// 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: t_rnxObsFile
*
* Purpose: Reads RINEX Observation File
*
* Author: L. Mervart
*
* Created: 24-Jan-2012
*
* Changes:
*
* -----------------------------------------------------------------------*/
#include <iostream>
#include <iomanip>
#include <sstream>
#include "rnxobsfile.h"
#include "bncutils.h"
#include "bncapp.h"
using namespace std;
const QString t_rnxObsFile::t_rnxObsHeader::_emptyStr;
// Constructor
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxObsHeader::t_rnxObsHeader() {
_antNEU.ReSize(3); _antNEU = 0.0;
_antXYZ.ReSize(3); _antXYZ = 0.0;
_antBSG.ReSize(3); _antBSG = 0.0;
_xyz.ReSize(3); _xyz = 0.0;
_version = 0.0;
_interval = 0.0;
for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
_wlFactorsL1[iPrn] = 1;
_wlFactorsL2[iPrn] = 1;
}
}
// Destructor
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxObsHeader::~t_rnxObsHeader() {
}
// Read Header
////////////////////////////////////////////////////////////////////////////
t_irc t_rnxObsFile::t_rnxObsHeader::read(QTextStream* stream, int maxLines) {
int numLines = 0;
while ( stream->status() == QTextStream::Ok && !stream->atEnd() ) {
QString line = stream->readLine(); ++ numLines;
if (line.isEmpty()) {
continue;
}
if (line.indexOf("END OF FILE") != -1) {
break;
}
QString value = line.mid(0,60).trimmed();
QString key = line.mid(60).trimmed();
if (key == "END OF HEADER") {
break;
}
else if (key == "RINEX VERSION / TYPE") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _version;
}
else if (key == "MARKER NAME") {
_markerName = value;
}
else if (key == "MARKER NUMBER") {
_markerNumber = line.mid(0,20).trimmed();
}
else if (key == "ANT # / TYPE") {
_antennaNumber = line.mid( 0,20).trimmed();
_antennaName = line.mid(20,20).trimmed();
}
else if (key == "OBSERVER / AGENCY") {
_observer = line.mid( 0,20).trimmed();
_agency = line.mid(20,40).trimmed();
}
else if (key == "REC # / TYPE / VERS") {
_receiverNumber = line.mid( 0,20).trimmed();
_receiverType = line.mid(20,20).trimmed();
_receiverVersion = line.mid(40,20).trimmed();
}
else if (key == "INTERVAL") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _interval;
}
else if (key == "WAVELENGTH FACT L1/2") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
int wlFactL1 = 0;
int wlFactL2 = 0;
int numSat = 0;
in >> wlFactL1 >> wlFactL2 >> numSat;
if (numSat == 0) {
for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
_wlFactorsL1[iPrn] = wlFactL1;
_wlFactorsL2[iPrn] = wlFactL2;
}
}
else {
for (int ii = 0; ii < numSat; ii++) {
QString prn; in >> prn;
if (prn[0] == 'G') {
int iPrn;
readInt(prn, 1, 2, iPrn);
_wlFactorsL1[iPrn] = wlFactL1;
_wlFactorsL2[iPrn] = wlFactL2;
}
}
}
}
else if (key == "APPROX POSITION XYZ") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _xyz[0] >> _xyz[1] >> _xyz[2];
}
else if (key == "ANTENNA: DELTA H/E/N") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _antNEU[2] >> _antNEU[1] >> _antNEU[0];
}
else if (key == "ANTENNA: DELTA X/Y/Z") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _antXYZ[0] >> _antXYZ[1] >> _antXYZ[2];
}
else if (key == "ANTENNA: B.SIGHT XYZ") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
in >> _antBSG[0] >> _antBSG[1] >> _antBSG[2];
}
else if (key == "# / TYPES OF OBSERV") {
QTextStream* in = new QTextStream(value.toAscii(), QIODevice::ReadOnly);
int nTypes;
*in >> nTypes;
_obsTypesV2.clear();
for (int ii = 0; ii < nTypes; ii++) {
if (ii > 0 && ii % 9 == 0) {
line = stream->readLine(); ++numLines;
delete in;
in = new QTextStream(line.left(60).toAscii(), QIODevice::ReadOnly);
}
QString hlp;
*in >> hlp;
_obsTypesV2.append(hlp);
}
}
else if (key == "SYS / # / OBS TYPES") {
QTextStream* in = new QTextStream(value.toAscii(), QIODevice::ReadOnly);
char sys;
int nTypes;
*in >> sys >> nTypes;
_obsTypesV3[sys].clear();
for (int ii = 0; ii < nTypes; ii++) {
if (ii > 0 && ii % 13 == 0) {
line = stream->readLine(); ++numLines;
delete in;
in = new QTextStream(line.toAscii(), QIODevice::ReadOnly);
}
QString hlp;
*in >> hlp;
_obsTypesV3[sys].push_back(hlp);
}
delete in;
}
else if (key == "TIME OF FIRST OBS") {
QTextStream in(value.toAscii(), QIODevice::ReadOnly);
int year, month, day, hour, min;
double sec;
in >> year >> month >> day >> hour >> min >> sec;
_startTime.set(year, month, day, hour, min, sec);
}
if (maxLines > 0 && numLines == maxLines) {
break;
}
}
return success;
}
// Number of Observation Types (satellite-system specific)
////////////////////////////////////////////////////////////////////////////
int t_rnxObsFile::t_rnxObsHeader::nTypes(char sys) const {
if (_version < 3.0) {
return _obsTypesV2.size();
}
else {
if (_obsTypesV3.contains(sys)) {
return _obsTypesV3[sys].size();
}
else {
return 0;
}
}
}
// Observation Type (satellite-system specific)
////////////////////////////////////////////////////////////////////////////
const QString& t_rnxObsFile::t_rnxObsHeader::obsType(char sys, int index) const {
if (_version < 3.0) {
return _obsTypesV2.at(index);
}
else {
if (_obsTypesV3.contains(sys)) {
return _obsTypesV3[sys].at(index);
}
else {
return _emptyStr;
}
}
}
// Constructor
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxObsFile(const QString& fileName, e_inpOut inpOut) {
_inpOut = inpOut;
_stream = 0;
_flgPowerFail = false;
_trafo = trafoNone;
if (_inpOut == input) {
openRead(fileName);
}
else {
openWrite(fileName);
}
}
// Open for input
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::openRead(const QString& fileName) {
_fileName = fileName; expandEnvVar(_fileName);
_file = new QFile(_fileName);
_file->open(QIODevice::ReadOnly | QIODevice::Text);
_stream = new QTextStream();
_stream->setDevice(_file);
_header.read(_stream);
// Guess Observation Interval
// --------------------------
if (_header._interval == 0.0) {
bncTime ttPrev;
for (int iEpo = 0; iEpo < 10; iEpo++) {
const t_rnxEpo* rnxEpo = nextEpoch();
if (!rnxEpo) {
throw QString("t_rnxObsFile: not enough epochs");
}
if (iEpo > 0) {
double dt = rnxEpo->tt - ttPrev;
if (_header._interval == 0.0 || dt < _header._interval) {
_header._interval = dt;
}
}
ttPrev = rnxEpo->tt;
}
_stream->seek(0);
_header.read(_stream);
}
// Time of first observation
// -------------------------
if (!_header._startTime.valid()) {
const t_rnxEpo* rnxEpo = nextEpoch();
if (!rnxEpo) {
throw QString("t_rnxObsFile: not enough epochs");
}
_header._startTime = rnxEpo->tt;
_stream->seek(0);
_header.read(_stream);
}
}
// Open for output
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::openWrite(const QString& fileName) {
_fileName = fileName; expandEnvVar(_fileName);
_file = new QFile(_fileName);
_file->open(QIODevice::WriteOnly | QIODevice::Text);
_stream = new QTextStream();
_stream->setDevice(_file);
}
// Destructor
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::~t_rnxObsFile() {
close();
}
// Close
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::close() {
delete _stream; _stream = 0;
delete _file; _file = 0;
}
// Handle Special Epoch Flag
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::handleEpochFlag(int flag, const QString& line) {
// Power Failure
// -------------
if (flag == 1) {
_flgPowerFail = true;
}
// Start moving antenna
// --------------------
else if (flag == 2) {
// no action
}
// Re-Read Header
// --------------
else if (flag == 3 || flag == 4) {
int numLines = 0;
if (version() < 3.0) {
readInt(line, 29, 3, numLines);
}
else {
readInt(line, 32, 3, numLines);
}
_header.read(_stream, numLines);
}
// Unhandled Flag
// --------------
else {
throw QString("t_rnxObsFile: unhandled flag\n" + line);
}
}
// Retrieve single Epoch
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpoch() {
_currEpo.clear();
if (version() < 3.0) {
return nextEpochV2();
}
else {
return nextEpochV3();
}
}
// Retrieve single Epoch (RINEX Version 3)
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpochV3() {
while ( _stream->status() == QTextStream::Ok && !_stream->atEnd() ) {
QString line = _stream->readLine();
if (line.isEmpty()) {
continue;
}
int flag = 0;
readInt(line, 31, 1, flag);
if (flag > 0) {
handleEpochFlag(flag, line);
continue;
}
QTextStream in(line.mid(1).toAscii(), QIODevice::ReadOnly);
// Epoch Time
// ----------
int year, month, day, hour, min;
double sec;
in >> year >> month >> day >> hour >> min >> sec;
_currEpo.tt.set(year, month, day, hour, min, sec);
// Number of Satellites
// --------------------
int numSat;
readInt(line, 32, 3, numSat);
_currEpo.rnxSat.resize(numSat);
// Observations
// ------------
for (int iSat = 0; iSat < numSat; iSat++) {
line = _stream->readLine();
_currEpo.rnxSat[iSat].satSys = line.toAscii()[0];
readInt(line, 1, 2, _currEpo.rnxSat[iSat].satNum);
char sys = line.toAscii()[0];
for (int iType = 0; iType < _header.nTypes(sys); iType++) {
int pos = 3 + 16*iType;
double obsValue = 0.0;
int lli = 0;
int snr = 0;
readDbl(line, pos, 14, obsValue);
readInt(line, pos + 14, 1, lli);
readInt(line, pos + 15, 1, snr);
if (_flgPowerFail) {
lli |= 1;
}
_currEpo.rnxSat[iSat].obs.push_back(obsValue);
_currEpo.rnxSat[iSat].lli.push_back(lli);
_currEpo.rnxSat[iSat].snr.push_back(snr);
}
}
_flgPowerFail = false;
return &_currEpo;
}
return 0;
}
// Retrieve single Epoch (RINEX Version 2)
////////////////////////////////////////////////////////////////////////////
t_rnxObsFile::t_rnxEpo* t_rnxObsFile::nextEpochV2() {
while ( _stream->status() == QTextStream::Ok && !_stream->atEnd() ) {
QString line = _stream->readLine();
if (line.isEmpty()) {
continue;
}
int flag = 0;
readInt(line, 28, 1, flag);
if (flag > 0) {
handleEpochFlag(flag, line);
continue;
}
QTextStream in(line.toAscii(), QIODevice::ReadOnly);
// Epoch Time
// ----------
int year, month, day, hour, min;
double sec;
in >> year >> month >> day >> hour >> min >> sec;
if (year < 80) {
year += 2000;
}
else if (year < 100) {
year += 1900;
}
_currEpo.tt.set(year, month, day, hour, min, sec);
// Number of Satellites
// --------------------
int numSat;
readInt(line, 29, 3, numSat);
_currEpo.rnxSat.resize(numSat);
// Read Satellite Numbers
// ----------------------
int pos = 32;
for (int iSat = 0; iSat < numSat; iSat++) {
if (iSat > 0 && iSat % 12 == 0) {
line = _stream->readLine();
pos = 32;
}
_currEpo.rnxSat[iSat].satSys = line.toAscii()[pos];
readInt(line, pos + 1, 2, _currEpo.rnxSat[iSat].satNum);
pos += 3;
}
// Read Observation Records
// ------------------------
for (int iSat = 0; iSat < numSat; iSat++) {
line = _stream->readLine();
pos = 0;
for (int iType = 0; iType < _header.nTypes(_currEpo.rnxSat[iSat].satSys); iType++) {
if (iType > 0 && iType % 5 == 0) {
line = _stream->readLine();
pos = 0;
}
double obsValue = 0.0;
int lli = 0;
int snr = 0;
readDbl(line, pos, 14, obsValue);
readInt(line, pos + 14, 1, lli);
readInt(line, pos + 15, 1, snr);
if (_flgPowerFail) {
lli |= 1;
}
_currEpo.rnxSat[iSat].obs.push_back(obsValue);
_currEpo.rnxSat[iSat].lli.push_back(lli);
_currEpo.rnxSat[iSat].snr.push_back(snr);
pos += 16;
}
}
_flgPowerFail = false;
return &_currEpo;
}
return 0;
}
// Set Header Information
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::setHeader(const t_rnxObsHeader& header, double version) {
if (int(header._version) == int(version)) {
_trafo = trafoNone;
_header._version = header._version;
}
else if (version >= 3.0) {
_trafo = trafo2to3;
_header._version = 3.01;
}
else {
_trafo = trafo3to2;
_header._version = 2.11;
}
_header._interval = header._interval;
_header._antennaNumber = header._antennaNumber;
_header._antennaName = header._antennaName;
_header._markerName = header._markerName;
_header._markerNumber = header._markerNumber;
_header._antNEU = header._antNEU;
_header._antXYZ = header._antXYZ;
_header._antBSG = header._antBSG;
_header._xyz = header._xyz;
_header._observer = header._observer;
_header._agency = header._agency;
_header._receiverNumber = header._receiverNumber;
_header._receiverType = header._receiverType;
_header._receiverVersion = header._receiverVersion;
for (unsigned iPrn = 1; iPrn <= MAXPRN_GPS; iPrn++) {
_header._wlFactorsL1[iPrn] = header._wlFactorsL1[iPrn];
_header._wlFactorsL2[iPrn] = header._wlFactorsL2[iPrn];
}
_header._startTime = header._startTime;
static const string systems = "GRES";
_header._obsTypesV2.clear();
_header._obsTypesV3.clear();
// Copy Observation Types
// ----------------------
if (_trafo == trafoNone) {
for (int ii = 0; ii < header._obsTypesV2.size(); ii++) {
_header._obsTypesV2.append(header._obsTypesV2[ii]);
}
QMapIterator<char, QVector<QString> > it(header._obsTypesV3);
while (it.hasNext()) {
it.next();
char sys = it.key();
const QVector<QString>& typesV3 = it.value();
for (int ii = 0; ii < typesV3.size(); ii++) {
_header._obsTypesV3[sys].push_back(typesV3[ii]);
}
}
}
// Translate Observation Types v2 --> v3
// -------------------------------------
else if (_trafo == trafo2to3) {
for (int i2 = 0; i2 < header._obsTypesV2.size(); i2++) {
const QString& typeV2 = header._obsTypesV2[i2];
for (unsigned iSys = 0; iSys < systems.length(); iSys++) {
char sys = systems[iSys];
QString typeV3 = type2to3(sys, typeV2);
if (!typeV3.isEmpty()) {
_header._obsTypesV3[sys].push_back(typeV3);
int i3 = _header._obsTypesV3[sys].size() - 1;
_indexMap3to2[sys][i3] = i2;
}
}
}
}
// Translate Observation Types v3 --> v2
// -------------------------------------
else if (_trafo == trafo3to2) {
for (unsigned iSys = 0; iSys < systems.length(); iSys++) {
char sys = systems[iSys];
if (header._obsTypesV3.contains(sys)) {
const QVector<QString>& typesV3 = header._obsTypesV3[sys];
for (int i3 = 0; i3 < typesV3.size(); i3++) {
const QString& typeV3 = typesV3[i3];
QString typeV2 = type3to2(typeV3);
if (!typeV2.isEmpty()) {
bool found = false;
for (int i2 = 0; i2 < _header._obsTypesV2.size(); i2++) {
if (_header._obsTypesV2[i2] == typeV2) {
found = true;
if (_indexMap2to3[sys].find(i2) == _indexMap2to3[sys].end()) {
_indexMap2to3[sys][i2] = i3;
}
break;
}
}
if (!found) {
_header._obsTypesV2.append(typeV2);
int i2 = _header._obsTypesV2.size() - 1;
_indexMap2to3[sys][i2] = i3;
}
}
}
}
}
}
}
// Write Header
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::writeHeader(const QMap<QString, QString>* txtMap) {
bncApp* app = (bncApp*) qApp;
QString runBy = app->userName();
QStringList comments;
if (txtMap) {
QMapIterator<QString, QString> it(*txtMap);
while (it.hasNext()) {
it.next();
if (it.key() == "RUN BY") {
runBy = it.value();
}
else if (it.key() == "COMMENT") {
comments = it.value().split("\\n", QString::SkipEmptyParts);
}
}
}
*_stream << QString("%1 Observation data Mixed")
.arg(_header._version, 9, 'f', 2)
.leftJustified(60)
<< "RINEX VERSION / TYPE\n";
const QString fmtDate = (version() < 3.0) ? "dd-MMM-yy hh:mm"
: "yyyyMMdd hhmmss UTC";
*_stream << QString("%1%2%3")
.arg(app->pgmName(), -20)
.arg(runBy.trimmed().left(20), -20)
.arg(QDateTime::currentDateTime().toUTC().toString(fmtDate), -20)
.leftJustified(60)
<< "PGM / RUN BY / DATE\n";
QStringListIterator itCmnt(comments);
while (itCmnt.hasNext()) {
*_stream << itCmnt.next().trimmed().left(60).leftJustified(60) << "COMMENT\n";
}
*_stream << QString("%1")
.arg(_header._markerName, -60)
.leftJustified(60)
<< "MARKER NAME\n";
if (!_header._markerNumber.isEmpty()) {
*_stream << QString("%1")
.arg(_header._markerNumber, -20)
.leftJustified(60)
<< "MARKER NUMBER\n";
}
*_stream << QString("%1%2")
.arg(_header._observer, -20)
.arg(_header._agency, -40)
.leftJustified(60)
<< "OBSERVER / AGENCY\n";
*_stream << QString("%1%2%3")
.arg(_header._receiverNumber, -20)
.arg(_header._receiverType, -20)
.arg(_header._receiverVersion, -20)
.leftJustified(60)
<< "REC # / TYPE / VERS\n";
*_stream << QString("%1%2")
.arg(_header._antennaNumber, -20)
.arg(_header._antennaName, -20)
.leftJustified(60)
<< "ANT # / TYPE\n";
*_stream << QString("%1%2%3")
.arg(_header._xyz(1), 14, 'f', 4)
.arg(_header._xyz(2), 14, 'f', 4)
.arg(_header._xyz(3), 14, 'f', 4)
.leftJustified(60)
<< "APPROX POSITION XYZ\n";
*_stream << QString("%1%2%3")
.arg(_header._antNEU(3), 14, 'f', 4)
.arg(_header._antNEU(2), 14, 'f', 4)
.arg(_header._antNEU(1), 14, 'f', 4)
.leftJustified(60)
<< "ANTENNA: DELTA H/E/N\n";
if (_header._version < 3.0) {
int defaultWlFact1 = _header._wlFactorsL1[1];
int defaultWlFact2 = _header._wlFactorsL2[1]; // TODO check all prns
*_stream << QString("%1%2")
.arg(defaultWlFact1, 6)
.arg(defaultWlFact2, 6)
.leftJustified(60)
<< "WAVELENGTH FACT L1/2\n";
}
*_stream << obsTypesStrings().join("");
*_stream << QString("%1")
.arg(_header._interval, 10, 'f', 3)
.leftJustified(60)
<< "INTERVAL\n";
unsigned year, month, day, hour, min;
double sec;
_header._startTime.civil_date(year, month, day);
_header._startTime.civil_time(hour, min, sec);
*_stream << QString("%1%2%3%4%5%6%7")
.arg(year, 6)
.arg(month, 6)
.arg(day, 6)
.arg(hour, 6)
.arg(min, 6)
.arg(sec, 13, 'f', 7)
.arg("GPS", 8)
.leftJustified(60)
<< "TIME OF FIRST OBS\n";
*_stream << QString()
.leftJustified(60)
<< "END OF HEADER\n";
}
// Write Observation Types
////////////////////////////////////////////////////////////////////////////
QStringList t_rnxObsFile::obsTypesStrings() {
QStringList strList;
if (_header._version < 3.0) {
QString hlp;
QTextStream(&hlp) << QString("%1").arg(_header._obsTypesV2.size(), 6);
for (int ii = 0; ii < _header._obsTypesV2.size(); ii++) {
QTextStream(&hlp) << QString("%1").arg(_header._obsTypesV2[ii], 6);
if ((ii+1) % 9 == 0 || ii == _header._obsTypesV2.size()-1) {
strList.append(hlp.leftJustified(60) + "# / TYPES OF OBSERV\n");
hlp = QString().leftJustified(6);
}
}
}
else {
QMapIterator<char, QVector<QString> > it(_header._obsTypesV3);
while (it.hasNext()) {
it.next();
char sys = it.key();
const QVector<QString>& types = it.value();
QString hlp;
QTextStream(&hlp) << QString("%1 %2").arg(sys).arg(types.size(), 3);
for (int ii = 0; ii < types.size(); ii++) {
QTextStream(&hlp) << QString(" %1").arg(types[ii], -3);
if ((ii+1) % 13 == 0 || ii == types.size()-1) {
strList.append(hlp.leftJustified(60) + "SYS / # / OBS TYPES\n");
hlp = QString().leftJustified(6);
}
}
}
}
return strList;
}
// Write Data Epoch
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::writeEpoch(const t_rnxEpo* epo) {
if (version() < 3.0) {
return writeEpochV2(epo);
}
else {
return writeEpochV3(epo);
}
}
// Write Data Epoch (RINEX Version 2)
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::writeEpochV2(const t_rnxEpo* epo) {
unsigned year, month, day, hour, min;
double sec;
epo->tt.civil_date(year, month, day);
epo->tt.civil_time(hour, min, sec);
QString dateStr;
QTextStream(&dateStr) << QString(" %1 %2 %3 %4 %5%6")
.arg(int(fmod(year, 100)), 2, 10, QChar('0'))
.arg(month, 2, 10, QChar('0'))
.arg(day, 2, 10, QChar('0'))
.arg(hour, 2, 10, QChar('0'))
.arg(min, 2, 10, QChar('0'))
.arg(sec, 11, 'f', 7);
int flag = 0;
*_stream << dateStr
<< QString("%1%2").arg(flag, 3).arg(epo->rnxSat.size(), 3);
for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
const t_rnxSat& rnxSat = epo->rnxSat[iSat];
if (iSat > 0 && iSat % 12 == 0) {
*_stream << endl << QString().leftJustified(32);
}
*_stream << rnxSat.satSys << QString("%1").arg(rnxSat.satNum, 2);
}
*_stream << endl;
for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
const t_rnxSat& rnxSat = epo->rnxSat[iSat];
char sys = rnxSat.satSys;
for (int iTypeV2 = 0; iTypeV2 < nTypes(sys); iTypeV2++) {
if (iTypeV2 > 0 && iTypeV2 % 5 == 0) {
*_stream << endl;
}
int iType = -1;
if (_trafo == trafoNone) {
iType = iTypeV2;
}
else {
if (_indexMap2to3[sys].find(iTypeV2) != _indexMap2to3[sys].end()) {
iType = _indexMap2to3[sys][iTypeV2];
}
}
if (iType == -1 || rnxSat.obs[iType] == 0.0) {
*_stream << QString().leftJustified(16);
}
else {
*_stream << QString("%1").arg(rnxSat.obs[iType], 14, 'f', 3);
if (rnxSat.lli[iType] != 0.0) {
*_stream << QString("%1").arg(rnxSat.lli[iType],1);
}
else {
*_stream << ' ';
}
if (rnxSat.snr[iType] != 0.0) {
*_stream << QString("%1").arg(rnxSat.snr[iType],1);
}
else {
*_stream << ' ';
}
}
}
*_stream << endl;
}
}
// Write Data Epoch (RINEX Version 3)
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::writeEpochV3(const t_rnxEpo* epo) {
unsigned year, month, day, hour, min;
double sec;
epo->tt.civil_date(year, month, day);
epo->tt.civil_time(hour, min, sec);
QString dateStr;
QTextStream(&dateStr) << QString("> %1 %2 %3 %4 %5%6")
.arg(year, 4)
.arg(month, 2, 10, QChar('0'))
.arg(day, 2, 10, QChar('0'))
.arg(hour, 2, 10, QChar('0'))
.arg(min, 2, 10, QChar('0'))
.arg(sec, 11, 'f', 7);
int flag = 0;
*_stream << dateStr
<< QString("%1%2\n").arg(flag, 3).arg(epo->rnxSat.size(), 3);
for (unsigned iSat = 0; iSat < epo->rnxSat.size(); iSat++) {
const t_rnxSat& rnxSat = epo->rnxSat[iSat];
char sys = rnxSat.satSys;
*_stream << sys
<< QString("%1").arg(rnxSat.satNum, 2, 10, QChar('0'));
for (int iTypeV3 = 0; iTypeV3 < nTypes(sys); iTypeV3++) {
int iType = -1;
if (_trafo == trafoNone) {
iType = iTypeV3;
}
else {
if (_indexMap3to2[sys].find(iTypeV3) != _indexMap3to2[sys].end()) {
iType = _indexMap3to2[sys][iTypeV3];
}
}
if (iType == -1 || rnxSat.obs[iType] == 0.0) {
*_stream << QString().leftJustified(16);
}
else {
*_stream << QString("%1").arg(rnxSat.obs[iType], 14, 'f', 3);
if (rnxSat.lli[iType] != 0.0) {
*_stream << QString("%1").arg(rnxSat.lli[iType],1);
}
else {
*_stream << ' ';
}
if (rnxSat.snr[iType] != 0.0) {
*_stream << QString("%1").arg(rnxSat.snr[iType],1);
}
else {
*_stream << ' ';
}
}
}
*_stream << endl;
}
}
// Translate Observation Type v2 --> v3
////////////////////////////////////////////////////////////////////////////
QString t_rnxObsFile::type2to3(char sys, const QString& typeV2) {
if (sys == 'G') {
if (typeV2 == "C1") return "C1C";
if (typeV2 == "C2") return "C2C";
if (typeV2 == "C5") return "C5C";
if (typeV2 == "P1") return "C1P";
if (typeV2 == "P2") return "C2P";
if (typeV2 == "L1") return "L1";
if (typeV2 == "L2") return "L2";
if (typeV2 == "L5") return "L5";
if (typeV2 == "D1") return "D1";
if (typeV2 == "D2") return "D2";
if (typeV2 == "D5") return "D5";
if (typeV2 == "S1") return "S1";
if (typeV2 == "S2") return "S2";
if (typeV2 == "S5") return "S5";
}
else if (sys == 'R') {
if (typeV2 == "C1") return "C1C";
if (typeV2 == "C2") return "C2C";
if (typeV2 == "P1") return "C1P";
if (typeV2 == "P2") return "C2P";
if (typeV2 == "L1") return "L1";
if (typeV2 == "L2") return "L2";
if (typeV2 == "D1") return "D1";
if (typeV2 == "D2") return "D2";
if (typeV2 == "S1") return "S1";
if (typeV2 == "S2") return "S2";
}
else if (sys == 'E') {
if (typeV2 == "C1") return "C1";
if (typeV2 == "C5") return "C5";
if (typeV2 == "C6") return "C6";
if (typeV2 == "C7") return "C7";
if (typeV2 == "C8") return "C8";
if (typeV2 == "L1") return "L1";
if (typeV2 == "L5") return "L5";
if (typeV2 == "L6") return "L6";
if (typeV2 == "L7") return "L7";
if (typeV2 == "L8") return "L8";
if (typeV2 == "D1") return "D1";
if (typeV2 == "D5") return "D5";
if (typeV2 == "D6") return "D6";
if (typeV2 == "D7") return "D7";
if (typeV2 == "D8") return "D8";
if (typeV2 == "S1") return "S1";
if (typeV2 == "S5") return "S5";
if (typeV2 == "S6") return "S6";
if (typeV2 == "S7") return "S7";
if (typeV2 == "S8") return "S8";
}
else if (sys == 'S') {
if (typeV2 == "C1") return "C1C";
if (typeV2 == "C5") return "C5C";
if (typeV2 == "L1") return "L1";
if (typeV2 == "L5") return "L5";
if (typeV2 == "D1") return "D1";
if (typeV2 == "D5") return "D5";
if (typeV2 == "S1") return "S1";
if (typeV2 == "S5") return "S5";
}
return "";
}
// Translate Observation Type v3 --> v2
////////////////////////////////////////////////////////////////////////////
QString t_rnxObsFile::type3to2(const QString& typeV3) {
if (typeV3 == "C1P") {
return "P1";
}
else if (typeV3 == "C2P") {
return "P2";
}
else {
return typeV3.left(2);
}
return "";
}
// Check for Changes in Header
////////////////////////////////////////////////////////////////////////////
void t_rnxObsFile::checkNewHeader(const t_rnxObsHeader& header) {
t_rnxObsHeader oldHeader(_header);
setHeader(header, oldHeader._version);
// Check Observation Types
// -----------------------
bool same = true;
if (_header._version < 3.0) {
if (_header._obsTypesV2 != oldHeader._obsTypesV2) {
same = false;
}
}
else {
QMapIterator<char, QVector<QString> > it(_header._obsTypesV3);
while (it.hasNext()) {
it.next();
char sys = it.key();
const QVector<QString>& typesV3 = it.value();
if (!oldHeader._obsTypesV3.contains(sys) ||
oldHeader._obsTypesV3[sys] != typesV3) {
same = false;
break;
}
}
}
if (!same) {
QStringList strLst = obsTypesStrings();
int numBlanks = _header._version < 3.0 ? 26 : 29;
*_stream << QString().leftJustified(numBlanks)
<< QString(" 4%1\n").arg(strLst.size(), 3)
<< strLst.join("");
}
}