//#--------------------------------------------------------------------------- //# NROReader.cc: Base class for NRO headerdata. //#--------------------------------------------------------------------------- //# Copyright (C) 2000-2006 //# Associated Universities, Inc. Washington DC, USA. //# //# This library is free software; you can redistribute it and/or modify it //# under the terms of the GNU Library General Public License as published by //# the Free Software Foundation; either version 2 of the License, or (at your //# option) any later version. //# //# This library 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 Library General Public //# License for more details. //# //# You should have received a copy of the GNU Library General Public License //# along with this library; if not, write to the Free Software Foundation, //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA. //# //# Correspondence concerning AIPS++ should be addressed as follows: //# Internet email: aips2-request@nrao.edu. //# Postal address: AIPS++ Project Office //# National Radio Astronomy Observatory //# 520 Edgemont Road //# Charlottesville, VA 22903-2475 USA //# //# $Id$ //#--------------------------------------------------------------------------- //# Original: 2008/10/30, Takeshi Nakazato, NAOJ //#--------------------------------------------------------------------------- #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using namespace std ; // // getNROReader // // Return an appropriate NROReader for a NRO 45m and ASTE dataset. // NROReader *getNROReader( const String filename, String &datatype ) { LogIO os( LogOrigin( "", "getNROReader()", WHERE ) ) ; // Check accessibility of the input. File inFile( filename ) ; if ( !inFile.exists() ) { datatype = filename + " not found." ; return 0 ; } if ( !inFile.isReadable() ) { datatype = filename + " is not readable." ; return 0 ; } // Determine the type of input. NROReader *reader = 0; if ( inFile.isRegular() ) { FILE *file ; file = fopen( filename.c_str(), "r" ) ; // read LOFIL0 char buf[9]; fread( buf, 4, 1, file ) ; buf[4] = '\0' ; // DEBUG //os << LogIO::NORMAL << "getNROReader:: buf = " << String(buf) << LogIO::POST ; // if ( string( buf ) == "XTEN" ) { // FITS data datatype = "NRO 45m FITS" ; reader = new NRO45FITSReader( filename ) ; } else if ( string( buf ) == "RW-F") { // ASTE-FX data datatype = "ASTE-FX"; reader = new ASTEFXReader( filename ); } else { // otherwise, read SITE0 NRODataset *d = new NROOTFDataset( filename ) ; int size = d->getDataSize() - 188 ; delete d ; fseek( file, size, SEEK_SET ) ; fread( buf, 8, 1, file ) ; buf[8] = '\0' ; // DEBUG //cout << "getNROReader:: buf = " << buf << endl ; // if ( string( buf ) == "NRO" ) { // NRO 45m data datatype = "NRO 45m OTF" ; reader = new NRO45Reader( filename ); } else { d = new ASTEDataset( filename ) ; size = d->getDataSize() - 188 ; delete d ; fseek( file, size, SEEK_SET ) ; fread( buf, 8, 1, file ) ; buf[8] = '\0' ; // DEBUG //cout << "getNROReader:: buf = " << buf << endl ; // if ( string( buf ) == "ASTE" ) { // ASTE data datatype = "ASTE" ; reader = new ASTEReader( filename ) ; } else { datatype = "UNRECOGNIZED INPUT FORMAT"; } } } fclose( file ) ; } else { datatype = "UNRECOGNIZED INPUT FORMAT"; } // DEBUG os << LogIO::NORMAL << "Data format of " << filename << ": " << datatype << LogIO::POST ; // // return reader if exists if ( reader ) { reader->read() ; return reader ; } return 0 ; } // // getNROReader // // Search a list of directories for a NRO 45m and ASTE dataset and return an // appropriate NROReader for it. // NROReader* getNROReader( const String name, const Vector directories, int &iDir, String &datatype ) { int nDir = directories.size(); for ( iDir = 0; iDir < nDir; iDir++ ) { string inName = directories[iDir] + "/" + name; NROReader *reader = getNROReader( inName, datatype ) ; if (reader != 0) { return reader; } } iDir = -1; return 0; } //---------------------------------------------------------------------- // constructor NROReader::NROReader( string name ) { // initialization filename_ = name ; dataset_ = NULL ; } // destructor NROReader::~NROReader() { if ( dataset_ != NULL ) { delete dataset_ ; dataset_ = NULL ; } } // get spectrum vector< vector > NROReader::getSpectrum() { return dataset_->getSpectrum() ; } Int NROReader::getPolarizationNum() { return dataset_->getPolarizationNum() ; } double NROReader::getStartTime() { //char *startTime = dataset_->getLOSTM() ; string startTime = dataset_->getLOSTM() ; //cout << "getStartTime() startTime = " << startTime << endl ; return getMJD( startTime ) ; } double NROReader::getEndTime() { //char *endTime = dataset_->getLOETM() ; string endTime = dataset_->getLOETM() ; return getMJD( endTime ) ; } vector NROReader::getStartIntTime() { return dataset_->getStartIntTime() ; } double NROReader::getMJD( char *time ) { // TODO: should be checked which time zone the time depends on // 2008/11/14 Takeshi Nakazato string strStartTime = string( time ) ; string strYear = strStartTime.substr( 0, 4 ) ; string strMonth = strStartTime.substr( 4, 2 ) ; string strDay = strStartTime.substr( 6, 2 ) ; string strHour = strStartTime.substr( 8, 2 ) ; string strMinute = strStartTime.substr( 10, 2 ) ; string strSecond = strStartTime.substr( 12, strStartTime.size() - 12 ) ; uInt year = atoi( strYear.c_str() ) ; uInt month = atoi( strMonth.c_str() ) ; uInt day = atoi( strDay.c_str() ) ; uInt hour = atoi( strHour.c_str() ) ; uInt minute = atoi( strMinute.c_str() ) ; double second = atof( strSecond.c_str() ) ; Time t( year, month, day, hour, minute, second ) ; return t.modifiedJulianDay() ; } double NROReader::getMJD( string strStartTime ) { // TODO: should be checked which time zone the time depends on // 2008/11/14 Takeshi Nakazato string strYear = strStartTime.substr( 0, 4 ) ; string strMonth = strStartTime.substr( 4, 2 ) ; string strDay = strStartTime.substr( 6, 2 ) ; string strHour = strStartTime.substr( 8, 2 ) ; string strMinute = strStartTime.substr( 10, 2 ) ; string strSecond = strStartTime.substr( 12, strStartTime.size() - 12 ) ; uInt year = atoi( strYear.c_str() ) ; uInt month = atoi( strMonth.c_str() ) ; uInt day = atoi( strDay.c_str() ) ; uInt hour = atoi( strHour.c_str() ) ; uInt minute = atoi( strMinute.c_str() ) ; double second = atof( strSecond.c_str() ) ; Time t( year, month, day, hour, minute, second ) ; return t.modifiedJulianDay() ; } vector NROReader::getIFs() { return dataset_->getIFs() ; } vector NROReader::getBeams() { vector v ; vector arry = dataset_->getARRY() ; for ( uInt i = 0 ; i < arry.size() ; i++ ) { if ( arry[i] != 0 ) { v.push_back( True ) ; } } // DEBUG //cout << "NROReader::getBeams() number of beam is " << v.size() << endl ; // return v ; } // Get SRCDIRECTION in RADEC(J2000) Vector NROReader::getSourceDirection() { LogIO os( LogOrigin( "NROReader", "getSourceDirection()", WHERE ) ) ; Vector v ; Double srcra = Double( dataset_->getRA0() ) ; Double srcdec = Double( dataset_->getDEC0() ) ; char epoch[5] ; strncpy( epoch, (dataset_->getEPOCH()).c_str(), 5 ) ; if ( strncmp( epoch, "B1950", 5 ) == 0 ) { // convert to J2000 value MDirection result = MDirection::Convert( MDirection( Quantity( srcra, "rad" ), Quantity( srcdec, "rad" ), MDirection::Ref( MDirection::B1950 ) ), MDirection::Ref( MDirection::J2000 ) ) () ; v = result.getAngle().getValue() ; Double srcra2 = v( 0 ) ; if ( srcra2 < 0.0 && srcra >= 0.0 ) v( 0 ) = 2.0 * M_PI + srcra2 ; //cout << "NROReader::getSourceDirection() SRCDIRECTION convert from (" //<< srcra << "," << srcdec << ") B1950 to (" //<< v( 0 ) << ","<< v( 1 ) << ") J2000" << endl ; os << LogIO::NORMAL << "SRCDIRECTION convert from (" << srcra << "," << srcdec << ") B1950 to (" << v( 0 ) << ","<< v( 1 ) << ") J2000" << LogIO::POST ; } else if ( strncmp( epoch, "J2000", 5 ) == 0 ) { v.resize( 2 ) ; v( 0 ) = srcra ; v( 1 ) = srcdec ; } return v ; } // Get DIRECTION in RADEC(J2000) Vector NROReader::getDirection( int i ) { LogIO os( LogOrigin( "NROReader", "getDirection()", WHERE ) ) ; Vector v ; NRODataRecord *record = dataset_->getRecord( i ) ; char epoch[5] ; strncpy( epoch, (dataset_->getEPOCH()).c_str(), 5 ) ; int icoord = dataset_->getSCNCD() ; Double dirx = Double( record->SCX ) ; Double diry = Double( record->SCY ) ; if ( icoord == 1 ) { // convert from LB to RADEC MDirection result = MDirection::Convert( MDirection( Quantity( dirx, "rad" ), Quantity( diry, "rad" ), MDirection::Ref( MDirection::GALACTIC ) ), MDirection::Ref( MDirection::J2000 ) ) () ; v = result.getAngle().getValue() ; Double dirx2 = v( 0 ) ; if ( dirx2 < 0.0 && dirx >= 0.0 ) v( 0 ) = 2.0 * M_PI + dirx2 ; //cout << "NROReader::getDirection() DIRECTION convert from (" //<< dirx << "," << diry << ") LB to (" //<< v( 0 ) << ","<< v( 1 ) << ") RADEC" << endl ; os << LogIO::NORMAL << "DIRECTION convert from (" << dirx << "," << diry << ") LB to (" << v( 0 ) << ","<< v( 1 ) << ") RADEC" << LogIO::POST ; } else if ( icoord == 2 ) { // convert from AZEL to RADEC MDirection result = MDirection::Convert( MDirection( Quantity( dirx, "rad" ), Quantity( diry, "rad" ), MDirection::Ref( MDirection::AZEL ) ), MDirection::Ref( MDirection::J2000 ) ) () ; v = result.getAngle().getValue() ; //cout << "NROReader::getDirection() DIRECTION convert from (" //<< dirx << "," << diry << ") AZEL to (" //<< v( 0 ) << ","<< v( 1 ) << ") RADEC" << endl ; os << LogIO::NORMAL << "DIRECTION convert from (" << dirx << "," << diry << ") AZEL to (" << v( 0 ) << ","<< v( 1 ) << ") RADEC" << LogIO::POST ; } else if ( icoord == 0 ) { if ( strncmp( epoch, "B1950", 5 ) == 0 ) { // convert to J2000 value MDirection result = MDirection::Convert( MDirection( Quantity( dirx, "rad" ), Quantity( diry, "rad" ), MDirection::Ref( MDirection::B1950 ) ), MDirection::Ref( MDirection::J2000 ) ) () ; v = result.getAngle().getValue() ; Double dirx2 = v( 0 ) ; if ( dirx2 < 0.0 && dirx >= 0.0 ) v( 0 ) = 2.0 * M_PI + dirx2 ; //cout << "STFiller::readNRO() DIRECTION convert from (" //<< dirx << "," << diry << ") B1950 to (" //<< v( 0 ) << ","<< v( 1 ) << ") J2000" << endl ; os << LogIO::NORMAL << "DIRECTION convert from (" << dirx << "," << diry << ") B1950 to (" << v( 0 ) << ","<< v( 1 ) << ") J2000" << LogIO::POST ; } else if ( strncmp( epoch, "J2000", 5 ) == 0 ) { v.resize( 2 ) ; v( 0 ) = dirx ; v( 1 ) = diry ; } } return v ; } int NROReader::getHeaderInfo( Int &nchan, Int &npol, Int &nif, Int &nbeam, String &observer, String &project, String &obstype, String &antname, Vector &antpos, Float &equinox, String &freqref, Double &reffreq, Double &bw, Double &utc, String &fluxunit, String &epoch, String &poltype ) { nchan = dataset_->getNUMCH() ; //cout << "nchan = " << nchan << endl ; npol = getPolarizationNum() ; //cout << "npol = " << npol << endl ; observer = dataset_->getOBSVR() ; //cout << "observer = " << observer << endl ; project = dataset_->getPROJ() ; //cout << "project = " << project << endl ; obstype = dataset_->getSWMOD() ; //cout << "obstype = " << obstype << endl ; antname = dataset_->getSITE() ; //cout << "antname = " << antname << endl ; // TODO: should be investigated antenna position since there are // no corresponding information in the header // 2008/11/13 Takeshi Nakazato // // INFO: tentative antenna posiiton is obtained for NRO 45m from ITRF website // 2008/11/26 Takeshi Nakazato vector pos = getAntennaPosition() ; antpos = pos ; //cout << "antpos = " << antpos << endl ; string eq = dataset_->getEPOCH() ; if ( eq.compare( 0, 5, "B1950" ) == 0 ) equinox = 1950.0 ; else if ( eq.compare( 0, 5, "J2000" ) == 0 ) equinox = 2000.0 ; //cout << "equinox = " << equinox << endl ; string vref = dataset_->getVREF() ; if ( vref.compare( 0, 3, "LSR" ) == 0 ) { if ( vref.size() == 3 ) { vref.append( "K" ) ; } else { vref[3] = 'K' ; } } //freqref = vref ; //freqref = "LSRK" ; freqref = "REST" ; //cout << "freqref = " << freqref << endl ; NRODataRecord *record = dataset_->getRecord( 0 ) ; reffreq = record->FREQ0 ; //cout << "reffreq = " << reffreq << endl ; bw = dataset_->getBEBW()[0] ; //cout << "bw = " << bw << endl ; utc = getStartTime() ; //cout << "utc = " << utc << endl ; fluxunit = "K" ; //cout << "fluxunit = " << fluxunit << endl ; epoch = "UTC" ; //cout << "epoch = " << epoch << endl ; string poltp = dataset_->getPOLTP()[0] ; //cout << "poltp = '" << poltp << "'" << endl ; if ( poltp == "" || poltp[0] == ' ' ) //poltp = "None" ; poltp = "linear" ; // if no polarization type specified, set to "linear" //else if ( strcmp( poltp, "LINR" ) == 0 ) else if ( poltp.compare( 0, 1, "LINR", 0, 1 ) == 0 ) poltp = "linear" ; //else if ( strcmp( poltp, "CIRL" ) == 0 ) else if ( poltp.compare( 0, 1, "CIRL", 0, 1 ) == 0 ) poltp = "circular" ; poltype = poltp ; //cout << "poltype = " << poltype << endl ; //vector ifs = getIFs() ; //nif = ifs.size() ; nif = getNumIF() ; //cout << "nif = " << nif << endl ; //vector beams = getBeams() ; //nbeam = beams.size() ; nbeam = getNumBeam() ; //cout << "nbeam = " << nbeam << endl ; return 0 ; } string NROReader::getScanType( int i ) { NRODataRecord *record = dataset_->getRecord( i ) ; string s = record->SCANTP ; return s ; } int NROReader::getScanInfo( int irow, uInt &scanno, uInt &cycleno, uInt &beamno, uInt &polno, vector &freqs, Vector &restfreq, uInt &refbeamno, Double &scantime, Double &interval, String &srcname, String &fieldname, Array &spectra, Array &flagtra, Array &tsys, Array &direction, Float &azimuth, Float &elevation, Float ¶ngle, Float &opacity, uInt &tcalid, Int &fitid, uInt &focusid, Float &temperature, Float &pressure, Float &humidity, Float &windvel, Float &winddir, Double &srcvel, Array &propermotion, Vector &srcdir, Array &scanrate ) { // DEBUG //cout << "NROReader::getScanInfo() irow = " << irow << endl ; // NRODataRecord *record = dataset_->getRecord( irow ) ; // scanno scanno = (uInt)(record->ISCAN) ; //cout << "scanno = " << scanno << endl ; // cycleno cycleno = 0 ; //cout << "cycleno = " << cycleno << endl ; // beamno string rxname = dataset_->getRX()[0] ; if ( rxname.find("MULT2") != string::npos ) { string arryt = string( record->ARRYT ) ; string sbeamno = arryt.substr( 1, arryt.size()-1 ) ; uInt ibeamno = atoi( sbeamno.c_str() ) ; beamno = ibeamno - 1 ; } else { beamno = 0 ; } //cout << "beamno = " << beamno << endl ; // polno polno = 0 ; //cout << "polno = " << polno << endl ; // freqs (for IFNO and FREQ_ID) //freqs = getFrequencies( irow ) ; freqs = dataset_->getFrequencies( irow ) ; //cout << "freqs = [" << freqs[0] << ", " << freqs[1] << ", " << freqs[2] << "]" << endl ; // restfreq (for MOLECULE_ID) Vector rf( IPosition( 1, 1 ) ) ; rf( 0 ) = record->FREQ0 ; restfreq = rf ; //cout << "restfreq = " << rf << endl ; // refbeamno refbeamno = 0 ; //cout << "refbeamno = " << refbeamno << endl ; // scantime //scantime = Double( dataset_->getStartIntTime( irow ) ) ; scantime = Double( dataset_->getScanTime( irow ) ) ; //cout << "scantime = " << scantime << endl ; // interval interval = Double( dataset_->getIPTIM() ) ; //cout << "interval = " << interval << endl ; // srcname srcname = String( dataset_->getOBJ() ) ; //cout << "srcname = " << srcname << endl ; // fieldname fieldname = String( dataset_->getOBJ() ) ; //cout << "fieldname = " << fieldname << endl ; // spectra vector spec = dataset_->getSpectrum( irow ) ; Array sp( IPosition( 1, spec.size() ) ) ; int index = 0 ; for ( Array::iterator itr = sp.begin() ; itr != sp.end() ; itr++ ) { *itr = spec[index++] ; } spectra = sp ; //cout << "spec.size() = " << spec.size() << endl ; // flagtra Array flag( spectra.shape() ) ; flag.set( 0 ) ; flagtra = flag ; //cout << "flag.size() = " << flag.size() << endl ; // tsys Array tmp( IPosition( 1, 1 ), record->TSYS ) ; tsys = tmp ; //cout << "tsys[0] = " << tsys[0] << endl ; // direction direction = getDirection( irow ) ; //cout << "direction = [" << direction[0] << ", " << direction[1] << "]" << endl ; // azimuth azimuth = record->RAZ ; //cout << "azimuth = " << azimuth << endl ; // elevation elevation = record->REL ; //cout << "elevation = " << elevation << endl ; // parangle parangle = 0.0 ; //cout << "parangle = " << parangle << endl ; // opacity opacity = 0.0 ; //cout << "opacity = " << opacity << endl ; // tcalid tcalid = 0 ; //cout << "tcalid = " << tcalid << endl ; // fitid fitid = -1 ; //cout << "fitid = " << fitid << endl ; // focusid focusid = 0 ; //cout << "focusid = " << focusid << endl ; // temperature (for WEATHER_ID) temperature = Float( record->TEMP ) ; //cout << "temperature = " << temperature << endl ; // pressure (for WEATHER_ID) pressure = Float( record->PATM ) ; //cout << "pressure = " << pressure << endl ; // humidity (for WEATHER_ID) humidity = Float( record->PH2O ) ; //cout << "humidity = " << humidity << endl ; // windvel (for WEATHER_ID) windvel = Float( record->VWIND ) ; //cout << "windvel = " << windvel << endl ; // winddir (for WEATHER_ID) winddir = Float( record->DWIND ) ; //cout << "winddir = " << winddir << endl ; // srcvel srcvel = dataset_->getURVEL() ; //cout << "srcvel = " << srcvel << endl ; // propermotion Array srcarr( IPosition( 1, 2 ) ) ; srcarr = 0.0 ; propermotion = srcarr ; //cout << "propermotion = [" << propermotion[0] << ", " << propermotion[1] << "]" << endl ; // srcdir srcdir = getSourceDirection() ; //cout << "srcdir = [" << srcdir[0] << ", " << srcdir[1] << endl ; // scanrate Array sr( IPosition( 1, 1 ) ) ; sr = 0.0 ; scanrate = sr ; //cout << "scanrate = " << scanrate[0] << endl ; return 0 ; } Int NROReader::getRowNum() { return dataset_->getRowNum() ; }