Updated spectator signal files
[u/mrichter/AliRoot.git] / TFluka / TFluka.cxx
CommitLineData
829fb838 1/**************************************************************************
2 * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
3 * *
4 * Author: The ALICE Off-line Project. *
5 * Contributors are mentioned in the code where appropriate. *
6 * *
7 * Permission to use, copy, modify and distribute this software and its *
8 * documentation strictly for non-commercial purposes is hereby granted *
9 * without fee, provided that the above copyright notice appears in all *
10 * copies and that both the copyright notice and this permission notice *
11 * appear in the supporting documentation. The authors make no claims *
12 * about the suitability of this software for any purpose. It is *
13 * provided "as is" without express or implied warranty. *
14 **************************************************************************/
15
16/* $Id$ */
17
18//
19// Realisation of the TVirtualMC interface for the FLUKA code
20// (See official web side http://www.fluka.org/).
21//
22// This implementation makes use of the TGeo geometry modeller.
23// User configuration is via automatic generation of FLUKA input cards.
24//
25// Authors:
26// A. Fasso
27// E. Futo
28// A. Gheata
29// A. Morsch
30//
31
32#include <Riostream.h>
33
829fb838 34#include "TFluka.h"
35#include "TCallf77.h" //For the fortran calls
36#include "Fdblprc.h" //(DBLPRC) fluka common
37#include "Fepisor.h" //(EPISOR) fluka common
07f5b33e 38#include "Ffinuc.h" //(FINUC) fluka common
829fb838 39#include "Fiounit.h" //(IOUNIT) fluka common
40#include "Fpaprop.h" //(PAPROP) fluka common
41#include "Fpart.h" //(PART) fluka common
42#include "Ftrackr.h" //(TRACKR) fluka common
43#include "Fpaprop.h" //(PAPROP) fluka common
44#include "Ffheavy.h" //(FHEAVY) fluka common
3a625972 45#include "Fopphst.h" //(OPPHST) fluka common
07f5b33e 46#include "Fstack.h" //(STACK) fluka common
47#include "Fstepsz.h" //(STEPSZ) fluka common
7b203b6e 48#include "Fopphst.h" //(OPPHST) fluka common
829fb838 49
50#include "TVirtualMC.h"
3a625972 51#include "TMCProcess.h"
829fb838 52#include "TGeoManager.h"
53#include "TGeoMaterial.h"
54#include "TGeoMedium.h"
55#include "TFlukaMCGeometry.h"
6f5667d1 56#include "TGeoMCGeometry.h"
829fb838 57#include "TFlukaCerenkov.h"
1df5fa54 58#include "TFlukaConfigOption.h"
b496f27c 59#include "TFlukaScoringOption.h"
829fb838 60#include "TLorentzVector.h"
b496f27c 61#include "TArrayI.h"
829fb838 62
63// Fluka methods that may be needed.
64#ifndef WIN32
65# define flukam flukam_
66# define fluka_openinp fluka_openinp_
67# define fluka_closeinp fluka_closeinp_
68# define mcihad mcihad_
69# define mpdgha mpdgha_
eea53470 70# define newplo newplo_
829fb838 71#else
72# define flukam FLUKAM
73# define fluka_openinp FLUKA_OPENINP
74# define fluka_closeinp FLUKA_CLOSEINP
75# define mcihad MCIHAD
76# define mpdgha MPDGHA
eea53470 77# define newplo NEWPLO
829fb838 78#endif
79
80extern "C"
81{
82 //
83 // Prototypes for FLUKA functions
84 //
85 void type_of_call flukam(const int&);
eea53470 86 void type_of_call newplo();
829fb838 87 void type_of_call fluka_openinp(const int&, DEFCHARA);
88 void type_of_call fluka_closeinp(const int&);
89 int type_of_call mcihad(const int&);
90 int type_of_call mpdgha(const int&);
91}
92
93//
94// Class implementation for ROOT
95//
96ClassImp(TFluka)
97
98//
99//----------------------------------------------------------------------------
100// TFluka constructors and destructors.
101//______________________________________________________________________________
102TFluka::TFluka()
103 :TVirtualMC(),
104 fVerbosityLevel(0),
1df5fa54 105 fInputFileName(""),
fb2cbbec 106 fUserConfig(0),
1df5fa54 107 fUserScore(0)
829fb838 108{
109 //
110 // Default constructor
111 //
112 fGeneratePemf = kFALSE;
113 fNVolumes = 0;
114 fCurrentFlukaRegion = -1;
115 fGeom = 0;
116 fMCGeo = 0;
117 fMaterials = 0;
118 fDummyBoundary = 0;
119 fFieldFlag = 1;
bd3d5c8a 120 fStopped = 0;
b496f27c 121 fStopEvent = 0;
122 fStopRun = 0;
123 fNEvent = 0;
829fb838 124}
125
126//______________________________________________________________________________
127TFluka::TFluka(const char *title, Int_t verbosity, Bool_t isRootGeometrySupported)
128 :TVirtualMC("TFluka",title, isRootGeometrySupported),
129 fVerbosityLevel(verbosity),
130 fInputFileName(""),
131 fTrackIsEntering(0),
132 fTrackIsExiting(0),
1df5fa54 133 fTrackIsNew(0),
fb2cbbec 134 fUserConfig(new TObjArray(100)),
1df5fa54 135 fUserScore(new TObjArray(100))
829fb838 136{
137 // create geometry interface
7f13be31 138 if (fVerbosityLevel >=3)
139 cout << "<== TFluka::TFluka(" << title << ") constructor called." << endl;
140 SetCoreInputFileName();
141 SetInputFileName();
142 SetGeneratePemf(kFALSE);
829fb838 143 fNVolumes = 0;
144 fCurrentFlukaRegion = -1;
145 fDummyBoundary = 0;
146 fFieldFlag = 1;
147 fGeneratePemf = kFALSE;
148 fMCGeo = new TGeoMCGeometry("MCGeo", "TGeo Implementation of VirtualMCGeometry", kTRUE);
fb2cbbec 149 fGeom = new TFlukaMCGeometry("geom", "FLUKA VMC Geometry");
829fb838 150 if (verbosity > 2) fGeom->SetDebugMode(kTRUE);
151 fMaterials = 0;
bd3d5c8a 152 fStopped = 0;
b496f27c 153 fStopEvent = 0;
154 fStopRun = 0;
155 fNEvent = 0;
829fb838 156}
157
158//______________________________________________________________________________
159TFluka::~TFluka() {
160// Destructor
1df5fa54 161 if (fVerbosityLevel >=3)
162 cout << "<== TFluka::~TFluka() destructor called." << endl;
163
164 delete fGeom;
165 delete fMCGeo;
166
fb2cbbec 167 if (fUserConfig) {
168 fUserConfig->Delete();
169 delete fUserConfig;
1df5fa54 170 }
6d184c54 171
172 if (fUserScore) {
173 fUserScore->Delete();
174 delete fUserScore;
175 }
829fb838 176}
177
178//
179//______________________________________________________________________________
180// TFluka control methods
181//______________________________________________________________________________
182void TFluka::Init() {
183//
184// Geometry initialisation
185//
186 if (fVerbosityLevel >=3) cout << "==> TFluka::Init() called." << endl;
187
188 if (!gGeoManager) new TGeoManager("geom", "FLUKA geometry");
189 fApplication->ConstructGeometry();
190 TGeoVolume *top = (TGeoVolume*)gGeoManager->GetListOfVolumes()->First();
191 gGeoManager->SetTopVolume(top);
192 gGeoManager->CloseGeometry("di");
193 gGeoManager->DefaultColors(); // to be removed
6d184c54 194
195 // Now we have TGeo geometry created and we have to patch FlukaVmc.inp
196 // with the material mapping file FlukaMat.inp
197
829fb838 198 fNVolumes = fGeom->NofVolumes();
199 fGeom->CreateFlukaMatFile("flukaMat.inp");
200 if (fVerbosityLevel >=3) {
201 printf("== Number of volumes: %i\n ==", fNVolumes);
202 cout << "\t* InitPhysics() - Prepare input file to be called" << endl;
6d184c54 203 }
881cb248 204
205 fApplication->InitGeometry();
206
829fb838 207}
208
209
210//______________________________________________________________________________
211void TFluka::FinishGeometry() {
212//
213// Build-up table with region to medium correspondance
214//
215 if (fVerbosityLevel >=3) {
216 cout << "==> TFluka::FinishGeometry() called." << endl;
217 printf("----FinishGeometry - nothing to do with TGeo\n");
218 cout << "<== TFluka::FinishGeometry() called." << endl;
219 }
220}
221
222//______________________________________________________________________________
223void TFluka::BuildPhysics() {
224//
225// Prepare FLUKA input files and call FLUKA physics initialisation
226//
227
228 if (fVerbosityLevel >=3)
229 cout << "==> TFluka::BuildPhysics() called." << endl;
6d184c54 230
231
232 if (fVerbosityLevel >=3) {
233 TList *medlist = gGeoManager->GetListOfMedia();
234 TIter next(medlist);
235 TGeoMedium* med = 0x0;
236 TGeoMaterial* mat = 0x0;
237 Int_t ic = 0;
238
239 while((med = (TGeoMedium*)next()))
240 {
241 mat = med->GetMaterial();
242 printf("Medium %5d %12s %5d %5d\n", ic, (med->GetName()), med->GetId(), mat->GetIndex());
243 ic++;
244 }
245 }
246
247 //
248 // At this stage we have the information on materials and cuts available.
249 // Now create the pemf file
250
251 if (fGeneratePemf) fGeom->CreatePemfFile();
252
253 //
254 // Prepare input file with the current physics settings
255
829fb838 256 InitPhysics();
6d184c54 257
829fb838 258 cout << "\t* InitPhysics() - Prepare input file was called" << endl;
259
260 if (fVerbosityLevel >=2)
261 cout << "\t* Changing lfdrtr = (" << (GLOBAL.lfdrtr?'T':'F')
262 << ") in fluka..." << endl;
263 GLOBAL.lfdrtr = true;
264
265 if (fVerbosityLevel >=2)
266 cout << "\t* Opening file " << fInputFileName << endl;
267 const char* fname = fInputFileName;
6d184c54 268
829fb838 269 fluka_openinp(lunin, PASSCHARA(fname));
270
271 if (fVerbosityLevel >=2)
272 cout << "\t* Calling flukam..." << endl;
273 flukam(1);
274
275 if (fVerbosityLevel >=2)
276 cout << "\t* Closing file " << fInputFileName << endl;
277 fluka_closeinp(lunin);
278
279 FinishGeometry();
280
281 if (fVerbosityLevel >=3)
282 cout << "<== TFluka::Init() called." << endl;
283
829fb838 284 if (fVerbosityLevel >=3)
285 cout << "<== TFluka::BuildPhysics() called." << endl;
286}
287
288//______________________________________________________________________________
289void TFluka::ProcessEvent() {
290//
291// Process one event
292//
b496f27c 293 if (fStopRun) {
294 printf("User Run Abortion: No more events handled !\n");
295 fNEvent += 1;
296 return;
297 }
298
299 if (fVerbosityLevel >=3)
300 cout << "==> TFluka::ProcessEvent() called." << endl;
301 fApplication->GeneratePrimaries();
302 EPISOR.lsouit = true;
303 flukam(1);
304 if (fVerbosityLevel >=3)
305 cout << "<== TFluka::ProcessEvent() called." << endl;
306 //
307 // Increase event number
308 //
309 fNEvent += 1;
829fb838 310}
311
312//______________________________________________________________________________
313Bool_t TFluka::ProcessRun(Int_t nevent) {
314//
315// Run steering
316//
317
318 if (fVerbosityLevel >=3)
319 cout << "==> TFluka::ProcessRun(" << nevent << ") called."
320 << endl;
321
322 if (fVerbosityLevel >=2) {
323 cout << "\t* GLOBAL.fdrtr = " << (GLOBAL.lfdrtr?'T':'F') << endl;
324 cout << "\t* Calling flukam again..." << endl;
325 }
326
829fb838 327 Int_t todo = TMath::Abs(nevent);
328 for (Int_t ev = 0; ev < todo; ev++) {
329 fApplication->BeginEvent();
330 ProcessEvent();
331 fApplication->FinishEvent();
332 }
333
334 if (fVerbosityLevel >=3)
335 cout << "<== TFluka::ProcessRun(" << nevent << ") called."
336 << endl;
eea53470 337 // Write fluka specific scoring output
338 newplo();
339
829fb838 340 return kTRUE;
341}
342
343//_____________________________________________________________________________
344// methods for building/management of geometry
345
346// functions from GCONS
347//____________________________________________________________________________
348void TFluka::Gfmate(Int_t imat, char *name, Float_t &a, Float_t &z,
349 Float_t &dens, Float_t &radl, Float_t &absl,
350 Float_t* /*ubuf*/, Int_t& /*nbuf*/) {
351//
352 TGeoMaterial *mat;
353 TIter next (gGeoManager->GetListOfMaterials());
354 while ((mat = (TGeoMaterial*)next())) {
355 if (mat->GetUniqueID() == (UInt_t)imat) break;
356 }
357 if (!mat) {
358 Error("Gfmate", "no material with index %i found", imat);
359 return;
360 }
361 sprintf(name, "%s", mat->GetName());
362 a = mat->GetA();
363 z = mat->GetZ();
364 dens = mat->GetDensity();
365 radl = mat->GetRadLen();
366 absl = mat->GetIntLen();
367}
368
369//______________________________________________________________________________
370void TFluka::Gfmate(Int_t imat, char *name, Double_t &a, Double_t &z,
371 Double_t &dens, Double_t &radl, Double_t &absl,
372 Double_t* /*ubuf*/, Int_t& /*nbuf*/) {
373//
374 TGeoMaterial *mat;
375 TIter next (gGeoManager->GetListOfMaterials());
376 while ((mat = (TGeoMaterial*)next())) {
377 if (mat->GetUniqueID() == (UInt_t)imat) break;
378 }
379 if (!mat) {
380 Error("Gfmate", "no material with index %i found", imat);
381 return;
382 }
383 sprintf(name, "%s", mat->GetName());
384 a = mat->GetA();
385 z = mat->GetZ();
386 dens = mat->GetDensity();
387 radl = mat->GetRadLen();
388 absl = mat->GetIntLen();
389}
390
391// detector composition
392//______________________________________________________________________________
393void TFluka::Material(Int_t& kmat, const char* name, Double_t a,
394 Double_t z, Double_t dens, Double_t radl, Double_t absl,
395 Float_t* buf, Int_t nwbuf) {
396//
397 Double_t* dbuf = fGeom->CreateDoubleArray(buf, nwbuf);
398 Material(kmat, name, a, z, dens, radl, absl, dbuf, nwbuf);
399 delete [] dbuf;
400}
401
402//______________________________________________________________________________
403void TFluka::Material(Int_t& kmat, const char* name, Double_t a,
404 Double_t z, Double_t dens, Double_t radl, Double_t absl,
405 Double_t* /*buf*/, Int_t /*nwbuf*/) {
406//
fb2cbbec 407// Define a material
829fb838 408 TGeoMaterial *mat;
409 kmat = gGeoManager->GetListOfMaterials()->GetSize();
410 if ((z-Int_t(z)) > 1E-3) {
411 mat = fGeom->GetMakeWrongMaterial(z);
412 if (mat) {
413 mat->SetRadLen(radl,absl);
414 mat->SetUniqueID(kmat);
415 return;
416 }
417 }
418 gGeoManager->Material(name, a, z, dens, kmat, radl, absl);
419}
420
421//______________________________________________________________________________
422void TFluka::Mixture(Int_t& kmat, const char *name, Float_t *a,
423 Float_t *z, Double_t dens, Int_t nlmat, Float_t *wmat) {
424//
fb2cbbec 425// Define a material mixture
426//
829fb838 427 Double_t* da = fGeom->CreateDoubleArray(a, TMath::Abs(nlmat));
428 Double_t* dz = fGeom->CreateDoubleArray(z, TMath::Abs(nlmat));
429 Double_t* dwmat = fGeom->CreateDoubleArray(wmat, TMath::Abs(nlmat));
430
431 Mixture(kmat, name, da, dz, dens, nlmat, dwmat);
432 for (Int_t i=0; i<nlmat; i++) {
433 a[i] = da[i]; z[i] = dz[i]; wmat[i] = dwmat[i];
434 }
435
436 delete [] da;
437 delete [] dz;
438 delete [] dwmat;
439}
440
441//______________________________________________________________________________
442void TFluka::Mixture(Int_t& kmat, const char *name, Double_t *a,
443 Double_t *z, Double_t dens, Int_t nlmat, Double_t *wmat) {
444//
445 // Defines mixture OR COMPOUND IMAT as composed by
446 // THE BASIC NLMAT materials defined by arrays A,Z and WMAT
447 //
448 // If NLMAT > 0 then wmat contains the proportion by
449 // weights of each basic material in the mixture.
450 //
451 // If nlmat < 0 then WMAT contains the number of atoms
452 // of a given kind into the molecule of the COMPOUND
453 // In this case, WMAT in output is changed to relative
454 // weigths.
455 //
456 Int_t i,j;
457 if (nlmat < 0) {
458 nlmat = - nlmat;
459 Double_t amol = 0;
460 for (i=0;i<nlmat;i++) {
461 amol += a[i]*wmat[i];
462 }
463 for (i=0;i<nlmat;i++) {
464 wmat[i] *= a[i]/amol;
465 }
466 }
467 kmat = gGeoManager->GetListOfMaterials()->GetSize();
468 // Check if we have elements with fractional Z
469 TGeoMaterial *mat = 0;
470 TGeoMixture *mix = 0;
471 Bool_t mixnew = kFALSE;
472 for (i=0; i<nlmat; i++) {
473 if (z[i]-Int_t(z[i]) < 1E-3) continue;
474 // We have found an element with fractional Z -> loop mixtures to look for it
475 for (j=0; j<kmat; j++) {
476 mat = (TGeoMaterial*)gGeoManager->GetListOfMaterials()->At(j);
477 if (!mat) break;
478 if (!mat->IsMixture()) continue;
479 mix = (TGeoMixture*)mat;
480 if (TMath::Abs(z[i]-mix->GetZ()) >1E-3) continue;
481// printf(" FOUND component %i as mixture %s\n", i, mat->GetName());
482 mixnew = kTRUE;
483 break;
484 }
485 if (!mixnew) Warning("Mixture","%s : cannot find component %i with fractional Z=%f\n", name, i, z[i]);
486 break;
487 }
488 if (mixnew) {
489 Int_t nlmatnew = nlmat+mix->GetNelements()-1;
490 Double_t *anew = new Double_t[nlmatnew];
491 Double_t *znew = new Double_t[nlmatnew];
492 Double_t *wmatnew = new Double_t[nlmatnew];
493 Int_t ind=0;
494 for (j=0; j<nlmat; j++) {
495 if (j==i) continue;
496 anew[ind] = a[j];
497 znew[ind] = z[j];
498 wmatnew[ind] = wmat[j];
499 ind++;
500 }
501 for (j=0; j<mix->GetNelements(); j++) {
502 anew[ind] = mix->GetAmixt()[j];
503 znew[ind] = mix->GetZmixt()[j];
504 wmatnew[ind] = wmat[i]*mix->GetWmixt()[j];
505 ind++;
506 }
507 Mixture(kmat, name, anew, znew, dens, nlmatnew, wmatnew);
508 delete [] anew;
509 delete [] znew;
510 delete [] wmatnew;
511 return;
512 }
513 // Now we need to compact identical elements within the mixture
514 // First check if this happens
515 mixnew = kFALSE;
516 for (i=0; i<nlmat-1; i++) {
517 for (j=i+1; j<nlmat; j++) {
518 if (z[i] == z[j]) {
519 mixnew = kTRUE;
520 break;
521 }
522 }
523 if (mixnew) break;
524 }
525 if (mixnew) {
526 Int_t nlmatnew = 0;
527 Double_t *anew = new Double_t[nlmat];
528 Double_t *znew = new Double_t[nlmat];
529 memset(znew, 0, nlmat*sizeof(Double_t));
530 Double_t *wmatnew = new Double_t[nlmat];
531 Bool_t skipi;
532 for (i=0; i<nlmat; i++) {
533 skipi = kFALSE;
534 for (j=0; j<nlmatnew; j++) {
535 if (z[i] == z[j]) {
536 wmatnew[j] += wmat[i];
537 skipi = kTRUE;
538 break;
539 }
540 }
541 if (skipi) continue;
542 anew[nlmatnew] = a[i];
543 znew[nlmatnew] = z[i];
544 wmatnew[nlmatnew] = wmat[i];
545 nlmatnew++;
546 }
547 Mixture(kmat, name, anew, znew, dens, nlmatnew, wmatnew);
548 delete [] anew;
549 delete [] znew;
550 delete [] wmatnew;
551 return;
552 }
553 gGeoManager->Mixture(name, a, z, dens, nlmat, wmat, kmat);
554}
555
556//______________________________________________________________________________
557void TFluka::Medium(Int_t& kmed, const char *name, Int_t nmat,
558 Int_t isvol, Int_t ifield, Double_t fieldm, Double_t tmaxfd,
559 Double_t stemax, Double_t deemax, Double_t epsil,
560 Double_t stmin, Float_t* ubuf, Int_t nbuf) {
b2129742 561 // Define a medium
562 //
829fb838 563 kmed = gGeoManager->GetListOfMedia()->GetSize()+1;
564 fMCGeo->Medium(kmed, name, nmat, isvol, ifield, fieldm, tmaxfd, stemax, deemax,
565 epsil, stmin, ubuf, nbuf);
566}
567
568//______________________________________________________________________________
569void TFluka::Medium(Int_t& kmed, const char *name, Int_t nmat,
570 Int_t isvol, Int_t ifield, Double_t fieldm, Double_t tmaxfd,
571 Double_t stemax, Double_t deemax, Double_t epsil,
572 Double_t stmin, Double_t* ubuf, Int_t nbuf) {
b2129742 573 // Define a medium
574 //
829fb838 575 kmed = gGeoManager->GetListOfMedia()->GetSize()+1;
576 fMCGeo->Medium(kmed, name, nmat, isvol, ifield, fieldm, tmaxfd, stemax, deemax,
577 epsil, stmin, ubuf, nbuf);
578}
579
580//______________________________________________________________________________
581void TFluka::Matrix(Int_t& krot, Double_t thetaX, Double_t phiX,
582 Double_t thetaY, Double_t phiY, Double_t thetaZ,
583 Double_t phiZ) {
584//
585 krot = gGeoManager->GetListOfMatrices()->GetEntriesFast();
586 fMCGeo->Matrix(krot, thetaX, phiX, thetaY, phiY, thetaZ, phiZ);
587}
588
589//______________________________________________________________________________
590void TFluka::Gstpar(Int_t itmed, const char* param, Double_t parval) {
591//
592//
7b203b6e 593// Check if material is used
6d184c54 594 if (fVerbosityLevel >= 3)
7b203b6e 595 printf("Gstpar called with %6d %5s %12.4e %6d\n", itmed, param, parval, fGeom->GetFlukaMaterial(itmed));
596 Int_t* reglist;
597 Int_t nreg;
c1c801f9 598 reglist = fGeom->GetMaterialList(fGeom->GetFlukaMaterial(itmed), nreg);
599 if (nreg == 0) {
600 return;
601 }
602
7b203b6e 603//
829fb838 604 Bool_t process = kFALSE;
605 if (strncmp(param, "DCAY", 4) == 0 ||
606 strncmp(param, "PAIR", 4) == 0 ||
607 strncmp(param, "COMP", 4) == 0 ||
608 strncmp(param, "PHOT", 4) == 0 ||
609 strncmp(param, "PFIS", 4) == 0 ||
610 strncmp(param, "DRAY", 4) == 0 ||
611 strncmp(param, "ANNI", 4) == 0 ||
612 strncmp(param, "BREM", 4) == 0 ||
613 strncmp(param, "MUNU", 4) == 0 ||
614 strncmp(param, "CKOV", 4) == 0 ||
615 strncmp(param, "HADR", 4) == 0 ||
616 strncmp(param, "LOSS", 4) == 0 ||
617 strncmp(param, "MULS", 4) == 0 ||
618 strncmp(param, "RAYL", 4) == 0)
619 {
620 process = kTRUE;
621 }
622 if (process) {
623 SetProcess(param, Int_t (parval), fGeom->GetFlukaMaterial(itmed));
624 } else {
625 SetCut(param, parval, fGeom->GetFlukaMaterial(itmed));
626 }
627}
628
629// functions from GGEOM
630//_____________________________________________________________________________
631void TFluka::Gsatt(const char *name, const char *att, Int_t val)
632{
6f5667d1 633 // Set visualisation attributes for one volume
829fb838 634 char vname[5];
635 fGeom->Vname(name,vname);
636 char vatt[5];
637 fGeom->Vname(att,vatt);
638 gGeoManager->SetVolumeAttribute(vname, vatt, val);
639}
640
641//______________________________________________________________________________
642Int_t TFluka::Gsvolu(const char *name, const char *shape, Int_t nmed,
643 Float_t *upar, Int_t np) {
644//
645 return fMCGeo->Gsvolu(name, shape, nmed, upar, np);
646}
647
648//______________________________________________________________________________
649Int_t TFluka::Gsvolu(const char *name, const char *shape, Int_t nmed,
650 Double_t *upar, Int_t np) {
651//
652 return fMCGeo->Gsvolu(name, shape, nmed, upar, np);
653}
654
655//______________________________________________________________________________
656void TFluka::Gsdvn(const char *name, const char *mother, Int_t ndiv,
657 Int_t iaxis) {
658//
659 fMCGeo->Gsdvn(name, mother, ndiv, iaxis);
660}
661
662//______________________________________________________________________________
663void TFluka::Gsdvn2(const char *name, const char *mother, Int_t ndiv,
664 Int_t iaxis, Double_t c0i, Int_t numed) {
665//
666 fMCGeo->Gsdvn2(name, mother, ndiv, iaxis, c0i, numed);
667}
668
669//______________________________________________________________________________
670void TFluka::Gsdvt(const char *name, const char *mother, Double_t step,
671 Int_t iaxis, Int_t numed, Int_t ndvmx) {
672//
673 fMCGeo->Gsdvt(name, mother, step, iaxis, numed, ndvmx);
674}
675
676//______________________________________________________________________________
677void TFluka::Gsdvt2(const char *name, const char *mother, Double_t step,
678 Int_t iaxis, Double_t c0, Int_t numed, Int_t ndvmx) {
679//
680 fMCGeo->Gsdvt2(name, mother, step, iaxis, c0, numed, ndvmx);
681}
682
683//______________________________________________________________________________
684void TFluka::Gsord(const char * /*name*/, Int_t /*iax*/) {
685//
686// Nothing to do with TGeo
687}
688
689//______________________________________________________________________________
690void TFluka::Gspos(const char *name, Int_t nr, const char *mother,
691 Double_t x, Double_t y, Double_t z, Int_t irot,
692 const char *konly) {
693//
694 fMCGeo->Gspos(name, nr, mother, x, y, z, irot, konly);
695}
696
697//______________________________________________________________________________
698void TFluka::Gsposp(const char *name, Int_t nr, const char *mother,
699 Double_t x, Double_t y, Double_t z, Int_t irot,
700 const char *konly, Float_t *upar, Int_t np) {
701 //
702 fMCGeo->Gsposp(name, nr, mother, x, y, z, irot, konly, upar, np);
703}
704
705//______________________________________________________________________________
706void TFluka::Gsposp(const char *name, Int_t nr, const char *mother,
707 Double_t x, Double_t y, Double_t z, Int_t irot,
708 const char *konly, Double_t *upar, Int_t np) {
709 //
710 fMCGeo->Gsposp(name, nr, mother, x, y, z, irot, konly, upar, np);
711}
712
713//______________________________________________________________________________
714void TFluka::Gsbool(const char* /*onlyVolName*/, const char* /*manyVolName*/) {
715//
716// Nothing to do with TGeo
717}
718
719//______________________________________________________________________________
720void TFluka::SetCerenkov(Int_t itmed, Int_t npckov, Float_t* ppckov,
721 Float_t* absco, Float_t* effic, Float_t* rindex) {
722//
723// Set Cerenkov properties for medium itmed
724//
725// npckov: number of sampling points
726// ppckov: energy values
727// absco: absorption length
728// effic: quantum efficiency
729// rindex: refraction index
730//
731//
732//
733// Create object holding Cerenkov properties
734//
735 TFlukaCerenkov* cerenkovProperties = new TFlukaCerenkov(npckov, ppckov, absco, effic, rindex);
736//
737// Pass object to medium
738 TGeoMedium* medium = gGeoManager->GetMedium(itmed);
739 medium->SetCerenkovProperties(cerenkovProperties);
740}
741
742//______________________________________________________________________________
743void TFluka::SetCerenkov(Int_t /*itmed*/, Int_t /*npckov*/, Double_t * /*ppckov*/,
744 Double_t * /*absco*/, Double_t * /*effic*/, Double_t * /*rindex*/) {
745//
746// Not implemented with TGeo - what G4 did ? Any FLUKA card generated?
747 Warning("SetCerenkov", "Not implemented with TGeo");
748}
749
750// Euclid
751//______________________________________________________________________________
752void TFluka::WriteEuclid(const char* /*fileName*/, const char* /*topVol*/,
753 Int_t /*number*/, Int_t /*nlevel*/) {
754//
755// Not with TGeo
756 Warning("WriteEuclid", "Not implemented with TGeo");
757}
758
759
760
761//_____________________________________________________________________________
762// methods needed by the stepping
763//____________________________________________________________________________
764
765Int_t TFluka::GetMedium() const {
766//
767// Get the medium number for the current fluka region
768//
769 return fGeom->GetMedium(); // this I need to check due to remapping !!!
770}
771
772
773
774//____________________________________________________________________________
775// particle table usage
776// ID <--> PDG transformations
777//_____________________________________________________________________________
778Int_t TFluka::IdFromPDG(Int_t pdg) const
779{
780 //
781 // Return Fluka code from PDG and pseudo ENDF code
782
783 // Catch the feedback photons
784 if (pdg == 50000051) return (-1);
785 // MCIHAD() goes from pdg to fluka internal.
786 Int_t intfluka = mcihad(pdg);
787 // KPTOIP array goes from internal to official
788 return GetFlukaKPTOIP(intfluka);
789}
790
791//______________________________________________________________________________
792Int_t TFluka::PDGFromId(Int_t id) const
793{
794 //
795 // Return PDG code and pseudo ENDF code from Fluka code
f926898e 796 // Alpha He3 Triton Deuteron gen. ion opt. photon
797 Int_t idSpecial[6] = {10020040, 10020030, 10010030, 10010020, 10000000, 50000050};
829fb838 798 // IPTOKP array goes from official to internal
799
800 if (id == -1) {
801// Cerenkov photon
bd3d5c8a 802 if (fVerbosityLevel >= 3)
829fb838 803 printf("\n PDGFromId: Cerenkov Photon \n");
804 return 50000050;
805 }
806// Error id
807 if (id == 0 || id < -6 || id > 250) {
f926898e 808 if (fVerbosityLevel >= 3)
829fb838 809 printf("PDGFromId: Error id = 0\n");
810 return -1;
811 }
812// Good id
f926898e 813 if (id > 0) {
814 Int_t intfluka = GetFlukaIPTOKP(id);
815 if (intfluka == 0) {
816 if (fVerbosityLevel >= 3)
817 printf("PDGFromId: Error intfluka = 0: %d\n", id);
818 return -1;
819 } else if (intfluka < 0) {
820 if (fVerbosityLevel >= 3)
821 printf("PDGFromId: Error intfluka < 0: %d\n", id);
822 return -1;
823 }
824 if (fVerbosityLevel >= 3)
825 printf("mpdgha called with %d %d \n", id, intfluka);
826 // MPDGHA() goes from fluka internal to pdg.
827 return mpdgha(intfluka);
828 } else {
829 // ions and optical photons
830 return idSpecial[id + 6];
829fb838 831 }
829fb838 832}
833
bd3d5c8a 834void TFluka::StopTrack()
835{
836 // Set stopping conditions
837 // Works for photons and charged particles
838 fStopped = kTRUE;
839}
840
829fb838 841//_____________________________________________________________________________
842// methods for physics management
843//____________________________________________________________________________
844//
845// set methods
846//
847
1df5fa54 848void TFluka::SetProcess(const char* flagName, Int_t flagValue, Int_t imed)
829fb838 849{
850// Set process user flag for material imat
851//
1df5fa54 852//
853// Update if already in the list
854//
fb2cbbec 855 TIter next(fUserConfig);
1df5fa54 856 TFlukaConfigOption* proc;
857 while((proc = (TFlukaConfigOption*)next()))
858 {
fb2cbbec 859 if (proc->Medium() == imed) {
860 proc->SetProcess(flagName, flagValue);
861 return;
862 }
1df5fa54 863 }
fb2cbbec 864 proc = new TFlukaConfigOption(imed);
865 proc->SetProcess(flagName, flagValue);
866 fUserConfig->Add(proc);
867}
868
869//______________________________________________________________________________
870Bool_t TFluka::SetProcess(const char* flagName, Int_t flagValue)
871{
872// Set process user flag
1df5fa54 873//
1df5fa54 874//
fb2cbbec 875 SetProcess(flagName, flagValue, -1);
1df5fa54 876 return kTRUE;
829fb838 877}
878
879//______________________________________________________________________________
880void TFluka::SetCut(const char* cutName, Double_t cutValue, Int_t imed)
881{
882// Set user cut value for material imed
883//
fb2cbbec 884 TIter next(fUserConfig);
885 TFlukaConfigOption* proc;
886 while((proc = (TFlukaConfigOption*)next()))
887 {
888 if (proc->Medium() == imed) {
889 proc->SetCut(cutName, cutValue);
890 return;
891 }
892 }
893
894 proc = new TFlukaConfigOption(imed);
895 proc->SetCut(cutName, cutValue);
896 fUserConfig->Add(proc);
829fb838 897}
898
899//______________________________________________________________________________
900Bool_t TFluka::SetCut(const char* cutName, Double_t cutValue)
901{
902// Set user cut value
903//
1df5fa54 904//
fb2cbbec 905 SetCut(cutName, cutValue, -1);
906 return kTRUE;
829fb838 907}
908
f450e9d0 909
910void TFluka::SetUserScoring(const char* option, Int_t npr, char* outfile, Float_t* what)
b496f27c 911{
912//
f450e9d0 913// Adds a user scoring option to the list
b496f27c 914//
f450e9d0 915 TFlukaScoringOption* opt = new TFlukaScoringOption(option, "User Scoring", npr,outfile,what);
916 fUserScore->Add(opt);
917}
918//______________________________________________________________________________
919void TFluka::SetUserScoring(const char* option, Int_t npr, char* outfile, Float_t* what, const char* det1, const char* det2, const char* det3)
920{
921//
922// Adds a user scoring option to the list
923//
924 TFlukaScoringOption* opt = new TFlukaScoringOption(option, "User Scoring", npr, outfile, what, det1, det2, det3);
b496f27c 925 fUserScore->Add(opt);
926}
b496f27c 927
829fb838 928//______________________________________________________________________________
929Double_t TFluka::Xsec(char*, Double_t, Int_t, Int_t)
930{
931 printf("WARNING: Xsec not yet implemented !\n"); return -1.;
932}
933
934
935//______________________________________________________________________________
936void TFluka::InitPhysics()
937{
938//
939// Physics initialisation with preparation of FLUKA input cards
940//
fb2cbbec 941 printf("=>InitPhysics\n");
829fb838 942
fb2cbbec 943// Construct file names
944 FILE *pFlukaVmcCoreInp, *pFlukaVmcFlukaMat, *pFlukaVmcInp;
945 TString sFlukaVmcCoreInp = getenv("ALICE_ROOT");
946 sFlukaVmcCoreInp +="/TFluka/input/";
947 TString sFlukaVmcTmp = "flukaMat.inp";
948 TString sFlukaVmcInp = GetInputFileName();
949 sFlukaVmcCoreInp += GetCoreInputFileName();
950
951// Open files
952 if ((pFlukaVmcCoreInp = fopen(sFlukaVmcCoreInp.Data(),"r")) == NULL) {
953 printf("\nCannot open file %s\n",sFlukaVmcCoreInp.Data());
954 exit(1);
955 }
956 if ((pFlukaVmcFlukaMat = fopen(sFlukaVmcTmp.Data(),"r")) == NULL) {
957 printf("\nCannot open file %s\n",sFlukaVmcTmp.Data());
958 exit(1);
959 }
960 if ((pFlukaVmcInp = fopen(sFlukaVmcInp.Data(),"w")) == NULL) {
961 printf("\nCannot open file %s\n",sFlukaVmcInp.Data());
962 exit(1);
963 }
829fb838 964
fb2cbbec 965// Copy core input file
966 Char_t sLine[255];
967 Float_t fEventsPerRun;
829fb838 968
fb2cbbec 969 while ((fgets(sLine,255,pFlukaVmcCoreInp)) != NULL) {
970 if (strncmp(sLine,"GEOEND",6) != 0)
971 fprintf(pFlukaVmcInp,"%s",sLine); // copy until GEOEND card
972 else {
973 fprintf(pFlukaVmcInp,"GEOEND\n"); // add GEOEND card
974 goto flukamat;
829fb838 975 }
fb2cbbec 976 } // end of while until GEOEND card
977
829fb838 978
fb2cbbec 979 flukamat:
980 while ((fgets(sLine,255,pFlukaVmcFlukaMat)) != NULL) { // copy flukaMat.inp file
981 fprintf(pFlukaVmcInp,"%s\n",sLine);
982 }
983
984 while ((fgets(sLine,255,pFlukaVmcCoreInp)) != NULL) {
985 if (strncmp(sLine,"START",5) != 0)
986 fprintf(pFlukaVmcInp,"%s\n",sLine);
987 else {
988 sscanf(sLine+10,"%10f",&fEventsPerRun);
989 goto fin;
990 }
991 } //end of while until START card
992
993 fin:
829fb838 994
f450e9d0 995
996// Pass information to configuration objects
829fb838 997
fb2cbbec 998 Float_t fLastMaterial = fGeom->GetLastMaterialIndex();
999 TFlukaConfigOption::SetStaticInfo(pFlukaVmcInp, 3, fLastMaterial, fGeom);
1000
1001 TIter next(fUserConfig);
1002 TFlukaConfigOption* proc;
f450e9d0 1003 while((proc = dynamic_cast<TFlukaConfigOption*> (next()))) proc->WriteFlukaInputCards();
1004//
1005// Process Fluka specific scoring options
1006//
1007 TFlukaScoringOption::SetStaticInfo(pFlukaVmcInp, fGeom);
1008 Float_t loginp = 49.0;
1009 Int_t inp = 0;
1010 Int_t nscore = fUserScore->GetEntries();
1011
1012 TFlukaScoringOption *mopo = 0x0;
1013 TFlukaScoringOption *mopi = 0x0;
fb2cbbec 1014
f450e9d0 1015 for (Int_t isc = 0; isc < nscore; isc++)
1016 {
1017 mopo = dynamic_cast<TFlukaScoringOption*> (fUserScore->At(isc));
1018 char* fileName = mopo->GetFileName();
1019 Int_t size = strlen(fileName);
1020 Float_t lun = -1.;
1021//
1022// Check if new output file has to be opened
1023 for (Int_t isci = 0; isci < isc; isci++) {
1024 mopi = dynamic_cast<TFlukaScoringOption*> (fUserScore->At(isc));
1025 if(strncmp(mopi->GetFileName(), fileName, size)==0) {
1026 //
1027 // No, the file already exists
1028 lun = mopi->GetLun();
1029 mopo->SetLun(lun);
1030 break;
1031 }
1032 } // inner loop
1033
1034 if (lun == -1.) {
1035 // Open new output file
1036 inp++;
1037 mopo->SetLun(loginp + inp);
1038 mopo->WriteOpenFlukaFile();
1039 }
1040 mopo->WriteFlukaInputCards();
1041 }
1042
829fb838 1043// Add START and STOP card
f450e9d0 1044 fprintf(pFlukaVmcInp,"START %10.1f\n",fEventsPerRun);
1045 fprintf(pFlukaVmcInp,"STOP \n");
829fb838 1046
1047
1048// Close files
3b8c325d 1049 fclose(pFlukaVmcCoreInp);
1050 fclose(pFlukaVmcFlukaMat);
1051 fclose(pFlukaVmcInp);
fb2cbbec 1052
1053
1054//
1055// Initialisation needed for Cerenkov photon production and transport
1056 TObjArray *matList = GetFlukaMaterials();
1057 Int_t nmaterial = matList->GetEntriesFast();
1058 fMaterials = new Int_t[nmaterial+3];
1059
1060 for (Int_t im = 0; im < nmaterial; im++)
1061 {
1062 TGeoMaterial* material = dynamic_cast<TGeoMaterial*> (matList->At(im));
1063 Int_t idmat = material->GetIndex();
1064 fMaterials[idmat] = im;
1065 }
829fb838 1066} // end of InitPhysics
1067
1068
1069//______________________________________________________________________________
07f5b33e 1070void TFluka::SetMaxStep(Double_t step)
829fb838 1071{
07f5b33e 1072// Set the maximum step size
1073 if (step > 1.e4) return;
1074
1075 Int_t mreg, latt;
1076 fGeom->GetCurrentRegion(mreg, latt);
1077 STEPSZ.stepmx[mreg - 1] = step;
829fb838 1078}
1079
2f09b80e 1080
1081Double_t TFluka::MaxStep() const
1082{
1083// Return the maximum for current medium
1084 Int_t mreg, latt;
1085 fGeom->GetCurrentRegion(mreg, latt);
1086 return (STEPSZ.stepmx[mreg - 1]);
1087}
1088
829fb838 1089//______________________________________________________________________________
1090void TFluka::SetMaxNStep(Int_t)
1091{
1092// SetMaxNStep is dummy procedure in TFluka !
1093 if (fVerbosityLevel >=3)
1094 cout << "SetMaxNStep is dummy procedure in TFluka !" << endl;
1095}
1096
1097//______________________________________________________________________________
1098void TFluka::SetUserDecay(Int_t)
1099{
1100// SetUserDecay is dummy procedure in TFluka !
1101 if (fVerbosityLevel >=3)
1102 cout << "SetUserDecay is dummy procedure in TFluka !" << endl;
1103}
1104
1105//
1106// dynamic properties
1107//
1108//______________________________________________________________________________
1109void TFluka::TrackPosition(TLorentzVector& position) const
1110{
1111// Return the current position in the master reference frame of the
1112// track being transported
1113// TRACKR.atrack = age of the particle
1114// TRACKR.xtrack = x-position of the last point
1115// TRACKR.ytrack = y-position of the last point
1116// TRACKR.ztrack = z-position of the last point
1117 Int_t caller = GetCaller();
669cede4 1118 if (caller == 3 || caller == 6 || caller == 11 || caller == 12 || caller == 50) { //bxdraw,endraw,usdraw,ckov
829fb838 1119 position.SetX(GetXsco());
1120 position.SetY(GetYsco());
1121 position.SetZ(GetZsco());
1122 position.SetT(TRACKR.atrack);
1123 }
669cede4 1124 else if (caller == 4) { // mgdraw,mgdraw resuming
829fb838 1125 position.SetX(TRACKR.xtrack[TRACKR.ntrack]);
1126 position.SetY(TRACKR.ytrack[TRACKR.ntrack]);
1127 position.SetZ(TRACKR.ztrack[TRACKR.ntrack]);
1128 position.SetT(TRACKR.atrack);
1129 }
1130 else if (caller == 5) { // sodraw
1131 position.SetX(TRACKR.xtrack[TRACKR.ntrack]);
1132 position.SetY(TRACKR.ytrack[TRACKR.ntrack]);
1133 position.SetZ(TRACKR.ztrack[TRACKR.ntrack]);
1134 position.SetT(0);
5d80a015 1135 } else if (caller == 40) { // mgdraw resuming transport
1136 position.SetX(TRACKR.spausr[0]);
1137 position.SetY(TRACKR.spausr[1]);
1138 position.SetZ(TRACKR.spausr[2]);
1139 position.SetT(TRACKR.spausr[3]);
829fb838 1140 }
1141 else
1142 Warning("TrackPosition","position not available");
1143}
1144
1145//______________________________________________________________________________
1146void TFluka::TrackPosition(Double_t& x, Double_t& y, Double_t& z) const
1147{
1148// Return the current position in the master reference frame of the
1149// track being transported
1150// TRACKR.atrack = age of the particle
1151// TRACKR.xtrack = x-position of the last point
1152// TRACKR.ytrack = y-position of the last point
1153// TRACKR.ztrack = z-position of the last point
1154 Int_t caller = GetCaller();
669cede4 1155 if (caller == 3 || caller == 6 || caller == 11 || caller == 12 || caller == 50) { //bxdraw,endraw,usdraw,ckov
829fb838 1156 x = GetXsco();
1157 y = GetYsco();
1158 z = GetZsco();
1159 }
669cede4 1160 else if (caller == 4 || caller == 5) { // mgdraw, sodraw, mgdraw resuming
829fb838 1161 x = TRACKR.xtrack[TRACKR.ntrack];
1162 y = TRACKR.ytrack[TRACKR.ntrack];
1163 z = TRACKR.ztrack[TRACKR.ntrack];
1164 }
5d80a015 1165 else if (caller == 40) { // mgdraw resuming transport
1166 x = TRACKR.spausr[0];
1167 y = TRACKR.spausr[1];
1168 z = TRACKR.spausr[2];
1169 }
829fb838 1170 else
1171 Warning("TrackPosition","position not available");
1172}
1173
1174//______________________________________________________________________________
1175void TFluka::TrackMomentum(TLorentzVector& momentum) const
1176{
1177// Return the direction and the momentum (GeV/c) of the track
1178// currently being transported
1179// TRACKR.ptrack = momentum of the particle (not always defined, if
1180// < 0 must be obtained from etrack)
1181// TRACKR.cx,y,ztrck = direction cosines of the current particle
1182// TRACKR.etrack = total energy of the particle
1183// TRACKR.jtrack = identity number of the particle
1184// PAPROP.am[TRACKR.jtrack] = particle mass in gev
1185 Int_t caller = GetCaller();
0773d0ac 1186 if (caller != 2 && caller != 40) { // not eedraw or mgdraw resuming
829fb838 1187 if (TRACKR.ptrack >= 0) {
1188 momentum.SetPx(TRACKR.ptrack*TRACKR.cxtrck);
1189 momentum.SetPy(TRACKR.ptrack*TRACKR.cytrck);
1190 momentum.SetPz(TRACKR.ptrack*TRACKR.cztrck);
1191 momentum.SetE(TRACKR.etrack);
1192 return;
1193 }
1194 else {
1195 Double_t p = sqrt(TRACKR.etrack*TRACKR.etrack - PAPROP.am[TRACKR.jtrack+6]*PAPROP.am[TRACKR.jtrack+6]);
1196 momentum.SetPx(p*TRACKR.cxtrck);
1197 momentum.SetPy(p*TRACKR.cytrck);
1198 momentum.SetPz(p*TRACKR.cztrck);
1199 momentum.SetE(TRACKR.etrack);
1200 return;
1201 }
5d80a015 1202 } else if (caller == 40) { // mgdraw resuming transport
1203 momentum.SetPx(TRACKR.spausr[4]);
1204 momentum.SetPy(TRACKR.spausr[5]);
1205 momentum.SetPz(TRACKR.spausr[6]);
1206 momentum.SetE (TRACKR.spausr[7]);
1207 return;
829fb838 1208 }
1209 else
1210 Warning("TrackMomentum","momentum not available");
1211}
1212
1213//______________________________________________________________________________
1214void TFluka::TrackMomentum(Double_t& px, Double_t& py, Double_t& pz, Double_t& e) const
1215{
1216// Return the direction and the momentum (GeV/c) of the track
1217// currently being transported
1218// TRACKR.ptrack = momentum of the particle (not always defined, if
1219// < 0 must be obtained from etrack)
1220// TRACKR.cx,y,ztrck = direction cosines of the current particle
1221// TRACKR.etrack = total energy of the particle
1222// TRACKR.jtrack = identity number of the particle
1223// PAPROP.am[TRACKR.jtrack] = particle mass in gev
1224 Int_t caller = GetCaller();
0773d0ac 1225 if (caller != 2 && caller != 40) { // not eedraw and not mgdraw resuming
829fb838 1226 if (TRACKR.ptrack >= 0) {
1227 px = TRACKR.ptrack*TRACKR.cxtrck;
1228 py = TRACKR.ptrack*TRACKR.cytrck;
1229 pz = TRACKR.ptrack*TRACKR.cztrck;
1230 e = TRACKR.etrack;
1231 return;
1232 }
1233 else {
1234 Double_t p = sqrt(TRACKR.etrack*TRACKR.etrack - PAPROP.am[TRACKR.jtrack+6]*PAPROP.am[TRACKR.jtrack+6]);
1235 px = p*TRACKR.cxtrck;
1236 py = p*TRACKR.cytrck;
1237 pz = p*TRACKR.cztrck;
1238 e = TRACKR.etrack;
1239 return;
1240 }
5d80a015 1241 } else if (caller == 40) { // mgdraw resuming transport
1242 px = TRACKR.spausr[4];
1243 py = TRACKR.spausr[5];
1244 pz = TRACKR.spausr[6];
1245 e = TRACKR.spausr[7];
0773d0ac 1246 return;
829fb838 1247 }
1248 else
1249 Warning("TrackMomentum","momentum not available");
1250}
1251
1252//______________________________________________________________________________
1253Double_t TFluka::TrackStep() const
1254{
1255// Return the length in centimeters of the current step
1256// TRACKR.ctrack = total curved path
1257 Int_t caller = GetCaller();
5d80a015 1258 if (caller == 11 || caller==12 || caller == 3 || caller == 6 || caller == 50 || caller == 40) //bxdraw,endraw,usdraw, ckov
829fb838 1259 return 0.0;
1260 else if (caller == 4) //mgdraw
1261 return TRACKR.ctrack;
669cede4 1262 else {
1263 Warning("TrackStep", "track step not available");
1264 return 0.0;
1265 }
829fb838 1266}
1267
1268//______________________________________________________________________________
1269Double_t TFluka::TrackLength() const
1270{
1271// TRACKR.cmtrck = cumulative curved path since particle birth
1272 Int_t caller = GetCaller();
669cede4 1273 if (caller == 11 || caller==12 || caller == 3 || caller == 4 || caller == 6 || caller == 50) //bxdraw,endraw,mgdraw,usdraw,ckov
829fb838 1274 return TRACKR.cmtrck;
5d80a015 1275 else if (caller == 40) // mgdraw resuming transport
1276 return TRACKR.spausr[8];
669cede4 1277 else {
1278 Warning("TrackLength", "track length not available");
1279 return 0.0;
1280 }
829fb838 1281}
1282
1283//______________________________________________________________________________
1284Double_t TFluka::TrackTime() const
1285{
1286// Return the current time of flight of the track being transported
1287// TRACKR.atrack = age of the particle
1288 Int_t caller = GetCaller();
669cede4 1289 if (caller == 11 || caller==12 || caller == 3 || caller == 4 || caller == 6 || caller == 50) //bxdraw,endraw,mgdraw,usdraw,ckov
829fb838 1290 return TRACKR.atrack;
5d80a015 1291 else if (caller == 40)
1292 return TRACKR.spausr[3];
669cede4 1293 else {
1294 Warning("TrackTime", "track time not available");
1295 return 0.0;
1296 }
829fb838 1297}
1298
1299//______________________________________________________________________________
1300Double_t TFluka::Edep() const
1301{
1302// Energy deposition
1303// if TRACKR.ntrack = 0, TRACKR.mtrack = 0:
1304// -->local energy deposition (the value and the point are not recorded in TRACKR)
1305// but in the variable "rull" of the procedure "endraw.cxx"
1306// if TRACKR.ntrack > 0, TRACKR.mtrack = 0:
1307// -->no energy loss along the track
1308// if TRACKR.ntrack > 0, TRACKR.mtrack > 0:
1309// -->energy loss distributed along the track
07f5b33e 1310// TRACKR.dtrack = energy deposition of the jth deposition event
829fb838 1311
1312 // If coming from bxdraw we have 2 steps of 0 length and 0 edep
669cede4 1313 // If coming from usdraw we just signal particle production - no edep
1314 // If just first time after resuming, no edep for the primary
829fb838 1315 Int_t caller = GetCaller();
5d80a015 1316 if (caller == 11 || caller==12 || caller==6 || caller == 40) return 0.0;
829fb838 1317 Double_t sum = 0;
1318 for ( Int_t j=0;j<TRACKR.mtrack;j++) {
1319 sum +=TRACKR.dtrack[j];
1320 }
1321 if (TRACKR.ntrack == 0 && TRACKR.mtrack == 0)
1322 return fRull + sum;
1323 else {
1324 return sum;
1325 }
1326}
1327
1328//______________________________________________________________________________
1329Int_t TFluka::TrackPid() const
1330{
1331// Return the id of the particle transported
1332// TRACKR.jtrack = identity number of the particle
1333 Int_t caller = GetCaller();
f926898e 1334 if (caller != 2) { // not eedraw
1335 return PDGFromId(TRACKR.jtrack);
1336 }
829fb838 1337 else
1338 return -1000;
1339}
1340
1341//______________________________________________________________________________
1342Double_t TFluka::TrackCharge() const
1343{
1344// Return charge of the track currently transported
1345// PAPROP.ichrge = electric charge of the particle
1346// TRACKR.jtrack = identity number of the particle
1347 Int_t caller = GetCaller();
1348 if (caller != 2) // not eedraw
1349 return PAPROP.ichrge[TRACKR.jtrack+6];
1350 else
1351 return -1000.0;
1352}
1353
1354//______________________________________________________________________________
1355Double_t TFluka::TrackMass() const
1356{
1357// PAPROP.am = particle mass in GeV
1358// TRACKR.jtrack = identity number of the particle
1359 Int_t caller = GetCaller();
1360 if (caller != 2) // not eedraw
1361 return PAPROP.am[TRACKR.jtrack+6];
1362 else
1363 return -1000.0;
1364}
1365
1366//______________________________________________________________________________
1367Double_t TFluka::Etot() const
1368{
1369// TRACKR.etrack = total energy of the particle
1370 Int_t caller = GetCaller();
1371 if (caller != 2) // not eedraw
1372 return TRACKR.etrack;
1373 else
1374 return -1000.0;
1375}
1376
1377//
1378// track status
1379//
1380//______________________________________________________________________________
1381Bool_t TFluka::IsNewTrack() const
1382{
1383// Return true for the first call of Stepping()
1384 return fTrackIsNew;
1385}
1386
0dabe425 1387void TFluka::SetTrackIsNew(Bool_t flag)
1388{
1389// Return true for the first call of Stepping()
1390 fTrackIsNew = flag;
1391
1392}
1393
1394
829fb838 1395//______________________________________________________________________________
1396Bool_t TFluka::IsTrackInside() const
1397{
1398// True if the track is not at the boundary of the current volume
1399// In Fluka a step is always inside one kind of material
1400// If the step would go behind the region of one material,
1401// it will be shortened to reach only the boundary.
1402// Therefore IsTrackInside() is always true.
1403 Int_t caller = GetCaller();
1404 if (caller == 11 || caller==12) // bxdraw
1405 return 0;
1406 else
1407 return 1;
1408}
1409
1410//______________________________________________________________________________
1411Bool_t TFluka::IsTrackEntering() const
1412{
1413// True if this is the first step of the track in the current volume
1414
1415 Int_t caller = GetCaller();
1416 if (caller == 11) // bxdraw entering
1417 return 1;
1418 else return 0;
1419}
1420
1421//______________________________________________________________________________
1422Bool_t TFluka::IsTrackExiting() const
1423{
1424// True if track is exiting volume
1425//
1426 Int_t caller = GetCaller();
1427 if (caller == 12) // bxdraw exiting
1428 return 1;
1429 else return 0;
1430}
1431
1432//______________________________________________________________________________
1433Bool_t TFluka::IsTrackOut() const
1434{
1435// True if the track is out of the setup
1436// means escape
1437// Icode = 14: escape - call from Kaskad
1438// Icode = 23: escape - call from Emfsco
1439// Icode = 32: escape - call from Kasneu
1440// Icode = 40: escape - call from Kashea
1441// Icode = 51: escape - call from Kasoph
1442 if (fIcode == 14 ||
1443 fIcode == 23 ||
1444 fIcode == 32 ||
1445 fIcode == 40 ||
1446 fIcode == 51) return 1;
1447 else return 0;
1448}
1449
1450//______________________________________________________________________________
1451Bool_t TFluka::IsTrackDisappeared() const
1452{
1453// means all inelastic interactions and decays
1454// fIcode from usdraw
1455 if (fIcode == 101 || // inelastic interaction
1456 fIcode == 102 || // particle decay
0dabe425 1457 fIcode == 103 || // delta ray generation by hadron
1458 fIcode == 104 || // direct pair production
1459 fIcode == 105 || // bremsstrahlung (muon)
1460 fIcode == 208 || // bremsstrahlung (electron)
829fb838 1461 fIcode == 214 || // in-flight annihilation
1462 fIcode == 215 || // annihilation at rest
1463 fIcode == 217 || // pair production
0dabe425 1464 fIcode == 219 || // Compton scattering
1465 fIcode == 221 || // Photoelectric effect
1466 fIcode == 300 || // hadronic interaction
1467 fIcode == 400 // delta-ray
1468 ) return 1;
829fb838 1469 else return 0;
1470}
1471
1472//______________________________________________________________________________
1473Bool_t TFluka::IsTrackStop() const
1474{
1475// True if the track energy has fallen below the threshold
1476// means stopped by signal or below energy threshold
1477// Icode = 12: stopping particle - call from Kaskad
1478// Icode = 15: time kill - call from Kaskad
1479// Icode = 21: below threshold, iarg=1 - call from Emfsco
1480// Icode = 22: below threshold, iarg=2 - call from Emfsco
1481// Icode = 24: time kill - call from Emfsco
1482// Icode = 31: below threshold - call from Kasneu
1483// Icode = 33: time kill - call from Kasneu
1484// Icode = 41: time kill - call from Kashea
1485// Icode = 52: time kill - call from Kasoph
1486 if (fIcode == 12 ||
1487 fIcode == 15 ||
1488 fIcode == 21 ||
1489 fIcode == 22 ||
1490 fIcode == 24 ||
1491 fIcode == 31 ||
1492 fIcode == 33 ||
1493 fIcode == 41 ||
1494 fIcode == 52) return 1;
1495 else return 0;
1496}
1497
1498//______________________________________________________________________________
1499Bool_t TFluka::IsTrackAlive() const
1500{
1501// means not disappeared or not out
1502 if (IsTrackDisappeared() || IsTrackOut() ) return 0;
1503 else return 1;
1504}
1505
1506//
1507// secondaries
1508//
1509
1510//______________________________________________________________________________
1511Int_t TFluka::NSecondaries() const
1512
1513{
1514// Number of secondary particles generated in the current step
1515// FINUC.np = number of secondaries except light and heavy ions
1516// FHEAVY.npheav = number of secondaries for light and heavy secondary ions
7b203b6e 1517 Int_t caller = GetCaller();
1518 if (caller == 6) // valid only after usdraw
1519 return FINUC.np + FHEAVY.npheav;
1520 else if (caller == 50) {
1521 // Cerenkov Photon production
1522 return fNCerenkov;
1523 }
829fb838 1524 return 0;
1525} // end of NSecondaries
1526
1527//______________________________________________________________________________
1528void TFluka::GetSecondary(Int_t isec, Int_t& particleId,
1529 TLorentzVector& position, TLorentzVector& momentum)
1530{
1531// Copy particles from secondary stack to vmc stack
1532//
1533
7b203b6e 1534 Int_t caller = GetCaller();
1535 if (caller == 6) { // valid only after usdraw
1536 if (FINUC.np > 0) {
1537 // Hadronic interaction
1538 if (isec >= 0 && isec < FINUC.np) {
1539 particleId = PDGFromId(FINUC.kpart[isec]);
1540 position.SetX(fXsco);
1541 position.SetY(fYsco);
1542 position.SetZ(fZsco);
1543 position.SetT(TRACKR.atrack);
1544 momentum.SetPx(FINUC.plr[isec]*FINUC.cxr[isec]);
1545 momentum.SetPy(FINUC.plr[isec]*FINUC.cyr[isec]);
1546 momentum.SetPz(FINUC.plr[isec]*FINUC.czr[isec]);
1547 momentum.SetE(FINUC.tki[isec] + PAPROP.am[FINUC.kpart[isec]+6]);
1548 }
1549 else if (isec >= FINUC.np && isec < FINUC.np + FHEAVY.npheav) {
1550 Int_t jsec = isec - FINUC.np;
1551 particleId = FHEAVY.kheavy[jsec]; // this is Fluka id !!!
1552 position.SetX(fXsco);
1553 position.SetY(fYsco);
1554 position.SetZ(fZsco);
1555 position.SetT(TRACKR.atrack);
1556 momentum.SetPx(FHEAVY.pheavy[jsec]*FHEAVY.cxheav[jsec]);
1557 momentum.SetPy(FHEAVY.pheavy[jsec]*FHEAVY.cyheav[jsec]);
1558 momentum.SetPz(FHEAVY.pheavy[jsec]*FHEAVY.czheav[jsec]);
1559 if (FHEAVY.tkheav[jsec] >= 3 && FHEAVY.tkheav[jsec] <= 6)
1560 momentum.SetE(FHEAVY.tkheav[jsec] + PAPROP.am[jsec+6]);
1561 else if (FHEAVY.tkheav[jsec] > 6)
1562 momentum.SetE(FHEAVY.tkheav[jsec] + FHEAVY.amnhea[jsec]); // to be checked !!!
1563 }
1564 else
1565 Warning("GetSecondary","isec out of range");
1566 }
1567 } else if (caller == 50) {
1568 Int_t index = OPPHST.lstopp - isec;
1569 position.SetX(OPPHST.xoptph[index]);
1570 position.SetY(OPPHST.yoptph[index]);
1571 position.SetZ(OPPHST.zoptph[index]);
1572 position.SetT(OPPHST.agopph[index]);
1573 Double_t p = OPPHST.poptph[index];
1574
1575 momentum.SetPx(p * OPPHST.txopph[index]);
1576 momentum.SetPy(p * OPPHST.tyopph[index]);
1577 momentum.SetPz(p * OPPHST.tzopph[index]);
1578 momentum.SetE(p);
829fb838 1579 }
1580 else
7b203b6e 1581 Warning("GetSecondary","no secondaries available");
1582
829fb838 1583} // end of GetSecondary
1584
7b203b6e 1585
829fb838 1586//______________________________________________________________________________
1587TMCProcess TFluka::ProdProcess(Int_t) const
1588
1589{
1590// Name of the process that has produced the secondary particles
1591// in the current step
0dabe425 1592
1593 Int_t mugamma = (TRACKR.jtrack == 7 || TRACKR.jtrack == 10 || TRACKR.jtrack == 11);
1594
b496f27c 1595 if (fIcode == 102) return kPDecay;
0dabe425 1596 else if (fIcode == 104 || fIcode == 217) return kPPair;
b496f27c 1597 else if (fIcode == 219) return kPCompton;
1598 else if (fIcode == 221) return kPPhotoelectric;
0dabe425 1599 else if (fIcode == 105 || fIcode == 208) return kPBrem;
1600 else if (fIcode == 103 || fIcode == 400) return kPDeltaRay;
1601 else if (fIcode == 210 || fIcode == 212) return kPDeltaRay;
1602 else if (fIcode == 214 || fIcode == 215) return kPAnnihilation;
b496f27c 1603 else if (fIcode == 101) return kPHadronic;
829fb838 1604 else if (fIcode == 101) {
b496f27c 1605 if (!mugamma) return kPHadronic;
1606 else if (TRACKR.jtrack == 7) return kPPhotoFission;
1607 else return kPMuonNuclear;
829fb838 1608 }
b496f27c 1609 else if (fIcode == 225) return kPRayleigh;
829fb838 1610// Fluka codes 100, 300 and 400 still to be investigasted
b496f27c 1611 else return kPNoProcess;
829fb838 1612}
1613
829fb838 1614
b496f27c 1615Int_t TFluka::StepProcesses(TArrayI &proc) const
1616{
1617 //
1618 // Return processes active in the current step
1619 //
1620 proc.Set(1);
1621 TMCProcess iproc;
1622 switch (fIcode) {
1623 case 15:
1624 case 24:
1625 case 33:
1626 case 41:
1627 case 52:
1628 iproc = kPTOFlimit;
1629 break;
1630 case 12:
1631 case 14:
1632 case 21:
1633 case 22:
1634 case 23:
1635 case 31:
1636 case 32:
1637 case 40:
1638 case 51:
6fd5baa4 1639 iproc = kPStop;
b496f27c 1640 break;
1641 case 50:
1642 iproc = kPLightAbsorption;
1643 break;
6fd5baa4 1644 case 59:
1645 iproc = kPLightRefraction;
b496f27c 1646 case 20:
1647 iproc = kPPhotoelectric;
1648 break;
1649 default:
1650 iproc = ProdProcess(0);
1651 }
07f5b33e 1652 proc[0] = iproc;
b496f27c 1653 return 1;
1654}
829fb838 1655//______________________________________________________________________________
1656Int_t TFluka::VolId2Mate(Int_t id) const
1657{
1658//
1659// Returns the material number for a given volume ID
1660//
1661 return fMCGeo->VolId2Mate(id);
1662}
1663
1664//______________________________________________________________________________
1665const char* TFluka::VolName(Int_t id) const
1666{
1667//
1668// Returns the volume name for a given volume ID
1669//
1670 return fMCGeo->VolName(id);
1671}
1672
1673//______________________________________________________________________________
1674Int_t TFluka::VolId(const Text_t* volName) const
1675{
1676//
1677// Converts from volume name to volume ID.
1678// Time consuming. (Only used during set-up)
1679// Could be replaced by hash-table
1680//
09cd6497 1681 char sname[20];
1682 Int_t len;
1683 strncpy(sname, volName, len = strlen(volName));
1684 sname[len] = 0;
1685 while (sname[len - 1] == ' ') sname[--len] = 0;
1686 return fMCGeo->VolId(sname);
829fb838 1687}
1688
1689//______________________________________________________________________________
1690Int_t TFluka::CurrentVolID(Int_t& copyNo) const
1691{
1692//
1693// Return the logical id and copy number corresponding to the current fluka region
1694//
1695 if (gGeoManager->IsOutside()) return 0;
1696 TGeoNode *node = gGeoManager->GetCurrentNode();
1697 copyNo = node->GetNumber();
1698 Int_t id = node->GetVolume()->GetNumber();
1699 return id;
1700}
1701
1702//______________________________________________________________________________
1703Int_t TFluka::CurrentVolOffID(Int_t off, Int_t& copyNo) const
1704{
1705//
1706// Return the logical id and copy number of off'th mother
1707// corresponding to the current fluka region
1708//
1709 if (off<0 || off>gGeoManager->GetLevel()) return 0;
1710 if (off==0) return CurrentVolID(copyNo);
1711 TGeoNode *node = gGeoManager->GetMother(off);
1712 if (!node) return 0;
1713 copyNo = node->GetNumber();
1714 return node->GetVolume()->GetNumber();
1715}
1716
1717//______________________________________________________________________________
1718const char* TFluka::CurrentVolName() const
1719{
1720//
1721// Return the current volume name
1722//
1723 if (gGeoManager->IsOutside()) return 0;
1724 return gGeoManager->GetCurrentVolume()->GetName();
1725}
1726
1727//______________________________________________________________________________
1728const char* TFluka::CurrentVolOffName(Int_t off) const
1729{
1730//
1731// Return the volume name of the off'th mother of the current volume
1732//
1733 if (off<0 || off>gGeoManager->GetLevel()) return 0;
1734 if (off==0) return CurrentVolName();
1735 TGeoNode *node = gGeoManager->GetMother(off);
1736 if (!node) return 0;
1737 return node->GetVolume()->GetName();
1738}
1739
1740//______________________________________________________________________________
a60813de 1741Int_t TFluka::CurrentMaterial(Float_t & a, Float_t & z,
1742 Float_t & dens, Float_t & radl, Float_t & absl) const
829fb838 1743{
1744//
a60813de 1745// Return the current medium number and material properties
829fb838 1746//
1747 Int_t copy;
1748 Int_t id = TFluka::CurrentVolID(copy);
1749 Int_t med = TFluka::VolId2Mate(id);
a60813de 1750 TGeoVolume* vol = gGeoManager->GetCurrentVolume();
1751 TGeoMaterial* mat = vol->GetMaterial();
1752 a = mat->GetA();
1753 z = mat->GetZ();
1754 dens = mat->GetDensity();
1755 radl = mat->GetRadLen();
1756 absl = mat->GetIntLen();
1757
829fb838 1758 return med;
1759}
1760
1761//______________________________________________________________________________
1762void TFluka::Gmtod(Float_t* xm, Float_t* xd, Int_t iflag)
1763{
1764// Transforms a position from the world reference frame
1765// to the current volume reference frame.
1766//
1767// Geant3 desription:
1768// ==================
1769// Computes coordinates XD (in DRS)
1770// from known coordinates XM in MRS
1771// The local reference system can be initialized by
1772// - the tracking routines and GMTOD used in GUSTEP
1773// - a call to GMEDIA(XM,NUMED)
1774// - a call to GLVOLU(NLEVEL,NAMES,NUMBER,IER)
1775// (inverse routine is GDTOM)
1776//
1777// If IFLAG=1 convert coordinates
1778// IFLAG=2 convert direction cosinus
1779//
1780// ---
1781 Double_t xmL[3], xdL[3];
1782 Int_t i;
1783 for (i=0;i<3;i++) xmL[i]=xm[i];
1784 if (iflag == 1) gGeoManager->MasterToLocal(xmL,xdL);
1785 else gGeoManager->MasterToLocalVect(xmL,xdL);
1786 for (i=0;i<3;i++) xd[i] = xdL[i];
1787}
1788
1789//______________________________________________________________________________
1790void TFluka::Gmtod(Double_t* xm, Double_t* xd, Int_t iflag)
1791{
1792 if (iflag == 1) gGeoManager->MasterToLocal(xm,xd);
1793 else gGeoManager->MasterToLocalVect(xm,xd);
1794}
1795
1796//______________________________________________________________________________
1797void TFluka::Gdtom(Float_t* xd, Float_t* xm, Int_t iflag)
1798{
1799// Transforms a position from the current volume reference frame
1800// to the world reference frame.
1801//
1802// Geant3 desription:
1803// ==================
1804// Computes coordinates XM (Master Reference System
1805// knowing the coordinates XD (Detector Ref System)
1806// The local reference system can be initialized by
1807// - the tracking routines and GDTOM used in GUSTEP
1808// - a call to GSCMED(NLEVEL,NAMES,NUMBER)
1809// (inverse routine is GMTOD)
1810//
1811// If IFLAG=1 convert coordinates
1812// IFLAG=2 convert direction cosinus
1813//
1814// ---
1815 Double_t xmL[3], xdL[3];
1816 Int_t i;
1817 for (i=0;i<3;i++) xdL[i] = xd[i];
1818 if (iflag == 1) gGeoManager->LocalToMaster(xdL,xmL);
1819 else gGeoManager->LocalToMasterVect(xdL,xmL);
1820 for (i=0;i<3;i++) xm[i]=xmL[i];
1821}
1822
1823//______________________________________________________________________________
1824void TFluka::Gdtom(Double_t* xd, Double_t* xm, Int_t iflag)
1825{
1826 if (iflag == 1) gGeoManager->LocalToMaster(xd,xm);
1827 else gGeoManager->LocalToMasterVect(xd,xm);
1828}
1829
1830//______________________________________________________________________________
1831TObjArray *TFluka::GetFlukaMaterials()
1832{
1833 return fGeom->GetMatList();
1834}
1835
1836//______________________________________________________________________________
1837void TFluka::SetMreg(Int_t l)
1838{
1839// Set current fluka region
1840 fCurrentFlukaRegion = l;
1841 fGeom->SetMreg(l);
1842}
1843
1844
b496f27c 1845
1846
1847TString TFluka::ParticleName(Int_t pdg) const
1848{
1849 // Return particle name for particle with pdg code pdg.
1850 Int_t ifluka = IdFromPDG(pdg);
1851 return TString((CHPPRP.btype[ifluka+6]), 8);
1852}
1853
1854
1855Double_t TFluka::ParticleMass(Int_t pdg) const
1856{
1857 // Return particle mass for particle with pdg code pdg.
1858 Int_t ifluka = IdFromPDG(pdg);
1859 return (PAPROP.am[ifluka+6]);
1860}
1861
1862Double_t TFluka::ParticleCharge(Int_t pdg) const
1863{
1864 // Return particle charge for particle with pdg code pdg.
1865 Int_t ifluka = IdFromPDG(pdg);
1866 return Double_t(PAPROP.ichrge[ifluka+6]);
1867}
1868
1869Double_t TFluka::ParticleLifeTime(Int_t pdg) const
1870{
1871 // Return particle lifetime for particle with pdg code pdg.
1872 Int_t ifluka = IdFromPDG(pdg);
1873 return (PAPROP.thalf[ifluka+6]);
1874}
1875
1876void TFluka::Gfpart(Int_t pdg, char* name, Int_t& type, Float_t& mass, Float_t& charge, Float_t& tlife)
1877{
1878 // Retrieve particle properties for particle with pdg code pdg.
1879
1880 strcpy(name, ParticleName(pdg).Data());
1881 type = ParticleMCType(pdg);
1882 mass = ParticleMass(pdg);
1883 charge = ParticleCharge(pdg);
1884 tlife = ParticleLifeTime(pdg);
1885}
1886
1887
1888
3a625972 1889#define pushcerenkovphoton pushcerenkovphoton_
7b203b6e 1890#define usersteppingckv usersteppingckv_
3a625972 1891
1892
1893extern "C" {
1894 void pushcerenkovphoton(Double_t & px, Double_t & py, Double_t & pz, Double_t & e,
1895 Double_t & vx, Double_t & vy, Double_t & vz, Double_t & tof,
1896 Double_t & polx, Double_t & poly, Double_t & polz, Double_t & wgt, Int_t& ntr)
1897 {
1898 //
1899 // Pushes one cerenkov photon to the stack
1900 //
1901
1902 TFluka* fluka = (TFluka*) gMC;
1903 TVirtualMCStack* cppstack = fluka->GetStack();
bd3d5c8a 1904 Int_t parent = TRACKR.ispusr[mkbmx2-1];
921e0994 1905 cppstack->PushTrack(0, parent, 50000050,
3a625972 1906 px, py, pz, e,
1907 vx, vy, vz, tof,
1908 polx, poly, polz,
1909 kPCerenkov, ntr, wgt, 0);
1910 }
7b203b6e 1911
1912 void usersteppingckv(Int_t & nphot, Int_t & mreg, Double_t & x, Double_t & y, Double_t & z)
1913 {
1914 //
1915 // Calls stepping in order to signal cerenkov production
1916 //
1917 TFluka *fluka = (TFluka*)gMC;
1918 fluka->SetMreg(mreg);
1919 fluka->SetXsco(x);
1920 fluka->SetYsco(y);
1921 fluka->SetZsco(z);
1922 fluka->SetNCerenkov(nphot);
1923 fluka->SetCaller(50);
1924 printf("userstepping ckv: %10d %10d %13.3f %13.3f %13.2f\n", nphot, mreg, x, y, z);
1925 (TVirtualMCApplication::Instance())->Stepping();
1926 }
3a625972 1927}
829fb838 1928