bool operator() (const EngEphemeris& l, const EngEphemeris& r) const { if ( (l.getPRNID() == r.getPRNID()) && (l.getIODC() == r.getIODC()) ) return true; return false; }
bool operator() (const EngEphemeris& l, const EngEphemeris& r) const { if (l.getPRNID() < r.getPRNID()) return true; else if (l.getPRNID() > r.getPRNID()) return false; else if (l.getFullWeek() < r.getFullWeek()) return true; else if (l.getFullWeek() > r.getFullWeek()) return false; else if (l.getIODC() < r.getIODC()) return true; else if (l.getIODC() > r.getIODC()) return false; else if (l.getASAlert(1) < r.getASAlert(1)) return true; else if (l.getASAlert(1) > r.getASAlert(1)) return false; else if (l.getASAlert(2) < r.getASAlert(2)) return true; else if (l.getASAlert(2) > r.getASAlert(2)) return false; else if (l.getASAlert(3) < r.getASAlert(3)) return true; else if (l.getASAlert(3) > r.getASAlert(3)) return false; return false; }
// Deprecated; used GPSEphemeris. // This routine uses EngEphemeris, so is for GPS data only. // The comments about GPS v. Galileo next to each elements are just notes // from sorting out the ICDs in the RINEX 3 documentation. Please leave // them there until we add a routine for handling GalRecord or similar. Rinex3NavData::Rinex3NavData(const EngEphemeris& ee) // GPS only { // epoch info satSys = ee.getSatSys(); PRNID = ee.getPRNID(); sat = RinexSatID(PRNID,SatID::systemGPS); time = ee.getEpochTime(); Toc = ee.getToc(); HOWtime = long(ee.getHOWTime(1)); weeknum = ee.getFullWeek(); accuracy = ee.getAccuracy(); health = ee.getHealth(); // GPS or Galileo data af0 = ee.getAf0(); // GPS and Galileo only af1 = ee.getAf1(); // GPS and Galileo only af2 = ee.getAf2(); // GPS and Galileo only Crs = ee.getCrs(); // GPS and Galileo only dn = ee.getDn(); // GPS and Galileo only M0 = ee.getM0(); // GPS and Galileo only Cuc = ee.getCuc(); // GPS and Galileo only ecc = ee.getEcc(); // GPS and Galileo only Cus = ee.getCus(); // GPS and Galileo only Ahalf = ee.getAhalf(); // GPS and Galileo only Toe = ee.getToe(); // GPS and Galileo only Cic = ee.getCic(); // GPS and Galileo only OMEGA0 = ee.getOmega0(); // GPS and Galileo only Cis = ee.getCis(); // GPS and Galileo only i0 = ee.getI0(); // GPS and Galileo only Crc = ee.getCrc(); // GPS and Galileo only w = ee.getW(); // GPS and Galileo only OMEGAdot = ee.getOmegaDot(); // GPS and Galileo only idot = ee.getIDot(); // GPS and Galileo only // GPS-only data IODE = ee.getIODE(); // GPS only codeflgs = ee.getCodeFlags(); // GPS only L2Pdata = ee.getL2Pdata(); // GPS only Tgd = ee.getTgd(); // GPS only IODC = ee.getIODC(); // GPS only fitint = ee.getFitInterval(); // GPS only } // End of 'Rinex3NavData::Rinex3NavData(const EngEphemeris& ee)'
bool operator() (const EngEphemeris& l) const { if ( (l.getPRNID() == PRN) && (l.getIODC() == IODC) ) return true; return false; }
EphDiffFinder(const EngEphemeris& e) : PRN(e.getPRNID()), IODC(e.getIODC()) {}
void MinSfTest::process() { if (debugLevel) cout << "Setting up input file: " << inputOption.getValue().front() << endl; FileFilterFrame<FICStream, FICData> input(inputOption.getValue().front()); printf(" input.getDataCount() after init: %d\n", input.getDataCount()); if(debugLevel) cout << "Setting up output file: " << outputOption.getValue().front() << endl; fp.open( outputOption.getValue().front().c_str() ); if ( !fp.is_open() ) { printf(" Failed to open output file.\n"); exit(1); } // filter the FIC data for the requested vlock(s) std::list<long> blockList; blockList.push_back(109); input.filter(FICDataFilterBlock(blockList)); input.sort(FICDataOperatorLessThanBlock109()); input.unique(FICDataUniqueBlock109()); //some hand waving for the data conversion if(debugLevel) cout << "Reading the input data." << endl; list<FICData>& ficList = input.getData(); list<FICData>::iterator itr = ficList.begin(); DayTime earliest( DayTime::END_OF_TIME ); DayTime latest( DayTime::BEGINNING_OF_TIME ); int count = 0; int numMismatches = 0; int numMismatchEph = 0; while (itr != ficList.end()) { EngEphemeris ee(*itr); bc109.addEphemeris( ee ); DayTime ct = ee.getEpochTime(); if (ct>latest) latest = ct; if (ct<earliest) earliest = ct; // Following code simulates a situation where only words 3-10 // and the estimated time of receipt are available. DayTime timeOfReceipt = ee.getTransmitTime(); FICData& fic = *itr; long sf1min[8]; long sf2min[8]; long sf3min[8]; int wrdCnt = 8; int i; for (i=0; i<wrdCnt; ++i) sf1min[i] = fic.i[4+i]; for (i=0; i<wrdCnt; ++i) sf2min[i] = fic.i[14+i]; for (i=0; i<wrdCnt; ++i) sf3min[i] = fic.i[24+i]; EngEphemeris eeMin; short PRNID = (short) fic.i[1]; eeMin.addIncompleteSF1Thru3( sf1min, sf2min, sf3min, (long) timeOfReceipt.GPSsecond(), timeOfReceipt.GPSfullweek(), PRNID, 0 ); minRaw.addEphemeris( eeMin ); // Compare non-orbit portions of the two objects bool mismatch = false; for (int i=1; i<=3; ++i) { if (!ee.isData(i) || !eeMin.isData(i)) { mismatch = true; fp << "ERROR: not all subframes are claimed available."; } } if (ee.getIODC()!=eeMin.getIODC()) { mismatch = true; fp << "ERROR: IODCs do not match."; } if (ee.getIODE()!=eeMin.getIODE()) { mismatch = true; fp << "ERROR: IODCs do not match."; } if (ee.getFitInterval() != eeMin.getFitInterval() ) { mismatch = true; fp << "ERROR: fit intervals do not match."; } if (ee.getCodeFlags()!=eeMin.getCodeFlags() ) { mismatch = true; fp << "ERROR: code flags do not match."; } if (ee.getL2Pdata()!=eeMin.getL2Pdata() ) { mismatch = true; fp << "ERROR: L2P data flags do not match."; } if (ee.getAccuracy()!=eeMin.getAccuracy() ) { mismatch = true; fp << "ERROR: accuracy values do not match."; } if (ee.getAccFlag()!=eeMin.getAccFlag() ) { mismatch = true; fp << "ERROR: accuracy flags do not match."; } if (ee.getHealth()!=eeMin.getHealth() ) { mismatch = true; fp << "ERROR: health values do not match."; } if (ee.getFitInt()!=eeMin.getFitInt() ) { mismatch = true; fp << "ERROR: Fit interval values do not match."; } if (mismatch) { fp << " PRNID: " << PRNID << ", IODC: 0x " << hex << ee.getIODC() << dec << endl; numMismatches++; } itr++; count++; } cout << "Number of Block 109 records read: " << count << endl; if (numMismatches!=0) { printf("Errors detected. Some ephemerides did not match in both forms.\n"); printf("Number of mismatches: %d\n",numMismatches); } fp << "Number of mismatches detected: " << numMismatches << endl; if (debugLevel) cout << "done." << endl; // Generate test positions for PRN 1 and PRN 31 at // earliest epoch, latest epoch, and middle of the time span. try { double timeDuration = latest - earliest; DayTime middle( earliest ); middle += (timeDuration/2); short IODC109 = -1; short IODCMin = -1; short PRNID = 1; printf("--- PRN 1 Examples ---\n"); printf("\nEarliest time\n"); fp << "--- PRN 1 Examples ---" << endl; fp << endl << "Earliest time" << endl; testXvt( PRNID, earliest ); printf("\nMiddle time\n"); fp << endl << "Middle time" << endl; testXvt( PRNID, middle ); printf("\nLatest time\n"); fp << endl << "Latest time" << endl; testXvt( PRNID, latest ); PRNID = 31; printf("\n--- PRN 31 Examples ---\n"); printf("\nEarliest time\n"); fp << endl << "--- PRN 31 Examples ---" << endl; fp << endl << "Earliest time" << endl; testXvt( PRNID, earliest ); printf("\nMiddle time\n"); fp << endl << "Middle time" << endl; testXvt( PRNID, middle ); printf("\nLatest time\n"); fp << endl << "Latest time" << endl; testXvt( PRNID, latest ); } catch (gpstk::Exception& e) { cout << e << endl; } printf("\nBCEphemerisStore directly from existing FIC handlers.\n"); fp << endl << "BCEphemerisStore directly from existing FIC handlers." << endl; bc109.dump(1, fp); printf("BCEphemerisStore from new method.\n"); fp << endl << "BCEphemerisStore from new method." << endl; minRaw.dump(1, fp); // write the file data if (debugLevel) cout << "Conversion complete." << endl; }