Line data Source code
1 : //# VisCalGlobals.cc: Implementation of VisCalGlobals
2 : //# Copyright (C) 1996,1997,2000,2001,2002,2003
3 : //# Associated Universities, Inc. Washington DC, USA.
4 : //#
5 : //# This library is free software; you can redistribute it and/or modify it
6 : //# under the terms of the GNU Library General Public License as published by
7 : //# the Free Software Foundation; either version 2 of the License, or (at your
8 : //# option) any later version.
9 : //#
10 : //# This library is distributed in the hope that it will be useful, but WITHOUT
11 : //# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
12 : //# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public
13 : //# License for more details.
14 : //#
15 : //# You should have received a copy of the GNU Library General Public License
16 : //# along with this library; if not, write to the Free Software Foundation,
17 : //# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
18 : //#
19 : //# Correspondence concerning AIPS++ should be adressed as follows:
20 : //# Internet email: casa-feedback@nrao.edu.
21 : //# Postal address: AIPS++ Project Office
22 : //# National Radio Astronomy Observatory
23 : //# 520 Edgemont Road
24 : //# Charlottesville, VA 22903-2475 USA
25 : //#
26 : //#
27 :
28 : #include <synthesis/MeasurementComponents/VisCalGlobals.h>
29 : #include <synthesis/MeasurementComponents/MSMetaInfoForCal.h>
30 : #include <synthesis/MeasurementComponents/StandardVisCal.h>
31 : #include <synthesis/MeasurementComponents/DJones.h>
32 : #include <synthesis/MeasurementComponents/XJones.h>
33 : #include <synthesis/MeasurementComponents/GSpline.h>
34 : #include <synthesis/MeasurementComponents/BPoly.h>
35 : #include <synthesis/MeasurementComponents/EJones.h>
36 : #include <synthesis/MeasurementComponents/EPJones.h>
37 : #include <synthesis/MeasurementComponents/FJones.h>
38 : #include <synthesis/MeasurementComponents/FringeJones.h>
39 : #include <synthesis/MeasurementComponents/AccorJones.h>
40 : #include <synthesis/MeasurementComponents/KJones.h>
41 : #include <synthesis/MeasurementComponents/LJJones.h>
42 : #include <synthesis/MeasurementComponents/AMueller.h>
43 : #include <synthesis/MeasurementComponents/TsysGainCal.h>
44 : #include <synthesis/MeasurementComponents/EVLASwPow.h>
45 : #include <synthesis/MeasurementComponents/SingleDishSkyCal.h>
46 : #include <synthesis/MeasurementComponents/SDDoubleCircleGainCal.h>
47 :
48 : using namespace casacore;
49 : namespace casa { //# NAMESPACE CASA - BEGIN
50 :
51 :
52 : // Create a specialized VisCal from VisSet
53 0 : VisCal* createVisCal(const String& type, VisSet& vs) {
54 :
55 0 : String uptype=type;
56 0 : uptype.upcase();
57 :
58 0 : if (uptype=="P" || uptype=="P JONES")
59 0 : return new PJones(vs);
60 :
61 : else
62 : // Try request as a solvable type
63 0 : return createSolvableVisCal(type,vs);
64 0 : };
65 :
66 : // Create a specialized VisCal from msname, nAnt, nSpw
67 0 : VisCal* createVisCal(const String& type, String msname, Int MSnAnt, Int MSnSpw) {
68 :
69 0 : String uptype=type;
70 0 : uptype.upcase();
71 :
72 0 : if (uptype=="P" || uptype=="P JONES")
73 0 : return new PJones(msname,MSnAnt,MSnSpw);
74 :
75 : else
76 : // Try request as a solvable type
77 0 : return createSolvableVisCal(type,msname,MSnAnt,MSnSpw);
78 0 : };
79 :
80 : // Create a specialized VisCal from MSMetaInfoForCal
81 0 : VisCal* createVisCal(const String& type, const MSMetaInfoForCal& msmc) {
82 :
83 0 : String uptype=type;
84 0 : uptype.upcase();
85 :
86 0 : if (uptype=="P" || uptype=="P JONES")
87 0 : return new PJones(msmc);
88 :
89 : else
90 : // Try request as a solvable type
91 0 : return createSolvableVisCal(type,msmc);
92 0 : };
93 :
94 :
95 : // Create a specialized VisCal from nAnt
96 0 : VisCal* createVisCal(const String& type, const Int& nAnt) {
97 :
98 : // TBD: handle P w/out an MS?
99 : // if (type=="P")
100 : // return new PJones(nAnt);
101 : // else
102 : // Try request as a solvable type
103 0 : return createSolvableVisCal(type,nAnt);
104 : };
105 :
106 :
107 : // Create a specialized SolvableVisCal from VisSet
108 32 : SolvableVisCal* createSolvableVisCal(const String& type, VisSet& vs) {
109 :
110 32 : String uptype=type;
111 32 : uptype.upcase();
112 :
113 32 : if (uptype=="B" || uptype=="B JONES")
114 0 : return new BJones(vs);
115 :
116 32 : else if (uptype=="BPOLY")
117 0 : return new BJonesPoly(vs);
118 :
119 32 : else if (uptype=="G" || uptype=="G JONES")
120 0 : return new GJones(vs);
121 :
122 32 : else if (uptype=="GSPLINE")
123 0 : return new GJonesSpline(vs);
124 :
125 32 : else if (uptype=="TF" || uptype=="TF JONES" || uptype=="TF NOISE")
126 10 : return new TfJones(vs);
127 :
128 22 : else if (uptype=="T" || uptype=="T JONES" || uptype=="T NOISE")
129 6 : return new TJones(vs);
130 :
131 48 : else if (uptype.before('+')=="DLIN" ||
132 48 : uptype.before('+')=="D" ||
133 16 : uptype=="D JONES")
134 0 : return new DlinJones(vs);
135 :
136 48 : else if (uptype.before('+')=="DFLIN" ||
137 48 : uptype.before('+')=="DF" ||
138 16 : uptype=="DF JONES")
139 0 : return new DflinJones(vs);
140 :
141 32 : else if (uptype.before('+')=="DLLS" ||
142 16 : uptype=="DLLS JONES")
143 0 : return new DllsJones(vs);
144 :
145 32 : else if (uptype.before('+')=="DFLLS" ||
146 16 : uptype=="DFLLS JONES")
147 0 : return new DfllsJones(vs);
148 :
149 48 : else if (uptype.before('+')=="DGEN" ||
150 48 : uptype.before('+')=="DGENERAL" ||
151 16 : uptype=="DGEN JONES")
152 0 : return new DJones(vs);
153 :
154 48 : else if (uptype.before('+')=="DFGEN" ||
155 48 : uptype.before('+')=="DFGENERAL" ||
156 16 : uptype=="DFGEN JONES")
157 0 : return new DfJones(vs);
158 :
159 16 : else if (uptype=="J" || uptype=="J JONES")
160 0 : return new JJones(vs);
161 :
162 16 : else if (uptype=="JF" || uptype=="JF JONES")
163 0 : return new JfJones(vs);
164 :
165 16 : else if (uptype == "EP" || uptype == "EP JONES")
166 0 : return new EPJones(vs);
167 :
168 16 : else if (uptype == "LJ" || uptype == "LJ JONES")
169 0 : return new LJJones(vs);
170 :
171 16 : else if (uptype=="M" || uptype=="M MUELLER")
172 0 : return new MMueller(vs);
173 :
174 16 : else if (uptype=="A" || uptype=="A MUELLER")
175 0 : return new AMueller(vs);
176 :
177 16 : else if (uptype=="N" || uptype=="A NOISE")
178 16 : return new ANoise(vs);
179 :
180 0 : else if (uptype=="MF" || uptype=="MF MUELLER")
181 0 : return new MfMueller(vs);
182 :
183 0 : else if (uptype=="X" || uptype=="X MUELLER")
184 0 : return new XMueller(vs);
185 :
186 0 : else if (uptype=="XJ" || uptype=="X JONES")
187 0 : return new XJones(vs);
188 :
189 0 : else if (uptype=="XF" || uptype=="XF JONES")
190 0 : return new XfJones(vs);
191 :
192 0 : else if (uptype=="K" || uptype=="K JONES")
193 0 : return new KJones(vs);
194 :
195 0 : else if (uptype=="KCROSS" || uptype=="KCROSS JONES")
196 0 : return new KcrossJones(vs);
197 :
198 0 : else if (uptype=="GLINXPH" || uptype=="GLINXPH JONES" ||
199 0 : uptype=="XY+QU")
200 0 : return new GlinXphJones(vs);
201 :
202 0 : else if (uptype=="GLINXPHF" || uptype=="GLINXPHF JONES" ||
203 0 : uptype=="XYF+QU")
204 0 : return new GlinXphfJones(vs);
205 :
206 0 : else if (uptype=="KMBD" || uptype=="KMBD JONES")
207 0 : return new KMBDJones(vs);
208 :
209 0 : else if (uptype.contains("KANTPOS") || uptype.contains("KANTPOS JONES"))
210 0 : return new KAntPosJones(vs);
211 :
212 0 : else if (uptype.contains("TSYS"))
213 0 : return new StandardTsys(vs);
214 :
215 0 : else if (uptype.contains("EVLASWP"))
216 0 : return new EVLASwPow(vs);
217 :
218 0 : else if (uptype=="TFOPAC") // Not yet solvable (even though an SVJ)
219 0 : return new TfOpac(vs);
220 :
221 0 : else if (uptype=="TOPAC") // Not yet solvable (even though an SVJ)
222 0 : return new TOpac(vs);
223 :
224 0 : else if (uptype.contains("GAINCURVE")) // Not yet solvable (even though an SVJ)
225 0 : return new EGainCurve(vs);
226 :
227 0 : else if (uptype.contains("POWERCURVE")) // Not yet solvable (even though an SVJ)
228 0 : return new EPowerCurve(vs);
229 :
230 0 : else if (uptype.contains("EVLAGAIN"))
231 0 : throw(AipsError("Please regenerate EVLA Sw Pow table using gencal."));
232 :
233 0 : else if (uptype.contains("TEC") || uptype.contains("F JONES") ) // Ionosphere
234 0 : return new FJones(vs);
235 :
236 0 : else if (uptype.contains("FRINGE")) // Fringe-fitting
237 0 : return new FringeJones(vs);
238 :
239 0 : else if (uptype.contains("ACCOR"))
240 0 : return new AccorJones(vs);
241 :
242 0 : else if (uptype.contains("SDSKY_PS"))
243 0 : return new SingleDishPositionSwitchCal(vs);
244 :
245 0 : else if (uptype.contains("SDSKY_RASTER"))
246 0 : return new SingleDishRasterCal(vs);
247 :
248 0 : else if (uptype.contains("SDSKY_OTF"))
249 0 : return new SingleDishOtfCal(vs);
250 :
251 0 : else if (uptype.contains("SDGAIN_OTFD"))
252 0 : return new SDDoubleCircleGainCal(vs);
253 :
254 : else {
255 0 : throw(AipsError("Unknown calibration type: '"+type+"'"));
256 : }
257 32 : };
258 :
259 :
260 : // Create a specialized VisCal from msname, nAnt, nSpw
261 0 : SolvableVisCal* createSolvableVisCal(const String& type, String msname, Int MSnAnt, Int MSnSpw) {
262 0 : String uptype=type;
263 0 : uptype.upcase();
264 :
265 0 : if (uptype=="B" || uptype=="B JONES")
266 0 : return new BJones(msname,MSnAnt,MSnSpw);
267 :
268 0 : else if (uptype=="BPOLY")
269 0 : throw(AipsError(uptype+" not yet supported via BJonesPoly(msname,MSnAnt,MSnSpw)"));
270 : // return new BJonesPoly(msname,MSnAnt,MSnSpw);
271 :
272 0 : else if (uptype=="G" || uptype=="G JONES")
273 0 : return new GJones(msname,MSnAnt,MSnSpw);
274 :
275 0 : else if (uptype=="GSPLINE")
276 0 : throw(AipsError(uptype+" not yet supported via GJonesSpline(msname,MSnAnt,MSnSpw)"));
277 : //return new GJonesSpline(msname,MSnAnt,MSnSpw);
278 :
279 0 : else if (uptype=="TF" || uptype=="TF JONES" || uptype=="TF NOISE")
280 0 : return new TfJones(msname,MSnAnt,MSnSpw);
281 :
282 0 : else if (uptype=="T" || uptype=="T JONES" || uptype=="T NOISE")
283 0 : return new TJones(msname,MSnAnt,MSnSpw);
284 :
285 0 : else if (uptype.before('+')=="DLIN" ||
286 0 : uptype.before('+')=="D" ||
287 0 : uptype=="D JONES")
288 0 : return new DlinJones(msname,MSnAnt,MSnSpw);
289 :
290 0 : else if (uptype.before('+')=="DFLIN" ||
291 0 : uptype.before('+')=="DF" ||
292 0 : uptype=="DF JONES")
293 0 : return new DflinJones(msname,MSnAnt,MSnSpw);
294 :
295 0 : else if (uptype.before('+')=="DLLS" ||
296 0 : uptype=="DLLS JONES")
297 0 : return new DllsJones(msname,MSnAnt,MSnSpw);
298 :
299 0 : else if (uptype.before('+')=="DFLLS" ||
300 0 : uptype=="DFLLS JONES")
301 0 : return new DfllsJones(msname,MSnAnt,MSnSpw);
302 :
303 0 : else if (uptype.before('+')=="DGEN" ||
304 0 : uptype.before('+')=="DGENERAL" ||
305 0 : uptype=="DGEN JONES")
306 0 : return new DJones(msname,MSnAnt,MSnSpw);
307 :
308 0 : else if (uptype.before('+')=="DFGEN" ||
309 0 : uptype.before('+')=="DFGENERAL" ||
310 0 : uptype=="DFGEN JONES")
311 0 : return new DfJones(msname,MSnAnt,MSnSpw);
312 :
313 0 : else if (uptype=="J" || uptype=="J JONES")
314 0 : return new JJones(msname,MSnAnt,MSnSpw);
315 :
316 0 : else if (uptype=="JF" || uptype=="JF JONES")
317 0 : return new JfJones(msname,MSnAnt,MSnSpw);
318 :
319 0 : else if (uptype == "EP" || uptype == "EP JONES")
320 0 : throw(AipsError(uptype+" not yet supported via EPJones(msname,MSnAnt,MSnSpw)"));
321 : // return new EPJones(msname,MSnAnt,MSnSpw);
322 :
323 0 : else if (uptype == "LJ" || uptype == "LJ JONES")
324 0 : throw(AipsError(uptype+" not yet supported via LJJones(msname,MSnAnt,MSnSpw)"));
325 : // return new LJJones(msname,MSnAnt,MSnSpw);
326 :
327 0 : else if (uptype=="M" || uptype=="M MUELLER")
328 0 : return new MMueller(msname,MSnAnt,MSnSpw);
329 :
330 0 : else if (uptype=="A" || uptype=="A MUELLER")
331 0 : return new AMueller(msname,MSnAnt,MSnSpw);
332 :
333 0 : else if (uptype=="N" || uptype=="A NOISE")
334 0 : return new ANoise(msname,MSnAnt,MSnSpw);
335 :
336 0 : else if (uptype=="MF" || uptype=="MF MUELLER")
337 0 : return new MfMueller(msname,MSnAnt,MSnSpw);
338 :
339 0 : else if (uptype=="X" || uptype=="X MUELLER")
340 0 : return new XMueller(msname,MSnAnt,MSnSpw);
341 :
342 0 : else if (uptype=="XJ" || uptype=="X JONES")
343 0 : return new XJones(msname,MSnAnt,MSnSpw);
344 :
345 0 : else if (uptype=="XF" || uptype=="XF JONES")
346 0 : return new XfJones(msname,MSnAnt,MSnSpw);
347 :
348 0 : else if (uptype=="K" || uptype=="K JONES")
349 0 : return new KJones(msname,MSnAnt,MSnSpw);
350 :
351 0 : else if (uptype=="KCROSS" || uptype=="KCROSS JONES")
352 0 : return new KcrossJones(msname,MSnAnt,MSnSpw);
353 :
354 0 : else if (uptype=="GLINXPH" || uptype=="GLINXPH JONES" ||
355 0 : uptype=="XY+QU")
356 0 : return new GlinXphJones(msname,MSnAnt,MSnSpw);
357 :
358 0 : else if (uptype=="GLINXPHF" || uptype=="GLINXPHF JONES" ||
359 0 : uptype=="XYF+QU")
360 0 : return new GlinXphfJones(msname,MSnAnt,MSnSpw);
361 :
362 0 : else if (uptype=="KMBD" || uptype=="KMBD JONES")
363 0 : return new KMBDJones(msname,MSnAnt,MSnSpw);
364 :
365 0 : else if (uptype.contains("KANTPOS") || uptype.contains("KANTPOS JONES"))
366 0 : return new KAntPosJones(msname,MSnAnt,MSnSpw);
367 :
368 0 : else if (uptype.contains("TSYS"))
369 0 : return new StandardTsys(msname,MSnAnt,MSnSpw);
370 :
371 0 : else if (uptype.contains("EVLASWP"))
372 0 : return new EVLASwPow(msname,MSnAnt,MSnSpw);
373 :
374 0 : else if (uptype=="TFOPAC") // Not yet solvable (even though an SVJ)
375 0 : return new TfOpac(msname,MSnAnt,MSnSpw);
376 :
377 0 : else if (uptype=="TOPAC") // Not yet solvable (even though an SVJ)
378 0 : return new TOpac(msname,MSnAnt,MSnSpw);
379 :
380 0 : else if (uptype.contains("GAINCURVE")) // Not yet solvable (even though an SVJ)
381 0 : return new EGainCurve(msname,MSnAnt,MSnSpw);
382 :
383 0 : else if (uptype.contains("POWERCURVE")) // Not yet solvable (even though an SVJ)
384 0 : return new EPowerCurve(msname,MSnAnt,MSnSpw);
385 :
386 0 : else if (uptype.contains("EVLAGAIN"))
387 0 : throw(AipsError("Please regenerate EVLA Sw Pow table using gencal."));
388 :
389 0 : else if (uptype.contains("TEC") || uptype.contains("F JONES") ) // Ionosphere
390 0 : return new FJones(msname,MSnAnt,MSnSpw);
391 :
392 0 : else if (uptype.contains("FRINGE")) // Fringe-fitting
393 0 : return new FringeJones(msname,MSnAnt,MSnSpw);
394 :
395 0 : else if (uptype.contains("ACCOR"))
396 0 : return new AccorJones(msname,MSnAnt,MSnSpw);
397 :
398 0 : else if (uptype.contains("SDSKY_PS"))
399 0 : throw(AipsError(uptype+" not yet supported via SingleDishPositionSwitchCal(msname,MSnAnt,MSnSpw)"));
400 : // return new SingleDishPositionSwitchCal(msname,MSnAnt,MSnSpw);
401 :
402 0 : else if (uptype.contains("SDSKY_RASTER"))
403 0 : throw(AipsError(uptype+" not yet supported via SingleDishRasterCal(msname,MSnAnt,MSnSpw)"));
404 : // return new SingleDishRasterCal(msname,MSnAnt,MSnSpw);
405 :
406 0 : else if (uptype.contains("SDSKY_OTF"))
407 0 : throw(AipsError(uptype+" not yet supported via SingleDishOtfCal(msname,MSnAnt,MSnSpw)"));
408 : // return new SingleDishOtfCal(msname,MSnAnt,MSnSpw);
409 :
410 : else {
411 0 : throw(AipsError("Unknown calibration type: '"+type+"'"));
412 : }
413 0 : };
414 :
415 :
416 : // Create a specialized VisCal from MSMetaInfoForCal
417 0 : SolvableVisCal* createSolvableVisCal(const String& type, const MSMetaInfoForCal& msmc) {
418 0 : String uptype=type;
419 0 : uptype.upcase();
420 :
421 0 : if (uptype=="B" || uptype=="B JONES")
422 0 : return new BJones(msmc);
423 :
424 0 : else if (uptype=="BPOLY")
425 : //throw(AipsError(uptype+" not yet supported via BJonesPoly(msmc)"));
426 0 : return new BJonesPoly(msmc);
427 :
428 0 : else if (uptype=="G" || uptype=="G JONES")
429 0 : return new GJones(msmc);
430 :
431 0 : else if (uptype=="GSPLINE")
432 : //throw(AipsError(uptype+" not yet supported via GJonesSpline(msmc)"))
433 0 : return new GJonesSpline(msmc);
434 :
435 0 : else if (uptype=="TF" || uptype=="TF JONES" || uptype=="TF NOISE")
436 0 : return new TfJones(msmc);
437 :
438 0 : else if (uptype=="T" || uptype=="T JONES" || uptype=="T NOISE")
439 0 : return new TJones(msmc);
440 :
441 0 : else if (uptype.before('+')=="DLIN" ||
442 0 : uptype.before('+')=="D" ||
443 0 : uptype=="D JONES")
444 0 : return new DlinJones(msmc);
445 :
446 0 : else if (uptype.before('+')=="DFLIN" ||
447 0 : uptype.before('+')=="DF" ||
448 0 : uptype=="DF JONES")
449 0 : return new DflinJones(msmc);
450 :
451 0 : else if (uptype.before('+')=="DLLS" ||
452 0 : uptype=="DLLS JONES")
453 0 : return new DllsJones(msmc);
454 :
455 0 : else if (uptype.before('+')=="DFLLS" ||
456 0 : uptype=="DFLLS JONES")
457 0 : return new DfllsJones(msmc);
458 :
459 0 : else if (uptype.before('+')=="DGEN" ||
460 0 : uptype.before('+')=="DGENERAL" ||
461 0 : uptype=="DGEN JONES")
462 0 : return new DJones(msmc);
463 :
464 0 : else if (uptype.before('+')=="DFGEN" ||
465 0 : uptype.before('+')=="DFGENERAL" ||
466 0 : uptype=="DFGEN JONES")
467 0 : return new DfJones(msmc);
468 :
469 0 : else if (uptype=="J" || uptype=="J JONES")
470 0 : return new JJones(msmc);
471 :
472 0 : else if (uptype=="JF" || uptype=="JF JONES")
473 0 : return new JfJones(msmc);
474 :
475 0 : else if (uptype == "EP" || uptype == "EP JONES")
476 0 : throw(AipsError(uptype+" not yet supported via EPJones(msmc)"));
477 : // return new EPJones(msmc);
478 :
479 0 : else if (uptype == "LJ" || uptype == "LJ JONES")
480 0 : throw(AipsError(uptype+" not yet supported via LJJones(msmc)"));
481 : // return new LJJones(msmc);
482 :
483 0 : else if (uptype=="M" || uptype=="M MUELLER")
484 0 : return new MMueller(msmc);
485 :
486 0 : else if (uptype=="A" || uptype=="A MUELLER")
487 0 : return new AMueller(msmc);
488 :
489 0 : else if (uptype=="N" || uptype=="A NOISE")
490 0 : return new ANoise(msmc);
491 :
492 0 : else if (uptype=="MF" || uptype=="MF MUELLER")
493 0 : return new MfMueller(msmc);
494 :
495 0 : else if (uptype=="X" || uptype=="X MUELLER")
496 0 : return new XMueller(msmc);
497 :
498 0 : else if (uptype=="XJ" || uptype=="X JONES")
499 0 : return new XJones(msmc);
500 :
501 0 : else if (uptype=="XF" || uptype=="XF JONES")
502 0 : return new XfJones(msmc);
503 :
504 0 : else if (uptype=="K" || uptype=="K JONES")
505 0 : return new KJones(msmc);
506 :
507 0 : else if (uptype=="KCROSS" || uptype=="KCROSS JONES")
508 0 : return new KcrossJones(msmc);
509 :
510 0 : else if (uptype=="GLINXPH" || uptype=="GLINXPH JONES" ||
511 0 : uptype=="XY+QU")
512 0 : return new GlinXphJones(msmc);
513 :
514 0 : else if (uptype=="GLINXPHF" || uptype=="GLINXPHF JONES" ||
515 0 : uptype=="XYF+QU")
516 0 : return new GlinXphfJones(msmc);
517 :
518 0 : else if (uptype=="XPARANG" || uptype=="XPARANG JONES" ||
519 0 : uptype=="XPARANG+QU")
520 0 : return new XparangJones(msmc);
521 :
522 0 : else if (uptype=="XFPARANG" || uptype=="XFPARANG JONES" ||
523 0 : uptype=="XFPARANG+QU")
524 0 : return new XfparangJones(msmc);
525 :
526 0 : else if (uptype=="POSANG" || uptype=="POSANG JONES")
527 0 : return new PosAngJones(msmc);
528 :
529 0 : else if (uptype=="KMBD" || uptype=="KMBD JONES")
530 0 : return new KMBDJones(msmc);
531 :
532 0 : else if (uptype.contains("KANTPOS") || uptype.contains("KANTPOS JONES"))
533 0 : return new KAntPosJones(msmc);
534 :
535 0 : else if (uptype.contains("TSYS"))
536 0 : return new StandardTsys(msmc);
537 :
538 0 : else if (uptype.contains("EVLASWP"))
539 0 : return new EVLASwPow(msmc);
540 :
541 0 : else if (uptype=="TFOPAC") // Not yet solvable (even though an SVJ)
542 0 : return new TfOpac(msmc);
543 :
544 0 : else if (uptype=="TOPAC") // Not yet solvable (even though an SVJ)
545 0 : return new TOpac(msmc);
546 :
547 0 : else if (uptype.contains("GAINCURVE")) // Not yet solvable (even though an SVJ)
548 0 : return new EGainCurve(msmc);
549 :
550 0 : else if (uptype.contains("POWERCURVE")) // Not yet solvable (even though an SVJ)
551 0 : return new EPowerCurve(msmc);
552 :
553 0 : else if (uptype.contains("EVLAGAIN"))
554 0 : throw(AipsError("Please regenerate EVLA Sw Pow table using gencal."));
555 :
556 0 : else if (uptype.contains("TEC") || uptype.contains("F JONES") ) // Ionosphere
557 0 : return new FJones(msmc);
558 :
559 0 : else if (uptype.contains("FRINGE")) // Fringe-fitting
560 0 : return new FringeJones(msmc);
561 :
562 0 : else if (uptype.contains("ACCOR"))
563 0 : return new AccorJones(msmc);
564 :
565 0 : else if (uptype.contains("SDSKY_PS"))
566 0 : return new SingleDishPositionSwitchCal(msmc);
567 :
568 0 : else if (uptype.contains("SDSKY_RASTER"))
569 0 : return new SingleDishRasterCal(msmc);
570 :
571 0 : else if (uptype.contains("SDSKY_OTF"))
572 0 : throw(AipsError(uptype+" not yet supported via SingleDishOtfCal(msmc)"));
573 : //return new SingleDishOtfCal(msmc);
574 :
575 0 : else if (uptype.contains("SDGAIN_OTFD"))
576 0 : return new SDDoubleCircleGainCal(msmc);
577 :
578 : else {
579 0 : throw(AipsError("Unknown calibration type: '"+type+"'"));
580 : }
581 0 : };
582 :
583 : // Create a specialized SolvableVisCal from nAnt
584 0 : SolvableVisCal* createSolvableVisCal(const String& type, const Int& nAnt) {
585 :
586 0 : if (type=="B")
587 0 : return new BJones(nAnt);
588 :
589 0 : else if (type=="G")
590 0 : return new GJones(nAnt);
591 :
592 0 : else if (type=="T")
593 0 : return new TJones(nAnt);
594 :
595 0 : else if (type=="D")
596 0 : return new DJones(nAnt);
597 :
598 0 : else if (type=="Df")
599 0 : return new DfJones(nAnt);
600 :
601 0 : else if (type=="J")
602 0 : return new JJones(nAnt);
603 :
604 : else {
605 0 : throw(AipsError("Unknown calibration type: '"+type+"'"));
606 : }
607 : };
608 :
609 :
610 : namespace viscal {
611 :
612 : // Parameter axis slicer for caltables
613 : // (experimental)
614 0 : Slice calParSlice(String caltabname, String what, String pol)
615 : {
616 0 : String caltype=calTableType(caltabname); // From SolvableVisCal.h (for now)
617 0 : return calParSliceByType(caltype,what,pol);
618 0 : }
619 :
620 0 : Slice calParSliceByType(String caltype, String what, String pol)
621 : {
622 : // Upcase all inputs
623 : // TBD: do this with local copies
624 0 : caltype.upcase();
625 0 : what.upcase();
626 0 : pol.upcase();
627 0 : Int s(0),n(0),i(1);
628 :
629 0 : if (caltype=="B TSYS") {
630 0 : if (what=="TSYS") {
631 0 : s=0;
632 0 : i=1;
633 : }
634 : else
635 0 : throw(AipsError("Unsupported value type: "+what));
636 : }
637 0 : else if (caltype=="TOPAC") {
638 0 : if (what=="OPAC") {
639 0 : if (pol=="")
640 0 : return Slice(0,1,1); // trivial
641 : else
642 0 : throw(AipsError("Can't select with pol='"+pol+"' on unpolarized OPAC table."));
643 : }
644 : else
645 0 : throw(AipsError("Unsupported value type: "+what));
646 : }
647 0 : else if (caltype.contains("EVLASWP")) {
648 : // caltype = "G EVLASWPOW" so put before "G" !
649 0 : i=2; // 2 pars-per-pol
650 0 : if ((what=="GAINAMP") || (what=="SWPOWER"))
651 0 : s=0;
652 0 : else if (what=="TSYS")
653 0 : s=1;
654 : else
655 0 : throw(AipsError("Unsupported value type: "+what));
656 : }
657 0 : else if ((caltype[0]=='G') ||
658 0 : caltype[0]=='B' ||
659 0 : caltype[0]=='D') {
660 0 : if (what=="AMP" ||
661 0 : what=="PHASE" ||
662 0 : what=="REAL" ||
663 0 : what=="IMAG") {
664 0 : s=0; // nominal start is first pol
665 0 : i=1; // increment is nominally 1 (only good for 1-par-per-pol caltypes
666 : }
667 : else
668 0 : throw(AipsError("Unsupported value type: "+what));
669 : }
670 0 : else if ((caltype[0]=='T') || (caltype[0]=='X' && !caltype.contains("MUELLER"))) {
671 0 : if (what=="AMP" ||
672 0 : what=="PHASE" ||
673 0 : what=="REAL" ||
674 0 : what=="IMAG") {
675 0 : if (pol=="")
676 0 : return Slice(0,1,1); // trivial
677 : else
678 0 : throw(AipsError("Can't select with pol='"+pol+"' on unpolarized table."));
679 : }
680 : else
681 0 : throw(AipsError("Unsupported value type: "+what));
682 : }
683 0 : else if (caltype[0]=='A') {
684 0 : if (what=="AMP" ||
685 0 : what=="PHASE" ||
686 0 : what=="REAL" ||
687 0 : what=="IMAG") {
688 0 : s=0; // nominal start is first pol
689 0 : i=1; // increment is nominally 1 (only good for 1-par-per-pol caltypes
690 : }
691 : else
692 0 : throw(AipsError("Unsupported value type: "+what));
693 : }
694 0 : else if (caltype[0]=='K') {
695 0 : if (caltype=="KANTPOS JONES") {
696 : // antenna x,y,z corrections not pol
697 0 : if (pol=="")
698 0 : return Slice(0,3,1);
699 : else
700 0 : throw(AipsError("Can't select with pol='"+pol+"' on antpos table."));
701 : } else {
702 0 : if (what=="DELAY") {
703 0 : s=0;
704 0 : i=1;
705 : } else {
706 0 : throw(AipsError("Unsupported value type: "+what));
707 : }
708 : }
709 : }
710 0 : else if (caltype[0]=='F') {
711 0 : if (caltype.contains("FRINGE")) {
712 0 : i = 4;
713 0 : if (what=="PHASE") {
714 0 : s = 0;
715 0 : } else if (what=="DELAY") {
716 0 : s = 1;
717 0 : } else if (what=="RATE") {
718 0 : s = 2;
719 0 : } else if (what=="DISP") {
720 0 : s = 3;
721 : } else {
722 0 : throw(AipsError("Unsupported value type: "+what));
723 : }
724 0 : } else if (what=="TEC") {
725 0 : if (pol=="")
726 0 : return Slice(0,1,1); // trivial
727 : else
728 0 : throw(AipsError("Can't select with pol='"+pol+"' on unpolarized TEC table."));
729 : }
730 : else
731 0 : throw(AipsError("Unsupported value type: "+what));
732 : }
733 0 : else if (caltype.contains("SDSKY") || caltype.contains("SDGAIN")) {
734 0 : if ((what=="AMP") || (what=="REAL")) {
735 0 : s=0; // nominal start is first pol
736 0 : i=1; // increment is nominally 1 (only good for 1-par-per-pol caltypes
737 : } else {
738 0 : throw(AipsError("Unsupported value type: "+what));
739 : }
740 : }
741 0 : else if (caltype=="EGAINCURVE") {
742 0 : if (what=="AMP" ||
743 0 : what=="PHASE" ||
744 0 : what=="REAL" ||
745 0 : what=="IMAG") {
746 0 : if (pol=="")
747 0 : return Slice(0,8,1);
748 : }
749 : }
750 0 : else if (caltype=="EPOWERCURVE") {
751 0 : if (what=="AMP" ||
752 0 : what=="PHASE" ||
753 0 : what=="REAL" ||
754 0 : what=="IMAG") {
755 0 : if (pol=="")
756 0 : return Slice(0,16,1);
757 : }
758 : }
759 : else
760 0 : throw(AipsError("Unsupported cal type: "+caltype));
761 :
762 : // Apply generalized pol selection
763 0 : if (pol=="L" ||
764 0 : pol=="Y") {
765 0 : s+=i; // jump by incr to 2nd pol
766 0 : n=1;
767 : }
768 0 : else if (pol=="R" || pol=="X") {
769 0 : n=1; // for _all_ single-pol selections
770 : }
771 0 : else if (pol=="" || pol=="RL" || pol=="XY") {
772 0 : n=2; // both pols
773 : }
774 : else {
775 0 : throw(AipsError("Unsupported pol: "+pol));
776 : }
777 :
778 0 : return Slice(s,n,i);
779 :
780 : }
781 :
782 : } //# NAMESPACE VISCAL - END
783 :
784 :
785 : } //# NAMESPACE CASA - END
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