Line data Source code
1 : //-*- C++ -*-
2 : #define NEED_UNDERSCORES
3 : #if defined(NEED_UNDERSCORES)
4 : #define gpbwproj gpbwproj_
5 : #define dpbwproj dpbwproj_
6 : #define dpbwgrad dpbwgrad_
7 : #endif
8 :
9 : extern "C" {
10 : void gpbwproj(const Double *uvw,
11 : const Double *dphase,
12 : const Complex *values,
13 : Int *nvispol,
14 : Int *nvischan,
15 : Int *dopsf,
16 : const Int *flag,
17 : const Int *rflag,
18 : const Float *weight,
19 : Int *nrow,
20 : Int *rownum,
21 : const Double *scale,
22 : const Double *offset,
23 : const Complex *grid,
24 : Int *nx,
25 : Int *ny,
26 : Int *npol,
27 : Int *nchan,
28 : const Double *freq,
29 : const Double *c,
30 : const Int *support,
31 : const Int *convsize,
32 : Int *sampling,
33 : Int *wconvsize,
34 : Complex *convfunc,
35 : const Int *chanmap,
36 : const Int *polmap,
37 : const Int *polused,
38 : const Double *sumwt,
39 : const Int *ant1,
40 : const Int *ant2,
41 : const Int *nant,
42 : Int *scanno,
43 : Double *sigma,
44 : Float *raoff,
45 : Float *decoff,
46 : Double *area,
47 : Int *doGrad,
48 : Int *doPointingCorrection,
49 : Int *nPA,
50 : Int *paIndex,
51 : Int *CFMap,
52 : Int *ConjCFMap,
53 : Double *currentCFPA, Double *actualPA,Double *cfRefFreq_p);
54 : void dpbwproj(const Double *uvw,
55 : const Double *dphase,
56 : Complex *values,
57 : Int *nvispol,
58 : Int *nvischan,
59 : const Int *flag,
60 : const Int *rflag,
61 : Int *nrow,
62 : Int *rownum,
63 : const Double *scale,
64 : const Double *offset,
65 : const Complex *grid,
66 : Int *nx,
67 : Int *ny,
68 : Int *npol,
69 : Int *nchan,
70 : const Double *freq,
71 : const Double *c,
72 : const Int *support,
73 : const Int *convsize,
74 : Int *sampling,
75 : Int *wconvsize,
76 : Complex *convfunc,
77 : const Int *chanmap,
78 : const Int *polmap,
79 : const Int *polused,
80 : const Int *ant1,
81 : const Int *ant2,
82 : const Int *nant,
83 : Int *scanno,
84 : Double *sigma,
85 : Float *raoff, Float *decoff,
86 : Double *area,
87 : Int *dograd,
88 : Int *doPointingCorrection,
89 : Int *nPA,
90 : Int *paIndex,
91 : Int *CFMap,
92 : Int *ConjCFMap,
93 : Double *currentCFPA, Double *actualPA, Double *cfRefFreq_p);
94 : void dpbwgrad(const Double *uvw,
95 : const Double *dphase,
96 : const Complex *values,
97 : Int *nvispol,
98 : Int *nvischan,
99 : Complex *gazvalues,
100 : Complex *gelvalues,
101 : Int *doconj,
102 : const Int *flag,
103 : const Int *rflag,
104 : Int *nrow,
105 : Int *rownum,
106 : const Double *scale,
107 : const Double *offset,
108 : const Complex *grid,
109 : Int *nx,
110 : Int *ny,
111 : Int *npol,
112 : Int *nchan,
113 : const Double *freq,
114 : const Double *c,
115 : const Int *support,
116 : Int *convsize,
117 : Int *sampling,
118 : Int *wconvsize,
119 : Complex *convfunc,
120 : const Int *chanmap,
121 : const Int *polmap,
122 : const Int *polused,
123 : const Int *ant1,
124 : const Int *ant2,
125 : Int *nant,
126 : Int *scanno,
127 : Double *sigma,
128 : Float *raoff, Float *decoff,
129 : Double *area,
130 : Int *dograd,
131 : Int *doPointingCorrection,
132 : Int *nPA,
133 : Int *paIndex,
134 : Int *CFMap,
135 : Int *ConjCFMap,
136 : Double *currentCFPA, Double *actualPA, Double *cfRefFreq_p);
137 : }
138 : //
139 : //----------------------------------------------------------------------
140 : //
141 0 : void AWProjectFT::runFortranGet(Matrix<Double>& uvw,Vector<Double>& dphase,
142 : Cube<Complex>& visdata,
143 : IPosition& s,
144 : // Cube<Complex>& gradVisAzData,
145 : // Cube<Complex>& gradVisElData,
146 : // IPosition& gradS,
147 : Int& Conj,
148 : Cube<Int>& flags,Vector<Int>& rowFlags,
149 : Int& rownr,Vector<Double>& actualOffset,
150 : Array<Complex>* dataPtr,
151 : Int& aNx, Int& aNy, Int& npol, Int& nchan,
152 : VisBuffer2& vb,Int& Nant_p, Int& scanNo,
153 : Double& sigma,
154 : Array<Float>& l_off,
155 : Array<Float>& m_off,
156 : Double area,
157 : Int& doGrad,
158 : Int paIndex)
159 : {
160 0 : LogIO log_l(LogOrigin("AWProjectFT", "runFortranGet"));
161 : (void)Conj; //To supress the warning
162 : enum whichGetStorage {RAOFF,DECOFF,UVW,DPHASE,VISDATA,GRADVISAZ,GRADVISEL,
163 : FLAGS,ROWFLAGS,UVSCALE,ACTUALOFFSET,DATAPTR,VBFREQ,
164 : CONVSUPPORT,CONVFUNC,CHANMAP,POLMAP,VBANT1,VBANT2,CONJCFMAP,CFMAP};
165 0 : Vector<Bool> deleteThem(21);
166 :
167 : const Double *uvw_p, *dphase_p, *actualOffset_p, *vb_freq_p, *uvScale_p;
168 : Complex *visdata_p;
169 : Complex *dataPtr_p, *f_convFunc_p;
170 : const Int *flags_p, *rowFlags_p, *chanMap_p, *polMap_p, *convSupport_p, *vb_ant1_p, *vb_ant2_p;
171 : Int *ConjCFMap_p, *CFMap_p;
172 : Float *l_off_p, *m_off_p;
173 : Double actualPA;
174 :
175 0 : Vector<Int> ConjCFMap, CFMap;
176 : /*
177 : ConjCFMap = CFMap = polMap;
178 : CFMap = makeConjPolMap(vb);
179 : */
180 : Int N;
181 0 : actualPA = getVBPA(vb);
182 :
183 0 : N=polMap.nelements();
184 0 : CFMap = polMap; ConjCFMap = polMap;
185 0 : for(Int i=0;i<N;i++) CFMap[i] = polMap[N-i-1];
186 :
187 0 : Array<Complex> rotatedConvFunc;
188 : // SynthesisUtils::rotateComplexArray(log_l, convFunc_p, cfs_p.coordSys,
189 : // rotatedConvFunc,(currentCFPA-actualPA),"CUBIC");
190 : // SynthesisUtils::rotateComplexArray(log_l, convFunc_p, cfs_p.coordSys,
191 : // rotatedConvFunc,0.0,"LINEAR");
192 0 : SynthesisUtils::rotateComplexArray(log_l, *(cfs_p.data), /*convFunc_p,*/ cfs_p.coordSys,
193 0 : rotatedConvFunc,(currentCFPA-actualPA),"LINEAR");
194 :
195 0 : ConjCFMap = polMap;
196 0 : makeCFPolMap(vb,cfStokes_p,CFMap);
197 0 : makeConjPolMap(vb,CFMap,ConjCFMap);
198 :
199 :
200 0 : ConjCFMap_p = ConjCFMap.getStorage(deleteThem(CONJCFMAP));
201 0 : CFMap_p = CFMap.getStorage(deleteThem(CFMAP));
202 :
203 0 : uvw_p = uvw.getStorage(deleteThem(UVW));
204 0 : dphase_p = dphase.getStorage(deleteThem(DPHASE));
205 0 : visdata_p = (Complex *)visdata.getStorage(deleteThem(VISDATA));
206 : // gradVisAzData_p = gradVisAzData.getStorage(deleteThem(GRADVISAZ));
207 : // gradVisElData_p = gradVisElData.getStorage(deleteThem(GRADVISEL));
208 0 : flags_p = flags.getStorage(deleteThem(FLAGS));
209 0 : rowFlags_p = rowFlags.getStorage(deleteThem(ROWFLAGS));
210 0 : uvScale_p = uvScale.getStorage(deleteThem(UVSCALE));
211 0 : actualOffset_p = actualOffset.getStorage(deleteThem(ACTUALOFFSET));
212 0 : dataPtr_p = dataPtr->getStorage(deleteThem(DATAPTR));
213 : //vb_freq_p = vb.frequency().getStorage(deleteThem(VBFREQ));
214 0 : vb_freq_p = vb.getFrequencies(0).getStorage(deleteThem(VBFREQ));
215 0 : convSupport_p = cfs_p.xSupport.getStorage(deleteThem(CONVSUPPORT));
216 : // f_convFunc_p = convFunc_p.getStorage(deleteThem(CONVFUNC));
217 0 : f_convFunc_p = rotatedConvFunc.getStorage(deleteThem(CONVFUNC));
218 0 : chanMap_p = chanMap.getStorage(deleteThem(CHANMAP));
219 0 : polMap_p = polMap.getStorage(deleteThem(POLMAP));
220 0 : vb_ant1_p = vb.antenna1().getStorage(deleteThem(VBANT1));
221 0 : vb_ant2_p = vb.antenna2().getStorage(deleteThem(VBANT2));
222 0 : l_off_p = l_off.getStorage(deleteThem(RAOFF));
223 0 : m_off_p = m_off.getStorage(deleteThem(DECOFF));
224 :
225 : // Int npa=convSupport.shape()(2),actualConvSize;
226 0 : Int npa=1,actualConvSize;
227 0 : Int paIndex_Fortran = paIndex;
228 0 : actualConvSize = cfs_p.data->shape()(0);
229 :
230 : // IPosition shp=convSupport.shape();
231 :
232 0 : dpbwproj(uvw_p,
233 : dphase_p,
234 : // vb.modelVisCube().getStorage(del),
235 : visdata_p,
236 0 : &s.asVector()(0),
237 0 : &s.asVector()(1),
238 : // gradVisAzData_p,
239 : // gradVisElData_p,
240 : // &gradS(0),
241 : // &gradS(1),
242 : // &Conj,
243 : flags_p,
244 : rowFlags_p,
245 0 : &s.asVector()(2),
246 : &rownr,
247 : uvScale_p,
248 : actualOffset_p,
249 : dataPtr_p,
250 : &aNx,
251 : &aNy,
252 : &npol,
253 : &nchan,
254 : vb_freq_p,
255 : &C::c,
256 : convSupport_p,
257 : &actualConvSize,
258 : &convSampling,
259 : &wConvSize,
260 : f_convFunc_p,
261 : chanMap_p,
262 : polMap_p,
263 0 : &polInUse_p,
264 : vb_ant1_p,
265 : vb_ant2_p,
266 : &Nant_p,
267 : &scanNo,
268 : &sigma,
269 : l_off_p, m_off_p,
270 : &area,
271 : &doGrad,
272 : &doPointing,
273 : &npa,
274 : &paIndex_Fortran,
275 : CFMap_p,
276 : ConjCFMap_p,
277 : ¤tCFPA
278 : ,&actualPA,&cfRefFreq_p
279 : );
280 :
281 0 : ConjCFMap.freeStorage((const Int *&)ConjCFMap_p,deleteThem(CONJCFMAP));
282 0 : CFMap.freeStorage((const Int *&)CFMap_p,deleteThem(CFMAP));
283 :
284 0 : l_off.freeStorage((const Float*&)l_off_p,deleteThem(RAOFF));
285 0 : m_off.freeStorage((const Float*&)m_off_p,deleteThem(DECOFF));
286 0 : uvw.freeStorage((const Double*&)uvw_p,deleteThem(UVW));
287 0 : dphase.freeStorage((const Double*&)dphase_p,deleteThem(DPHASE));
288 0 : visdata.putStorage(visdata_p,deleteThem(VISDATA));
289 0 : flags.freeStorage((const Int*&) flags_p,deleteThem(FLAGS));
290 0 : rowFlags.freeStorage((const Int *&)rowFlags_p,deleteThem(ROWFLAGS));
291 0 : actualOffset.freeStorage((const Double*&)actualOffset_p,deleteThem(ACTUALOFFSET));
292 0 : dataPtr->freeStorage((const Complex *&)dataPtr_p,deleteThem(DATAPTR));
293 0 : uvScale.freeStorage((const Double*&) uvScale_p,deleteThem(UVSCALE));
294 0 : vb.getFrequencies(0).freeStorage((const Double*&)vb_freq_p,deleteThem(VBFREQ));
295 0 : cfs_p.xSupport.freeStorage((const Int*&)convSupport_p,deleteThem(CONVSUPPORT));
296 : // convFunc_p.freeStorage((const Complex *&)f_convFunc_p,deleteThem(CONVFUNC));
297 0 : chanMap.freeStorage((const Int*&)chanMap_p,deleteThem(CHANMAP));
298 0 : polMap.freeStorage((const Int*&) polMap_p,deleteThem(POLMAP));
299 0 : vb.antenna1().freeStorage((const Int*&) vb_ant1_p,deleteThem(VBANT1));
300 0 : vb.antenna2().freeStorage((const Int*&) vb_ant2_p,deleteThem(VBANT2));
301 0 : }
302 : //
303 : //----------------------------------------------------------------------
304 : //
305 0 : void AWProjectFT::runFortranGetGrad(Matrix<Double>& uvw,Vector<Double>& dphase,
306 : Cube<Complex>& visdata,
307 : IPosition& s,
308 : Cube<Complex>& gradVisAzData,
309 : Cube<Complex>& gradVisElData,
310 : // IPosition& gradS,
311 : Int& Conj,
312 : Cube<Int>& flags,Vector<Int>& rowFlags,
313 : Int& rownr,Vector<Double>& actualOffset,
314 : Array<Complex>* dataPtr,
315 : Int& aNx, Int& aNy, Int& npol, Int& nchan,
316 : VisBuffer2& vb,Int& Nant_p, Int& scanNo,
317 : Double& sigma,
318 : Array<Float>& l_off,
319 : Array<Float>& m_off,
320 : Double area,
321 : Int& doGrad,
322 : Int paIndex)
323 : {
324 0 : LogIO log_l(LogOrigin("AWProjectFT", "runFortranGetGrad"));
325 : enum whichGetStorage {RAOFF,DECOFF,UVW,DPHASE,VISDATA,GRADVISAZ,GRADVISEL,
326 : FLAGS,ROWFLAGS,UVSCALE,ACTUALOFFSET,DATAPTR,VBFREQ,
327 : CONVSUPPORT,CONVFUNC,CHANMAP,POLMAP,VBANT1,VBANT2,CONJCFMAP,CFMAP};
328 0 : Vector<Bool> deleteThem(21);
329 :
330 : const Double *uvw_p, *dphase_p, *actualOffset_p, *vb_freq_p, *uvScale_p;
331 : Complex *visdata_p;
332 : Complex *dataPtr_p, *f_convFunc_p;
333 : Complex *gradVisAzData_p, *gradVisElData_p;
334 : const Int *flags_p, *rowFlags_p, *chanMap_p, *polMap_p, *convSupport_p, *vb_ant1_p, *vb_ant2_p;
335 : Int *ConjCFMap_p, *CFMap_p;
336 : Float *l_off_p, *m_off_p;
337 : Double actualPA;
338 :
339 0 : Vector<Int> ConjCFMap, CFMap;
340 0 : actualPA = getVBPA(vb);
341 0 : ConjCFMap = polMap;
342 0 : makeCFPolMap(vb,cfStokes_p,CFMap);
343 0 : makeConjPolMap(vb,CFMap,ConjCFMap);
344 :
345 0 : Array<Complex> rotatedConvFunc;
346 : // SynthesisUtils::rotateComplexArray(log_l, convFunc_p, cfs_p.coordSys,
347 : // rotatedConvFunc,(currentCFPA-actualPA),"LINEAR");
348 0 : SynthesisUtils::rotateComplexArray(log_l, *(cfs_p.data) /*convFunc_p*/, cfs_p.coordSys,
349 : rotatedConvFunc,0.0);
350 : // SynthesisUtils::rotateComplexArray(log_l, convFunc_p, cfs_p.coordSys,
351 : // rotatedConvFunc,(currentCFPA-actualPA),"LINEAR");
352 :
353 0 : ConjCFMap_p = ConjCFMap.getStorage(deleteThem(CONJCFMAP));
354 0 : CFMap_p = CFMap.getStorage(deleteThem(CFMAP));
355 :
356 0 : uvw_p = uvw.getStorage(deleteThem(UVW));
357 0 : dphase_p = dphase.getStorage(deleteThem(DPHASE));
358 0 : visdata_p = visdata.getStorage(deleteThem(VISDATA));
359 0 : gradVisAzData_p = gradVisAzData.getStorage(deleteThem(GRADVISAZ));
360 0 : gradVisElData_p = gradVisElData.getStorage(deleteThem(GRADVISEL));
361 0 : flags_p = flags.getStorage(deleteThem(FLAGS));
362 0 : rowFlags_p = rowFlags.getStorage(deleteThem(ROWFLAGS));
363 0 : uvScale_p = uvScale.getStorage(deleteThem(UVSCALE));
364 0 : actualOffset_p = actualOffset.getStorage(deleteThem(ACTUALOFFSET));
365 0 : dataPtr_p = dataPtr->getStorage(deleteThem(DATAPTR));
366 0 : vb_freq_p = vb.getFrequencies(0).getStorage(deleteThem(VBFREQ));
367 0 : convSupport_p = cfs_p.xSupport.getStorage(deleteThem(CONVSUPPORT));
368 : // f_convFunc_p = convFunc_p.getStorage(deleteThem(CONVFUNC));
369 0 : f_convFunc_p = rotatedConvFunc.getStorage(deleteThem(CONVFUNC));
370 0 : chanMap_p = chanMap.getStorage(deleteThem(CHANMAP));
371 0 : polMap_p = polMap.getStorage(deleteThem(POLMAP));
372 0 : vb_ant1_p = vb.antenna1().getStorage(deleteThem(VBANT1));
373 0 : vb_ant2_p = vb.antenna2().getStorage(deleteThem(VBANT2));
374 0 : l_off_p = l_off.getStorage(deleteThem(RAOFF));
375 0 : m_off_p = m_off.getStorage(deleteThem(DECOFF));
376 :
377 : // Int npa=convSupport.shape()(2),actualConvSize;
378 0 : Int npa=1,actualConvSize;
379 0 : Int paIndex_Fortran = paIndex;
380 0 : actualConvSize = cfs_p.data->shape()(0);
381 :
382 : // IPosition shp=convSupport.shape();
383 :
384 0 : dpbwgrad(uvw_p,
385 : dphase_p,
386 : // vb.modelVisCube().getStorage(del),
387 : visdata_p,
388 0 : &s.asVector()(0),
389 0 : &s.asVector()(1),
390 : gradVisAzData_p,
391 : gradVisElData_p,
392 : // &gradS(0),
393 : // &gradS(1),
394 : &Conj,
395 : flags_p,
396 : rowFlags_p,
397 0 : &s.asVector()(2),
398 : &rownr,
399 : uvScale_p,
400 : actualOffset_p,
401 : dataPtr_p,
402 : &aNx,
403 : &aNy,
404 : &npol,
405 : &nchan,
406 : vb_freq_p,
407 : &C::c,
408 : convSupport_p,
409 : &actualConvSize,
410 : &convSampling,
411 : &wConvSize,
412 : f_convFunc_p,
413 : chanMap_p,
414 : polMap_p,
415 0 : &polInUse_p,
416 : vb_ant1_p,
417 : vb_ant2_p,
418 : &Nant_p,
419 : &scanNo,
420 : &sigma,
421 : l_off_p, m_off_p,
422 : &area,
423 : &doGrad,
424 : &doPointing,
425 : &npa,
426 : &paIndex_Fortran,
427 : CFMap_p,
428 : ConjCFMap_p,
429 : ¤tCFPA
430 : ,&actualPA,&cfRefFreq_p
431 : );
432 :
433 0 : ConjCFMap.freeStorage((const Int *&)ConjCFMap_p,deleteThem(CONJCFMAP));
434 0 : CFMap.freeStorage((const Int *&)CFMap_p,deleteThem(CFMAP));
435 :
436 0 : l_off.freeStorage((const Float*&)l_off_p,deleteThem(RAOFF));
437 0 : m_off.freeStorage((const Float*&)m_off_p,deleteThem(DECOFF));
438 0 : uvw.freeStorage((const Double*&)uvw_p,deleteThem(UVW));
439 0 : dphase.freeStorage((const Double*&)dphase_p,deleteThem(DPHASE));
440 0 : Bool tmp=deleteThem(VISDATA);
441 0 : visdata.putStorage(visdata_p,tmp);
442 0 : gradVisAzData.putStorage(gradVisAzData_p,deleteThem(GRADVISAZ));
443 0 : gradVisElData.putStorage(gradVisElData_p,deleteThem(GRADVISEL));
444 0 : flags.freeStorage((const Int*&) flags_p,deleteThem(FLAGS));
445 0 : rowFlags.freeStorage((const Int *&)rowFlags_p,deleteThem(ROWFLAGS));
446 0 : actualOffset.freeStorage((const Double*&)actualOffset_p,deleteThem(ACTUALOFFSET));
447 0 : dataPtr->freeStorage((const Complex *&)dataPtr_p,deleteThem(DATAPTR));
448 0 : uvScale.freeStorage((const Double*&) uvScale_p,deleteThem(UVSCALE));
449 0 : vb.getFrequencies(0).freeStorage((const Double*&)vb_freq_p,deleteThem(VBFREQ));
450 0 : cfs_p.xSupport.freeStorage((const Int*&)convSupport_p,deleteThem(CONVSUPPORT));
451 : // convFunc_p.freeStorage((const Complex *&)f_convFunc_p,deleteThem(CONVFUNC));
452 0 : chanMap.freeStorage((const Int*&)chanMap_p,deleteThem(CHANMAP));
453 0 : polMap.freeStorage((const Int*&) polMap_p,deleteThem(POLMAP));
454 0 : vb.antenna1().freeStorage((const Int*&) vb_ant1_p,deleteThem(VBANT1));
455 0 : vb.antenna2().freeStorage((const Int*&) vb_ant2_p,deleteThem(VBANT2));
456 0 : }
457 : //
458 : //----------------------------------------------------------------------
459 : //
460 0 : void AWProjectFT::runFortranPut(Matrix<Double>& uvw,Vector<Double>& dphase,
461 : const Complex& visdata,
462 : IPosition& s,
463 : // Cube<Complex>& gradVisAzData,
464 : // Cube<Complex>& gradVisElData,
465 : // IPosition& gradS,
466 : Int& Conj,
467 : Cube<Int>& flags,Vector<Int>& rowFlags,
468 : const Matrix<Float>& weight,
469 : Int& rownr,Vector<Double>& actualOffset,
470 : Array<Complex>& dataPtr,
471 : Int& aNx, Int& aNy, Int& npol, Int& nchan,
472 : const VisBuffer2& vb,Int& Nant_p, Int& scanNo,
473 : Double& sigma,
474 : Array<Float>& l_off,
475 : Array<Float>& m_off,
476 : Matrix<Double>& sumWeight,
477 : Double& area,
478 : Int& doGrad,
479 : Int& doPSF,
480 : Int paIndex)
481 : {
482 0 : LogIO log_l(LogOrigin("AWProjectFT", "runFortranPut"));
483 :
484 : (void)Conj; //To supress the warning
485 : enum whichGetStorage {RAOFF,DECOFF,UVW,DPHASE,VISDATA,GRADVISAZ,GRADVISEL,
486 : FLAGS,ROWFLAGS,UVSCALE,ACTUALOFFSET,DATAPTR,VBFREQ,
487 : CONVSUPPORT,CONVFUNC,CHANMAP,POLMAP,VBANT1,VBANT2,WEIGHT,
488 : SUMWEIGHT,CONJCFMAP,CFMAP};
489 0 : Vector<Bool> deleteThem(23);
490 :
491 : const Double *uvw_p, *dphase_p, *actualOffset_p, *vb_freq_p, *uvScale_p;
492 : Complex *dataPtr_p, *f_convFunc_p;
493 : // Complex *gradVisAzData_p, *gradVisElData_p;
494 : const Int *flags_p, *rowFlags_p, *chanMap_p, *polMap_p, *convSupport_p, *vb_ant1_p, *vb_ant2_p;
495 : Int *ConjCFMap_p, *CFMap_p;
496 : Float *l_off_p, *m_off_p;
497 : Float *weight_p;Double *sumwt_p;
498 : Double actualPA;
499 0 : const Complex *visdata_p=&visdata;
500 :
501 0 : Vector<Int> ConjCFMap, CFMap;
502 0 : actualPA = getVBPA(vb);
503 0 : ConjCFMap = polMap;
504 :
505 0 : Array<Complex> rotatedConvFunc;
506 : // SynthesisUtils::rotateComplexArray(log_l, convFunc_p, cfs_p.coordSys,
507 : // rotatedConvFunc,(currentCFPA-actualPA),"LINEAR");
508 0 : SynthesisUtils::rotateComplexArray(log_l, *(cfs_p.data) /*convFunc_p*/, cfs_p.coordSys,
509 : rotatedConvFunc,0.0,"LINEAR");
510 :
511 : /*
512 : CFMap = polMap; ConjCFMap = polMap;
513 : CFMap = makeConjPolMap(vb);
514 : */
515 0 : makeCFPolMap(vb,cfStokes_p,CFMap);
516 0 : makeConjPolMap(vb,CFMap,ConjCFMap);
517 :
518 0 : ConjCFMap_p = ConjCFMap.getStorage(deleteThem(CONJCFMAP));
519 0 : CFMap_p = CFMap.getStorage(deleteThem(CFMAP));
520 :
521 0 : uvw_p = uvw.getStorage(deleteThem(UVW));
522 0 : dphase_p = dphase.getStorage(deleteThem(DPHASE));
523 : // visdata_p = visdata.getStorage(deleteThem(VISDATA));
524 : // gradVisAzData_p = gradVisAzData.getStorage(deleteThem(GRADVISAZ));
525 : // gradVisElData_p = gradVisElData.getStorage(deleteThem(GRADVISEL));
526 0 : flags_p = flags.getStorage(deleteThem(FLAGS));
527 0 : rowFlags_p = rowFlags.getStorage(deleteThem(ROWFLAGS));
528 0 : uvScale_p = uvScale.getStorage(deleteThem(UVSCALE));
529 0 : actualOffset_p = actualOffset.getStorage(deleteThem(ACTUALOFFSET));
530 0 : dataPtr_p = dataPtr.getStorage(deleteThem(DATAPTR));
531 0 : vb_freq_p = (Double *)(vb.getFrequencies(0).getStorage(deleteThem(VBFREQ)));
532 0 : convSupport_p = cfs_p.xSupport.getStorage(deleteThem(CONVSUPPORT));
533 : // f_convFunc_p = convFunc_p.getStorage(deleteThem(CONVFUNC));
534 0 : f_convFunc_p = rotatedConvFunc.getStorage(deleteThem(CONVFUNC));
535 0 : chanMap_p = chanMap.getStorage(deleteThem(CHANMAP));
536 0 : polMap_p = polMap.getStorage(deleteThem(POLMAP));
537 0 : vb_ant1_p = (Int *)(vb.antenna1().getStorage(deleteThem(VBANT1)));
538 0 : vb_ant2_p = (Int *)(vb.antenna2().getStorage(deleteThem(VBANT2)));
539 0 : l_off_p = l_off.getStorage(deleteThem(RAOFF));
540 0 : m_off_p = m_off.getStorage(deleteThem(DECOFF));
541 0 : weight_p = (Float *)(weight.getStorage(deleteThem(WEIGHT)));
542 0 : sumwt_p = sumWeight.getStorage(deleteThem(SUMWEIGHT));
543 :
544 :
545 : // Int npa=convSupport.shape()(2),actualConvSize;
546 0 : Int npa=1,actualConvSize;
547 0 : Int paIndex_Fortran = paIndex;
548 0 : actualConvSize = cfs_p.data->shape()(0);
549 :
550 : // IPosition shp=convSupport.shape();
551 :
552 0 : gpbwproj(uvw_p,
553 : dphase_p,
554 : // vb.modelVisCube().getStorage(del),
555 : visdata_p,
556 0 : &s.asVector()(0),
557 0 : &s.asVector()(1),
558 : // gradVisAzData_p,
559 : // gradVisElData_p,
560 : // &gradS(0),
561 : // &gradS(1),
562 : // &Conj,
563 : &doPSF,
564 : flags_p,
565 : rowFlags_p,
566 : weight_p,
567 0 : &s.asVector()(2),
568 : &rownr,
569 : uvScale_p,
570 : actualOffset_p,
571 : dataPtr_p,
572 : &aNx,
573 : &aNy,
574 : &npol,
575 : &nchan,
576 : vb_freq_p,
577 : &C::c,
578 : convSupport_p,
579 : &actualConvSize,
580 : &convSampling,
581 : &wConvSize,
582 : f_convFunc_p,
583 : chanMap_p,
584 : polMap_p,
585 0 : &polInUse_p,
586 : sumwt_p,
587 : vb_ant1_p,
588 : vb_ant2_p,
589 : &Nant_p,
590 : &scanNo,
591 : &sigma,
592 : l_off_p, m_off_p,
593 : &area,
594 : &doGrad,
595 : &doPointing,
596 : &npa,
597 : &paIndex_Fortran,
598 : CFMap_p,
599 : ConjCFMap_p,
600 : ¤tCFPA
601 : ,&actualPA,&cfRefFreq_p
602 : );
603 :
604 0 : ConjCFMap.freeStorage((const Int *&)ConjCFMap_p,deleteThem(CONJCFMAP));
605 0 : CFMap.freeStorage((const Int *&)CFMap_p,deleteThem(CFMAP));
606 :
607 0 : l_off.freeStorage((const Float*&)l_off_p,deleteThem(RAOFF));
608 0 : m_off.freeStorage((const Float*&)m_off_p,deleteThem(DECOFF));
609 0 : uvw.freeStorage((const Double*&)uvw_p,deleteThem(UVW));
610 0 : dphase.freeStorage((const Double*&)dphase_p,deleteThem(DPHASE));
611 : // visdata.putStorage(visdata_p,deleteThem(VISDATA));
612 : // gradVisAzData.putStorage(gradVisAzData_p,deleteThem(GRADVISAZ));
613 : // gradVisElData.putStorage(gradVisElData_p,deleteThem(GRADVISEL));
614 0 : flags.freeStorage((const Int*&) flags_p,deleteThem(FLAGS));
615 0 : rowFlags.freeStorage((const Int *&)rowFlags_p,deleteThem(ROWFLAGS));
616 0 : actualOffset.freeStorage((const Double*&)actualOffset_p,deleteThem(ACTUALOFFSET));
617 0 : dataPtr.freeStorage((const Complex *&)dataPtr_p,deleteThem(DATAPTR));
618 0 : uvScale.freeStorage((const Double*&) uvScale_p,deleteThem(UVSCALE));
619 0 : vb.getFrequencies(0).freeStorage((const Double*&)vb_freq_p,deleteThem(VBFREQ));
620 0 : cfs_p.xSupport.freeStorage((const Int*&)convSupport_p,deleteThem(CONVSUPPORT));
621 : // convFunc_p.freeStorage((const Complex *&)f_convFunc_p,deleteThem(CONVFUNC));
622 0 : chanMap.freeStorage((const Int*&)chanMap_p,deleteThem(CHANMAP));
623 0 : polMap.freeStorage((const Int*&) polMap_p,deleteThem(POLMAP));
624 0 : vb.antenna1().freeStorage((const Int*&) vb_ant1_p,deleteThem(VBANT1));
625 0 : vb.antenna2().freeStorage((const Int*&) vb_ant2_p,deleteThem(VBANT2));
626 0 : weight.freeStorage((const Float*&)weight_p,deleteThem(WEIGHT));
627 0 : sumWeight.putStorage(sumwt_p,deleteThem(SUMWEIGHT));
628 0 : }
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