source: branches/parallel/external-alma/atnf/PKSIO/MBrecord.cc@ 2108

Last change on this file since 2108 was 1868, checked in by Takeshi Nakazato, 14 years ago

New Development: No

JIRA Issue: No

Ready for Test: Yes

Interface Changes: No

What Interface Changed: Please list interface changes

Test Programs: List test programs

Put in Release Notes: Yes/No

Module(s): atnf

Description: Describe your changes here...

Sync with code/atnf/implement/PKSIO


File size: 11.1 KB
Line 
1//#---------------------------------------------------------------------------
2//# MBrecord.cc: Class to store an MBFITS single-dish data record.
3//#---------------------------------------------------------------------------
4//# livedata - processing pipeline for single-dish, multibeam spectral data.
5//# Copyright (C) 2000-2009, Australia Telescope National Facility, CSIRO
6//#
7//# This file is part of livedata.
8//#
9//# livedata is free software: you can redistribute it and/or modify it under
10//# the terms of the GNU General Public License as published by the Free
11//# Software Foundation, either version 3 of the License, or (at your option)
12//# any later version.
13//#
14//# livedata is distributed in the hope that it will be useful, but WITHOUT
15//# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
16//# FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for
17//# more details.
18//#
19//# You should have received a copy of the GNU General Public License along
20//# with livedata. If not, see <http://www.gnu.org/licenses/>.
21//#
22//# Correspondence concerning livedata may be directed to:
23//# Internet email: mcalabre@atnf.csiro.au
24//# Postal address: Dr. Mark Calabretta
25//# Australia Telescope National Facility, CSIRO
26//# PO Box 76
27//# Epping NSW 1710
28//# AUSTRALIA
29//#
30//# http://www.atnf.csiro.au/computing/software/livedata.html
31//# $Id: MBrecord.cc,v 19.14 2009-09-29 07:33:38 cal103 Exp $
32//#---------------------------------------------------------------------------
33//# The MBrecord class stores an MBFITS single-dish data record.
34//#
35//# Original: 2000/08/01 Mark Calabretta, ATNF
36//#---------------------------------------------------------------------------
37
38#include <atnf/PKSIO/MBrecord.h>
39#include <atnf/PKSIO/SrcType.h>
40
41#include <string.h>
42
43//--------------------------------------------------------- MBrecord::MBrecord
44
45// Default constructor.
46
47MBrecord::MBrecord(int nif)
48{
49 // Construct arrays for the required number of IFs.
50 cNIF = 0;
51 setNIFs(nif);
52
53 scanNo = 0;
54 cycleNo = 0;
55 beamNo = 0;
56 pCode = 0;
57 rateAge = 0.0f;
58 raRate = 0.0f;
59 decRate = 0.0f;
60 nIF = 0;
61
62 srcType = SrcType::NOTYPE ;
63 srcVelocity = 0.0 ;
64}
65
66//-------------------------------------------------------- MBrecord::~MBrecord
67
68// Destructor.
69
70MBrecord::~MBrecord()
71{
72 free();
73}
74
75//---------------------------------------------------------- MBrecord::setNIFs
76
77// Expand arrays if necessary to accomodate the required number of IFs; never
78// contracts them.
79
80void MBrecord::setNIFs(int nif)
81{
82 if (nif < 1) return;
83
84 if (cNIF < nif) {
85 // Too few IFs, free everything.
86 if (cNIF) free();
87 }
88
89 if (cNIF == 0) {
90 IFno = new short[nif];
91 nChan = new int[nif];
92 nPol = new int[nif];
93 fqRefPix = new float[nif];
94 fqRefVal = new double[nif];
95 fqDelt = new double[nif];
96
97 tsys = new float[nif][2];
98 calfctr = new float[nif][2];
99 xcalfctr = new float[nif][2];
100 baseLin = new float[nif][2][2];
101 baseSub = new float[nif][2][24];
102 spectra = new float*[nif];
103 flagged = new unsigned char*[nif];
104 xpol = new float*[nif];
105 tcal = new float[nif][2];
106
107 cNProd = new int[nif];
108 cNXPol = new int[nif];
109
110 for (int iIF = 0; iIF < nif; iIF++) {
111 spectra[iIF] = 0x0;
112 flagged[iIF] = 0x0;
113 xpol[iIF] = 0x0;
114
115 cNProd[iIF] = 0;
116 cNXPol[iIF] = 0;
117 }
118
119 // The number we can accomodate, may exceed the number we have.
120 cNIF = nif;
121 }
122}
123
124//--------------------------------------------------------- MBrecord::allocate
125
126// Ensure there is enough storage for the specified number of spectral
127// products (channels x polarizations) for IF with array index iIF (i.e.
128// the actual IF number is IFno[iIF]). Expands arrays if necessary but
129// never contracts.
130
131void MBrecord::allocate(
132 int iIF,
133 int nprod,
134 int nxpol)
135{
136 // Don't mess with storage we didn't allocate.
137 if (cNProd[iIF] || spectra[iIF] == 0x0) {
138 if (cNProd[iIF] < nprod) {
139 if (cNProd[iIF]) {
140 // Free storage previously allocated.
141 delete [] spectra[iIF];
142 delete [] flagged[iIF];
143 }
144
145 // Reallocate data storage.
146 cNProd[iIF] = nprod;
147 spectra[iIF] = new float[nprod];
148 flagged[iIF] = new unsigned char[nprod];
149 }
150 }
151
152 if (cNXPol[iIF] || xpol[iIF] == 0x0) {
153 if (cNXPol[iIF] < nxpol) {
154 if (cNXPol[iIF]) {
155 // Free storage previously allocated.
156 delete [] xpol[iIF];
157 }
158
159 // Reallocate xpol storage.
160 cNXPol[iIF] = nxpol;
161 xpol[iIF] = new float[nxpol];
162 }
163 }
164}
165
166//------------------------------------------------------------- MBrecord::free
167
168// Free all allocated storage.
169
170void MBrecord::free()
171{
172 if (cNIF) {
173 for (int iIF = 0; iIF < cNIF; iIF++) {
174 // Don't free storage we didn't allocate.
175 if (cNProd[iIF]) {
176 delete [] spectra[iIF];
177 delete [] flagged[iIF];
178 }
179
180 if (cNXPol[iIF]) {
181 delete [] xpol[iIF];
182 }
183 }
184
185 delete [] IFno;
186 delete [] nChan;
187 delete [] nPol;
188 delete [] fqRefPix;
189 delete [] fqRefVal;
190 delete [] fqDelt;
191
192 delete [] tsys;
193 delete [] calfctr;
194 delete [] xcalfctr;
195 delete [] baseLin;
196 delete [] baseSub;
197
198 delete [] spectra;
199 delete [] flagged;
200 delete [] xpol;
201
202 delete [] tcal;
203
204 delete [] cNProd;
205 delete [] cNXPol;
206
207 cNIF = 0;
208 }
209}
210
211//-------------------------------------------------------- MBrecord::operator=
212
213// Do a deep copy of one MBrecord to another.
214
215MBrecord &MBrecord::operator=(const MBrecord &other)
216{
217 if (this == &other) {
218 return *this;
219 }
220
221 setNIFs(other.nIF);
222
223 scanNo = other.scanNo;
224 cycleNo = other.cycleNo;
225 strcpy(datobs, other.datobs);
226 utc = other.utc;
227
228 exposure = other.exposure;
229 strcpy(srcName, other.srcName);
230 srcRA = other.srcRA;
231 srcDec = other.srcDec;
232 restFreq = other.restFreq;
233 strcpy(obsType, other.obsType);
234
235 // Beam-dependent parameters.
236 beamNo = other.beamNo;
237 ra = other.ra;
238 dec = other.dec;
239 pCode = other.pCode;
240 rateAge = other.rateAge;
241 raRate = other.raRate;
242 decRate = other.decRate;
243
244 // IF-dependent parameters.
245 nIF = other.nIF;
246 for (int iIF = 0; iIF < nIF; iIF++) {
247 IFno[iIF] = other.IFno[iIF];
248 nChan[iIF] = other.nChan[iIF];
249 nPol[iIF] = other.nPol[iIF];
250 fqRefPix[iIF] = other.fqRefPix[iIF];
251 fqRefVal[iIF] = other.fqRefVal[iIF];
252 fqDelt[iIF] = other.fqDelt[iIF];
253
254 for (int j = 0; j < 2; j++) {
255 tsys[iIF][j] = other.tsys[iIF][j];
256 }
257
258 for (int j = 0; j < 2; j++) {
259 calfctr[iIF][j] = other.calfctr[iIF][j];
260 xcalfctr[iIF][j] = other.xcalfctr[iIF][j];
261 }
262
263 haveBase = other.haveBase;
264 for (int ipol = 0; ipol < nPol[iIF]; ipol++) {
265 baseLin[iIF][ipol][0] = other.baseLin[iIF][ipol][0];
266 baseLin[iIF][ipol][1] = other.baseLin[iIF][ipol][1];
267
268 for (int j = 0; j < 24; j++) {
269 baseSub[iIF][ipol][j] = other.baseSub[iIF][ipol][j];
270 }
271 }
272
273 for (int j = 0; j < 2; j++) {
274 tcal[iIF][j] = other.tcal[iIF][j];
275 }
276 }
277
278 haveSpectra = other.haveSpectra;
279 if (haveSpectra) {
280 for (int iIF = 0; iIF < nIF; iIF++) {
281 int nprod = nChan[iIF] * nPol[iIF];
282 int nxpol = other.xpol[iIF] ? nChan[iIF] * 2 : 0;
283 allocate(iIF, nprod, nxpol);
284 }
285
286 // Copy data.
287 for (int iIF = 0; iIF < nIF; iIF++) {
288 float *specp = spectra[iIF];
289 float *ospecp = other.spectra[iIF];
290 unsigned char *flagp = flagged[iIF];
291 unsigned char *oflagp = other.flagged[iIF];
292 for (int j = 0; j < nChan[iIF]*nPol[iIF]; j++) {
293 *(specp++) = *(ospecp++);
294 *(flagp++) = *(oflagp++);
295 }
296
297 if (xpol[iIF]) {
298 float *xpolp = xpol[iIF];
299 float *oxpolp = other.xpol[iIF];
300 for (int j = 0; j < 2*nChan[iIF]; j++) {
301 *(xpolp++) = *(oxpolp++);
302 }
303 }
304 }
305 }
306
307 extraSysCal = other.extraSysCal;
308
309 azimuth = other.azimuth;
310 elevation = other.elevation;
311 parAngle = other.parAngle;
312 paRate = other.paRate;
313
314 focusAxi = other.focusAxi;
315 focusTan = other.focusTan;
316 focusRot = other.focusRot;
317
318 temp = other.temp;
319 pressure = other.pressure;
320 humidity = other.humidity;
321 windSpeed = other.windSpeed;
322 windAz = other.windAz;
323
324 strcpy(tcalTime, other.tcalTime);
325
326 refBeam = other.refBeam;
327
328 polNo = other.polNo ;
329 srcVelocity = other.srcVelocity ;
330
331 srcType = other.srcType ;
332
333 return *this;
334}
335
336//---------------------------------------------------------- MBrecord::extract
337
338// Extract a selected IF from one MBrecord into another.
339
340int MBrecord::extract(const MBrecord &other, int iIF)
341{
342 if (this == &other) {
343 return 1;
344 }
345
346 setNIFs(1);
347
348 scanNo = other.scanNo;
349 cycleNo = other.cycleNo;
350 strcpy(datobs, other.datobs);
351 utc = other.utc;
352
353 exposure = other.exposure;
354 strcpy(srcName, other.srcName);
355 srcRA = other.srcRA;
356 srcDec = other.srcDec;
357 restFreq = other.restFreq;
358 strcpy(obsType, other.obsType);
359
360 // Beam-dependent parameters.
361 beamNo = other.beamNo;
362 ra = other.ra;
363 dec = other.dec;
364 pCode = other.pCode;
365 rateAge = other.rateAge;
366 raRate = other.raRate;
367 decRate = other.decRate;
368 paRate = other.paRate;
369
370 // IF-dependent parameters.
371 nIF = 1;
372 IFno[0] = other.IFno[iIF];
373 nChan[0] = other.nChan[iIF];
374 nPol[0] = other.nPol[iIF];
375 fqRefPix[0] = other.fqRefPix[iIF];
376 fqRefVal[0] = other.fqRefVal[iIF];
377 fqDelt[0] = other.fqDelt[iIF];
378
379 for (int j = 0; j < 2; j++) {
380 tsys[0][j] = other.tsys[iIF][j];
381 }
382
383 for (int j = 0; j < 2; j++) {
384 calfctr[0][j] = other.calfctr[iIF][j];
385 xcalfctr[0][j] = other.xcalfctr[iIF][j];
386 }
387
388 haveBase = other.haveBase;
389 for (int ipol = 0; ipol < nPol[0]; ipol++) {
390 baseLin[0][ipol][0] = other.baseLin[iIF][ipol][0];
391 baseLin[0][ipol][1] = other.baseLin[iIF][ipol][1];
392
393 for (int j = 0; j < 24; j++) {
394 baseSub[0][ipol][j] = other.baseSub[iIF][ipol][j];
395 }
396 }
397
398 for (int j = 0; j < 2; j++) {
399 tcal[0][j] = other.tcal[iIF][j];
400 }
401
402 haveSpectra = other.haveSpectra;
403 if (haveSpectra) {
404 int nprod = nChan[0] * nPol[0];
405 int nxpol = other.xpol[iIF] ? nChan[0] * 2 : 0;
406 allocate(0, nprod, nxpol);
407
408 // Copy data.
409 float *specp = spectra[0];
410 float *ospecp = other.spectra[iIF];
411 unsigned char *flagp = flagged[0];
412 unsigned char *oflagp = other.flagged[iIF];
413 for (int j = 0; j < nChan[0]*nPol[0]; j++) {
414 *(specp++) = *(ospecp++);
415 *(flagp++) = *(oflagp++);
416 }
417
418 if (xpol[0]) {
419 float *xpolp = xpol[0];
420 float *oxpolp = other.xpol[iIF];
421 for (int j = 0; j < 2*nChan[0]; j++) {
422 *(xpolp++) = *(oxpolp++);
423 }
424 }
425 }
426
427 extraSysCal = other.extraSysCal;
428
429 azimuth = other.azimuth;
430 elevation = other.elevation;
431 parAngle = other.parAngle;
432
433 focusAxi = other.focusAxi;
434 focusTan = other.focusTan;
435 focusRot = other.focusRot;
436
437 temp = other.temp;
438 pressure = other.pressure;
439 humidity = other.humidity;
440 windSpeed = other.windSpeed;
441 windAz = other.windAz;
442
443 strcpy(tcalTime, other.tcalTime);
444
445 refBeam = other.refBeam;
446
447 polNo = other.polNo ;
448 srcVelocity = other.srcVelocity ;
449
450 srcType = other.srcType ;
451
452 return 0;
453}
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