Obsolete files removed.
authormorsch <morsch@f7af4fe6-9843-0410-8265-dc069ae4e863>
Tue, 7 Jun 2005 09:59:19 +0000 (09:59 +0000)
committermorsch <morsch@f7af4fe6-9843-0410-8265-dc069ae4e863>
Tue, 7 Jun 2005 09:59:19 +0000 (09:59 +0000)
TFluka/libFluser.pkg [deleted file]
TFluka/source_bg.cxx [deleted file]
TFluka/source_f.cxx [deleted file]
TFluka/source_ff.cxx [deleted file]
TFluka/source_halo.cxx [deleted file]
TFluka/source_pbpb.cxx [deleted file]
TFluka/source_pp.cxx [deleted file]
TFluka/source_ray.cxx [deleted file]

diff --git a/TFluka/libFluser.pkg b/TFluka/libFluser.pkg
deleted file mode 100644 (file)
index e69fbde..0000000
+++ /dev/null
@@ -1,11 +0,0 @@
-# Sources
-SRCS:=  source_pp.cxx source_bg.cxx source_halo.cxx source_ray.cxx source_pbpb.cxx
-
-
-# Extra includes and libraries
-EINCLUDE:= $(FLUPRO)/flukapro
-ELIBSDIR:= $(FLUPRO)
-ELIBS   := flukahp
-
-
-
diff --git a/TFluka/source_bg.cxx b/TFluka/source_bg.cxx
deleted file mode 100644 (file)
index 030aedc..0000000
+++ /dev/null
@@ -1,261 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../THijing/AliGenHijing.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-#include "TRandom.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_bg source_bg__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_bg SOURCE_BG
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_bg(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static AliGenHijing* gener = 0;
-      static AliStack* stack     = 0;  
-
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-//
-// The generator
-//
-         gener  = new AliGenHijing(-1);
-// beam energy 
-         gener->SetEnergyCMS(7000.);
-// reference frame
-         gener->SetReferenceFrame("LAB");
-// projectile
-         gener->SetProjectile("P",  1,  1);
-         gener->SetTarget    ("A", 16,  8);
-         gener->SetBoostLHC(0);
-         
-// tell hijing to keep the full parent child chain
-         gener->KeepFullEvent();
-// enable jet quenching
-         gener->SetJetQuenching(0);
-// enable shadowing
-         gener->SetShadowing(0);
-// neutral pion and heavy particle decays switched off
-         gener->SetDecaysOff(1);
-// Don't track spectators
-         gener->SetSpectators(0);
-// The particle stack
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         // Vertex
-         Float_t za   =  4000. * gRandom->Rndm() -2000.;
-         // Direction
-//       Float_t dir  = (za < 0.) ? 1. : -1.;
-         Float_t dir  = (gRandom->Rndm() < 0.5)? 1. : -1;
-         
-         for (Int_t part=0; part<npart; part++) {
-             particle = stack->Particle(part);
-             Int_t ic = particle->GetFirstDaughter();
-             if (ic != -1) continue;
-             Int_t pdg = particle->GetPdgCode();
-             Int_t intfluka = mcihad(pdg);
-             Int_t ifl = GetFlukaKPTOIP(intfluka);
-             TVector3 polarisation;
-             particle->GetPolarisation(polarisation);
-
-             STACK.lstack++;
-
-             printf("Particle %5d %5d %5d %10s %10.3f %10.3f %10.3f \n", STACK.lstack, pdg, ifl, 
-                    particle->GetName(), particle->Px(), particle->Py(), particle->Pz());
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = oneone;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             STACK.ilo[STACK.lstack] = ifl;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.)   cosz = -cosz;
-             cosz *= dir;
-             
-             STACK.tx [STACK.lstack] = cosx;
-             STACK.ty [STACK.lstack] = cosy;
-             STACK.tz [STACK.lstack] = cosz;
-             
-             /* Polarization cosines:*/
-             if (polarisation.Mag()) {
-                 Double_t cospolx = polarisation.Px()/polarisation.Mag();
-                 Double_t cospoly = polarisation.Py()/polarisation.Mag();
-                 Double_t cospolz = sqrt(oneone - cospolx*cospolx - cospoly*cospoly);
-                 STACK.tx [STACK.lstack] = cospolx;
-                 STACK.ty [STACK.lstack] = cospoly;
-                 STACK.tz [STACK.lstack] = cospolz;
-             }
-             else {
-                 STACK.txpol [STACK.lstack] = -twotwo;
-                 STACK.typol [STACK.lstack] = +zerzer;
-                 STACK.tzpol [STACK.lstack] = +zerzer;
-             }
-             
-             /* Particle coordinates*/
-             STACK.xa [STACK.lstack] = particle->Vx();
-             STACK.ya [STACK.lstack] = particle->Vy();
-             STACK.za [STACK.lstack] = za;
-             
-             printf("Particle Vertex %10.3f %10.3f %10.3f %10.3f \n",  
-                    STACK.xa [STACK.lstack],  STACK.ya [STACK.lstack],  STACK.za [STACK.lstack], dir);
-             
-             
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-         }
-      }
-  }
-}
-
-    
diff --git a/TFluka/source_f.cxx b/TFluka/source_f.cxx
deleted file mode 100644 (file)
index d721541..0000000
+++ /dev/null
@@ -1,233 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../PYTHIA6/AliGenPythia.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_f source_f__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_f SOURCE_F
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_f(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static AliGenPythia* gener = 0;
-      static AliStack* stack     = 0;  
-
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         printf("source_f first call \n");
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-         gener  = new AliGenPythia(1);
-         gener->SetEnergyCMS(14000.);
-         gener->SetProcess(kPyMb);
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         printf("Calling Generate() %p \n", gener);
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         printf("%d Particles on the stack \n", npart);
-         for (Int_t part=0; part<npart; part++) {
-             particle = stack->Particle(part);
-             Int_t st = particle->GetStatusCode();
-             if (st != 1) continue;
-             Int_t pdg = particle->GetPdgCode();
-             Int_t intfluka = mcihad(pdg);
-             Int_t ifl = GetFlukaKPTOIP(intfluka);
-             TVector3 polarisation;
-             particle->GetPolarisation(polarisation);
-
-             STACK.lstack++;
-
-             printf("Particle %5d %5d %5d %10s %10.3f %10.3f %10.3f \n", STACK.lstack, pdg, ifl, 
-                    particle->GetName(), particle->Px(), particle->Py(), particle->Pz());
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = oneone;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             STACK.ilo[STACK.lstack] = ifl;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.) cosz = -cosz;
-             STACK.tx [STACK.lstack] = cosx;
-             STACK.ty [STACK.lstack] = cosy;
-             STACK.tz [STACK.lstack] = cosz;
-             
-             /* Polarization cosines:*/
-             if (polarisation.Mag()) {
-                 Double_t cospolx = polarisation.Px()/polarisation.Mag();
-                 Double_t cospoly = polarisation.Py()/polarisation.Mag();
-                 Double_t cospolz = sqrt(oneone - cospolx*cospolx - cospoly*cospoly);
-                 STACK.tx [STACK.lstack] = cospolx;
-                 STACK.ty [STACK.lstack] = cospoly;
-                 STACK.tz [STACK.lstack] = cospolz;
-             }
-             else {
-                 STACK.txpol [STACK.lstack] = -twotwo;
-                 STACK.typol [STACK.lstack] = +zerzer;
-                 STACK.tzpol [STACK.lstack] = +zerzer;
-             }
-             
-             /* Particle coordinates*/
-             // Vertext coordinates;
-             STACK.xa [STACK.lstack] = particle->Vx();
-             STACK.ya [STACK.lstack] = particle->Vy();
-             STACK.za [STACK.lstack] = particle->Vz();
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-//
-//  Pre-track actions at for primary tracks
-//
-         }
-      }
-  }
-}
-
-    
diff --git a/TFluka/source_ff.cxx b/TFluka/source_ff.cxx
deleted file mode 100644 (file)
index d721541..0000000
+++ /dev/null
@@ -1,233 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../PYTHIA6/AliGenPythia.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_f source_f__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_f SOURCE_F
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_f(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static AliGenPythia* gener = 0;
-      static AliStack* stack     = 0;  
-
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         printf("source_f first call \n");
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-         gener  = new AliGenPythia(1);
-         gener->SetEnergyCMS(14000.);
-         gener->SetProcess(kPyMb);
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         printf("Calling Generate() %p \n", gener);
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         printf("%d Particles on the stack \n", npart);
-         for (Int_t part=0; part<npart; part++) {
-             particle = stack->Particle(part);
-             Int_t st = particle->GetStatusCode();
-             if (st != 1) continue;
-             Int_t pdg = particle->GetPdgCode();
-             Int_t intfluka = mcihad(pdg);
-             Int_t ifl = GetFlukaKPTOIP(intfluka);
-             TVector3 polarisation;
-             particle->GetPolarisation(polarisation);
-
-             STACK.lstack++;
-
-             printf("Particle %5d %5d %5d %10s %10.3f %10.3f %10.3f \n", STACK.lstack, pdg, ifl, 
-                    particle->GetName(), particle->Px(), particle->Py(), particle->Pz());
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = oneone;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             STACK.ilo[STACK.lstack] = ifl;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.) cosz = -cosz;
-             STACK.tx [STACK.lstack] = cosx;
-             STACK.ty [STACK.lstack] = cosy;
-             STACK.tz [STACK.lstack] = cosz;
-             
-             /* Polarization cosines:*/
-             if (polarisation.Mag()) {
-                 Double_t cospolx = polarisation.Px()/polarisation.Mag();
-                 Double_t cospoly = polarisation.Py()/polarisation.Mag();
-                 Double_t cospolz = sqrt(oneone - cospolx*cospolx - cospoly*cospoly);
-                 STACK.tx [STACK.lstack] = cospolx;
-                 STACK.ty [STACK.lstack] = cospoly;
-                 STACK.tz [STACK.lstack] = cospolz;
-             }
-             else {
-                 STACK.txpol [STACK.lstack] = -twotwo;
-                 STACK.typol [STACK.lstack] = +zerzer;
-                 STACK.tzpol [STACK.lstack] = +zerzer;
-             }
-             
-             /* Particle coordinates*/
-             // Vertext coordinates;
-             STACK.xa [STACK.lstack] = particle->Vx();
-             STACK.ya [STACK.lstack] = particle->Vy();
-             STACK.za [STACK.lstack] = particle->Vz();
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-//
-//  Pre-track actions at for primary tracks
-//
-         }
-      }
-  }
-}
-
-    
diff --git a/TFluka/source_halo.cxx b/TFluka/source_halo.cxx
deleted file mode 100644 (file)
index c921084..0000000
+++ /dev/null
@@ -1,232 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../EVGEN/AliGenHaloProtvino.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-#include "TRandom.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_halo source_halo__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_halo SOURCE_HALO
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_halo(Int_t& nomore) {
-
-      static Bool_t lfirst               = true;
-      static AliGenHaloProtvino* gener   = 0;
-      static AliStack* stack             = 0;  
-
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-//
-// The generator
-//
-         gener  = new AliGenHaloProtvino(10);
-         gener->SetFileName("/home/morsch/AliRoot/newio/data/ir.2.ring.one.b.10.m");
-         gener->SetSide(2);
-         gener->SetRunPeriod();
-         
-         
-// The particle stack
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         for (Int_t part = 1; part < npart; part += 2) {
-             particle = stack->Particle(part);
-             STACK.lstack++;
-             Int_t pdg = particle->GetPdgCode();
-             Int_t intfluka = mcihad(pdg);
-             Int_t ifl = GetFlukaKPTOIP(intfluka);
-             Float_t wgt = particle->GetWeight();
-             
-             printf("Particle %5d %10s %10.3f %10.3f %10.3f %10.3f\n", 
-                    STACK.lstack, 
-                    particle->GetName(), 
-                    particle->Px(), particle->Py(), particle->Pz(), wgt);
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = wgt;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             STACK.ilo[STACK.lstack] = ifl;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.)   cosz = -cosz;
-             
-             STACK.tx [STACK.lstack] =   cosx;
-             STACK.ty [STACK.lstack] =   cosy;
-             STACK.tz [STACK.lstack] =   cosz;
-             
-             /* Polarization cosines:*/
-             
-             STACK.txpol [STACK.lstack] = -twotwo;
-             STACK.typol [STACK.lstack] = +zerzer;
-             STACK.tzpol [STACK.lstack] = +zerzer;
-             
-             /* Particle coordinates*/
-             STACK.xa [STACK.lstack] =   particle->Vx();
-             STACK.ya [STACK.lstack] =   particle->Vy();
-             STACK.za [STACK.lstack] =   particle->Vz();
-             
-             
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             printf("Particle Vertex %10.3f %10.3f %10.3f %5d\n",  
-                    STACK.xa [STACK.lstack],  STACK.ya [STACK.lstack],  STACK.za [STACK.lstack], 
-                    STACK.nreg[STACK.lstack]);
-             
-
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-         }
-      }
-  }
-}
-
-    
diff --git a/TFluka/source_pbpb.cxx b/TFluka/source_pbpb.cxx
deleted file mode 100644 (file)
index 699e8ec..0000000
+++ /dev/null
@@ -1,270 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../THijing/AliGenHijing.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-#include "TRandom.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_pbpb source_pbpb__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_pbpb SOURCE_PBPB
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_pbpb(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static Int_t  part         = 0;
-      static AliGenHijing* gener = 0;
-      static AliStack* stack     = 0;  
-      static Int_t npart;
-      
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-//
-// The generator
-//
-         gener  = new AliGenHijing(-1);
-// beam energy 
-         gener->SetEnergyCMS(5500.);
-// reference frame
-         gener->SetReferenceFrame("CMS");
-// projectile
-         gener->SetProjectile("A", 208,  82);
-         gener->SetTarget    ("A", 208,  82);
-         gener->SetBoostLHC(0);
-         gener->SetImpactParameterRange(0., 0.1);
-         
-// tell hijing to keep the full parent child chain
-         gener->KeepFullEvent();
-// enable jet quenching
-         gener->SetJetQuenching(1);
-// enable shadowing
-         gener->SetShadowing(1);
-// neutral pion and heavy particle decays switched off
-         gener->SetDecaysOff(1);
-// Don't track spectators
-         gener->SetSpectators(0);
-// The particle stack
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-         //
-         // Generate event
-         stack->Reset();
-         gener->Generate();
-         npart = stack->GetNprimary();
-         printf("source_pbpb generated %d particles \n", npart);
-         part = 0;
-      } 
-      if (part >= npart) {
-         nomore = 1;
-         return;
-      }
-         
-      // Vertex
-      Float_t za   =  0.;
-      // Direction
-      Float_t dir  =  1.;
-      Int_t ic = 1;
-      
-      while (ic != -1) {
-         particle = stack->Particle(part++);
-         ic = particle->GetFirstDaughter();
-      }
-      
-      
-      Int_t pdg = particle->GetPdgCode();
-      Int_t intfluka = mcihad(pdg);
-      Int_t ifl = GetFlukaKPTOIP(intfluka);
-      TVector3 polarisation;
-      particle->GetPolarisation(polarisation);
-      
-      STACK.lstack++;
-      
-//      printf("Particle %5d %5d %5d %10s %10.3f %10.3f %10.3f \n", part, pdg, ifl, 
-//          particle->GetName(), particle->Px(), particle->Py(), particle->Pz());
-      
-      
-      
-      /* Wt is the weight of the particle*/
-      STACK.wt[STACK.lstack] = oneone;
-      STARS.weipri += STACK.wt[STACK.lstack];
-      
-      STACK.ilo[STACK.lstack] = ifl;
-      /* From this point .....
-       * Particle generation (1 for primaries)
-       */
-      STACK.lo[STACK.lstack] = 1;
-      
-      /* User dependent flag:*/
-      STACK.louse[STACK.lstack] = 0;
-      
-      /* User dependent spare variables:*/
-      Int_t ispr = 0;
-      for (ispr = 0; ispr < mkbmx1; ispr++)
-         STACK.sparek[STACK.lstack][ispr] = zerzer;
-      
-      /* User dependent spare flags:*/
-      for (ispr = 0; ispr < mkbmx2; ispr++)
-         STACK.ispark[STACK.lstack][ispr] = 0;
-      
-      /* Save the track number of the stack particle:*/
-      STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-      STACK.nparma++;
-      STACK.numpar[STACK.lstack] = STACK.nparma;
-      STACK.nevent[STACK.lstack] = 0;
-      STACK.dfnear[STACK.lstack] = +zerzer;
-      
-      /* Particle age (s)*/
-      STACK.agestk[STACK.lstack] = +zerzer;
-      STACK.aknshr[STACK.lstack] = -twotwo;
-      
-      /* Group number for "low" energy neutrons, set to 0 anyway*/
-      STACK.igroup[STACK.lstack] = 0;
-      
-      /* Kinetic energy */
-      STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-      
-      
-      /* Particle momentum*/
-      STACK.pmom [STACK.lstack] = particle->P();
-      
-      /* Cosines (tx,ty,tz)*/
-      Double_t cosx = particle->Px()/particle->P();
-      Double_t cosy = particle->Py()/particle->P();
-      Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-      if (particle->Pz() < 0.)   cosz = -cosz;
-      cosz *= dir;
-      
-      STACK.tx [STACK.lstack] = cosx;
-      STACK.ty [STACK.lstack] = cosy;
-      STACK.tz [STACK.lstack] = cosz;
-      
-      /* Polarization cosines:*/
-      if (polarisation.Mag()) {
-         Double_t cospolx = polarisation.Px()/polarisation.Mag();
-         Double_t cospoly = polarisation.Py()/polarisation.Mag();
-         Double_t cospolz = sqrt(oneone - cospolx*cospolx - cospoly*cospoly);
-         STACK.tx [STACK.lstack] = cospolx;
-         STACK.ty [STACK.lstack] = cospoly;
-         STACK.tz [STACK.lstack] = cospolz;
-      }
-      else {
-         STACK.txpol [STACK.lstack] = -twotwo;
-         STACK.typol [STACK.lstack] = +zerzer;
-         STACK.tzpol [STACK.lstack] = +zerzer;
-      }
-      
-      /* Particle coordinates*/
-      STACK.xa [STACK.lstack] = particle->Vx();
-      STACK.ya [STACK.lstack] = particle->Vy();
-      STACK.za [STACK.lstack] = za;
-      
-//      printf("Particle Vertex %10.3f %10.3f %10.3f %10.3f \n",  
-//          STACK.xa [STACK.lstack],  STACK.ya [STACK.lstack],  STACK.za [STACK.lstack], dir);
-      
-      
-      
-      /*  Calculate the total kinetic energy of the primaries: don't change*/
-      Int_t st_ilo =  STACK.ilo[STACK.lstack];
-      if ( st_ilo != 0 )
-         EPISOR.tkesum += 
-             ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-              * STACK.wt[STACK.lstack]);
-      else
-         EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-      
-      /*  Here we ask for the region number of the hitting point.
-       *     NREG (LSTACK) = ...
-       *  The following line makes the starting region search much more
-       *  robust if particles are starting very close to a boundary:
-       */
-      geocrs( STACK.tx[STACK.lstack], 
-             STACK.ty[STACK.lstack], 
-             STACK.tz[STACK.lstack] );
-      
-      Int_t idisc;
-      
-      georeg ( STACK.xa[STACK.lstack], 
-              STACK.ya[STACK.lstack], 
-              STACK.za[STACK.lstack],
-              STACK.nreg[STACK.lstack], 
-              idisc);//<-- dummy return variable not used
-      /*  Do not change these cards:*/
-      Int_t igeohsm1 = 1;
-      Int_t igeohsm2 = -11;
-      geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-      STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-      soevsv();
-  }
-}
-
-    
diff --git a/TFluka/source_pp.cxx b/TFluka/source_pp.cxx
deleted file mode 100644 (file)
index 828c33e..0000000
+++ /dev/null
@@ -1,230 +0,0 @@
-#define METHODDEBUG
-
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-//Virutal MC
-#include "AliGenerator.h"
-#include "AliStack.h"
-#include "../PYTHIA6/AliGenPythia.h"
-
-#include "TVirtualMCStack.h"
-#include "TParticle.h"
-#include "TVector3.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_pp source_pp__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_pp SOURCE_PP
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_pp(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static AliGenPythia* gener = 0;
-      static AliStack* stack     = 0;  
-
-      nomore = 0;
-      TParticle* particle;
-      Int_t itrack = -1;
-      if (lfirst) {
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-         gener  = new AliGenPythia(1);
-         gener->SetEnergyCMS(14000.);
-         gener->SetProcess(kPyMb);
-         stack = new AliStack(1000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         for (Int_t part=0; part<npart; part++) {
-             particle = stack->Particle(part);
-             Int_t st = particle->GetStatusCode();
-             if (st != 1) continue;
-             Int_t pdg = particle->GetPdgCode();
-             Int_t intfluka = mcihad(pdg);
-             Int_t ifl = GetFlukaKPTOIP(intfluka);
-             TVector3 polarisation;
-             particle->GetPolarisation(polarisation);
-
-             STACK.lstack++;
-
-             printf("Particle %5d %5d %5d %10s %10.3f %10.3f %10.3f \n", STACK.lstack, pdg, ifl, 
-                    particle->GetName(), particle->Px(), particle->Py(), particle->Pz());
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = oneone;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             STACK.ilo[STACK.lstack] = ifl;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.) cosz = -cosz;
-             STACK.tx [STACK.lstack] = cosx;
-             STACK.ty [STACK.lstack] = cosy;
-             STACK.tz [STACK.lstack] = cosz;
-             
-             /* Polarization cosines:*/
-             if (polarisation.Mag()) {
-                 Double_t cospolx = polarisation.Px()/polarisation.Mag();
-                 Double_t cospoly = polarisation.Py()/polarisation.Mag();
-                 Double_t cospolz = sqrt(oneone - cospolx*cospolx - cospoly*cospoly);
-                 STACK.tx [STACK.lstack] = cospolx;
-                 STACK.ty [STACK.lstack] = cospoly;
-                 STACK.tz [STACK.lstack] = cospolz;
-             }
-             else {
-                 STACK.txpol [STACK.lstack] = -twotwo;
-                 STACK.typol [STACK.lstack] = +zerzer;
-                 STACK.tzpol [STACK.lstack] = +zerzer;
-             }
-             
-             /* Particle coordinates*/
-             // Vertext coordinates;
-             STACK.xa [STACK.lstack] = particle->Vx();
-             STACK.ya [STACK.lstack] = particle->Vy();
-             STACK.za [STACK.lstack] = particle->Vz();
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-//
-//  Pre-track actions at for primary tracks
-//
-         }
-      }
-  }
-}
-
-    
diff --git a/TFluka/source_ray.cxx b/TFluka/source_ray.cxx
deleted file mode 100644 (file)
index eee0cc8..0000000
+++ /dev/null
@@ -1,219 +0,0 @@
-// Fortran 
-#include "TCallf77.h"
-
-// Fluka commons
-#include "Fdblprc.h"  //(DBLPRC) fluka common
-#include "Fdimpar.h"  //(DIMPAR) fluka parameters
-#include "Fepisor.h"  //(EPISOR) fluka common
-#include "Fstack.h"   //(STACK)  fluka common
-#include "Fstars.h"   //(STARS)  fluka common
-#include "Fbeam.h"    //(BEAM)   fluka common
-#include "Fpaprop.h"  //(PAPROP) fluka common
-#include "Fltclcm.h"  //(LTCLCM) fluka common
-#include "Fpart.h"  
-//#include "Fcaslim.h"  //(CASLIM) fluka common
-
-#include "TVector3.h"
-#include "TRandom.h"
-#include "TParticle.h"
-#include "../EVGEN/AliGenScan.h"
-#include "AliStack.h"
-
-//Other
-#include <Riostream.h>
-
-#ifndef WIN32
-# define source source_
-# define geocrs geocrs_
-# define georeg georeg_
-# define geohsm geohsm_
-# define soevsv soevsv_
-# define mcihad mcihad_
-# define source_ray source_ray__
-#else
-# define source SOURCE
-# define geocrs GEOCRS
-# define georeg GEOREG
-# define geohsm GEOHSM
-# define soevsv SOEVSV
-# define mcihad MCIHAD
-# define source_ray SOURCE_RAY
-#endif
-
-extern "C" {
-  //
-  // Prototypes for FLUKA functions
-  //
-  void type_of_call geocrs(Double_t &, Double_t &, Double_t &);
-  void type_of_call georeg(Double_t &, Double_t &, Double_t &, 
-                          Int_t &, Int_t &);
-  void type_of_call geohsm(Int_t &, Int_t &, Int_t &, Int_t &);
-  void type_of_call soevsv();
-  int  type_of_call mcihad(const int&);
- /*
-   *----------------------------------------------------------------------*
-   *                                                                      *
-   *     Created on 07 january 1990   by    Alfredo Ferrari & Paola Sala  *
-   *                                                   Infn - Milan       *
-   *                                                                      *
-   *     Last change on 21-jun-98     by    Alfredo Ferrari               *
-   *                                                                      *
-   *     C++ version on 27-sep-02     by    Isidro Gonzalez               *
-   *                                                                      *
-   *  This is just an example of a possible user written source routine.  *
-   *  note that the beam card still has some meaning - in the scoring the *
-   *  maximum momentum used in deciding the binning is taken from the     *
-   *  beam momentum.  Other beam card parameters are obsolete.            *
-   *                                                                      *
-   *----------------------------------------------------------------------*/
-
-  void source_ray(Int_t& nomore) {
-
-      static Bool_t lfirst       = true;
-      static AliGenScan* gener   = 0;
-      static AliStack* stack     = 0;  
-
-      nomore = 0;
-      TParticle* particle = 0;
-      Int_t itrack        = -1;
-      if (lfirst) {
-         EPISOR.tkesum = zerzer;
-         lfirst = false;
-         EPISOR.lussrc = true;
-//
-// The generator
-//
-         gener  = new AliGenScan(0);
-         gener->SetRange(40, -200., 200., 40, -200., 200., 1, -700., -699.);
-         gener->SetPart(0);
-         gener->SetThetaRange(180., 180.);
-         gener->SetPhiRange(0.,0.);
-         
-         
-// Stack 
-         stack = new AliStack(10000);
-         gener->SetStack(stack);
-         gener->Init();
-
-      } else {
-         //
-         // Generate event
-         stack->Reset();
-         gener->Generate();
-         Int_t npart = stack->GetNprimary();
-         for (Int_t part = 0; part < npart; part++) {
-             STACK.lstack++;
-             particle = stack->Particle(part);
-             
-             printf("Particle %5d %10s %10.3f %10.3f %10.3f \n", 
-                    STACK.lstack, particle->GetName(), 
-                    particle->Px(), particle->Py(), particle->Pz());
-             
-
-             
-             /* Wt is the weight of the particle*/
-             STACK.wt[STACK.lstack] = oneone;
-             STARS.weipri += STACK.wt[STACK.lstack];
-             
-             // ray
-             STACK.ilo[STACK.lstack] = 0;
-             /* From this point .....
-              * Particle generation (1 for primaries)
-              */
-             STACK.lo[STACK.lstack] = 1;
-             
-             /* User dependent flag:*/
-             STACK.louse[STACK.lstack] = 0;
-             
-             /* User dependent spare variables:*/
-             Int_t ispr = 0;
-             for (ispr = 0; ispr < mkbmx1; ispr++)
-                 STACK.sparek[STACK.lstack][ispr] = zerzer;
-             
-             /* User dependent spare flags:*/
-             for (ispr = 0; ispr < mkbmx2; ispr++)
-                 STACK.ispark[STACK.lstack][ispr] = 0;
-             
-             /* Save the track number of the stack particle:*/
-             STACK.ispark[STACK.lstack][mkbmx2-1] = itrack;
-             STACK.nparma++;
-             STACK.numpar[STACK.lstack] = STACK.nparma;
-             STACK.nevent[STACK.lstack] = 0;
-             STACK.dfnear[STACK.lstack] = +zerzer;
-             
-             /* Particle age (s)*/
-             STACK.agestk[STACK.lstack] = +zerzer;
-             STACK.aknshr[STACK.lstack] = -twotwo;
-             
-             /* Group number for "low" energy neutrons, set to 0 anyway*/
-             STACK.igroup[STACK.lstack] = 0;
-             
-             /* Kinetic energy */
-             STACK.tke[STACK.lstack] = particle->Energy() - particle->GetMass();
-             
-             
-             /* Particle momentum*/
-             STACK.pmom [STACK.lstack] = particle->P();
-             
-             /* Cosines (tx,ty,tz)*/
-             Double_t cosx = particle->Px()/particle->P();
-             Double_t cosy = particle->Py()/particle->P();
-             Double_t cosz = TMath::Sqrt(oneone - cosx*cosx - cosy*cosy);
-             if (particle->Pz() < 0.) cosz = -cosz;
-             
-             STACK.tx [STACK.lstack] = cosx;
-             STACK.ty [STACK.lstack] = cosy;
-             STACK.tz [STACK.lstack] = cosz;
-             
-             /* Polarization cosines:*/
-             STACK.txpol [STACK.lstack] = -twotwo;
-             STACK.typol [STACK.lstack] = +zerzer;
-             STACK.tzpol [STACK.lstack] = +zerzer;
-             
-             /* Particle coordinates*/
-             STACK.xa [STACK.lstack] =   particle->Vx();
-             STACK.ya [STACK.lstack] =   particle->Vy();
-             STACK.za [STACK.lstack] =   particle->Vz();
-             
-             printf("Particle Vertex %10.3f %10.3f %10.3f  \n",  
-                    STACK.xa [STACK.lstack],  STACK.ya [STACK.lstack],  STACK.za [STACK.lstack]);
-             
-             
-             
-             /*  Calculate the total kinetic energy of the primaries: don't change*/
-             Int_t st_ilo =  STACK.ilo[STACK.lstack];
-             if ( st_ilo != 0 )
-                 EPISOR.tkesum += 
-                     ((STACK.tke[STACK.lstack] + PAPROP.amdisc[st_ilo+6])
-                      * STACK.wt[STACK.lstack]);
-             else
-                 EPISOR.tkesum += (STACK.tke[STACK.lstack] * STACK.wt[STACK.lstack]);
-             
-             /*  Here we ask for the region number of the hitting point.
-              *     NREG (LSTACK) = ...
-              *  The following line makes the starting region search much more
-              *  robust if particles are starting very close to a boundary:
-              */
-             geocrs( STACK.tx[STACK.lstack], 
-                     STACK.ty[STACK.lstack], 
-                     STACK.tz[STACK.lstack] );
-             
-             Int_t idisc;
-             
-             georeg ( STACK.xa[STACK.lstack], 
-                      STACK.ya[STACK.lstack], 
-                      STACK.za[STACK.lstack],
-                      STACK.nreg[STACK.lstack], 
-                      idisc);//<-- dummy return variable not used
-             /*  Do not change these cards:*/
-             Int_t igeohsm1 = 1;
-             Int_t igeohsm2 = -11;
-             geohsm ( STACK.nhspnt[STACK.lstack], igeohsm1, igeohsm2, LTCLCM.mlattc );
-             STACK.nlattc[STACK.lstack] = LTCLCM.mlattc;
-             soevsv();
-         }
-      }
-  }
-}
-
-