//#---------------------------------------------------------------------------
//# GBTFITSreader.h: CFITSIO interface class for GBT SDFITS input.
//#---------------------------------------------------------------------------
//# livedata - processing pipeline for single-dish, multibeam spectral data.
//# Copyright (C) 2000-2009, Australia Telescope National Facility, CSIRO
//#
//# This file is part of livedata.
//#
//# livedata 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, either version 3 of the License, or (at your option)
//# any later version.
//#
//# livedata 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 livedata. If not, see .
//#
//# Correspondence concerning livedata may be directed to:
//# Internet email: mcalabre@atnf.csiro.au
//# Postal address: Dr. Mark Calabretta
//# Australia Telescope National Facility, CSIRO
//# PO Box 76
//# Epping NSW 1710
//# AUSTRALIA
//#
//# http://www.atnf.csiro.au/computing/software/livedata.html
//# $Id: SDFITSreader.h,v 19.22 2009-09-29 07:33:39 cal103 Exp $
//#---------------------------------------------------------------------------
//# The GBTFITSreader class reads single dish FITS files from Green Bank
//# telescopes. This class is actually a specific version of SDFITSreader.
//#
//# Original: 2000/08/09, Mark Calabretta, ATNF
//# Update: 2010/07/29, Takeshi Nakazato, NAOJ
//#---------------------------------------------------------------------------
#ifndef ATNF_GBTFITSREADER_H
#define ATNF_GBTFITSREADER_H
#include
#include
#include
#include
#include
using namespace std;
using namespace casacore;
//
// class for GBT SDFITS input using CFITSIO.
//
class GBTFITSreader : public FITSreader
{
public:
// Default constructor.
GBTFITSreader();
// Destructor.
virtual ~GBTFITSreader();
// Open an SDFITS file for reading.
virtual int open(
char* sdname,
int &nBeam,
int* &beams,
int &nIF,
int* &IFs,
int* &nChan,
int* &nPol,
int* &haveXPol,
int &haveBase,
int &haveSpectra,
int &extraSysCal);
// Get parameters describing the data.
virtual int getHeader(
char observer[32],
char project[32],
char telescope[32],
double antPos[3],
char obsMode[32],
char bunit[32],
float &equinox,
char radecsys[32],
char dopplerFrame[32],
char datobs[32],
double &utc,
double &refFreq,
double &bandwidth);
// Get frequency parameters for each IF.
virtual int getFreqInfo(
int &nIF,
double* &startFreq,
double* &endFreq);
// Find the range of the data selected in time and position.
virtual int findRange(
int &nRow,
int &nSel,
char dateSpan[2][32],
double utcSpan[2],
double* &positions);
// Read the next data record.
virtual int read(MBrecord &record);
// Close the SDFITS file.
virtual void close(void);
private:
int cCycleNo, cExtraSysCal, cNAxes, cStatus;
long cBeamAxis, cDecAxis, cFreqAxis, cNAxis[5], cNAxisTime, cNRow,
cRaAxis, cRow, cStokesAxis, cTimeAxis, cTimeIdx;
double cLastUTC;
fitsfile *cSDptr;
class FITSparm *cData;
// These are to differentiate 0-, and 1-relative beam and IF numbering.
int cBeam_1rel, cIF_1rel;
// for GBT
int *cPols ;
enum {SCAN, CYCLE, DATE_OBS, TIME, EXPOSURE, OBJECT, OBJ_RA, OBJ_DEC,
RESTFRQ, OBSMODE, BEAM, IF, FqRefVal, FqDelt, FqRefPix, RA, DEC,
TimeRefVal, TimeDelt, TimeRefPix, SCANRATE, TSYS, CALFCTR, XCALFCTR,
BASELIN, BASESUB, DATA, FLAGGED, DATAXED, XPOLDATA, REFBEAM, TCAL,
TCALTIME, AZIMUTH, ELEVATIO, PARANGLE, FOCUSAXI, FOCUSTAN, FOCUSROT,
TAMBIENT, PRESSURE, HUMIDITY, WINDSPEE, WINDDIRE, STOKES, SIG, CAL,
VFRAME, RVSYS, VELDEF, TIMESTAMP, DURATION, SAMPLER, NDATA};
// Message handling.
void log(LogOrigin origin, LogIO::Command cmd, const char *msg = 0x0);
void findData(int iData, char *name, int type);
void findCol(char *name, int *colnum);
int readDim(int iData, long iRow, int *naxis, long naxes[]);
int readParm(char *name, int type, void *value);
int readData(char *name, int type, long iRow, void *value);
int readData(int iData, long iRow, void *value);
int readCol(int iData, void *value);
int readTime(long iRow, int iPix, char *datobs, double &utc);
// These are for ALFA data: "BDFITS" or "CIMAFITS". Statics are required
// for CIMAFITS v2.0 because CAL ON/OFF data is split into separate files.
static int sInit, sReset;
static int (*sALFAcalNon)[2], (*sALFAcalNoff)[2];
static float (*sALFAcal)[2], (*sALFAcalOn)[2], (*sALFAcalOff)[2];
int cALFA, cALFA_BD, cALFA_CIMA, cALFAscan, cScanNo;
float cALFAacc;
int alfaCal(short iBeam, short iIF, short iPol);
float alfaGain(float zd);
// For multiple binary table SDFITS (GBT)
long cRowRelative( long iRow ) ;
Vector nIFPerHDU() ;
Double getRefValLSR( int irow ) ;
Double getRefValLSR( long iRow, int idx, char *sampler, double restfreq ) ;
Int mergeIFPerHDU( int start, int n ) ;
// These are for GBT data.
int cGBT, cFirstScanNo;
double cGLastUTC[4] ;
int cGLastScan[4] ;
int cGCycleNo[4] ;
long *cNRowT ;
long *cNRowCum ;
int *hduId ;
int numHDU ;
vector cRefValKey ;
vector cRefVal ;
vector cIncVal ;
Vector cIFNO ;
vector cNumKeys ;
//double cAntPos[3] ;
};
#endif