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source: ntrip/trunk/BNC/rinex/rnxobsfile.cpp@ 3997

Last change on this file since 3997 was 3994, checked in by mervart, 13 years ago

File size: 28.7 KB

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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: t_rnxObsFile
30	*
31	* Purpose: Reads RINEX Observation File
32	*
33	* Author: L. Mervart
34	*
35	* Created: 24-Jan-2012
36	*
37	* Changes:
38	*
39	* -----------------------------------------------------------------------*/
40
41	#include <iostream>
42	#include <iomanip>
43	#include <sstream>
44	#include "rnxobsfile.h"
45	#include "bncutils.h"
46	#include "bncapp.h"
47
48	using namespace std;
49
50	const QString t_rnxObsFile::t_rnxObsHeader::_emptyStr;
51
52	// Constructor
53	////////////////////////////////////////////////////////////////////////////
54	t_rnxObsFile::t_rnxObsHeader::t_rnxObsHeader() {
55	_antNEU.ReSize(3); _antNEU = 0.0;
56	_antXYZ.ReSize(3); _antXYZ = 0.0;
57	_antBSG.ReSize(3); _antBSG = 0.0;
58	_xyz.ReSize(3); _xyz = 0.0;
59	_version = 0.0;
60	_interval = 0.0;
61	for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
62	_wlFactorsL1[iPrn] = 1;
63	_wlFactorsL2[iPrn] = 1;
64	}
65	}
66
67	// Destructor
68	////////////////////////////////////////////////////////////////////////////
69	t_rnxObsFile::t_rnxObsHeader::~t_rnxObsHeader() {
70	}
71
72	// Read Header
73	////////////////////////////////////////////////////////////////////////////
74	t_irc t_rnxObsFile::t_rnxObsHeader::read(QTextStream* stream, int maxLines) {
75	int numLines = 0;
76	while ( stream->status() == QTextStream::Ok && !stream->atEnd() ) {
77	QString line = stream->readLine(); ++ numLines;
78	if (line.isEmpty()) {
79	continue;
80	}
81	if (line.indexOf("END OF FILE") != -1) {
82	break;
83	}
84	QString value = line.mid(0,60).trimmed();
85	QString key = line.mid(60).trimmed();
86	if (key == "END OF HEADER") {
87	break;
88	}
89	else if (key == "RINEX VERSION / TYPE") {
90	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
91	in >> _version;
92	}
93	else if (key == "MARKER NAME") {
94	_markerName = value;
95	}
96	else if (key == "MARKER NUMBER") {
97	_markerNumber = line.mid(0,20).trimmed();
98	}
99	else if (key == "ANT # / TYPE") {
100	_antennaNumber = line.mid( 0,20).trimmed();
101	_antennaName = line.mid(20,20).trimmed();
102	}
103	else if (key == "OBSERVER / AGENCY") {
104	_observer = line.mid( 0,20).trimmed();
105	_agency = line.mid(20,40).trimmed();
106	}
107	else if (key == "REC # / TYPE / VERS") {
108	_receiverNumber = line.mid( 0,20).trimmed();
109	_receiverType = line.mid(20,20).trimmed();
110	_receiverVersion = line.mid(40,20).trimmed();
111	}
112	else if (key == "INTERVAL") {
113	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
114	in >> _interval;
115	}
116	else if (key == "WAVELENGTH FACT L1/2") {
117	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
118	int wlFactL1 = 0;
119	int wlFactL2 = 0;
120	int numSat = 0;
121	in >> wlFactL1 >> wlFactL2 >> numSat;
122	if (numSat == 0) {
123	for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
124	_wlFactorsL1[iPrn] = wlFactL1;
125	_wlFactorsL2[iPrn] = wlFactL2;
126	}
127	}
128	else {
129	for (int ii = 0; ii < numSat; ii++) {
130	QString prn; in >> prn;
131	if (prn[0] == 'G') {
132	int iPrn;
133	readInt(prn, 1, 2, iPrn);
134	_wlFactorsL1[iPrn] = wlFactL1;
135	_wlFactorsL2[iPrn] = wlFactL2;
136	}
137	}
138	}
139	}
140	else if (key == "APPROX POSITION XYZ") {
141	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
142	in >> _xyz[0] >> _xyz[1] >> _xyz[2];
143	}
144	else if (key == "ANTENNA: DELTA H/E/N") {
145	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
146	in >> _antNEU[2] >> _antNEU[1] >> _antNEU[0];
147	}
148	else if (key == "ANTENNA: DELTA X/Y/Z") {
149	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
150	in >> _antXYZ[0] >> _antXYZ[1] >> _antXYZ[2];
151	}
152	else if (key == "ANTENNA: B.SIGHT XYZ") {
153	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
154	in >> _antBSG[0] >> _antBSG[1] >> _antBSG[2];
155	}
156	else if (key == "# / TYPES OF OBSERV") {
157	QTextStream* in = new QTextStream(value.toAscii(), QIODevice::ReadOnly);
158	int nTypes;
159	*in >> nTypes;
160	_obsTypesV2.clear();
161	for (int ii = 0; ii < nTypes; ii++) {
162	if (ii > 0 && ii % 9 == 0) {
163	line = stream->readLine(); ++numLines;
164	delete in;
165	in = new QTextStream(line.toAscii(), QIODevice::ReadOnly);
166	}
167	QString hlp;
168	*in >> hlp;
169	_obsTypesV2.push_back(hlp);
170	}
171	}
172	else if (key == "SYS / # / OBS TYPES") {
173	QTextStream* in = new QTextStream(value.toAscii(), QIODevice::ReadOnly);
174	char sys;
175	int nTypes;
176	*in >> sys >> nTypes;
177	_obsTypesV3[sys].clear();
178	for (int ii = 0; ii < nTypes; ii++) {
179	if (ii > 0 && ii % 13 == 0) {
180	line = stream->readLine(); ++numLines;
181	delete in;
182	in = new QTextStream(line.toAscii(), QIODevice::ReadOnly);
183	}
184	QString hlp;
185	*in >> hlp;
186	_obsTypesV3[sys].push_back(hlp);
187	}
188	delete in;
189	}
190	else if (key == "TIME OF FIRST OBS") {
191	QTextStream in(value.toAscii(), QIODevice::ReadOnly);
192	int year, month, day, hour, min;
193	double sec;
194	in >> year >> month >> day >> hour >> min >> sec;
195	_startTime.set(year, month, day, hour, min, sec);
196	}
197	if (maxLines > 0 && numLines == maxLines) {
198	break;
199	}
200	}
201
202	return success;
203	}
204
205	// Number of Observation Types (satellite-system specific)
206	////////////////////////////////////////////////////////////////////////////
207	int t_rnxObsFile::t_rnxObsHeader::nTypes(char sys) const {
208	if (_version < 3.0) {
209	return _obsTypesV2.size();
210	}
211	else {
212	map<char, vector<QString> >::const_iterator it = _obsTypesV3.find(sys);
213	if (it != _obsTypesV3.end()) {
214	return it->second.size();
215	}
216	else {
217	return 0;
218	}
219	}
220	}
221
222	// Observation Type (satellite-system specific)
223	////////////////////////////////////////////////////////////////////////////
224	const QString& t_rnxObsFile::t_rnxObsHeader::obsType(char sys, int index) const {
225	if (_version < 3.0) {
226	return _obsTypesV2.at(index);
227	}
228	else {
229	map<char, vector<QString> >::const_iterator it = _obsTypesV3.find(sys);
230	if (it != _obsTypesV3.end()) {
231	return it->second.at(index);
232	}
233	else {
234	return _emptyStr;
235	}
236	}
237	}
238
239	// Constructor
240	////////////////////////////////////////////////////////////////////////////
241	t_rnxObsFile::t_rnxObsFile(const QString& fileName, e_inpOut inpOut) {
242	_inpOut = inpOut;
243	_stream = 0;
244	_flgPowerFail = false;
245	_trafo = trafoNone;
246	if (_inpOut == input) {
247	openRead(fileName);
248	}
249	else {
250	openWrite(fileName);
251	}
252	}
253
254	// Open for input
255	////////////////////////////////////////////////////////////////////////////
256	void t_rnxObsFile::openRead(const QString& fileName) {
257
258	_fileName = fileName; expandEnvVar(_fileName);
259	_file = new QFile(_fileName);
260	_file->open(QIODevice::ReadOnly \| QIODevice::Text);
261	_stream = new QTextStream();
262	_stream->setDevice(_file);
263
264	_header.read(_stream);
265
266	// Guess Observation Interval
267	// --------------------------
268	if (_header._interval == 0.0) {
269	bncTime ttPrev;
270	for (int iEpo = 0; iEpo < 10; iEpo++) {
271	const t_rnxEpo* rnxEpo = nextEpoch();
272	if (!rnxEpo) {
273	throw QString("t_rnxObsFile: not enough epochs");
274	}
275	if (iEpo > 0) {
276	double dt = rnxEpo->tt - ttPrev;
277	if (_header._interval == 0.0 \|\| dt < _header._interval) {
278	_header._interval = dt;
279	}
280	}
281	ttPrev = rnxEpo->tt;
282	}
283	_stream->seek(0);
284	_header.read(_stream);
285	}
286
287	// Time of first observation
288	// -------------------------
289	if (!_header._startTime.valid()) {
290	const t_rnxEpo* rnxEpo = nextEpoch();
291	if (!rnxEpo) {
292	throw QString("t_rnxObsFile: not enough epochs");
293	}
294	_header._startTime = rnxEpo->tt;
295	_stream->seek(0);
296	_header.read(_stream);
297	}
298	}
299
300	// Open for output
301	////////////////////////////////////////////////////////////////////////////
302	void t_rnxObsFile::openWrite(const QString& fileName) {
303
304	_fileName = fileName; expandEnvVar(_fileName);
305	_file = new QFile(_fileName);
306	_file->open(QIODevice::WriteOnly \| QIODevice::Text);
307	_stream = new QTextStream();
308	_stream->setDevice(_file);
309	}
310
311	// Destructor
312	////////////////////////////////////////////////////////////////////////////
313	t_rnxObsFile::~t_rnxObsFile() {
314	close();
315	}
316
317	// Close
318	////////////////////////////////////////////////////////////////////////////
319	void t_rnxObsFile::close() {
320	delete _stream; _stream = 0;
321	delete _file; _file = 0;
322	}
323
324	// Handle Special Epoch Flag
325	////////////////////////////////////////////////////////////////////////////
326	void t_rnxObsFile::handleEpochFlag(int flag, const QString& line) {
327
328	// Power Failure
329	// -------------
330	if (flag == 1) {
331	_flgPowerFail = true;
332	}
333
334	// Start moving antenna
335	// --------------------
336	else if (flag == 2) {
337	// no action
338	}
339
340	// Re-Read Header
341	// --------------
342	else if (flag == 3 \|\| flag == 4) {
343	int numLines = 0;
344	if (version() < 3.0) {
345	readInt(line, 29, 3, numLines);
346	}
347	else {
348	readInt(line, 32, 3, numLines);
349	}
350	_header.read(_stream, numLines);
351	}
352
353	// Unhandled Flag
354	// --------------
355	else {
356	throw QString("t_rnxObsFile: unhandled flag\n" + line);
357	}
358	}
359
360	// Retrieve single Epoch
361	////////////////////////////////////////////////////////////////////////////
362	t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpoch() {
363
364	_currEpo.clear();
365
366	if (version() < 3.0) {
367	return nextEpochV2();
368	}
369	else {
370	return nextEpochV3();
371	}
372	}
373
374	// Retrieve single Epoch (RINEX Version 3)
375	////////////////////////////////////////////////////////////////////////////
376	t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpochV3() {
377
378	while ( _stream->status() == QTextStream::Ok && !_stream->atEnd() ) {
379
380	QString line = _stream->readLine();
381
382	if (line.isEmpty()) {
383	continue;
384	}
385
386	int flag = 0;
387	readInt(line, 31, 1, flag);
388	if (flag > 0) {
389	handleEpochFlag(flag, line);
390	continue;
391	}
392
393	QTextStream in(line.mid(1).toAscii(), QIODevice::ReadOnly);
394
395	// Epoch Time
396	// ----------
397	int year, month, day, hour, min;
398	double sec;
399	in >> year >> month >> day >> hour >> min >> sec;
400	_currEpo.tt.set(year, month, day, hour, min, sec);
401
402	// Number of Satellites
403	// --------------------
404	int numSat;
405	readInt(line, 32, 3, numSat);
406
407	_currEpo.rnxSat.resize(numSat);
408
409	// Observations
410	// ------------
411	for (int iSat = 0; iSat < numSat; iSat++) {
412	line = _stream->readLine();
413	_currEpo.rnxSat[iSat].satSys = line.toAscii()[0];
414	readInt(line, 1, 2, _currEpo.rnxSat[iSat].satNum);
415	char sys = line.toAscii()[0];
416	for (int iType = 0; iType < _header.nTypes(sys); iType++) {
417	int pos = 3 + 16*iType;
418	double obsValue = 0.0;
419	int lli = 0;
420	int snr = 0;
421	readDbl(line, pos, 14, obsValue);
422	readInt(line, pos + 14, 1, lli);
423	readInt(line, pos + 15, 1, snr);
424
425	if (_flgPowerFail) {
426	lli \|= 1;
427	}
428
429	_currEpo.rnxSat[iSat].obs.push_back(obsValue);
430	_currEpo.rnxSat[iSat].lli.push_back(lli);
431	_currEpo.rnxSat[iSat].snr.push_back(snr);
432	}
433	}
434
435	_flgPowerFail = false;
436
437	return &_currEpo;
438	}
439
440	return 0;
441	}
442
443	// Retrieve single Epoch (RINEX Version 2)
444	////////////////////////////////////////////////////////////////////////////
445	t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpochV2() {
446
447	while ( _stream->status() == QTextStream::Ok && !_stream->atEnd() ) {
448
449	QString line = _stream->readLine();
450
451	if (line.isEmpty()) {
452	continue;
453	}
454
455	int flag = 0;
456	readInt(line, 28, 1, flag);
457	if (flag > 0) {
458	handleEpochFlag(flag, line);
459	continue;
460	}
461
462	QTextStream in(line.toAscii(), QIODevice::ReadOnly);
463
464	// Epoch Time
465	// ----------
466	int year, month, day, hour, min;
467	double sec;
468	in >> year >> month >> day >> hour >> min >> sec;
469	if (year < 80) {
470	year += 2000;
471	}
472	else if (year < 100) {
473	year += 1900;
474	}
475	_currEpo.tt.set(year, month, day, hour, min, sec);
476
477	// Number of Satellites
478	// --------------------
479	int numSat;
480	readInt(line, 29, 3, numSat);
481
482	_currEpo.rnxSat.resize(numSat);
483
484	// Read Satellite Numbers
485	// ----------------------
486	int pos = 32;
487	for (int iSat = 0; iSat < numSat; iSat++) {
488	if (iSat > 0 && iSat % 12 == 0) {
489	line = _stream->readLine();
490	pos = 32;
491	}
492
493	_currEpo.rnxSat[iSat].satSys = line.toAscii()[pos];
494	readInt(line, pos + 1, 2, _currEpo.rnxSat[iSat].satNum);
495
496	pos += 3;
497	}
498
499	// Read Observation Records
500	// ------------------------
501	for (int iSat = 0; iSat < numSat; iSat++) {
502	line = _stream->readLine();
503	pos = 0;
504	for (int iType = 0; iType < _header.nTypes(_currEpo.rnxSat[iSat].satSys); iType++) {
505	if (iType > 0 && iType % 5 == 0) {
506	line = _stream->readLine();
507	pos = 0;
508	}
509	double obsValue = 0.0;
510	int lli = 0;
511	int snr = 0;
512	readDbl(line, pos, 14, obsValue);
513	readInt(line, pos + 14, 1, lli);
514	readInt(line, pos + 15, 1, snr);
515
516	if (_flgPowerFail) {
517	lli \|= 1;
518	}
519
520	_currEpo.rnxSat[iSat].obs.push_back(obsValue);
521	_currEpo.rnxSat[iSat].lli.push_back(lli);
522	_currEpo.rnxSat[iSat].snr.push_back(snr);
523
524	pos += 16;
525	}
526	}
527
528	_flgPowerFail = false;
529
530	return &_currEpo;
531	}
532
533	return 0;
534	}
535
536	// Set Header Information
537	////////////////////////////////////////////////////////////////////////////
538	void t_rnxObsFile::setHeader(const t_rnxObsHeader& header, double version) {
539
540	if (int(header._version) == int(version)) {
541	_trafo = trafoNone;
542	_header._version = header._version;
543	}
544	else if (version >= 3.0) {
545	_trafo = trafo2to3;
546	_header._version = 3.01;
547	}
548	else {
549	_trafo = trafo3to2;
550	_header._version = 2.11;
551	}
552
553	_header._interval = header._interval;
554	_header._antennaNumber = header._antennaNumber;
555	_header._antennaName = header._antennaName;
556	_header._markerName = header._markerName;
557	_header._markerNumber = header._markerNumber;
558	_header._antNEU = header._antNEU;
559	_header._antXYZ = header._antXYZ;
560	_header._antBSG = header._antBSG;
561	_header._xyz = header._xyz;
562	_header._observer = header._observer;
563	_header._agency = header._agency;
564	_header._receiverNumber = header._receiverNumber;
565	_header._receiverType = header._receiverType;
566	_header._receiverVersion = header._receiverVersion;
567
568	for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
569	_header._wlFactorsL1[iPrn] = header._wlFactorsL1[iPrn];
570	_header._wlFactorsL2[iPrn] = header._wlFactorsL2[iPrn];
571	}
572
573	_header._startTime = header._startTime;
574
575	static const string systems = "GRES";
576
577	// Copy Observation Types
578	// ----------------------
579	if (_trafo == trafoNone) {
580	for (unsigned ii = 0; ii < header._obsTypesV2.size(); ii++) {
581	_header._obsTypesV2.push_back(header._obsTypesV2[ii]);
582	}
583	map<char, vector<QString> >::const_iterator it;
584	for (it = header._obsTypesV3.begin(); it != header._obsTypesV3.end(); it++) {
585	char sys = it->first;
586	const vector<QString>& typesV3 = it->second;
587	for (unsigned ii = 0; ii < typesV3.size(); ii++) {
588	_header._obsTypesV3[sys].push_back(typesV3[ii]);
589	}
590	}
591	}
592
593	// Translate Observation Types v2 --> v3
594	// -------------------------------------
595	else if (_trafo == trafo2to3) {
596	for (unsigned i2 = 0; i2 < header._obsTypesV2.size(); i2++) {
597	const QString& typeV2 = header._obsTypesV2[i2];
598	for (unsigned iSys = 0; iSys < systems.length(); iSys++) {
599	char sys = systems[iSys];
600	QString typeV3 = type2to3(sys, typeV2);
601	if (!typeV3.isEmpty()) {
602	_header._obsTypesV3[sys].push_back(typeV3);
603	int i3 = _header._obsTypesV3[sys].size() - 1;
604	_indexMap3to2[sys][i3] = i2;
605	}
606	}
607	}
608	}
609
610	// Translate Observation Types v3 --> v2
611	// -------------------------------------
612	else if (_trafo == trafo3to2) {
613	for (unsigned iSys = 0; iSys < systems.length(); iSys++) {
614	char sys = systems[iSys];
615	map<char, vector<QString> >::const_iterator it = header._obsTypesV3.find(sys);
616	if (it != header._obsTypesV3.end()) {
617	const vector<QString>& typesV3 = it->second;
618	for (unsigned i3 = 0; i3 < typesV3.size(); i3++) {
619	const QString& typeV3 = typesV3[i3];
620	QString typeV2 = type3to2(typeV3);
621	if (!typeV2.isEmpty()) {
622	bool found = false;
623	for (unsigned i2 = 0; i2 < _header._obsTypesV2.size(); i2++) {
624	if (_header._obsTypesV2[i2] == typeV2) {
625	found = true;
626	if (_indexMap2to3[sys].find(i2) == _indexMap2to3[sys].end()) {
627	_indexMap2to3[sys][i2] = i3;
628	}
629	break;
630	}
631	}
632	if (!found) {
633	_header._obsTypesV2.push_back(typeV2);
634	int i2 = _header._obsTypesV2.size() - 1;
635	_indexMap2to3[sys][i2] = i3;
636	}
637	}
638	}
639	}
640	}
641	}
642	}
643
644	// Write Header
645	////////////////////////////////////////////////////////////////////////////
646	void t_rnxObsFile::writeHeader() {
647
648	bncApp* app = (bncApp*) qApp;
649
650	*_stream << QString("%1 Observation data Mixed")
651	.arg(_header._version, 9, 'f', 2)
652	.leftJustified(60)
653	<< "RINEX VERSION / TYPE\n";
654
655	*_stream << QString("%1%2%3")
656	.arg(app->pgmName(), -20)
657	.arg(app->userName(), -20)
658	.arg(currentDateAndTimeGPS().date().toString("dd-MMM-yyyy"), -20)
659	.leftJustified(60)
660	<< "PGM / RUN BY / DATE\n";
661
662	*_stream << QString("%1")
663	.arg(_header._markerName, -60)
664	.leftJustified(60)
665	<< "MARKER NAME\n";
666
667	if (!_header._markerNumber.isEmpty()) {
668	*_stream << QString("%1")
669	.arg(_header._markerNumber, -20)
670	.leftJustified(60)
671	<< "MARKER NUMBER\n";
672	}
673
674	*_stream << QString("%1%2")
675	.arg(_header._observer, -20)
676	.arg(_header._agency, -40)
677	.leftJustified(60)
678	<< "OBSERVER / AGENCY\n";
679
680	*_stream << QString("%1%2%3")
681	.arg(_header._receiverNumber, -20)
682	.arg(_header._receiverType, -20)
683	.arg(_header._receiverVersion, -20)
684	.leftJustified(60)
685	<< "REC # / TYPE / VERS\n";
686
687	*_stream << QString("%1%2")
688	.arg(_header._antennaNumber, -20)
689	.arg(_header._antennaName, -20)
690	.leftJustified(60)
691	<< "ANT # / TYPE\n";
692
693	*_stream << QString("%1%2%3")
694	.arg(_header._xyz(1), 14, 'f', 4)
695	.arg(_header._xyz(2), 14, 'f', 4)
696	.arg(_header._xyz(3), 14, 'f', 4)
697	.leftJustified(60)
698	<< "APPROX POSITION XYZ\n";
699
700	*_stream << QString("%1%2%3")
701	.arg(_header._antNEU(3), 14, 'f', 4)
702	.arg(_header._antNEU(2), 14, 'f', 4)
703	.arg(_header._antNEU(1), 14, 'f', 4)
704	.leftJustified(60)
705	<< "ANTENNA: DELTA H/E/N\n";
706
707	if (_header._version < 3.0) {
708	int defaultWlFact1 = _header._wlFactorsL1[1];
709	int defaultWlFact2 = _header._wlFactorsL2[1]; // TODO check all prns
710	*_stream << QString("%1%2")
711	.arg(defaultWlFact1, 6)
712	.arg(defaultWlFact2, 6)
713	.leftJustified(60)
714	<< "WAVELENGTH FACT L1/2\n";
715	}
716
717	if (_header._version < 3.0) {
718	QString hlp;
719	QTextStream(&hlp) << QString("%1").arg(_header._obsTypesV2.size(), 6);
720	for (unsigned ii = 0; ii < _header._obsTypesV2.size(); ii++) {
721	QTextStream(&hlp) << QString("%1").arg(_header._obsTypesV2[ii], 6);
722	if (ii > 0 && (ii % 8 == 0 \|\| ii == _header._obsTypesV2.size()-1)) {
723	*_stream << hlp.leftJustified(60) << "# / TYPES OF OBSERV\n";
724	hlp = QString().leftJustified(6);
725	}
726	}
727	}
728	else {
729	map<char, vector<QString> >::const_iterator it;
730	for (it = _header._obsTypesV3.begin(); it != _header._obsTypesV3.end(); it++) {
731	char sys = it->first;
732	const vector<QString>& types = it->second;
733	QString hlp;
734	QTextStream(&hlp) << QString("%1 %2").arg(sys).arg(types.size(), 3);
735	for (unsigned ii = 0; ii < types.size(); ii++) {
736	QTextStream(&hlp) << QString(" %1").arg(types[ii], -3);
737	if (ii > 0 && (ii % 12 == 0 \|\| ii == types.size()-1)) {
738	*_stream << hlp.leftJustified(60) << "SYS / # / OBS TYPES\n";
739	hlp = QString().leftJustified(6);
740	}
741	}
742	}
743	}
744
745	*_stream << QString("%1")
746	.arg(_header._interval, 10, 'f', 3)
747	.leftJustified(60)
748	<< "INTERVAL\n";
749
750	unsigned year, month, day, hour, min;
751	double sec;
752	_header._startTime.civil_date(year, month, day);
753	_header._startTime.civil_time(hour, min, sec);
754	*_stream << QString("%1%2%3%4%5%6%7")
755	.arg(year, 6)
756	.arg(month, 6)
757	.arg(day, 6)
758	.arg(hour, 6)
759	.arg(min, 6)
760	.arg(sec, 13, 'f', 7)
761	.arg("GPS", 8)
762	.leftJustified(60)
763	<< "TIME OF FIRST OBS\n";
764
765	*_stream << QString()
766	.leftJustified(60)
767	<< "END OF HEADER\n";
768	}
769
770	// Write Data Epoch
771	////////////////////////////////////////////////////////////////////////////
772	void t_rnxObsFile::writeEpoch(const t_rnxEpo* epo) {
773	if (version() < 3.0) {
774	return writeEpochV2(epo);
775	}
776	else {
777	return writeEpochV3(epo);
778	}
779	}
780
781	// Write Data Epoch (RINEX Version 2)
782	////////////////////////////////////////////////////////////////////////////
783	void t_rnxObsFile::writeEpochV2(const t_rnxEpo* epo) {
784
785	unsigned year, month, day, hour, min;
786	double sec;
787	epo->tt.civil_date(year, month, day);
788	epo->tt.civil_time(hour, min, sec);
789
790	QString dateStr;
791	QTextStream(&dateStr) << QString(" %1 %2 %3 %4 %5%6")
792	.arg(int(fmod(year, 100)), 2, 10, QChar('0'))
793	.arg(month, 2, 10, QChar('0'))
794	.arg(day, 2, 10, QChar('0'))
795	.arg(hour, 2, 10, QChar('0'))
796	.arg(min, 2, 10, QChar('0'))
797	.arg(sec, 11, 'f', 7);
798
799	int flag = 0;
800	*_stream << dateStr
801	<< QString("%1%2").arg(flag, 3).arg(epo->rnxSat.size(), 3);
802	for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
803	const t_rnxSat& rnxSat = epo->rnxSat[iSat];
804	if (iSat > 0 && iSat % 12 == 0) {
805	*_stream << endl << QString().leftJustified(32);
806	}
807	*_stream << rnxSat.satSys << QString("%1").arg(rnxSat.satNum, 2);
808	}
809	*_stream << endl;
810	for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
811
812	const t_rnxSat& rnxSat = epo->rnxSat[iSat];
813	char sys = rnxSat.satSys;
814
815	for (int iTypeV2 = 0; iTypeV2 < nTypes(sys); iTypeV2++) {
816
817	if (iTypeV2 > 0 && iTypeV2 % 5 == 0) {
818	*_stream << endl;
819	}
820
821	int iType = -1;
822	if (_trafo == trafoNone) {
823	iType = iTypeV2;
824	}
825	else {
826	if (_indexMap2to3[sys].find(iTypeV2) != _indexMap2to3[sys].end()) {
827	iType = _indexMap2to3[sys][iTypeV2];
828	}
829	}
830
831	if (iType == -1 \|\| rnxSat.obs[iType] == 0.0) {
832	*_stream << QString().leftJustified(16);
833	}
834	else {
835	*_stream << QString("%1").arg(rnxSat.obs[iType], 14, 'f', 3);
836	if (rnxSat.lli[iType] != 0.0) {
837	*_stream << QString("%1").arg(rnxSat.lli[iType],1);
838	}
839	else {
840	*_stream << ' ';
841	}
842	if (rnxSat.snr[iType] != 0.0) {
843	*_stream << QString("%1").arg(rnxSat.snr[iType],1);
844	}
845	else {
846	*_stream << ' ';
847	}
848	}
849	}
850	*_stream << endl;
851	}
852	}
853
854	// Write Data Epoch (RINEX Version 3)
855	////////////////////////////////////////////////////////////////////////////
856	void t_rnxObsFile::writeEpochV3(const t_rnxEpo* epo) {
857
858	unsigned year, month, day, hour, min;
859	double sec;
860	epo->tt.civil_date(year, month, day);
861	epo->tt.civil_time(hour, min, sec);
862
863	QString dateStr;
864	QTextStream(&dateStr) << QString("> %1 %2 %3 %4 %5%6")
865	.arg(year, 4)
866	.arg(month, 2, 10, QChar('0'))
867	.arg(day, 2, 10, QChar('0'))
868	.arg(hour, 2, 10, QChar('0'))
869	.arg(min, 2, 10, QChar('0'))
870	.arg(sec, 11, 'f', 7);
871
872	int flag = 0;
873	*_stream << dateStr
874	<< QString("%1%2\n").arg(flag, 3).arg(epo->rnxSat.size(), 3);
875
876	for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
877	const t_rnxSat& rnxSat = epo->rnxSat[iSat];
878	char sys = rnxSat.satSys;
879	*_stream << sys
880	<< QString("%1").arg(rnxSat.satNum, 2, 10, QChar('0'));
881
882	for (int iTypeV3 = 0; iTypeV3 < nTypes(sys); iTypeV3++) {
883
884	int iType = -1;
885	if (_trafo == trafoNone) {
886	iType = iTypeV3;
887	}
888	else {
889	if (_indexMap3to2[sys].find(iTypeV3) != _indexMap3to2[sys].end()) {
890	iType = _indexMap3to2[sys][iTypeV3];
891	}
892	}
893
894	if (iType == -1 \|\| rnxSat.obs[iType] == 0.0) {
895	*_stream << QString().leftJustified(16);
896	}
897	else {
898	*_stream << QString("%1").arg(rnxSat.obs[iType], 14, 'f', 3);
899	if (rnxSat.lli[iType] != 0.0) {
900	*_stream << QString("%1").arg(rnxSat.lli[iType],1);
901	}
902	else {
903	*_stream << ' ';
904	}
905	if (rnxSat.snr[iType] != 0.0) {
906	*_stream << QString("%1").arg(rnxSat.snr[iType],1);
907	}
908	else {
909	*_stream << ' ';
910	}
911	}
912	}
913	*_stream << endl;
914	}
915	}
916
917	// Translate Observation Type v2 --> v3
918	////////////////////////////////////////////////////////////////////////////
919	QString t_rnxObsFile::type2to3(char sys, const QString& typeV2) {
920
921	if (sys == 'G') {
922	if (typeV2 == "C1") return "C1C";
923	if (typeV2 == "C2") return "C2C";
924	if (typeV2 == "C5") return "C5C";
925	if (typeV2 == "P1") return "C1P";
926	if (typeV2 == "P2") return "C2P";
927	if (typeV2 == "L1") return "L1";
928	if (typeV2 == "L2") return "L2";
929	if (typeV2 == "L5") return "L5";
930	if (typeV2 == "D1") return "D1";
931	if (typeV2 == "D2") return "D2";
932	if (typeV2 == "D5") return "D5";
933	if (typeV2 == "S1") return "S1";
934	if (typeV2 == "S2") return "S2";
935	if (typeV2 == "S5") return "S5";
936	}
937
938	else if (sys == 'R') {
939	if (typeV2 == "C1") return "C1C";
940	if (typeV2 == "C2") return "C2C";
941	if (typeV2 == "P1") return "C1P";
942	if (typeV2 == "P2") return "C2P";
943	if (typeV2 == "L1") return "L1";
944	if (typeV2 == "L2") return "L2";
945	if (typeV2 == "D1") return "D1";
946	if (typeV2 == "D2") return "D2";
947	if (typeV2 == "S1") return "S1";
948	if (typeV2 == "S2") return "S2";
949	}
950
951	else if (sys == 'E') {
952	if (typeV2 == "C1") return "C1";
953	if (typeV2 == "C5") return "C5";
954	if (typeV2 == "C6") return "C6";
955	if (typeV2 == "C7") return "C7";
956	if (typeV2 == "C8") return "C8";
957	if (typeV2 == "L1") return "L1";
958	if (typeV2 == "L5") return "L5";
959	if (typeV2 == "L6") return "L6";
960	if (typeV2 == "L7") return "L7";
961	if (typeV2 == "L8") return "L8";
962	if (typeV2 == "D1") return "D1";
963	if (typeV2 == "D5") return "D5";
964	if (typeV2 == "D6") return "D6";
965	if (typeV2 == "D7") return "D7";
966	if (typeV2 == "D8") return "D8";
967	if (typeV2 == "S1") return "S1";
968	if (typeV2 == "S5") return "S5";
969	if (typeV2 == "S6") return "S6";
970	if (typeV2 == "S7") return "S7";
971	if (typeV2 == "S8") return "S8";
972	}
973
974	else if (sys == 'S') {
975	if (typeV2 == "C1") return "C1C";
976	if (typeV2 == "C5") return "C5C";
977	if (typeV2 == "L1") return "L1";
978	if (typeV2 == "L5") return "L5";
979	if (typeV2 == "D1") return "D1";
980	if (typeV2 == "D5") return "D5";
981	if (typeV2 == "S1") return "S1";
982	if (typeV2 == "S5") return "S5";
983	}
984
985	return "";
986	}
987
988	// Translate Observation Type v3 --> v2
989	////////////////////////////////////////////////////////////////////////////
990	QString t_rnxObsFile::type3to2(const QString& typeV3) {
991	if (typeV3 == "C1P") {
992	return "P1";
993	}
994	else if (typeV3 == "C2P") {
995	return "P2";
996	}
997	else {
998	return typeV3.left(2);
999	}
1000
1001	return "";
1002	}

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