case CODETYPEGALILEO_E6_A: return "6A"; case CODETYPEGALILEO_E6_B: return "6B"; case CODETYPEGALILEO_E6_C: return "6C"; case CODETYPEGALILEO_E6_BC: return "6X"; case CODETYPEGALILEO_E6_ABC: return "6Z"; default: return ""; } } else if (system == 'J') { switch (type) { case CODETYPEQZSS_L1_CA: return "1C"; case CODETYPEQZSS_L1C_D: return "1S"; case CODETYPEQZSS_L1C_P: return "1L"; case CODETYPEQZSS_L1C_DP: return "1X"; case CODETYPEQZSS_L2C_M: return "2S"; case CODETYPEQZSS_L2C_L: return "2L"; case CODETYPEQZSS_L2C_ML: return "2X"; case CODETYPEQZSS_L5_I: return "5I"; case CODETYPEQZSS_L5_Q: return "5Q"; case CODETYPEQZSS_L5_IQ: return "5X"; case CODETYPEQZSS_LEX_S: return "6S"; case CODETYPEQZSS_LEX_L: return "6L"; case CODETYPEQZSS_LEX_SL: return "6X"; default: return ""; } } else if (system == 'S') { switch (type) { case CODETYPE_SBAS_L1_CA: return "1C"; case CODETYPE_SBAS_L5_I: return "5I"; case CODETYPE_SBAS_L5_Q: return "5Q"; case CODETYPE_SBAS_L5_IQ: return "5X"; default: return ""; } } else if (system == 'C') { switch (type) { case CODETYPE_BDS_B1_I: return "2I"; case CODETYPE_BDS_B1_Q: return "2Q"; case CODETYPE_BDS_B1_IQ: return "2X"; case CODETYPE_BDS_B2_I: return "7I"; case CODETYPE_BDS_B2_Q: return "7Q"; case CODETYPE_BDS_B2_IQ: return "7X"; case CODETYPE_BDS_B3_I: return "6I"; case CODETYPE_BDS_B3_Q: return "6Q"; case CODETYPE_BDS_B3_IQ: return "6X"; default: return ""; } } return ""; };