source: trunk/src/PKSFiller.cpp@ 1849

Last change on this file since 1849 was 1832, checked in by Malte Marquarding, 14 years ago

use default 'antenna' value of '0'

File size: 9.6 KB
Line 
1//
2// C++ Implementation: PKSFiller
3//
4// Description:
5//
6//
7// Author: Malte Marquarding <asap@atnf.csiro.au>, (C) 2010
8//
9// Copyright: See COPYING file that comes with this distribution
10//
11//
12#include <casa/iostream.h>
13#include <casa/iomanip.h>
14
15#include <casa/Exceptions.h>
16#include <casa/OS/Path.h>
17#include <casa/OS/File.h>
18#include <casa/Quanta/Unit.h>
19#include <casa/Arrays/ArrayMath.h>
20#include <casa/Arrays/ArrayLogical.h>
21#include <casa/Utilities/Regex.h>
22#include <casa/Logging/LogIO.h>
23
24#include <measures/Measures/MDirection.h>
25#include <measures/Measures/MeasConvert.h>
26
27#include <atnf/PKSIO/PKSrecord.h>
28#include <atnf/PKSIO/PKSreader.h>
29
30#ifdef HAS_ALMA
31 #include <casa/System/ProgressMeter.h>
32#endif
33#include <casa/Logging/LogIO.h>
34
35#include <time.h>
36
37#include "STDefs.h"
38#include "STAttr.h"
39
40#include "PKSFiller.h"
41#include "STHeader.h"
42
43using namespace casa;
44
45namespace asap {
46
47
48PKSFiller::PKSFiller( CountedPtr< Scantable > stbl ) :
49 FillerBase(stbl),
50 reader_(0)
51{
52 setReferenceRegex(".*(e|w|_R)$");
53}
54
55PKSFiller::~PKSFiller()
56{
57 close();
58}
59
60bool PKSFiller::open( const std::string& filename)
61{
62 Bool haveBase, haveSpectra;
63
64 String inName(filename);
65 Path path(inName);
66 inName = path.expandedName();
67
68 File file(inName);
69 filename_ = inName;
70
71 // Create reader and fill in values for arguments
72 String format;
73 Vector<Bool> beams, ifs;
74 Vector<uInt> nchans,npols;
75
76 String antenna("0");
77
78 reader_ = getPKSreader(inName, antenna, 0, 0, format, beams, ifs,
79 nchans, npols, haveXPol_, haveBase, haveSpectra);
80 if (reader_.null() == True) {
81 return False;
82 }
83
84 if (!haveSpectra) {
85 reader_ = 0;
86 throw(AipsError("No spectral data in file."));
87 }
88
89 LogIO os( LogOrigin( "PKSFiller", "open()", WHERE ) ) ;
90 nBeam_ = beams.nelements();
91 nIF_ = ifs.nelements();
92 // Get basic parameters.
93 if ( anyEQ(haveXPol_, True) ) {
94 os << "Cross polarization present" << LogIO::POST;
95 for (uInt i=0; i< npols.nelements();++i) {
96 if (npols[i] < 3) npols[i] += 2;// Convert Complex -> 2 Floats
97 }
98 }
99 STHeader header;
100 header.nchan = max(nchans);
101 header.npol = max(npols);
102 header.nbeam = nBeam_;
103
104 Int status = reader_->getHeader(header.observer, header.project,
105 header.antennaname, header.antennaposition,
106 header.obstype,
107 header.fluxunit,
108 header.equinox,
109 header.freqref,
110 header.utc, header.reffreq,
111 header.bandwidth);
112
113 if (status) {
114 reader_ = 0;
115 throw(AipsError("Failed to get header."));
116 }
117 os << "Found " << header.antennaname << " data." << LogIO::POST;
118 if ((header.obstype).matches("*SW*")) {
119 // need robust way here - probably read ahead of next timestamp
120 os << "Header indicates frequency switched observation.\n"
121 << "setting # of IFs = 1 " << LogIO::POST;
122
123 nIF_ = 1;
124 header.obstype = String("fswitch");
125 }
126 // Determine Telescope and set brightness unit
127 Bool throwIt = False;
128 Instrument inst = STAttr::convertInstrument(header.antennaname, throwIt);
129
130 if (inst==ATMOPRA || inst==TIDBINBILLA) {
131 header.fluxunit = "K";
132 } else {
133 // downcase for use with Quanta
134 if (header.fluxunit == "JY") {
135 header.fluxunit = "Jy";
136 }
137 }
138 STAttr stattr;
139 header.poltype = stattr.feedPolType(inst);
140 header.nif = nIF_;
141 header.epoch = "UTC";
142 // *** header.frequnit = "Hz"
143 // Apply selection criteria.
144 Vector<Int> ref;
145
146 Vector<Int> start(nIF_, 1);
147 Vector<Int> end(nIF_, 0);
148 Bool getPt = False;
149 reader_->select(beams, ifs, start, end, ref, True, haveXPol_[0], False, getPt);
150 setHeader(header);
151 //For MS, add the location of POINTING of the input MS so one get
152 //pointing data from there, if necessary.
153 //Also find nrow in MS
154 nInDataRow = 0;
155 if (format == "MS2") {
156 Path datapath(inName);
157 String ptTabPath = datapath.absoluteName();
158 Table inMS(ptTabPath);
159 nInDataRow = inMS.nrow();
160 ptTabPath.append("/POINTING");
161 table_->table().rwKeywordSet().define("POINTING", ptTabPath);
162 if (header.antennaname.matches("GBT")) {
163 String GOTabPath = datapath.absoluteName();
164 GOTabPath.append("/GBT_GO");
165 table_->table().rwKeywordSet().define("GBT_GO", GOTabPath);
166 }
167 }
168 String freqFrame = header.freqref;
169 //translate frequency reference frame back to
170 //MS style (as PKSMS2reader converts the original frame
171 //in FITS standard style)
172 if (freqFrame == "TOPOCENT") {
173 freqFrame = "TOPO";
174 } else if (freqFrame == "GEOCENER") {
175 freqFrame = "GEO";
176 } else if (freqFrame == "BARYCENT") {
177 freqFrame = "BARY";
178 } else if (freqFrame == "GALACTOC") {
179 freqFrame = "GALACTO";
180 } else if (freqFrame == "LOCALGRP") {
181 freqFrame = "LGROUP";
182 } else if (freqFrame == "CMBDIPOL") {
183 freqFrame = "CMB";
184 } else if (freqFrame == "SOURCE") {
185 freqFrame = "REST";
186 }
187 // set both "FRAME" and "BASEFRAME"
188 table_->frequencies().setFrame(freqFrame, false);
189 table_->frequencies().setFrame(freqFrame, true);
190
191 return true;
192}
193
194void PKSFiller::close( )
195{
196 if (reader_.null() != False) {
197 reader_ = 0;
198 }
199 table_ = 0;
200}
201
202void PKSFiller::fill( )
203{
204 int status = 0;
205 LogIO os( LogOrigin( "PKSFiller", "fill()", WHERE ) ) ;
206
207/**
208 Int beamNo, IFno, refBeam, scanNo, cycleNo;
209 Float azimuth, elevation, focusAxi, focusRot, focusTan,
210 humidity, parAngle, pressure, temperature, windAz, windSpeed;
211 Double bandwidth, freqInc, interval, mjd, refFreq, srcVel;
212 String fieldName, srcName, tcalTime, obsType;
213 Vector<Float> calFctr, sigma, tcal, tsys;
214 Matrix<Float> baseLin, baseSub;
215 Vector<Double> direction(2), scanRate(2), srcDir(2), srcPM(2), restFreq(1);
216 Matrix<Float> spectra;
217 Matrix<uChar> flagtra;
218 Complex xCalFctr;
219 Vector<Complex> xPol;
220**/
221
222 Double min = 0.0;
223 Double max = nInDataRow;
224#ifdef HAS_ALMA
225 ProgressMeter fillpm(min, max, "Data importing progress");
226#endif
227 PKSrecord pksrec;
228 pksrec.srcType=-1;
229 int n = 0;
230 bool isGBTFITS = false ;
231 if ((table_->getAntennaName().find( "GBT" ) != String::npos)
232 && File(filename_).isRegular()) {
233 FILE *fp = fopen( filename_.c_str(), "r" ) ;
234 fseek( fp, 640, SEEK_SET ) ;
235 char buf[81] ;
236 fread( buf, 80, 1, fp ) ;
237 buf[80] = '\0' ;
238 if ( strstr( buf, "NRAO_GBT" ) != NULL ) {
239 isGBTFITS = true ;
240 }
241 fclose( fp ) ;
242 }
243
244 while ( status == 0 ) {
245
246 status = reader_->read(pksrec);
247 if ( status != 0 ) break;
248 n += 1;
249 Regex filterrx(".*[SL|PA]$");
250 Regex obsrx("^AT.+");
251 if ( table_->getAntennaName().matches(obsrx) &&
252 pksrec.obsType.matches(filterrx)) {
253 //cerr << "ignoring paddle scan" << endl;
254 continue;
255 }
256
257 Vector<Double> sratedbl(pksrec.scanRate.nelements());
258 convertArray(sratedbl, pksrec.scanRate);
259 setScanRate(sratedbl);
260
261 Regex rx(getReferenceRegex());
262 Regex rx2("_S$");
263 Int match = pksrec.srcName.matches(rx);
264 std::string srcname;
265 if (match) {
266 srcname = pksrec.srcName;
267 } else {
268 srcname = pksrec.srcName.before(rx2);
269 }
270 Int srctype = match;
271 if ( pksrec.srcType != -1 ) {
272 srctype = pksrec.srcType ;
273 }
274 setTime(pksrec.mjd, pksrec.interval);
275 setSource(srcname, srctype, pksrec.fieldName,
276 pksrec.srcDir, pksrec.srcPM, pksrec.srcVel);
277
278 if (nBeam_ > 1 ) {
279 setReferenceBeam(pksrec.refBeam-1);
280 }
281
282 setMolecule(pksrec.restFreq);
283 setTcal(pksrec.tcalTime, pksrec.tcal);
284 setWeather(pksrec.temperature, pksrec.pressure,
285 pksrec.humidity, pksrec.windSpeed,
286 pksrec.windAz);
287 setFocus(pksrec.parAngle, pksrec.focusAxi, pksrec.focusTan,
288 pksrec.focusRot);
289 setDirection(pksrec.direction, pksrec.azimuth, pksrec.elevation);
290
291 setFrequency(Double(pksrec.spectra.nrow()/2),
292 pksrec.refFreq, pksrec.freqInc);
293
294 // Note: this is only one value for all polarisations!
295 setFlagrow(pksrec.flagrow);
296 // Turn the (nchan,npol) matrix and possible complex xPol vector
297 // into 2-4 rows in the scantable
298 Vector<Float> tsysvec(1);
299 // Why is spectra.ncolumn() == 3 for haveXPol_ == True
300 uInt npol = (pksrec.spectra.ncolumn()==1 ? 1: 2);
301 uInt polno =0;
302 for ( uInt i=0; i< npol; ++i ) {
303 tsysvec = pksrec.tsys(i);
304 if (isGBTFITS) {
305 polno = pksrec.polNo ;
306 } else {
307 polno = i;
308 }
309 setIndex(pksrec.scanNo-1, pksrec.cycleNo-1, pksrec.IFno-1, polno,
310 pksrec.beamNo-1);
311 setSpectrum(pksrec.spectra.column(i), pksrec.flagged.column(i), tsysvec);
312 commitRow();
313 }
314 if ( haveXPol_[0] ) {
315 // no tsys given for xpol, so emulate it
316 tsysvec = sqrt(pksrec.tsys[0]*pksrec.tsys[1]);
317 // add real part of cross pol
318 polno = 2;
319 Vector<Float> r(real(pksrec.xPol));
320 // make up flags from linears
321 /// @fixme this has to be a bitwise or of both pols
322 /// pksrec.flagged.column(0) | pksrec.flagged.column(1);
323
324 setIndex(pksrec.scanNo-1, pksrec.cycleNo-1, pksrec.IFno-1, polno,
325 pksrec.beamNo-1);
326 setSpectrum(r, pksrec.flagged.column(0), tsysvec);
327 commitRow();
328
329 // ad imaginary part of cross pol
330 polno = 3;
331 Vector<Float> im(imag(pksrec.xPol));
332 setIndex(pksrec.scanNo-1, pksrec.cycleNo-1, pksrec.IFno-1, polno,
333 pksrec.beamNo-1);
334 setSpectrum(im, pksrec.flagged.column(0), tsysvec);
335 commitRow();
336 }
337#ifdef HAS_ALMA
338 fillpm._update(n);
339#endif
340 }
341 if (status > 0) {
342 close();
343 throw(AipsError("Reading error occured, data possibly corrupted."));
344 }
345#ifdef HAS_ALMA
346 fillpm.done();
347#endif
348}
349
350}//namespace asap
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