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source: ntrip/trunk/BNC/src/RTCM3/RTCM3coDecoder.cpp@ 6852

Last change on this file since 6852 was 6851, checked in by stuerze, 11 years ago
minor changes regarding phase biases
File size: 20.0 KB

Rev	Line
[866]	1	// Part of BNC, a utility for retrieving decoding and
	2	// converting GNSS data streams from NTRIP broadcasters.
	3	//
	4	// Copyright (C) 2007
	5	// German Federal Agency for Cartography and Geodesy (BKG)
	6	// http://www.bkg.bund.de
	7	// Czech Technical University Prague, Department of Geodesy
	8	// http://www.fsv.cvut.cz
	9	//
	10	// Email: euref-ip@bkg.bund.de
	11	//
	12	// This program is free software; you can redistribute it and/or
	13	// modify it under the terms of the GNU General Public License
	14	// as published by the Free Software Foundation, version 2.
	15	//
	16	// This program is distributed in the hope that it will be useful,
	17	// but WITHOUT ANY WARRANTY; without even the implied warranty of
	18	// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
	19	// GNU General Public License for more details.
	20	//
	21	// You should have received a copy of the GNU General Public License
	22	// along with this program; if not, write to the Free Software
	23	// Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
	24
	25	/* -------------------------------------------------------------------------
	26	* BKG NTRIP Client
	27	* -------------------------------------------------------------------------
	28	*
	29	* Class: RTCM3coDecoder
	30	*
	31	* Purpose: RTCM3 Clock Orbit Decoder
	32	*
	33	* Author: L. Mervart
	34	*
	35	* Created: 05-May-2008
	36	*
[6215]	37	* Changes:
[866]	38	*
	39	* -----------------------------------------------------------------------*/
	40
[868]	41	#include <stdio.h>
[920]	42	#include <math.h>
[868]	43
[866]	44	#include "RTCM3coDecoder.h"
[918]	45	#include "bncutils.h"
[934]	46	#include "bncrinex.h"
[5070]	47	#include "bnccore.h"
[1535]	48	#include "bncsettings.h"
[4428]	49	#include "bnctime.h"
[866]	50
	51	using namespace std;
	52
	53	// Constructor
	54	////////////////////////////////////////////////////////////////////////////
[970]	55	RTCM3coDecoder::RTCM3coDecoder(const QString& staID) {
[934]	56
[970]	57	_staID = staID;
	58
[934]	59	// File Output
	60	// -----------
[1535]	61	bncSettings settings;
[934]	62	QString path = settings.value("corrPath").toString();
	63	if (!path.isEmpty()) {
	64	expandEnvVar(path);
	65	if ( path.length() > 0 && path[path.length()-1] != QDir::separator() ) {
	66	path += QDir::separator();
	67	}
[970]	68	_fileNameSkl = path + staID;
[934]	69	}
[6141]	70	_out = 0;
[934]	71
[6215]	72	connect(this, SIGNAL(newOrbCorrections(QList<t_orbCorr>)),
[6141]	73	BNC_CORE, SLOT(slotNewOrbCorrections(QList<t_orbCorr>)));
[1828]	74
[6215]	75	connect(this, SIGNAL(newClkCorrections(QList<t_clkCorr>)),
[6141]	76	BNC_CORE, SLOT(slotNewClkCorrections(QList<t_clkCorr>)));
	77
[6486]	78	connect(this, SIGNAL(newCodeBiases(QList<t_satCodeBias>)),
	79	BNC_CORE, SLOT(slotNewCodeBiases(QList<t_satCodeBias>)));
	80
	81	connect(this, SIGNAL(newPhaseBiases(QList<t_satPhaseBias>)),
	82	BNC_CORE, SLOT(slotNewPhaseBiases(QList<t_satPhaseBias>)));
	83
	84	connect(this, SIGNAL(newTec(t_vTec)),
	85	BNC_CORE, SLOT(slotNewTec(t_vTec)));
	86
[6215]	87	connect(this, SIGNAL(providerIDChanged(QString)),
[5577]	88	BNC_CORE, SIGNAL(providerIDChanged(QString)));
	89
[6215]	90	connect(this, SIGNAL(newMessage(QByteArray,bool)),
[5068]	91	BNC_CORE, SLOT(slotMessage(const QByteArray,bool)));
[4428]	92
[6467]	93	reset();
[5576]	94
	95	_providerID[0] = -1;
	96	_providerID[1] = -1;
	97	_providerID[2] = -1;
[866]	98	}
	99
	100	// Destructor
	101	////////////////////////////////////////////////////////////////////////////
	102	RTCM3coDecoder::~RTCM3coDecoder() {
[935]	103	delete _out;
[866]	104	}
	105
[6467]	106	//
	107	////////////////////////////////////////////////////////////////////////////
	108	void RTCM3coDecoder::reset() {
	109	memset(&_clkOrb, 0, sizeof(_clkOrb));
	110	memset(&_codeBias, 0, sizeof(_codeBias));
	111	memset(&_phaseBias, 0, sizeof(_phaseBias));
	112	memset(&_vTEC, 0, sizeof(_vTEC));
	113	}
	114
[934]	115	// Reopen Output File
[6215]	116	////////////////////////////////////////////////////////////////////////
[6141]	117	void RTCM3coDecoder::reopen() {
[934]	118
[6141]	119	if (!_fileNameSkl.isEmpty()) {
[934]	120
[1535]	121	bncSettings settings;
[934]	122
[1154]	123	QDateTime datTim = currentDateAndTimeGPS();
[934]	124
	125	QString hlpStr = bncRinex::nextEpochStr(datTim,
	126	settings.value("corrIntr").toString());
	127
[6215]	128	QString fileNameHlp = _fileNameSkl
[934]	129	+ QString("%1").arg(datTim.date().dayOfYear(), 3, 10, QChar('0'))
[938]	130	+ hlpStr + datTim.toString(".yyC");
[934]	131
[6141]	132	if (_fileName == fileNameHlp) {
[934]	133	return;
	134	}
	135	else {
[6141]	136	_fileName = fileNameHlp;
[934]	137	}
	138
[6141]	139	delete _out;
[1727]	140	if ( Qt::CheckState(settings.value("rnxAppend").toInt()) == Qt::Checked) {
[6141]	141	_out = new ofstream( _fileName.toAscii().data(), ios_base::out \| ios_base::app );
[1727]	142	}
	143	else {
[6141]	144	_out = new ofstream( _fileName.toAscii().data() );
[1727]	145	}
[934]	146	}
	147	}
	148
[6215]	149	//
[866]	150	////////////////////////////////////////////////////////////////////////////
[1227]	151	t_irc RTCM3coDecoder::Decode(char* buffer, int bufLen, vector<string>& errmsg) {
[868]	152
[1218]	153	errmsg.clear();
	154
[1227]	155	_buffer.append(QByteArray(buffer,bufLen));
[868]	156
[1023]	157	t_irc retCode = failure;
	158
[1832]	159	while(_buffer.size()) {
	160
[6454]	161	struct ClockOrbit clkOrbSav;
	162	struct CodeBias codeBiasSav;
	163	struct PhaseBias phaseBiasSav;
	164	struct VTEC vTECSav;
	165	memcpy(&clkOrbSav, &_clkOrb, sizeof(clkOrbSav)); // save state
	166	memcpy(&codeBiasSav, &_codeBias, sizeof(codeBiasSav));
	167	memcpy(&phaseBiasSav, &_phaseBias, sizeof(phaseBiasSav));
	168	memcpy(&vTECSav, &_vTEC, sizeof(vTECSav));
	169
[879]	170	int bytesused = 0;
[6454]	171	GCOB_RETURN irc = GetSSR(&_clkOrb, &_codeBias, &_vTEC, &_phaseBias,
	172	_buffer.data(), _buffer.size(), &bytesused);
[1829]	173
[1833]	174	if (irc <= -30) { // not enough data - restore state and exit loop
[6454]	175	memcpy(&_clkOrb, &clkOrbSav, sizeof(clkOrbSav));
	176	memcpy(&_codeBias, &codeBiasSav, sizeof(codeBiasSav));
	177	memcpy(&_phaseBias, &phaseBiasSav, sizeof(phaseBiasSav));
	178	memcpy(&_vTEC, &vTECSav, sizeof(vTECSav));
[1833]	179	break;
[869]	180	}
[1832]	181
[1833]	182	else if (irc < 0) { // error - skip 1 byte and retry
[6467]	183	reset();
[1842]	184	_buffer = _buffer.mid(bytesused ? bytesused : 1);
[1833]	185	}
	186
	187	else { // OK or MESSAGEFOLLOWS
[1828]	188	_buffer = _buffer.mid(bytesused);
	189
[6467]	190	if (irc == GCOBR_OK \|\| irc == GCOBR_MESSAGEFOLLOWS ) {
[2435]	191
[6556]	192	setEpochTime(); // sets _lastTime
[6467]	193
	194	if (_lastTime.valid()) {
	195	reopen();
	196	checkProviderID();
	197	sendResults();
	198	retCode = success;
[919]	199	}
[6467]	200	else {
	201	retCode = failure;
[1829]	202	}
[918]	203
[6467]	204	reset();
[869]	205	}
[1829]	206	}
[1833]	207	}
[1832]	208
[1829]	209	return retCode;
[866]	210	}
[934]	211
[6215]	212	//
[934]	213	////////////////////////////////////////////////////////////////////////////
[6141]	214	void RTCM3coDecoder::sendResults() {
[934]	215
[6455]	216	// Orbit and clock corrections of all satellites
	217	// ---------------------------------------------
[6454]	218	for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + _clkOrb.NumberOfSat[CLOCKORBIT_SATGLONASS]; ii++) {
[3022]	219	char sysCh = ' ';
[6454]	220	if (ii < _clkOrb.NumberOfSat[CLOCKORBIT_SATGPS]) {
[3022]	221	sysCh = 'G';
	222	}
	223	else if (ii >= CLOCKORBIT_NUMGPS) {
	224	sysCh = 'R';
	225	}
[6141]	226	else {
	227	continue;
	228	}
[3024]	229
[6141]	230	// Orbit correction
	231	// ----------------
[6454]	232	if ( _clkOrb.messageType == COTYPE_GPSCOMBINED \|\|
	233	_clkOrb.messageType == COTYPE_GLONASSCOMBINED \|\|
	234	_clkOrb.messageType == COTYPE_GPSORBIT \|\|
	235	_clkOrb.messageType == COTYPE_GLONASSORBIT ) {
[3022]	236
[6141]	237	t_orbCorr orbCorr;
[6454]	238	orbCorr._prn.set(sysCh, _clkOrb.Sat[ii].ID);
[6564]	239	orbCorr._staID = _staID.toStdString();
[6556]	240	orbCorr._iod = _clkOrb.Sat[ii].IOD;
	241	orbCorr._time = _lastTime;
	242	orbCorr._updateInt = _clkOrb.UpdateInterval;
	243	orbCorr._system = 'R';
	244	orbCorr._xr[0] = _clkOrb.Sat[ii].Orbit.DeltaRadial;
	245	orbCorr._xr[1] = _clkOrb.Sat[ii].Orbit.DeltaAlongTrack;
	246	orbCorr._xr[2] = _clkOrb.Sat[ii].Orbit.DeltaCrossTrack;
	247	orbCorr._dotXr[0] = _clkOrb.Sat[ii].Orbit.DotDeltaRadial;
	248	orbCorr._dotXr[1] = _clkOrb.Sat[ii].Orbit.DotDeltaAlongTrack;
	249	orbCorr._dotXr[2] = _clkOrb.Sat[ii].Orbit.DotDeltaCrossTrack;
[3022]	250
[6497]	251	_orbCorrections[_lastTime].push_back(orbCorr);
[3022]	252
[6471]	253	_IODs[orbCorr._prn] = _clkOrb.Sat[ii].IOD;
[6141]	254	}
[3022]	255
[6455]	256	// Clock Corrections
	257	// -----------------
[6454]	258	if ( _clkOrb.messageType == COTYPE_GPSCOMBINED \|\|
	259	_clkOrb.messageType == COTYPE_GLONASSCOMBINED \|\|
	260	_clkOrb.messageType == COTYPE_GPSCLOCK \|\|
	261	_clkOrb.messageType == COTYPE_GLONASSCLOCK ) {
[3022]	262
[6141]	263	t_clkCorr clkCorr;
[6454]	264	clkCorr._prn.set(sysCh, _clkOrb.Sat[ii].ID);
[6564]	265	clkCorr._staID = _staID.toStdString();
[6141]	266	clkCorr._time = _lastTime;
[6556]	267	clkCorr._updateInt = _clkOrb.UpdateInterval;
[6454]	268	clkCorr._dClk = _clkOrb.Sat[ii].Clock.DeltaA0 / t_CST::c;
	269	clkCorr._dotDClk = _clkOrb.Sat[ii].Clock.DeltaA1 / t_CST::c;
	270	clkCorr._dotDotDClk = _clkOrb.Sat[ii].Clock.DeltaA2 / t_CST::c;
[3022]	271
[6471]	272	_lastClkCorrections[clkCorr._prn] = clkCorr;
	273
	274	if (_IODs.contains(clkCorr._prn)) {
	275	clkCorr._iod = _IODs[clkCorr._prn];
[6497]	276	_clkCorrections[_lastTime].push_back(clkCorr);
[3022]	277	}
	278	}
[6141]	279
	280	// High-Resolution Clocks
	281	// ----------------------
[6454]	282	if ( _clkOrb.messageType == COTYPE_GPSHR \|\|
	283	_clkOrb.messageType == COTYPE_GLONASSHR ) {
[6471]	284
	285	t_prn prn(sysCh, _clkOrb.Sat[ii].ID);
	286	if (_lastClkCorrections.contains(prn)) {
	287	t_clkCorr clkCorr;
[6556]	288	clkCorr = _lastClkCorrections[prn];
	289	clkCorr._time = _lastTime;
	290	clkCorr._updateInt = _clkOrb.UpdateInterval;
	291	clkCorr._dClk += _clkOrb.Sat[ii].hrclock / t_CST::c;
[6471]	292	if (_IODs.contains(clkCorr._prn)) {
	293	clkCorr._iod = _IODs[clkCorr._prn];
[6497]	294	_clkCorrections[_lastTime].push_back(clkCorr);
[6471]	295	}
	296	}
[6141]	297	}
[3022]	298	}
	299
[6455]	300	// Code Biases
	301	// -----------
[6454]	302	for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + _codeBias.NumberOfSat[CLOCKORBIT_SATGLONASS]; ii++) {
[6141]	303	char sysCh = ' ';
[6454]	304	if (ii < _codeBias.NumberOfSat[CLOCKORBIT_SATGPS]) {
[6141]	305	sysCh = 'G';
[3022]	306	}
[6141]	307	else if (ii >= CLOCKORBIT_NUMGPS) {
	308	sysCh = 'R';
[3022]	309	}
[6141]	310	else {
	311	continue;
	312	}
[6463]	313	t_satCodeBias satCodeBias;
	314	satCodeBias._prn.set(sysCh, _codeBias.Sat[ii].ID);
[6564]	315	satCodeBias._staID = _staID.toStdString();
[6556]	316	satCodeBias._time = _lastTime;
	317	satCodeBias._updateInt = _codeBias.UpdateInterval;
[6454]	318	for (unsigned jj = 0; jj < _codeBias.Sat[ii].NumberOfCodeBiases; jj++) {
[6472]	319	const CodeBias::BiasSat::CodeBiasEntry& biasEntry = _codeBias.Sat[ii].Biases[jj];
	320	t_frqCodeBias frqCodeBias;
	321	frqCodeBias._rnxType2ch = codeTypeToRnxType(sysCh, biasEntry.Type);
	322	frqCodeBias._value = biasEntry.Bias;
[6474]	323	if (!frqCodeBias._rnxType2ch.empty()) {
	324	satCodeBias._bias.push_back(frqCodeBias);
	325	}
[6141]	326	}
[6497]	327	_codeBiases[_lastTime].push_back(satCodeBias);
[3022]	328	}
	329
[6487]	330	// Phase Biases
	331	// -----------
	332	for (unsigned ii = 0; ii < CLOCKORBIT_NUMGPS + _phaseBias.NumberOfSat[CLOCKORBIT_SATGLONASS]; ii++) {
	333	char sysCh = ' ';
	334	if (ii < _phaseBias.NumberOfSat[CLOCKORBIT_SATGPS]) {
	335	sysCh = 'G';
	336	}
	337	else if (ii >= CLOCKORBIT_NUMGPS) {
	338	sysCh = 'R';
	339	}
	340	else {
	341	continue;
	342	}
	343	t_satPhaseBias satPhaseBias;
	344	satPhaseBias._prn.set(sysCh, _phaseBias.Sat[ii].ID);
[6564]	345	satPhaseBias._staID = _staID.toStdString();
[6488]	346	satPhaseBias._time = _lastTime;
[6556]	347	satPhaseBias._updateInt = _phaseBias.UpdateInterval;
[6488]	348	satPhaseBias._yawDeg = _phaseBias.Sat[ii].YawAngle * 180.0 / M_PI;
	349	satPhaseBias._yawDegRate = _phaseBias.Sat[ii].YawRate * 180.0 / M_PI;
[6487]	350	for (unsigned jj = 0; jj < _phaseBias.Sat[ii].NumberOfPhaseBiases; jj++) {
	351	const PhaseBias::PhaseBiasSat::PhaseBiasEntry& biasEntry = _phaseBias.Sat[ii].Biases[jj];
	352	t_frqPhaseBias frqPhaseBias;
[6488]	353	frqPhaseBias._rnxType2ch = codeTypeToRnxType(sysCh, biasEntry.Type);
	354	frqPhaseBias._value = biasEntry.Bias;
	355	frqPhaseBias._fixIndicator = biasEntry.SignalIntegerIndicator;
	356	frqPhaseBias._fixWideLaneIndicator = biasEntry.SignalsWideLaneIntegerIndicator;
	357	frqPhaseBias._jumpCounter = biasEntry.SignalDiscontinuityCounter;
[6487]	358	if (!frqPhaseBias._rnxType2ch.empty()) {
	359	satPhaseBias._bias.push_back(frqPhaseBias);
	360	}
	361	}
[6497]	362	_phaseBiases[_lastTime].push_back(satPhaseBias);
[6487]	363	}
	364
[6490]	365	// Ionospheric Model
	366	// -----------------
	367	if (_vTEC.NumLayers > 0) {
[6497]	368	_vTecMap[_lastTime]._time = _lastTime;
[6556]	369	_vTecMap[_lastTime]._updateInt = _vTEC.UpdateInterval;
[6564]	370	_vTecMap[_lastTime]._staID = _staID.toStdString();
[6491]	371	for (unsigned ii = 0; ii < _vTEC.NumLayers; ii++) {
	372	const VTEC::IonoLayers& ionoLayer = _vTEC.Layers[ii];
	373	t_vTecLayer layer;
	374	layer._height = ionoLayer.Height;
	375	layer._C.ReSize(ionoLayer.Degree, ionoLayer.Order);
	376	layer._S.ReSize(ionoLayer.Degree, ionoLayer.Order);
	377	for (unsigned iDeg = 0; iDeg < ionoLayer.Degree; iDeg++) {
	378	for (unsigned iOrd = 0; iOrd < ionoLayer.Order; iOrd++) {
	379	layer._C[iDeg][iOrd] = ionoLayer.Cosinus[iDeg][iOrd];
	380	layer._S[iDeg][iOrd] = ionoLayer.Sinus[iDeg][iOrd];
	381	}
	382	}
[6497]	383	_vTecMap[_lastTime]._layers.push_back(layer);
[6491]	384	}
[6490]	385	}
	386
[6455]	387	// Dump all older epochs
	388	// ---------------------
	389	QMutableMapIterator<bncTime, QList<t_orbCorr> > itOrb(_orbCorrections);
	390	while (itOrb.hasNext()) {
	391	itOrb.next();
	392	if (itOrb.key() < _lastTime) {
	393	emit newOrbCorrections(itOrb.value());
[6456]	394	t_orbCorr::writeEpoch(_out, itOrb.value());
[6455]	395	itOrb.remove();
	396	}
[6141]	397	}
[6455]	398	QMutableMapIterator<bncTime, QList<t_clkCorr> > itClk(_clkCorrections);
	399	while (itClk.hasNext()) {
	400	itClk.next();
	401	if (itClk.key() < _lastTime) {
	402	emit newClkCorrections(itClk.value());
[6456]	403	t_clkCorr::writeEpoch(_out, itClk.value());
[6455]	404	itClk.remove();
	405	}
[6141]	406	}
[6474]	407	QMutableMapIterator<bncTime, QList<t_satCodeBias> > itCB(_codeBiases);
	408	while (itCB.hasNext()) {
	409	itCB.next();
	410	if (itCB.key() < _lastTime) {
	411	emit newCodeBiases(itCB.value());
[6475]	412	t_satCodeBias::writeEpoch(_out, itCB.value());
[6474]	413	itCB.remove();
	414	}
	415	}
[6487]	416	QMutableMapIterator<bncTime, QList<t_satPhaseBias> > itPB(_phaseBiases);
	417	while (itPB.hasNext()) {
	418	itPB.next();
	419	if (itPB.key() < _lastTime) {
	420	emit newPhaseBiases(itPB.value());
	421	t_satPhaseBias::writeEpoch(_out, itPB.value());
	422	itPB.remove();
	423	}
	424	}
[6490]	425	QMutableMapIterator<bncTime, t_vTec> itTec(_vTecMap);
	426	while (itTec.hasNext()) {
	427	itTec.next();
	428	if (itTec.key() < _lastTime) {
	429	emit newTec(itTec.value());
	430	t_vTec::write(_out, itTec.value());
	431	itTec.remove();
	432	}
	433	}
[3022]	434	}
[5576]	435
[6215]	436	//
[5576]	437	////////////////////////////////////////////////////////////////////////////
	438	void RTCM3coDecoder::checkProviderID() {
	439
[6454]	440	if (_clkOrb.SSRProviderID == 0 && _clkOrb.SSRSolutionID == 0 && _clkOrb.SSRIOD == 0) {
[5576]	441	return;
	442	}
	443
	444	int newProviderID[3];
[6454]	445	newProviderID[0] = _clkOrb.SSRProviderID;
	446	newProviderID[1] = _clkOrb.SSRSolutionID;
	447	newProviderID[2] = _clkOrb.SSRIOD;
[5576]	448
	449	bool alreadySet = false;
	450	bool different = false;
	451
	452	for (unsigned ii = 0; ii < 3; ii++) {
	453	if (_providerID[ii] != -1) {
	454	alreadySet = true;
	455	}
	456	if (_providerID[ii] != newProviderID[ii]) {
	457	different = true;
	458	}
	459	_providerID[ii] = newProviderID[ii];
	460	}
[6215]	461
[5576]	462	if (alreadySet && different) {
[5580]	463	emit newMessage("RTCM3coDecoder: Provider Changed " + _staID.toAscii() + "\n", true);
[5577]	464	emit providerIDChanged(_staID);
[5576]	465	}
	466	}
[6467]	467
	468	//
	469	////////////////////////////////////////////////////////////////////////////
[6556]	470	void RTCM3coDecoder::setEpochTime() {
[6467]	471
	472	_lastTime.reset();
	473
[6553]	474	double epoSecGPS = -1.0;
	475	double epoSecGlo = -1.0;
[6467]	476	if (_clkOrb.NumberOfSat[CLOCKORBIT_SATGPS] > 0) {
[6553]	477	epoSecGPS = _clkOrb.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s
[6467]	478	}
	479	else if (_codeBias.NumberOfSat[CLOCKORBIT_SATGPS] > 0) {
[6470]	480	epoSecGPS = _codeBias.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s
[6467]	481	}
[6470]	482	else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATGPS] > 0) {
	483	epoSecGPS = _phaseBias.EpochTime[CLOCKORBIT_SATGPS]; // 0 .. 604799 s
	484	}
	485	else if (_vTEC.NumLayers > 0) {
	486	epoSecGPS = _vTEC.EpochTime; // 0 .. 604799 s
	487	}
[6467]	488	else if (_clkOrb.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) {
[6470]	489	epoSecGlo = _clkOrb.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s
[6467]	490	}
	491	else if (_codeBias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) {
[6470]	492	epoSecGlo = _codeBias.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s
[6467]	493	}
[6470]	494	else if (_phaseBias.NumberOfSat[CLOCKORBIT_SATGLONASS] > 0) {
	495	epoSecGlo = _phaseBias.EpochTime[CLOCKORBIT_SATGLONASS]; // 0 .. 86399 s
	496	}
[6467]	497
	498	// Retrieve current time
	499	// ---------------------
	500	int currentWeek = 0;
	501	double currentSec = 0.0;
	502	currentGPSWeeks(currentWeek, currentSec);
	503	bncTime currentTime(currentWeek, currentSec);
	504
	505	// Set _lastTime close to currentTime
	506	// ----------------------------------
	507	if (epoSecGPS != -1) {
	508	_lastTime.set(currentWeek, epoSecGPS);
	509	}
	510	else if (epoSecGlo != -1) {
	511	QDate date = dateAndTimeFromGPSweek(currentTime.gpsw(), currentTime.gpssec()).date();
	512	epoSecGlo = epoSecGlo - 3 * 3600 + gnumleap(date.year(), date.month(), date.day());
	513	_lastTime.set(currentWeek, epoSecGlo);
[6468]	514	}
	515
	516	if (_lastTime.valid()) {
[6469]	517	double maxDiff = 12 * 3600.0;
	518	while (_lastTime < currentTime - maxDiff) {
	519	_lastTime = _lastTime + maxDiff;
[6467]	520	}
[6469]	521	while (_lastTime > currentTime + maxDiff) {
	522	_lastTime = _lastTime - maxDiff;
[6467]	523	}
	524	}
	525	}
[6472]	526
	527	//
	528	////////////////////////////////////////////////////////////////////////////
	529	string RTCM3coDecoder::codeTypeToRnxType(char system, CodeType type) const {
	530	if (system == 'G') {
	531	switch (type) {
[6473]	532	case CODETYPEGPS_L1_CA: return "1C";
	533	case CODETYPEGPS_L1_P: return "1P";
	534	case CODETYPEGPS_L1_Z: return "1W";
	535	case CODETYPEGPS_L2_CA: return "2C";
	536	case CODETYPEGPS_SEMI_CODELESS: return "?N"; // which carrier ?
	537	case CODETYPEGPS_L2_CM: return "2S";
	538	case CODETYPEGPS_L2_CL: return "2L";
	539	case CODETYPEGPS_L2_CML: return "2X";
	540	case CODETYPEGPS_L2_P: return "2P";
	541	case CODETYPEGPS_L2_Z: return "2W";
	542	case CODETYPEGPS_L5_I: return "5I";
	543	case CODETYPEGPS_L5_Q: return "5Q";
[6472]	544	default: return "";
	545	}
	546	}
	547	else if (system == 'R') {
	548	switch (type) {
[6473]	549	case CODETYPEGLONASS_L1_CA: return "1C";
	550	case CODETYPEGLONASS_L1_P: return "1P";
	551	case CODETYPEGLONASS_L2_CA: return "2C";
	552	case CODETYPEGLONASS_L2_P: return "2P";
[6472]	553	default: return "";
	554	}
	555	}
	556	else if (system == 'E') {
	557	switch (type) {
[6473]	558	case CODETYPEGALILEO_E1_A: return "1A";
	559	case CODETYPEGALILEO_E1_B: return "1B";
	560	case CODETYPEGALILEO_E1_C: return "1C";
	561	case CODETYPEGALILEO_E5A_I: return "5I";
	562	case CODETYPEGALILEO_E5A_Q: return "5Q";
	563	case CODETYPEGALILEO_E5B_I: return "7I";
	564	case CODETYPEGALILEO_E5B_Q: return "7Q";
	565	case CODETYPEGALILEO_E5_I: return "8I";
	566	case CODETYPEGALILEO_E5_Q: return "8Q";
	567	case CODETYPEGALILEO_E6_A: return "6A";
	568	case CODETYPEGALILEO_E6_B: return "6B";
	569	case CODETYPEGALILEO_E6_C: return "6C";
[6472]	570	default: return "";
	571	}
	572	}
	573	else if (system == 'J') {
	574	switch (type) {
[6473]	575	case CODETYPEQZSS_L1_CA: return "1C";
	576	case CODETYPEQZSS_L1C_D: return "1S";
	577	case CODETYPEQZSS_L1C_P: return "1L";
	578	case CODETYPEQZSS_L1C_DP: return "1X";
	579	case CODETYPEQZSS_L2_CM: return "2S";
	580	case CODETYPEQZSS_L2_CL: return "2L";
	581	case CODETYPEQZSS_L2_CML: return "2X";
	582	case CODETYPEQZSS_L5_I: return "5I";
	583	case CODETYPEQZSS_L5_Q: return "5Q";
	584	case CODETYPEQZSS_L5_IQ: return "5X";
	585	case CODETYPEQZSS_LEX_S: return "6S";
	586	case CODETYPEQZSS_LEX_L: return "6L";
	587	case CODETYPEQZSS_LEX_SL: return "6X";
[6472]	588	default: return "";
	589	}
	590	}
	591	else if (system == 'S') {
	592	switch (type) {
[6473]	593	case CODETYPE_SBAS_L1_CA: return "1C";
	594	case CODETYPE_SBAS_L5_I: return "5I";
	595	case CODETYPE_SBAS_L5_Q: return "5Q";
	596	case CODETYPE_SBAS_L5_IQ: return "5X";
[6472]	597	default: return "";
	598	}
	599	}
	600	else if (system == 'C') {
	601	switch (type) {
[6473]	602	case CODETYPE_BDS_B1_I: return "1I";
	603	case CODETYPE_BDS_B1_Q: return "1Q";
	604	case CODETYPE_BDS_B1_IQ: return "1X";
	605	case CODETYPE_BDS_B2_I: return "7I";
	606	case CODETYPE_BDS_B2_Q: return "7Q";
	607	case CODETYPE_BDS_B2_IQ: return "7X";
	608	case CODETYPE_BDS_B3_I: return "6I";
	609	case CODETYPE_BDS_B3_Q: return "6Q";
	610	case CODETYPE_BDS_B3_IQ: return "6X";
[6472]	611	default: return "";
	612	}
	613	}
	614	return "";
	615	};

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