#include <Riostream.h>
#include "TVirtualMCApplication.h"
+#include "TGeoMaterial.h"
+#include "TGeoManager.h"
+#include <TParticle.h>
+#include "TFlukaCerenkov.h"
-#ifndef WITH_ROOT
#include "TFluka.h"
-#else
-#include "TFlukaGeo.h"
-#endif
+#include "TFlukaCodes.h"
#include "Fdimpar.h" //(DIMPAR) fluka include
#include "Ftrackr.h" //(TRACKR) fluka common
+#include "Fltclcm.h" //(LTCLCM) fluka common
+#include "Fpaprop.h" //(PAPROP) fluka common
+
#ifndef WIN32
# define endraw endraw_
#else
void endraw(Int_t& icode, Int_t& mreg, Double_t& rull, Double_t& xsco, Double_t& ysco, Double_t& zsco)
{
TFluka* fluka = (TFluka*) gMC;
- fluka->SetCaller(3);
- fluka->SetIcode(icode);
+ // nothing to do if particle in dummy region
+ if (mreg == fluka->GetDummyRegion()) return;
+ Int_t verbosityLevel = fluka->GetVerbosityLevel();
+ Bool_t debug = (verbosityLevel >= 3)? kTRUE : kFALSE;
+ Int_t mlttc = LTCLCM.mlatm1;
+ fluka->SetCaller(kENDRAW);
fluka->SetRull(rull);
fluka->SetXsco(xsco);
fluka->SetYsco(ysco);
fluka->SetZsco(zsco);
- fluka->SetMreg(mreg);
- if (icode == 11) {
- cout << " For icode=" << icode << " Stepping is NOT called" << endl;
- return;
+ fluka->SetMreg(mreg, mlttc);
+
+ Float_t edep = rull;
+
+ if (TRACKR.jtrack == -1) {
+ // Handle quantum efficiency the G3 way
+ if (debug) printf("endraw: Cerenkov photon depositing energy: %d %e\n", mreg, rull);
+ TGeoMaterial* material = (gGeoManager->GetCurrentVolume())->GetMaterial();
+ TFlukaCerenkov* cerenkov = dynamic_cast<TFlukaCerenkov*> (material->GetCerenkovProperties());
+ if (cerenkov) {
+ Double_t eff = (cerenkov->GetQuantumEfficiency(rull));
+ if (gRandom->Rndm() > eff) {
+ edep = 0.;
+ }
+ }
+ }
+
+ TVirtualMCStack* cppstack = fluka->GetStack();
+ Int_t saveTrackId = cppstack->GetCurrentTrackNumber();
+
+ if (debug) {
+ cout << "ENDRAW For icode=" << icode << " stacktrack=" << saveTrackId
+ << " track=" << TRACKR.ispusr[mkbmx2-1] << " pdg=" << fluka->PDGFromId(TRACKR.jtrack)
+ << " edep="<< edep <<endl;
+ }
+
+ if (icode != kEMFSCOstopping1 && icode != kEMFSCOstopping2) {
+ fluka->SetIcode((FlukaProcessCode_t)icode);
+ fluka->SetRull(edep);
+ if (icode == kKASKADelarecoil && TRACKR.ispusr[mkbmx2-5]) {
+ // Elastic recoil and in stuprf npprmr > 0,
+ // the secondary being loaded is actually still the interacting particle
+ cppstack->SetCurrentTrack( TRACKR.ispusr[mkbmx2-4] );
+ // cout << "endraw elastic recoil track=" << TRACKR.ispusr[mkbmx2-1] << " parent=" << TRACKR.ispusr[mkbmx2-4]
+ // << endl;
+ }
+ else
+ cppstack->SetCurrentTrack(TRACKR.ispusr[mkbmx2-1] );
+ (TVirtualMCApplication::Instance())->Stepping();
+
+// cppstack->SetCurrentTrack( saveTrackId );
+ } else {
+ //
+ // For icode 21,22 the particle has fallen below thresshold.
+ // This has to be signalled to the StepManager()
+ //
+ cppstack->SetCurrentTrack( TRACKR.ispusr[mkbmx2-1] );
+ fluka->SetRull(edep);
+ fluka->SetIcode((FlukaProcessCode_t) icode);
+ (TVirtualMCApplication::Instance())->Stepping();
+ fluka->SetTrackIsNew(kFALSE);
+ fluka->SetIcode((FlukaProcessCode_t)icode);
+ fluka->SetRull(0.);
+ (TVirtualMCApplication::Instance())->Stepping();
+// cppstack->SetCurrentTrack( saveTrackId );
+
}
- (TVirtualMCApplication::Instance())->Stepping();
- fluka->SetTrackIsNew(kFALSE);
} // end of endraw
} // end of extern "C"
git://git.uio.no / u / mrichter / AliRoot.git / blobdiff