-// @(#):$Name$:$Id$
+/**************************************************************************
+ * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
+ * *
+ * Author: The ALICE Off-line Project. *
+ * Contributors are mentioned in the code where appropriate. *
+ * *
+ * Permission to use, copy, modify and distribute this software and its *
+ * documentation strictly for non-commercial purposes is hereby granted *
+ * without fee, provided that the above copyright notice appears in all *
+ * copies and that both the copyright notice and this permission notice *
+ * appear in the supporting documentation. The authors make no claims *
+ * about the suitability of this software for any purpose. It is *
+ * provided "as is" without express or implied warranty. *
+ **************************************************************************/
+
+// $Id$
+
+// Class TFlukaMCGeometry
+// --------------------
+// Implementation of the TVirtualMCGeometry interface
+// for defining and using TGeo geometry with FLUKA.
+// This allows the FLUKA MonteCarlo to run with the TGeo
+// geometrical modeller
// Author: Andrei Gheata 10/07/2003
-#include "TObjString.h"
-#include "TFlukaGeo.h"
-//#include "TVirtualMCApplication.h"
+#include "Riostream.h"
+
+#include "TCallf77.h"
+#include "TFluka.h"
#include "TFlukaMCGeometry.h"
#include "TGeoManager.h"
#include "TGeoVolume.h"
-
-#include "TCallf77.h"
+#include "TObjString.h"
#ifndef WIN32
# define idnrwr idnrwr_
};
// TFluka global pointer
-TFluka *fluka = 0;
-TFlukaMCGeometry *mcgeom = 0;
-Int_t kNstep = 0;
+TFluka *gFluka = 0;
+TFlukaMCGeometry *gMCGeom = 0;
+Int_t gNstep = 0;
ClassImp(TFlukaMCGeometry)
//_____________________________________________________________________________
TFlukaMCGeometry::TFlukaMCGeometry(const char *name, const char *title)
- : TVirtualMCGeometry(name, title)
+ : TNamed(name, title)
{
//
// Standard constructor
fNextRegion = 0;
fNextLattice = 0;
fRegionList = 0;
- fluka = (TFluka*)gMC;
- mcgeom = this;
- kNstep = 0;
+ gFluka = (TFluka*)gMC;
+ gMCGeom = this;
+ gNstep = 0;
+ fMatList = new TObjArray(256);
+ fMatNames = new TObjArray(256);
}
//_____________________________________________________________________________
TFlukaMCGeometry::TFlukaMCGeometry()
- : TVirtualMCGeometry()
{
//
// Default constructor
fNextRegion = 0;
fNextLattice = 0;
fRegionList = 0;
- fluka = (TFluka*)gMC;
- mcgeom = this;
- kNstep = 0;
+ gFluka = (TFluka*)gMC;
+ gMCGeom = this;
+ gNstep = 0;
+ fMatList = 0;
+ fMatNames = 0;
}
//_____________________________________________________________________________
//
fgInstance=0;
if (fRegionList) delete [] fRegionList;
+ if (fMatList) delete fMatList;
+ if (fMatNames) {fMatNames->Delete(); delete fMatNames;}
if (gGeoManager) delete gGeoManager;
}
//
//_____________________________________________________________________________
TFlukaMCGeometry::TFlukaMCGeometry(const TFlukaMCGeometry &)
- : TVirtualMCGeometry()
+ : TNamed()
{
//
// Copy constructor
}
//
// public methods
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gfmate(Int_t imat, char *name, Float_t &a, Float_t &z,
- Float_t &dens, Float_t &radl, Float_t &absl,
- Float_t* /*ubuf*/, Int_t& /*nbuf*/)
-{
- if (fDebug) printf("Gfmate %i\n", imat);
- TGeoMaterial *mat;
- TIter next (gGeoManager->GetListOfMaterials());
- while ((mat = (TGeoMaterial*)next())) {
- if (mat->GetUniqueID() == (UInt_t)imat) break;
- }
- if (!mat) {
- Error("Gfmate", "no material with index %i found", imat);
- return;
- }
- sprintf(name, "%s", mat->GetName());
- a = mat->GetA();
- z = mat->GetZ();
- dens = mat->GetDensity();
- radl = mat->GetRadLen();
- absl = mat->GetIntLen();
- if (fDebug) printf(" ->material found : %s a=%g, z=%g, dens=%g, radl=%g, absl=%g\n", name, a,z,dens,radl,absl);
-}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gfmate(Int_t imat, char *name, Double_t &a, Double_t &z,
- Double_t &dens, Double_t &radl, Double_t &absl,
- Double_t* /*ubuf*/, Int_t& /*nbuf*/)
-{
- if (fDebug) printf("Gfmate %i\n", imat);
- TGeoMaterial *mat;
- TIter next (gGeoManager->GetListOfMaterials());
- while ((mat = (TGeoMaterial*)next())) {
- if (mat->GetUniqueID() == (UInt_t)imat) break;
- }
- if (!mat) {
- Error("Gfmate", "no material with index %i found", imat);
- return;
- }
- sprintf(name, "%s", mat->GetName());
- a = mat->GetA();
- z = mat->GetZ();
- dens = mat->GetDensity();
- radl = mat->GetRadLen();
- absl = mat->GetIntLen();
- if (fDebug) printf(" ->material found : %s a=%g, z=%g, dens=%g, radl=%g, absl=%g\n", name, a,z,dens,radl,absl);
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Material(Int_t& kmat, const char* name, Double_t a, Double_t z,
- Double_t dens, Double_t radl, Double_t absl, Float_t* buf,
- Int_t nwbuf)
-{
- //
- // Defines a Material
- //
- // kmat number assigned to the material
- // name material name
- // a atomic mass in au
- // z atomic number
- // dens density in g/cm3
- // absl absorbtion length in cm
- // if >=0 it is ignored and the program
- // calculates it, if <0. -absl is taken
- // radl radiation length in cm
- // if >=0 it is ignored and the program
- // calculates it, if <0. -radl is taken
- // buf pointer to an array of user words
- // nbuf number of user words
- //
-
- Double_t* dbuf = CreateDoubleArray(buf, nwbuf);
- Material(kmat, name, a, z, dens, radl, absl, dbuf, nwbuf);
- delete [] dbuf;
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Material(Int_t& kmat, const char* name, Double_t a, Double_t z,
- Double_t dens, Double_t radl, Double_t absl, Double_t* /*buf*/,
- Int_t /*nwbuf*/)
-{
- //
- // Defines a Material
- //
- // kmat number assigned to the material
- // name material name
- // a atomic mass in au
- // z atomic number
- // dens density in g/cm3
- // absl absorbtion length in cm
- // if >=0 it is ignored and the program
- // calculates it, if <0. -absl is taken
- // radl radiation length in cm
- // if >=0 it is ignored and the program
- // calculates it, if <0. -radl is taken
- // buf pointer to an array of user words
- // nbuf number of user words
- //
-
- kmat = gGeoManager->GetListOfMaterials()->GetSize();
- gGeoManager->Material(name, a, z, dens, kmat, radl, absl);
- if (fDebug) printf("Material %s: kmat=%i, a=%g, z=%g, dens=%g\n", name, kmat, a, z, dens);
-}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Mixture(Int_t& kmat, const char* name, Float_t* a, Float_t* z,
- Double_t dens, Int_t nlmat, Float_t* wmat)
-{
- //
- // Defines mixture OR COMPOUND IMAT as composed by
- // THE BASIC NLMAT materials defined by arrays A,Z and WMAT
- //
- // If NLMAT > 0 then wmat contains the proportion by
- // weights of each basic material in the mixture.
- //
- // If nlmat < 0 then WMAT contains the number of atoms
- // of a given kind into the molecule of the COMPOUND
- // In this case, WMAT in output is changed to relative
- // weigths.
- //
-
- Double_t* da = CreateDoubleArray(a, TMath::Abs(nlmat));
- Double_t* dz = CreateDoubleArray(z, TMath::Abs(nlmat));
- Double_t* dwmat = CreateDoubleArray(wmat, TMath::Abs(nlmat));
-
- Mixture(kmat, name, da, dz, dens, nlmat, dwmat);
- for (Int_t i=0; i<nlmat; i++) {
- a[i] = da[i]; z[i] = dz[i]; wmat[i] = dwmat[i];
- }
-
- delete [] da;
- delete [] dz;
- delete [] dwmat;
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Mixture(Int_t& kmat, const char* name, Double_t* a, Double_t* z,
- Double_t dens, Int_t nlmat, Double_t* wmat)
-{
- //
- // Defines mixture OR COMPOUND IMAT as composed by
- // THE BASIC NLMAT materials defined by arrays A,Z and WMAT
- //
- // If NLMAT > 0 then wmat contains the proportion by
- // weights of each basic material in the mixture.
- //
- // If nlmat < 0 then WMAT contains the number of atoms
- // of a given kind into the molecule of the COMPOUND
- // In this case, WMAT in output is changed to relative
- // weigths.
- //
-
- if (nlmat < 0) {
- nlmat = - nlmat;
- Double_t amol = 0;
- Int_t i;
- for (i=0;i<nlmat;i++) {
- amol += a[i]*wmat[i];
- }
- for (i=0;i<nlmat;i++) {
- wmat[i] *= a[i]/amol;
- }
- }
- kmat = gGeoManager->GetListOfMaterials()->GetSize();
- if (fDebug) {
- printf("Mixture %s with %i elem: kmat=%i, dens=%g\n", name, nlmat, kmat, dens);
- for (Int_t j=0; j<nlmat; j++) printf(" Elem %i: z=%g a=%g w=%g\n",j,z[j],a[j],wmat[j]);
- }
- gGeoManager->Mixture(name, a, z, dens, nlmat, wmat, kmat);
-}
//_____________________________________________________________________________
Int_t TFlukaMCGeometry::GetMedium() const
{
}
return fRegionList;
}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Medium(Int_t& kmed, const char* name, Int_t nmat, Int_t isvol,
- Int_t ifield, Double_t fieldm, Double_t tmaxfd,
- Double_t stemax, Double_t deemax, Double_t epsil,
- Double_t stmin, Float_t* ubuf, Int_t nbuf)
-{
- //
- // kmed tracking medium number assigned
- // name tracking medium name
- // nmat material number
- // isvol sensitive volume flag
- // ifield magnetic field
- // fieldm max. field value (kilogauss)
- // tmaxfd max. angle due to field (deg/step)
- // stemax max. step allowed
- // deemax max. fraction of energy lost in a step
- // epsil tracking precision (cm)
- // stmin min. step due to continuous processes (cm)
- //
- // ifield = 0 if no magnetic field; ifield = -1 if user decision in guswim;
- // ifield = 1 if tracking performed with g3rkuta; ifield = 2 if tracking
- // performed with g3helix; ifield = 3 if tracking performed with g3helx3.
- //
-
- //printf("Creating mediuma: %s, numed=%d, nmat=%d\n",name,kmed,nmat);
- Double_t* dubuf = CreateDoubleArray(ubuf, nbuf);
- Medium(kmed, name, nmat, isvol, ifield, fieldm, tmaxfd, stemax, deemax, epsil,
- stmin, dubuf, nbuf);
- delete [] dubuf;
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Medium(Int_t& kmed, const char* name, Int_t nmat, Int_t isvol,
- Int_t ifield, Double_t fieldm, Double_t tmaxfd,
- Double_t stemax, Double_t deemax, Double_t epsil,
- Double_t stmin, Double_t* /*ubuf*/, Int_t /*nbuf*/)
-{
- //
- // kmed tracking medium number assigned
- // name tracking medium name
- // nmat material number
- // isvol sensitive volume flag
- // ifield magnetic field
- // fieldm max. field value (kilogauss)
- // tmaxfd max. angle due to field (deg/step)
- // stemax max. step allowed
- // deemax max. fraction of energy lost in a step
- // epsil tracking precision (cm)
- // stmin min. step due to continuos processes (cm)
- //
- // ifield = 0 if no magnetic field; ifield = -1 if user decision in guswim;
- // ifield = 1 if tracking performed with g3rkuta; ifield = 2 if tracking
- // performed with g3helix; ifield = 3 if tracking performed with g3helx3.
- //
-
- kmed = gGeoManager->GetListOfMedia()->GetSize()+1;
- gGeoManager->Medium(name,kmed,nmat, isvol, ifield, fieldm, tmaxfd, stemax,deemax, epsil, stmin);
- if (fDebug) printf("Medium %s: kmed=%i, nmat=%i, isvol=%i\n", name, kmed, nmat,isvol);
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Matrix(Int_t& krot, Double_t thex, Double_t phix, Double_t they,
- Double_t phiy, Double_t thez, Double_t phiz)
-{
- //
- // krot rotation matrix number assigned
- // theta1 polar angle for axis i
- // phi1 azimuthal angle for axis i
- // theta2 polar angle for axis ii
- // phi2 azimuthal angle for axis ii
- // theta3 polar angle for axis iii
- // phi3 azimuthal angle for axis iii
- //
- // it defines the rotation matrix number irot.
- //
-
- krot = gGeoManager->GetListOfMatrices()->GetEntriesFast();
- gGeoManager->Matrix(krot, thex, phix, they, phiy, thez, phiz);
- if (fDebug) printf("Rotation %i defined\n", krot);
-}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::Gsvolu(const char *name, const char *shape, Int_t nmed,
- Float_t *upar, Int_t npar)
-{
- //
- // NAME Volume name
- // SHAPE Volume type
- // NUMED Tracking medium number
- // NPAR Number of shape parameters
- // UPAR Vector containing shape parameters
- //
- // It creates a new volume in the JVOLUM data structure.
- //
-
- Double_t* dupar = CreateDoubleArray(upar, npar);
- Int_t id = Gsvolu(name, shape, nmed, dupar, npar);
- delete [] dupar;
- return id;
-}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::Gsvolu(const char *name, const char *shape, Int_t nmed,
- Double_t *upar, Int_t npar)
-{
- //
- // NAME Volume name
- // SHAPE Volume type
- // NUMED Tracking medium number
- // NPAR Number of shape parameters
- // UPAR Vector containing shape parameters
- //
- // It creates a new volume in the JVOLUM data structure.
- //
- char vname[5];
- Vname(name,vname);
- char vshape[5];
- Vname(shape,vshape);
-
- TGeoVolume* vol = gGeoManager->Volume(vname, shape, nmed, upar, npar);
- if (fDebug) printf("Volume %s: id=%i shape=%s, nmed=%i\n", vname, vol->GetNumber(), shape, nmed);
- return vol->GetNumber();
-}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsdvn(const char *name, const char *mother, Int_t ndiv,
- Int_t iaxis)
-{
- //
- // Create a new volume by dividing an existing one
- //
- // NAME Volume name
- // MOTHER Mother volume name
- // NDIV Number of divisions
- // IAXIS Axis value
- //
- // X,Y,Z of CAXIS will be translated to 1,2,3 for IAXIS.
- // It divides a previously defined volume.
- //
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- gGeoManager->Division(vname, vmother, iaxis, ndiv, 0, 0, 0, "n");
- if (fDebug) printf("Division %s: mother=%s iaxis=%i ndiv=%i\n", vname, vmother, iaxis, ndiv);
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsdvn2(const char *name, const char *mother, Int_t ndiv,
- Int_t iaxis, Double_t c0i, Int_t numed)
-{
- //
- // Create a new volume by dividing an existing one
- //
- // Divides mother into ndiv divisions called name
- // along axis iaxis starting at coordinate value c0.
- // the new volume created will be medium number numed.
- //
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- gGeoManager->Division(vname, vmother, iaxis, ndiv, c0i, 0, numed, "nx");
-}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsdvt(const char *name, const char *mother, Double_t step,
- Int_t iaxis, Int_t numed, Int_t /*ndvmx*/)
-{
- //
- // Create a new volume by dividing an existing one
- //
- // Divides MOTHER into divisions called NAME along
- // axis IAXIS in steps of STEP. If not exactly divisible
- // will make as many as possible and will centre them
- // with respect to the mother. Divisions will have medium
- // number NUMED. If NUMED is 0, NUMED of MOTHER is taken.
- // NDVMX is the expected maximum number of divisions
- // (If 0, no protection tests are performed)
- //
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- gGeoManager->Division(vname, vmother, iaxis, 0, 0, step, numed, "s");
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsdvt2(const char *name, const char *mother, Double_t step,
- Int_t iaxis, Double_t c0, Int_t numed, Int_t /*ndvmx*/)
-{
- //
- // Create a new volume by dividing an existing one
- //
- // Divides MOTHER into divisions called NAME along
- // axis IAXIS starting at coordinate value C0 with step
- // size STEP.
- // The new volume created will have medium number NUMED.
- // If NUMED is 0, NUMED of mother is taken.
- // NDVMX is the expected maximum number of divisions
- // (If 0, no protection tests are performed)
- //
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- gGeoManager->Division(vname, vmother, iaxis, 0, c0, step, numed, "sx");
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsord(const char * /*name*/, Int_t /*iax*/)
-{
- //
- // Flags volume CHNAME whose contents will have to be ordered
- // along axis IAX, by setting the search flag to -IAX
- // IAX = 1 X axis
- // IAX = 2 Y axis
- // IAX = 3 Z axis
- // IAX = 4 Rxy (static ordering only -> GTMEDI)
- // IAX = 14 Rxy (also dynamic ordering -> GTNEXT)
- // IAX = 5 Rxyz (static ordering only -> GTMEDI)
- // IAX = 15 Rxyz (also dynamic ordering -> GTNEXT)
- // IAX = 6 PHI (PHI=0 => X axis)
- // IAX = 7 THETA (THETA=0 => Z axis)
- //
-
- // TBC - keep this function
- // nothing to be done for TGeo //xx
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gspos(const char *name, Int_t nr, const char *mother, Double_t x,
- Double_t y, Double_t z, Int_t irot, const char *konly)
-{
- //
- // Position a volume into an existing one
- //
- // NAME Volume name
- // NUMBER Copy number of the volume
- // MOTHER Mother volume name
- // X X coord. of the volume in mother ref. sys.
- // Y Y coord. of the volume in mother ref. sys.
- // Z Z coord. of the volume in mother ref. sys.
- // IROT Rotation matrix number w.r.t. mother ref. sys.
- // ONLY ONLY/MANY flag
- //
- // It positions a previously defined volume in the mother.
- //
-
- TString only = konly;
- only.ToLower();
- Bool_t isOnly = kFALSE;
- if (only.Contains("only")) isOnly = kTRUE;
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- Double_t *upar=0;
- gGeoManager->Node(vname, nr, vmother, x, y, z, irot, isOnly, upar);
- if (fDebug) printf("Adding daughter %s to %s: cpy=%i irot=%i only=%s\n", vname,vmother,nr,irot,only.Data());
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsposp(const char *name, Int_t nr, const char *mother,
- Double_t x, Double_t y, Double_t z, Int_t irot,
- const char *konly, Float_t *upar, Int_t np )
-{
- //
- // Place a copy of generic volume NAME with user number
- // NR inside MOTHER, with its parameters UPAR(1..NP)
- //
-
- Double_t* dupar = CreateDoubleArray(upar, np);
- Gsposp(name, nr, mother, x, y, z, irot, konly, dupar, np);
- delete [] dupar;
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsposp(const char *name, Int_t nr, const char *mother,
- Double_t x, Double_t y, Double_t z, Int_t irot,
- const char *konly, Double_t *upar, Int_t np )
-{
- //
- // Place a copy of generic volume NAME with user number
- // NR inside MOTHER, with its parameters UPAR(1..NP)
- //
-
- TString only = konly;
- only.ToLower();
- Bool_t isOnly = kFALSE;
- if (only.Contains("only")) isOnly = kTRUE;
- char vname[5];
- Vname(name,vname);
- char vmother[5];
- Vname(mother,vmother);
-
- gGeoManager->Node(vname,nr,vmother, x,y,z,irot,isOnly,upar,np);
- if (fDebug) printf("Adding daughter(s) %s to %s: cpy=%i irot=%i only=%s\n", vname,vmother,nr,irot,only.Data());
-}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::VolId(const Text_t *name) const
-{
- //
- // Return the unique numeric identifier for volume name
- //
-
- Int_t uid = gGeoManager->GetUID(name);
- if (uid<0) {
- printf("VolId: Volume %s not found\n",name);
- return 0;
- }
- if (fDebug) printf("VolId for %s: %i\n", name, uid);
- return uid;
-}
-
-//_____________________________________________________________________________
-const char* TFlukaMCGeometry::VolName(Int_t id) const
-{
- //
- // Return the volume name given the volume identifier
- //
- TGeoVolume *volume = gGeoManager->GetVolume(id);
- if (!volume) {
- Error("VolName","volume with id=%d does not exist",id);
- return "NULL";
- }
- if (fDebug) printf("VolName for id=%i: %s\n", id, volume->GetName());
- return volume->GetName();
-}
-
//_____________________________________________________________________________
Int_t TFlukaMCGeometry::NofVolumes() const
{
return gGeoManager->GetListOfUVolumes()->GetEntriesFast()-1;
}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::VolId2Mate(Int_t id) const
-{
- //
- // Return material number for a given volume id
- //
- TGeoVolume *volume = gGeoManager->GetVolume(id);
- if (!volume) {
- Error("VolId2Mate","volume with id=%d does not exist",id);
- return 0;
- }
- TGeoMedium *med = volume->GetMedium();
- if (!med) return 0;
- if (fDebug) printf("VolId2Mate id=%i: idmed=%i\n", id, med->GetId());
- return med->GetId();
-}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::CurrentVolID(Int_t& copyNo) const
-{
- // Returns the current volume ID and copy number
- if (gGeoManager->IsOutside()) return 0;
- TGeoNode *node = gGeoManager->GetCurrentNode();
- copyNo = node->GetNumber();
- Int_t id = node->GetVolume()->GetNumber();
- if (fDebug) printf("CurrentVolId(cpy=%i) = %i\n", copyNo, id);
- return id;
-}
-
-//_____________________________________________________________________________
-Int_t TFlukaMCGeometry::CurrentVolOffID(Int_t off, Int_t& copyNo) const
-{
- // Return the current volume "off" upward in the geometrical tree
- // ID and copy number
- if (off<0 || off>gGeoManager->GetLevel()) return 0;
- if (off==0) return CurrentVolID(copyNo);
- TGeoNode *node = gGeoManager->GetMother(off);
- if (!node) return 0;
- copyNo = node->GetNumber();
- if (fDebug) printf("CurrentVolOffId(off=%i,cpy=%i) = %i\n", off,copyNo,node->GetVolume()->GetNumber() );
- return node->GetVolume()->GetNumber();
-}
-// FLUKA specific
-
-//_____________________________________________________________________________
-const char* TFlukaMCGeometry::CurrentVolName() const
-{
- //
- // Returns the current volume name
- //
- if (gGeoManager->IsOutside()) return 0;
- if (fDebug) printf("CurrentVolName : %s\n", gGeoManager->GetCurrentVolume()->GetName());
- return gGeoManager->GetCurrentVolume()->GetName();
-}
-//_____________________________________________________________________________
-const char* TFlukaMCGeometry::CurrentVolOffName(Int_t off) const
-{
- //
- // Return the current volume "off" upward in the geometrical tree
- // ID, name and copy number
- // if name=0 no name is returned
- //
- if (off<0 || off>gGeoManager->GetLevel()) return 0;
- if (off==0) return CurrentVolName();
- TGeoNode *node = gGeoManager->GetMother(off);
- if (!node) return 0;
- if (fDebug) printf("CurrentVolOffName(off=%i) : %s\n", off,node->GetVolume()->GetName());
- return node->GetVolume()->GetName();
-}
//_____________________________________________________________________________
-void TFlukaMCGeometry::Gsatt(const char *name, const char *att, Int_t val)
-{
- //
- // NAME Volume name
- // IOPT Name of the attribute to be set
- // IVAL Value to which the attribute is to be set
- // see: TFluka::Gsatt
- char vname[5];
- Vname(name,vname);
- char vatt[5];
- Vname(att,vatt);
- gGeoManager->SetVolumeAttribute(vname, vatt, val);
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gdtom(Float_t *xd, Float_t *xm, Int_t iflag)
-{
- //
- // Computes coordinates XM (Master Reference System
- // knowing the coordinates XD (Detector Ref System)
- // The local reference system can be initialized by
- // - the tracking routines and GDTOM used in GUSTEP
- // - a call to GSCMED(NLEVEL,NAMES,NUMBER)
- // (inverse routine is GMTOD)
- //
- // If IFLAG=1 convert coordinates
- // IFLAG=2 convert direction cosinus
- //
- Double_t XM[3], XD[3];
- Int_t i;
- for (i=0;i<3;i++) XD[i] = xd[i];
- if (iflag == 1) gGeoManager->LocalToMaster(XD,XM);
- else gGeoManager->LocalToMasterVect(XD,XM);
- for (i=0;i<3;i++) xm[i]=XM[i];
+TGeoMaterial * TFlukaMCGeometry::GetMakeWrongMaterial(Double_t z)
+{
+// Try to replace a wrongly-defined material
+ static Double_t kz[23] = {7.3, 17.8184, 7.2167, 10.856, 8.875, 8.9, 7.177,
+ 25.72, 6.2363, 7.1315, 47.7056, 10.6467, 7.8598, 2.10853, 10.6001, 9.1193,
+ 15.3383, 4.55, 9.6502, 6.4561, 21.7963, 29.8246, 15.4021};
+
+ Int_t ind;
+ Double_t dz;
+ for (ind=0; ind<23; ind++) {
+ dz = TMath::Abs(z-kz[ind]);
+ if (dz<1E-4) break;
+ }
+ if (ind>22) {
+ printf("Cannot patch material with Z=%g\n", z);
+ return 0;
+ }
+ TGeoMixture *mix = 0;
+ TGeoElement *element;
+ TGeoElementTable *table = TGeoElementTable::Instance();
+ switch (ind) {
+ case 0: // AIR
+ mix = new TGeoMixture("AIR", 4, 0.001205);
+ element = table->GetElement(6); // C
+ mix->DefineElement(0, element, 0.000124);
+ element = table->GetElement(7); // N
+ mix->DefineElement(1, element, 0.755267);
+ element = table->GetElement(8); // O
+ mix->DefineElement(2, element, 0.231781);
+ element = table->GetElement(18); // AR
+ mix->DefineElement(3, element, 0.012827);
+ break;
+ case 1: //SDD SI CHIP
+ mix = new TGeoMixture("SDD_SI", 6, 2.4485);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.004367771);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.039730642);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.001396798);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.01169634);
+ element = table->GetElement(14);
+ mix->DefineElement(4, element, 0.844665);
+ element = table->GetElement(47);
+ mix->DefineElement(5, element, 0.09814344903);
+ break;
+ case 2: // WATER
+ mix = new TGeoMixture("WATER", 2, 1.0);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.111898344);
+ element = table->GetElement(8);
+ mix->DefineElement(1, element, 0.888101656);
+ break;
+ case 3: // CERAMICS
+ mix = new TGeoMixture("CERAMICS", 5, 3.6);
+ element = table->GetElement(8);
+ mix->DefineElement(0, element, 0.59956);
+ element = table->GetElement(13);
+ mix->DefineElement(1, element, 0.3776);
+ element = table->GetElement(14);
+ mix->DefineElement(2, element, 0.00933);
+ element = table->GetElement(24);
+ mix->DefineElement(3, element, 0.002);
+ element = table->GetElement(25);
+ mix->DefineElement(4, element, 0.0115);
+ break;
+ case 4: // EPOXY
+ mix = new TGeoMixture("G10FR4", 4, 1.8);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.19);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.18);
+ element = table->GetElement(8);
+ mix->DefineElement(2, element, 0.35);
+ element = table->GetElement(14);
+ mix->DefineElement(3, element, 0.28);
+ break;
+ case 5: // EPOXY
+ mix = new TGeoMixture("G10FR4", 4, 1.8);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.19);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.18);
+ element = table->GetElement(8);
+ mix->DefineElement(2, element, 0.35);
+ element = table->GetElement(14);
+ mix->DefineElement(3, element, 0.28);
+ break;
+ case 6: // KAPTON
+ mix = new TGeoMixture("KAPTON", 4, 1.3);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.026363415);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.6911272);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.073271325);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.209238060);
+ break;
+ case 7: // INOX
+ mix = new TGeoMixture("INOX", 9, 7.9);
+ element = table->GetElement(6);
+ mix->DefineElement(0, element, 0.0003);
+ element = table->GetElement(14);
+ mix->DefineElement(1, element, 0.01);
+ element = table->GetElement(15);
+ mix->DefineElement(2, element, 0.00045);
+ element = table->GetElement(16);
+ mix->DefineElement(3, element, 0.0003);
+ element = table->GetElement(24);
+ mix->DefineElement(4, element, 0.17);
+ element = table->GetElement(25);
+ mix->DefineElement(5, element, 0.02);
+ element = table->GetElement(26);
+ mix->DefineElement(6, element, 0.654);
+ element = table->GetElement(28);
+ mix->DefineElement(7, element, 0.12);
+ element = table->GetElement(42);
+ mix->DefineElement(8, element, 0.025);
+ break;
+ case 8: // ROHACELL
+ mix = new TGeoMixture("ROHACELL", 4, 0.05);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.07836617);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.64648941);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.08376983);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.19137459);
+ break;
+ case 9: // SDD-C-AL
+ mix = new TGeoMixture("SDD-C-AL", 5, 1.9837);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.022632);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.8176579);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.0093488);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.0503618);
+ element = table->GetElement(13);
+ mix->DefineElement(4, element, 0.1);
+ break;
+ case 10: // X7R-CAP
+ mix = new TGeoMixture("X7R-CAP", 7, 6.72);
+ element = table->GetElement(8);
+ mix->DefineElement(0, element, 0.085975822);
+ element = table->GetElement(22);
+ mix->DefineElement(1, element, 0.084755042);
+ element = table->GetElement(28);
+ mix->DefineElement(2, element, 0.038244751);
+ element = table->GetElement(29);
+ mix->DefineElement(3, element, 0.009471271);
+ element = table->GetElement(50);
+ mix->DefineElement(4, element, 0.321736471);
+ element = table->GetElement(56);
+ mix->DefineElement(5, element, 0.251639432);
+ element = table->GetElement(82);
+ mix->DefineElement(6, element, 0.2081768);
+ break;
+ case 11: // SDD ruby sph. Al2O3
+ mix = new TGeoMixture("AL2O3", 2, 3.97);
+ element = table->GetElement(8);
+ mix->DefineElement(0, element, 0.5293);
+ element = table->GetElement(13);
+ mix->DefineElement(1, element, 0.4707);
+ break;
+ case 12: // SDD HV microcable
+ mix = new TGeoMixture("HV-CABLE", 5, 1.6087);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.01983871336);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.520088819984);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.0551367996);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.157399667056);
+ element = table->GetElement(13);
+ mix->DefineElement(4, element, 0.247536);
+ break;
+ case 13: //SDD LV+signal cable
+ mix = new TGeoMixture("LV-CABLE", 5, 2.1035);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.0082859922);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.21722436468);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.023028867);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.06574077612);
+ element = table->GetElement(13);
+ mix->DefineElement(4, element, 0.68572);
+ break;
+ case 14: //SDD hybrid microcab
+ mix = new TGeoMixture("HYB-CAB", 5, 2.0502);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.00926228815);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.24281879711);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.02574224025);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.07348667449);
+ element = table->GetElement(13);
+ mix->DefineElement(4, element, 0.64869);
+ break;
+ case 15: //SDD anode microcab
+ mix = new TGeoMixture("ANOD-CAB", 5, 1.7854);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.0128595919215);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.392653705471);
+ element = table->GetElement(7);
+ mix->DefineElement(2, element, 0.041626868025);
+ element = table->GetElement(8);
+ mix->DefineElement(3, element, 0.118832707289);
+ element = table->GetElement(13);
+ mix->DefineElement(4, element, 0.431909);
+ break;
+ case 16: // inox/alum
+ mix = new TGeoMixture("INOX-AL", 5, 3.0705);
+ element = table->GetElement(13);
+ mix->DefineElement(0, element, 0.816164);
+ element = table->GetElement(14);
+ mix->DefineElement(1, element, 0.000919182);
+ element = table->GetElement(24);
+ mix->DefineElement(2, element, 0.0330906);
+ element = table->GetElement(26);
+ mix->DefineElement(3, element, 0.131443);
+ element = table->GetElement(28);
+ mix->DefineElement(4, element, 0.0183836);
+ case 17: // MYLAR
+ mix = new TGeoMixture("MYLAR", 3, 1.39);
+ element = table->GetElement(1);
+ mix->DefineElement(0, element, 0.0416667);
+ element = table->GetElement(6);
+ mix->DefineElement(1, element, 0.625);
+ element = table->GetElement(8);
+ mix->DefineElement(2, element, 0.333333);
+ break;
+ case 18: // SPDBUS(AL+KPT+EPOX) - unknown composition
+ mix = new TGeoMixture("SPDBUS", 1, 1.906);
+ element = table->GetElement(9);
+ mix->DefineElement(0, element, 1.);
+ break;
+ case 19: // SDD/SSD rings - unknown composition
+ mix = new TGeoMixture("SDDRINGS", 1, 1.8097);
+ element = table->GetElement(6);
+ mix->DefineElement(0, element, 1.);
+ break;
+ case 20: // SPD end ladder - unknown composition
+ mix = new TGeoMixture("SPDEL", 1, 3.6374);
+ element = table->GetElement(22);
+ mix->DefineElement(0, element, 1.);
+ break;
+ case 21: // SDD end ladder - unknown composition
+ mix = new TGeoMixture("SDDEL", 1, 0.3824);
+ element = table->GetElement(30);
+ mix->DefineElement(0, element, 1.);
+ break;
+ case 22: // SSD end ladder - unknown composition
+ mix = new TGeoMixture("SSDEL", 1, 0.68);
+ element = table->GetElement(16);
+ mix->DefineElement(0, element, 1.);
+ break;
+ }
+ mix->SetZ(z);
+ printf("Patched with mixture %s\n", mix->GetName());
+ return mix;
}
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gdtom(Double_t *xd, Double_t *xm, Int_t iflag)
-{
- if (iflag == 1) gGeoManager->LocalToMaster(xd,xm);
- else gGeoManager->LocalToMasterVect(xd,xm);
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gmtod(Float_t *xm, Float_t *xd, Int_t iflag)
-{
- //
- // Computes coordinates XD (in DRS)
- // from known coordinates XM in MRS
- // The local reference system can be initialized by
- // - the tracking routines and GMTOD used in GUSTEP
- // - a call to GMEDIA(XM,NUMED,CHECK)
- // - a call to GLVOLU(NLEVEL,NAMES,NUMBER,IER)
- // (inverse routine is GDTOM)
- //
- // If IFLAG=1 convert coordinates
- // IFLAG=2 convert direction cosinus
- //
- Double_t XM[3], XD[3];
- Int_t i;
- for (i=0;i<3;i++) XM[i]=xm[i];
- if (iflag == 1) gGeoManager->MasterToLocal(XM,XD);
- else gGeoManager->MasterToLocalVect(XM,XD);
- for (i=0;i<3;i++) xd[i] = XD[i];
-}
-
-//_____________________________________________________________________________
-void TFlukaMCGeometry::Gmtod(Double_t *xm, Double_t *xd, Int_t iflag)
-{
- if (iflag == 1) gGeoManager->MasterToLocal(xm,xd);
- else gGeoManager->MasterToLocalVect(xm,xd);
-}
-
//_____________________________________________________________________________
void TFlukaMCGeometry::CreateFlukaMatFile(const char *fname)
{
// program load the right cross sections, and equal to the names included in
// the .pemf. Otherwise the user must define the LOW-MAT CARDS, and make his
// own .pemf, in order to get the right cross sections loaded in memory.
-
- Int_t zelem[128];
- static char elNames[220] = {
- // 1 ============================= 5 ==================================== 10 ===================================== 15 ===
- 'H','_','H','E','L','I','B','E','B','_','C','_','N','_','O','_','F','_','N','E','N','A','M','G','A','L','S','I','P','_',
- 'S','_','C','L','A','R','K','_','C','A','S','C','T','I','V','_','C','R','M','N','F','E','C','O','N','I','C','U','Z','N',
- 'G','A','G','E','A','S','S','E','B','R','K','R','R','B','S','R','Y','_','Z','R','N','B','M','O','T','C','R','U','R','H',
- 'P','D','A','G','C','D','I','N','S','N','S','B','T','E','I','_','X','E','C','S','B','A','L','A','C','E','P','R','N','D',
- 'P','M','S','M','E','U','G','D','T','B','D','Y','H','O','E','R','T','M','Y','B','L','U','H','F','T','A','W','_','R','E',
- 'O','S','I','R','P','T','A','U','H','G','T','L','P','B','B','I','P','O','A','T','R','N','F','R','R','A','A','C','T','H',
- 'P','A','U','_','N','P','P','U','A','M','C','M','B','K','C','F','E','S','F','M','M','D','N','O','L','R','R','F','D','B',
- 'S','G','B','H','H','S','M','T','D','S'};
- memset(zelem, 0, 128*sizeof(Int_t));
+
+
TString sname;
gGeoManager->Export("flgeom.root");
if (fname) sname = fname;
}
PrintHeader(out, "MATERIALS AND COMPOUNDS");
PrintHeader(out, "MATERIALS");
+ Int_t i,j,idmat;
+ Int_t counttothree, nelem;
+ Double_t a,z,rho, w;
+ TGeoElementTable *table = TGeoElementTable::Instance();
+ TGeoElement *element;
+ element = table->GetElement(13);
+ element->SetTitle("ALUMINUM"); // this is how FLUKA likes it ...
+ element = table->GetElement(15);
+ element->SetTitle("PHOSPHO"); // same story ...
+// element = table->GetElement(10);
+// element->SetTitle("ARGON"); // NEON not in neutron xsec table
+ Int_t nelements = table->GetNelements();
TList *matlist = gGeoManager->GetListOfMaterials();
+ TList *medlist = gGeoManager->GetListOfMedia();
+ Int_t nmed = medlist->GetSize();
TIter next(matlist);
Int_t nmater = matlist->GetSize();
Int_t nfmater = 0;
- TObjArray *listfluka = new TObjArray(nmater+50);
- TObjArray *listflukanames = new TObjArray(nmater+50);
- TGeoMaterial *mat, *matorig;
+ TGeoMaterial *mat;
TGeoMixture *mix = 0;
TString matname;
- TObjString *objstr, *objstrother;
- Int_t i,j,k,idmat;
- Bool_t done;
- Int_t nelem, nidmat;
- Double_t amat,zmat,rhomat;
- Double_t zel, ael, wel, rho;
- char elname[8] = {' ',' ','_', 'E','L','E','M','\0'};
- char digit[3];
- Bool_t found = kFALSE;
-
- if (fDebug) printf("Creating materials and compounds\n");
+ TObjString *objstr;
+ // Create all needed elements
+ for (Int_t i=1; i<nelements; i++) {
+ element = table->GetElement(i);
+ // skip elements which are not defined
+ if (!element->IsUsed() && !element->IsDefined()) continue;
+ matname = element->GetTitle();
+ ToFlukaString(matname);
+ rho = 0.999;
+ mat = new TGeoMaterial(matname, element->A(), element->Z(), rho);
+ mat->SetIndex(nfmater+3);
+ mat->SetUsed(kTRUE);
+ fMatList->Add(mat);
+ objstr = new TObjString(matname.Data());
+ fMatNames->Add(objstr);
+ nfmater++;
+ }
+ Int_t indmat = nfmater;
+ TGeoMedium *med;
+ // Adjust material names and add them to FLUKA list
for (i=0; i<nmater; i++) {
mat = (TGeoMaterial*)matlist->At(i);
- if (mat->GetZ()<1E-1) {
+ if (!mat->IsUsed()) continue;
+ z = mat->GetZ();
+ a = mat->GetA();
+ rho = mat->GetDensity();
+ if (mat->GetZ()<0.001) {
mat->SetIndex(2); // vacuum, built-in inside FLUKA
continue;
- }
-// printf("material: %s index=%i: Z=%f A=%f rho=%f\n", mat->GetName(), mat->GetIndex(),mat->GetZ(),mat->GetA(),mat->GetDensity());
- matorig = gGeoManager->FindDuplicateMaterial(mat);
- if (matorig) {
- idmat = matorig->GetIndex();
- mat->SetIndex(idmat);
-// printf(" -> found a duplicate: %s with index %i\n", matorig->GetName(), idmat);
- matorig = 0;
- } else {
-// printf(" Adding to temp list with index %i\n", nfmater+3);
- listfluka->Add(mat);
+ }
+ matname = mat->GetName();
+ FlukaMatName(matname);
+ // material with one element: create it as mixture since it can be duplicated
+ if (!mat->IsMixture()) {
+ // normal materials
+ mix = new TGeoMixture(matname.Data(), 1, rho);
+ mix->DefineElement(0, mat->GetElement(), 1.);
mat->SetIndex(nfmater+3);
- matorig = mat;
- objstr = new TObjString(mat->GetName());
- listflukanames->Add(objstr);
- nfmater++;
- // look if name is existing
- nidmat = 0;
- matname = objstr->GetString();
- ToFlukaString(matname);
- objstr->SetString(matname.Data());
- done = kFALSE;
- while (!done) {
- if (nfmater == 1) break;
- for (j=0; j<nfmater-1; j++) {
- objstrother = (TObjString*)listflukanames->At(j);
- if (objstr->IsEqual(objstrother)) {
- // we have to change the name
- if (nidmat>98) {
- Error("CreateFlukaMatFile", "too many materials having same name");
- return;
- }
- nidmat++;
- k = matname.Index(" ");
- if (k<0 || k>6) k=6;
- if (nidmat>9) {
- sprintf(digit, "%d", nidmat);
- } else {
- digit[0] = '0';
- sprintf(&digit[1], "%d", nidmat);
- }
- matname.Insert(k,digit);
- matname.Remove(8);
- objstr->SetString(matname.Data());
- break;
+ for (j=0; j<nmed; j++) {
+ med = (TGeoMedium*)medlist->At(j);
+ if (med->GetMaterial() == mat) {
+ med->SetMaterial(mix);
+ if (mat->GetCerenkovProperties()) {
+ mix->SetCerenkovProperties(mat->GetCerenkovProperties());
+ mat->SetCerenkovProperties(0);
}
- if (j == nfmater-2) {
- done = kTRUE;
- break;
- }
- }
- }
-// printf(" newmat name: %s\n", matname.Data());
+ break;
+ }
+ }
+ mat = (TGeoMaterial*)mix;
}
- // now we have unique materials with unique names in the lists
-
- if (matorig && matorig->IsMixture()) {
- // create dummy materials for elements
- rho = 0.999;
- mix = (TGeoMixture*)matorig;
- nelem = mix->GetNelements();
-// printf(" material is a MIXTURE with %i elements:\n", nelem);
- for (j=0; j<nelem; j++) {
- found = kFALSE;
- zel = (mix->GetZmixt())[j];
- ael = (mix->GetAmixt())[j];
-// printf(" Zelem[%i] = %g\n",j,zel);
- if ((zel-Int_t(zel))>0.01) {
- TGeoMaterial *mat1;
- for (Int_t imat=0; imat<nfmater; imat++) {
- mat1 = (TGeoMaterial*)listfluka->At(imat);
- if (TMath::Abs(mat1->GetZ()-zel)>1E-4) continue;
- if (TMath::Abs(mat1->GetA()-ael)>1E-4) continue;
- found = kTRUE;
- break;
- }
- if (!found) Warning("CreateFlukaMatFile", "element with Z=%f\n", zel);
- }
- if (!zelem[Int_t(zel)] && !found) {
- // write fluka element
- memcpy(elname, &elNames[2*Int_t(zel-1)], 2);
- zelem[Int_t(zel)] = 1;
- mat = new TGeoMaterial(elname, ael, zel, rho);
- mat->SetIndex(nfmater+3);
-// printf(" element not in list: new material %s at index=%i, Z=%g, A=%g, dummyrho=%g\n",
-// elname,nfmater+3,zel,ael,rho);
- listfluka->Add(mat);
- objstr = new TObjString(elname);
- listflukanames->Add(objstr);
- nfmater++;
- }
- }
- }
- }
- // now dump materials in the file
-// printf("DUMPING %i materials\n", nfmater);
+ mat->SetIndex(nfmater+3);
+ objstr = new TObjString(matname.Data());
+ fMatList->Add(mat);
+ fMatNames->Add(objstr);
+ nfmater++;
+ }
+
+ // Dump all elements with MATERIAL cards
for (i=0; i<nfmater; i++) {
- mat = (TGeoMaterial*)listfluka->At(i);
+ mat = (TGeoMaterial*)fMatList->At(i);
+// mat->SetUsed(kFALSE);
+ mix = 0;
+// out << "* " << mat->GetName() << endl;
out << setw(10) << "MATERIAL ";
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
-// matname = mat->GetName();
- objstr = (TObjString*)listflukanames->At(i);
+ objstr = (TObjString*)fMatNames->At(i);
matname = objstr->GetString();
- ToFlukaString(matname);
- zmat = mat->GetZ();
- if (zmat-Int_t(zmat)>0.01) {
- if (zmat-Int_t(zmat)>0.5) zmat = Int_t(zmat)+1.;
- else zmat = Int_t(zmat);
- }
- amat = mat->GetA();
- rhomat = mat->GetDensity();
- // write material card
+ z = mat->GetZ();
+ a = mat->GetA();
+ rho = mat->GetDensity();
if (mat->IsMixture()) {
out << setw(10) << " ";
out << setw(10) << " ";
mix = (TGeoMixture*)mat;
} else {
- out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << zmat;
- out << setw(10) << setprecision(3) << amat;
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << z;
+ out << setw(10) << setprecision(3) << a;
}
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
- out << setw(10) << setiosflags(ios::scientific) << setprecision(3) << rhomat;
+ out << setw(10) << setiosflags(ios::scientific) << setprecision(3) << rho;
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
- out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << Double_t(i+3);
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << Double_t(mat->GetIndex());
out << setw(10) << " ";
out << setw(10) << " ";
out << setw(8) << matname.Data() << endl;
- // add LOW-MAT crd
- if (!mat->IsMixture()) {
- out << setw(10) << "LOW-MAT ";
- out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
- out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << Double_t(i+3);
- out << setw(10) << " ";
- out << setw(10) << " ";
- out << setw(10) << " ";
- out << setw(10) << " ";
- out << setw(10) << " ";
- out << setw(8) << matname.Data() << endl;
+ if (!mix) {
+ // add LOW-MAT card for NEON to associate with ARGON neutron xsec
+ if (z==10 && matname.Contains("NEON")) {
+ out << setw(10) << "LOW-MAT ";
+ out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << Double_t(mat->GetIndex());
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << 18.;
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << -2.;
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << 293.;
+ out << setw(10) << " ";
+ out << setw(10) << " ";
+// out << setw(8) << matname.Data() << endl;
+ out << setw(8) << " " << endl;
+ }
+ continue;
}
- }
- // write mixture header
- PrintHeader(out, "COMPOUNDS");
- Int_t counttothree;
- TGeoMaterial *element;
- for (i=0; i<nfmater; i++) {
- mat = (TGeoMaterial*)listfluka->At(i);
- if (!mat->IsMixture()) continue;
- mix = (TGeoMixture*)mat;
counttothree = 0;
out << setw(10) << "COMPOUND ";
nelem = mix->GetNelements();
- objstr = (TObjString*)listflukanames->At(i);
+ objstr = (TObjString*)fMatNames->At(i);
matname = objstr->GetString();
-// printf("MIXTURE %s with index %i having %i elements\n", matname.Data(), mat->GetIndex(),nelem);
for (j=0; j<nelem; j++) {
- // dump mixture cards
-// printf(" #elem %i: Z=%g, A=%g, W=%g\n", j, (mix->GetZmixt())[j],
-// (mix->GetAmixt())[j],(mix->GetWmixt())[j]);
- wel = (mix->GetWmixt())[j];
- zel = (mix->GetZmixt())[j];
- ael = (mix->GetAmixt())[j];
- if (zel-Int_t(zel)>0.01) {
- // loop the temporary list
- element = 0;
- TGeoMaterial *mat1;
- for (Int_t imat=0; imat<i; imat++) {
- mat1 = (TGeoMaterial*)listfluka->At(imat);
- if (TMath::Abs(mat1->GetZ()-zel)>1E-4) continue;
- if (TMath::Abs(mat1->GetA()-ael)>1E-4) continue;
- element = mat1;
- break;
- }
- } else {
- memcpy(elname, &elNames[2*Int_t(zel-1)], 2);
- element = (TGeoMaterial*)listfluka->FindObject(elname);
- }
- if (!element) {
- Error("CreateFlukaMatFile", "Element Z=%g %s not found", zel, elname);
- return;
- }
- idmat = element->GetIndex();
-// printf("element %s , index=%i\n", element->GetName(), idmat);
+ w = (mix->GetWmixt())[j];
+ if (w<0.00001) w=0.00001;
+ z = (mix->GetZmixt())[j];
+ a = (mix->GetAmixt())[j];
+ idmat = GetElementIndex(Int_t(z));
+ if (!idmat) Error("CreateFlukaMatFile", "element with Z=%f not found", z);
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
- out << setw(10) << setiosflags(ios::fixed) << setprecision(6) << -wel;
+ out << setw(10) << setiosflags(ios::fixed) << setprecision(6) << -w;
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
out << setw(10) << setiosflags(ios::fixed) << setprecision(1) << Double_t(idmat);
counttothree++;
out << endl;
if ( (j+1) != nelem) out << setw(10) << "COMPOUND ";
counttothree = 0;
- }
- }
- //Unless we have 3, 6, 9... submaterials we need to put some empty
- //space and the compound name
+ }
+ }
if (nelem%3) {
for (j=0; j<(3-(nelem%3)); j++)
out << setw(10) << " " << setw(10) << " ";
out << matname.Data();
out << endl;
- }
- }
-
- // Now print the list of regions (volumes in TGeo)
+ }
+ }
Int_t nvols = gGeoManager->GetListOfUVolumes()->GetEntriesFast()-1;
TGeoVolume *vol;
-/*
- PrintHeader(out, "TGEO VOLUMES");
- for (i=1; i<=nvols; i++) {
- vol = gGeoManager->GetVolume(i);
- out.setf(std::ios::left, std::ios::adjustfield);
- out << setw(10) << i;
- out << setw(20) << vol->GetName() << endl;
- }
-*/
// Now print the material assignments
Double_t flagfield = 0.;
printf("#############################################################\n");
- if (fluka->IsFieldEnabled()) {
+ if (gFluka->IsFieldEnabled()) {
flagfield = 1.;
printf("Magnetic field enabled\n");
} else printf("Magnetic field disabled\n");
for (i=1; i<=nvols; i++) {
vol = gGeoManager->GetVolume(i);
mat = vol->GetMedium()->GetMaterial();
+// mat->SetUsed(kTRUE);
idmat = mat->GetIndex();
+ for (Int_t j=0; j<nfmater; j++) {
+ mat = (TGeoMaterial*)fMatList->At(j);
+ if (mat->GetIndex() == idmat) mat->SetUsed(kTRUE);
+ }
out << setw(10) << "ASSIGNMAT ";
out.setf(static_cast<std::ios::fmtflags>(0),std::ios::floatfield);
out << setw(10) << setiosflags(ios::fixed) << Double_t(idmat);
out << setw(10) << "0.0";
out << endl;
}
- delete listfluka;
- listflukanames->Delete();
- delete listflukanames;
out.close();
fLastMaterial = nfmater+2;
+/*
+ TGeoMaterial *mat1 = 0;
+ for (i=1; i<=nvols; i++) {
+ vol = gGeoManager->GetVolume(i);
+ med = vol->GetMedium();
+ mat = med->GetMaterial();
+ printf("Region %d: %s\n", i, vol->GetName());
+ printf(" medium %d: %s\n", med->GetId(), med->GetName());
+ for (j=0; j<nfmater; j++) {
+ mat1 = (TGeoMaterial*)fMatList->At(j);
+ if (mat1 != mat) continue;
+ objstr = (TObjString*)fMatNames->At(j);
+ matname = objstr->GetString();
+ break;
+ }
+ if (mat1 != mat) printf(" (*) material not found in Fluka list\n");
+ printf(" material %s (at ind=%d): FlukaID=%d FlukaName=%s\n",
+ mat->GetName(), j, mat->GetIndex(), matname.Data());
+ if (mat->GetCerenkovProperties()) printf(" Cerenkov properties found\n");
+ }
+*/
+
+ if (!gFluka->IsGeneratePemf()) return;
+ // Write peg files
+ char number[20];
+ for (i=indmat; i<nfmater; i++) {
+ mat = (TGeoMaterial*)fMatList->At(i);
+ if (!mat->IsUsed()) continue;
+ sname = "mat";
+ sprintf(number, "%d", i);
+ sname.Append(number);
+ WritePegFile(i);
+ sname.Prepend("$FLUPRO/pemf/rpemf peg/");
+ gSystem->Exec(sname.Data());
+ }
+ sname = "cat peg/*.pemf > peg/alice.pemf";
+ gSystem->Exec(sname.Data());
+ sname = "mv peg/alice.pemf alice.pemf";
+ gSystem->Exec(sname.Data());
+}
+
+//_____________________________________________________________________________
+void TFlukaMCGeometry::WritePegFile(Int_t imat) const
+{
+// Write the .peg file for one material
+ TGeoMaterial *mat = (TGeoMaterial*)fMatList->At(imat);
+ TString name = ((TObjString*)fMatNames->At(imat))->GetString();
+ TString line;
+ char number[20];
+ TGeoElement *elem = mat->GetElement();
+ name = name.Strip();
+ TString sname = "mat";
+ sprintf(number, "%d", imat);
+ sname.Append(number);
+ sname.Append(".peg");
+ sname.Prepend("peg/");
+ ofstream out;
+ out.open(sname.Data(), ios::out);
+ if (!out.good()) return;
+ Double_t dens = mat->GetDensity();
+ TGeoMixture *mix = 0;
+ Int_t nel = 1;
+ Int_t i;
+ if (mat->IsMixture()) {
+ mix = (TGeoMixture*)mat;
+ nel = mix->GetNelements();
+ }
+ if (nel==1) {
+ out << "ELEM" << endl;
+ out << " &INP IRAYL=1, RHO=" << dens << ", " << endl;
+ if (dens<0.01) out << " GASP=1." << endl;
+ out << " &END" << endl;
+ out << name.Data() << endl;
+ out << elem->GetName() << endl;
+ } else {
+ out << "MIXT" << endl;
+ out << " &INP IRAYL=1, NE=" << nel << ", RHOZ=";
+ line = "";
+ for (i=0; i<nel; i++) {
+ sprintf(number, "%f", mix->GetWmixt()[i]);
+ line += number;
+ line += ", ";
+ if (line.Length() > 30) {
+ out << line.Data() << endl;
+ line = "";
+ }
+ }
+ if (line.Length()) out << " " << line.Data() << endl;
+ out << " RHO=" << dens;
+ if (dens<0.01) out << ", GASP=1." << endl;
+ out << " &END" << endl;
+ out << name.Data() << endl;
+ for (i=0; i<nel; i++) {
+ elem = mix->GetElement(i);
+ line = elem->GetName();
+ if (line.Length()==1) line.Append(" ");
+ out << line.Data() << " ";
+ }
+ out << endl;
+ }
+ out << "ENER" << endl;
+ out << " $INP AE=0.56099906, UE=3000000., AP=.03, UP=3000000. $END" << endl;
+ out << "PWLF" << endl;
+ out << " $INP NALE=300, NALG=400, NALR=100 $END" << endl;
+ out << "DECK" << endl;
+ out << " $INP $END" << endl;
+ out << "TEST" << endl;
+ out << " $INP $END" << endl;
+ out.close();
}
//_____________________________________________________________________________
if (gGeoManager->IsOutside()) return 0;
return gGeoManager->GetCurrentNode()->GetUniqueID();
}
+
+//_____________________________________________________________________________
+Int_t TFlukaMCGeometry::GetElementIndex(Int_t z) const
+{
+// Get index of a material having a given Z element.
+ TIter next(fMatList);
+ TGeoMaterial *mat;
+ Int_t index = 0;
+ while ((mat=(TGeoMaterial*)next())) {
+ if (mat->IsMixture()) continue;
+ if (mat->GetElement()->Z() == z) return mat->GetIndex();
+ }
+ return index;
+}
+
//_____________________________________________________________________________
void TFlukaMCGeometry::SetMreg(Int_t mreg)
{
// Update if needed next history;
- if (fluka->GetDummyBoundary()==2) {
+ if (gFluka->GetDummyBoundary()==2) {
gGeoManager->CdNode(fNextLattice-1);
return;
}
- Int_t curreg = (gGeoManager->IsOutside())?(mcgeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
+ Int_t curreg = (gGeoManager->IsOutside())?(gMCGeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
if (mreg==curreg) return;
if (mreg==fNextRegion) {
if (fNextLattice!=999999999) gGeoManager->CdNode(fNextLattice-1);
if (str(pos)==' ') str.Replace(pos,1,"_",1);
return;
}
+
+//_____________________________________________________________________________
+void TFlukaMCGeometry::FlukaMatName(TString &str) const
+{
+// Convert a name to upper case 8 chars.
+ ToFlukaString(str);
+ Int_t ilast;
+ for (ilast=7; ilast>0; ilast--) if (str(ilast)!=' ') break;
+ if (ilast>5) ilast = 5;
+ char number[3];
+ TIter next(fMatNames);
+ TObjString *objstr;
+ TString matname;
+ Int_t index = 0;
+ while ((objstr=(TObjString*)next())) {
+ matname = objstr->GetString();
+ if (matname == str) {
+ index++;
+ if (index<10) {
+ number[0] = '0';
+ sprintf(&number[1], "%d", index);
+ } else if (index<100) {
+ sprintf(number, "%d", index);
+ } else {
+ Error("FlukaMatName", "Too many materials %s", str.Data());
+ return;
+ }
+ str.Replace(ilast+1, 2, number);
+ str.Remove(8);
+ }
+ }
+}
+
//______________________________________________________________________________
void TFlukaMCGeometry::Vname(const char *name, char *vname) const
{
// card in fluka input), returns 1 if user wants Fluka always to
// use DNEAR (in this case, be sure that GEANT4 DNEAR is unique,
// coming from all directions!!!)
- if (mcgeom->IsDebugging()) printf("========== Dummy IDNRWR\n");
+ if (gMCGeom->IsDebugging()) printf("========== Dummy IDNRWR\n");
return 0;
}
{
// Initialize FLUKa point and direction;
- kNstep++;
+ gNstep++;
/*
if (kNstep>0) {
- mcgeom->SetDebugMode(kTRUE);
- fluka->SetVerbosityLevel(3);
+ gMCGeom->SetDebugMode(kTRUE);
+ gFluka->SetVerbosityLevel(3);
}
if (kNstep>6520) {
- mcgeom->SetDebugMode(kFALSE);
- fluka->SetVerbosityLevel(0);
+ gMCGeom->SetDebugMode(kFALSE);
+ gFluka->SetVerbosityLevel(0);
}
if ((kNstep%10)==0) printf("step %i\n", kNstep);
*/
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside G1WR\n");
printf(" point/dir:(%14.9f, %14.9f, %14.9f, %g, %g, %g)\n", pSx,pSy,pSz,pV[0],pV[1],pV[2]);
printf(" oldReg=%i oldLttc=%i pstep=%f\n",oldReg, oldLttc, propStep);
}
gGeoManager->SetCurrentPoint(pSx, pSy, pSz);
gGeoManager->SetCurrentDirection(pV);
- mcgeom->SetCurrentRegion(oldReg, oldLttc);
+ gMCGeom->SetCurrentRegion(oldReg, oldLttc);
// Initialize default return values
lttcFlag = 0;
jrLt[lttcFlag] = oldLttc;
newLttc = oldLttc;
// check if dummy boundary flag is set
Int_t curLttc, curReg;
- if (fluka->IsDummyBoundary()) {
+ if (gFluka->IsDummyBoundary()) {
// printf("Dummy boundary intercepted. Point is: %f, %f, %f\n", pSx, pSy, pSz);
Bool_t crossedDummy = (oldLttc == TFlukaMCGeometry::kLttcVirtual)?kTRUE:kFALSE;
if (crossedDummy) {
// FLUKA crossed the dummy boundary - update new region/history
retStep = 0.;
saf = 0.;
- mcgeom->GetNextRegion(newReg, newLttc);
- mcgeom->SetMreg(newReg);
- if (mcgeom->IsDebugging()) printf(" virtual newReg=%i newLttc=%i\n", newReg, newLttc);
+ gMCGeom->GetNextRegion(newReg, newLttc);
+ gMCGeom->SetMreg(newReg);
+ if (gMCGeom->IsDebugging()) printf(" virtual newReg=%i newLttc=%i\n", newReg, newLttc);
sLt[lttcFlag] = 0.; // null step in current region
lttcFlag++;
jrLt[lttcFlag] = newLttc;
sLt[lttcFlag] = 0.; // null step in next region
jrLt[lttcFlag+1] = -1;
sLt[lttcFlag+1] = 0.;
- fluka->SetDummyBoundary(0);
+ gFluka->SetDummyBoundary(0);
return;
}
}
}
// Reset dummy boundary flag
- fluka->SetDummyBoundary(0);
+ gFluka->SetDummyBoundary(0);
curLttc = gGeoManager->GetCurrentNodeId()+1;
curReg = gGeoManager->GetCurrentVolume()->GetNumber();
gGeoManager->CdNode(oldLttc-1);
curLttc = gGeoManager->GetCurrentNodeId()+1;
curReg = gGeoManager->GetCurrentVolume()->GetNumber();
- if (mcgeom->IsDebugging()) printf(" re-initialized point: curReg=%i curLttc=%i\n", curReg, curLttc);
+ if (gMCGeom->IsDebugging()) printf(" re-initialized point: curReg=%i curLttc=%i\n", curReg, curLttc);
}
// Now the current TGeo state reflects the FLUKA state
- if (mcgeom->IsDebugging()) printf(" current path: %s\n", gGeoManager->GetPath());
+ if (gMCGeom->IsDebugging()) printf(" current path: %s\n", gGeoManager->GetPath());
Double_t extra = 1E-6;
Double_t tmpStep = propStep + extra;
gGeoManager->FindNextBoundary(-tmpStep);
// !!!!!
if (snext<=0) {
// FLUKA is in the wrong region, notify it
- if (mcgeom->IsDebugging()) printf("ERROR: snext=%f\n", snext);
+ if (gMCGeom->IsDebugging()) printf("ERROR: snext=%f\n", snext);
// newReg = -3;
// return;
snext = extra;
if (dd < 1E-8) onBound = kTRUE;
}
snext += 1.E-8;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
if (!cross) printf(" physical step approved: %f\n", propStep);
else printf(" boundary crossing at: %f\n", snext);
if (onBound) printf(" step on boundary limit ! NASC=%i\n", nascFlag);
}
gGeoManager->SetCurrentPoint(pt);
// newLttc = (gGeoManager->IsOutside())?(TFlukaMCGeometry::kLttcOutside):gGeoManager->GetCurrentNodeId()+1;
- newReg = (gGeoManager->IsOutside())?(mcgeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
- if (mcgeom->IsDebugging()) printf(" newReg=%i newLttc=%i\n", newReg, newLttc);
+ newReg = (gGeoManager->IsOutside())?(gMCGeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
+ if (gMCGeom->IsDebugging()) printf(" newReg=%i newLttc=%i\n", newReg, newLttc);
// We really crossed the boundary, but is it the same region ?
- mcgeom->SetNextRegion(newReg, newLttc);
+ gMCGeom->SetNextRegion(newReg, newLttc);
if (newReg == oldReg) {
// Virtual boundary between replicants
- if (mcgeom->IsDebugging()) printf(" DUMMY boundary\n");
+ if (gMCGeom->IsDebugging()) printf(" DUMMY boundary\n");
newReg = 1; // cheat FLUKA telling it it crossed the TOP region
newLttc = TFlukaMCGeometry::kLttcVirtual;
// mark that next boundary is virtual
- fluka->SetDummyBoundary(1);
+ gFluka->SetDummyBoundary(1);
}
retStep = snext;
sLt[lttcFlag] = snext;
gGeoManager->CdTop();
}
gGeoManager->CdTop();
- if (!gGeoManager->GetCurrentMatrix()->IsIdentity()) printf("ERROR at step %i\n", kNstep);
+ if (!gGeoManager->GetCurrentMatrix()->IsIdentity()) printf("ERROR at step %i\n", gNstep);
gGeoManager->CdNode(oldLttc-1);
}
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("=> snext=%g safe=%g\n", snext, saf);
for (Int_t i=0; i<lttcFlag+1; i++) printf(" jrLt[%i]=%i sLt[%i]=%g\n", i,jrLt[i],i,sLt[i]);
}
- if (mcgeom->IsDebugging()) printf("<= G1WR (in: %s)\n", gGeoManager->GetPath());
+ if (gMCGeom->IsDebugging()) printf("<= G1WR (in: %s)\n", gGeoManager->GetPath());
}
//_____________________________________________________________________________
void g1rtwr()
{
- if (mcgeom->IsDebugging()) printf("========== Dummy G1RTWR\n");
+ if (gMCGeom->IsDebugging()) printf("========== Dummy G1RTWR\n");
}
//_____________________________________________________________________________
void conhwr(Int_t & /*intHist*/, Int_t * /*incrCount*/)
{
- if (mcgeom->IsDebugging()) printf("========== Dummy CONHWR\n");
+ if (gMCGeom->IsDebugging()) printf("========== Dummy CONHWR\n");
}
//_____________________________________________________________________________
void inihwr(Int_t &intHist)
{
- if (mcgeom->IsDebugging()) printf("========== Inside INIHWR -> reinitializing history: %i\n", intHist);
+ if (gMCGeom->IsDebugging()) printf("========== Inside INIHWR -> reinitializing history: %i\n", intHist);
if (gGeoManager->IsOutside()) gGeoManager->CdTop();
if (intHist<=0) {
// printf("=== wrong history number\n");
}
if (intHist==0) gGeoManager->CdTop();
else gGeoManager->CdNode(intHist-1);
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf(" --- current path: %s\n", gGeoManager->GetPath());
printf("<= INIHWR\n");
}
// Geometry initialization wrapper called by FLUKAM. Provides to FLUKA the
// number of regions (volumes in TGeo)
// build application geometry
- if (mcgeom->IsDebugging()) printf("========== Inside JOMIWR\n");
+ if (gMCGeom->IsDebugging()) printf("========== Inside JOMIWR\n");
flukaReg = gGeoManager->GetListOfUVolumes()->GetEntriesFast();
- if (mcgeom->IsDebugging()) printf("<= JOMIWR: last region=%i\n", flukaReg);
+ if (gMCGeom->IsDebugging()) printf("<= JOMIWR: last region=%i\n", flukaReg);
}
//_____________________________________________________________________________
Double_t * /*pV*/, const Int_t &oldReg, const Int_t &oldLttc,
Int_t &newReg, Int_t &flagErr, Int_t &newLttc)
{
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside LKDBWR (%f, %f, %f)\n",pSx, pSy, pSz);
// printf(" in: pV=(%f, %f, %f)\n", pV[0], pV[1], pV[2]);
printf(" in: oldReg=%i oldLttc=%i\n", oldReg, oldLttc);
}
TGeoNode *node = gGeoManager->FindNode(pSx, pSy, pSz);
if (gGeoManager->IsOutside()) {
- newReg = mcgeom->NofVolumes()+1;
+ newReg = gMCGeom->NofVolumes()+1;
// newLttc = gGeoManager->GetCurrentNodeId();
newLttc = 999999999;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("OUTSIDE\n");
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKMGWR\n");
}
newReg = node->GetVolume()->GetNumber();
newLttc = gGeoManager->GetCurrentNodeId()+1;
- mcgeom->SetNextRegion(newReg, newLttc);
+ gMCGeom->SetNextRegion(newReg, newLttc);
flagErr = newReg;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKDBWR\n");
}
Double_t * /*pV*/, const Int_t &oldReg, const Int_t &oldLttc,
Int_t &newReg, Int_t &flagErr, Int_t &newLttc)
{
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside LKFXWR (%f, %f, %f)\n",pSx, pSy, pSz);
// printf(" in: pV=(%f, %f, %f)\n", pV[0], pV[1], pV[2]);
printf(" in: oldReg=%i oldLttc=%i\n", oldReg, oldLttc);
}
TGeoNode *node = gGeoManager->FindNode(pSx, pSy, pSz);
if (gGeoManager->IsOutside()) {
- newReg = mcgeom->NofVolumes()+1;
+ newReg = gMCGeom->NofVolumes()+1;
// newLttc = gGeoManager->GetCurrentNodeId();
newLttc = 999999999;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("OUTSIDE\n");
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKMGWR\n");
}
newReg = node->GetVolume()->GetNumber();
newLttc = gGeoManager->GetCurrentNodeId()+1;
- mcgeom->SetNextRegion(newReg, newLttc);
+ gMCGeom->SetNextRegion(newReg, newLttc);
flagErr = newReg;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKFXWR\n");
}
Double_t * /*pV*/, const Int_t &oldReg, const Int_t &oldLttc,
Int_t &flagErr, Int_t &newReg, Int_t &newLttc)
{
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside LKMGWR (%f, %f, %f)\n",pSx, pSy, pSz);
// printf(" in: pV=(%f, %f, %f)\n", pV[0], pV[1], pV[2]);
printf(" in: oldReg=%i oldLttc=%i\n", oldReg, oldLttc);
}
TGeoNode *node = gGeoManager->FindNode(pSx, pSy, pSz);
if (gGeoManager->IsOutside()) {
- newReg = mcgeom->NofVolumes()+1;
+ newReg = gMCGeom->NofVolumes()+1;
// newLttc = gGeoManager->GetCurrentNodeId();
newLttc = 999999999;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("OUTSIDE\n");
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKMGWR\n");
}
newReg = node->GetVolume()->GetNumber();
newLttc = gGeoManager->GetCurrentNodeId()+1;
- mcgeom->SetNextRegion(newReg, newLttc);
+ gMCGeom->SetNextRegion(newReg, newLttc);
flagErr = newReg;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKMGWR\n");
}
Double_t * /*pV*/, const Int_t &oldReg, const Int_t &oldLttc,
Int_t &newReg, Int_t &flagErr, Int_t &newLttc)
{
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside LKWR (%f, %f, %f)\n",pSx, pSy, pSz);
// printf(" in: pV=(%f, %f, %f)\n", pV[0], pV[1], pV[2]);
printf(" in: oldReg=%i oldLttc=%i\n", oldReg, oldLttc);
}
TGeoNode *node = gGeoManager->FindNode(pSx, pSy, pSz);
if (gGeoManager->IsOutside()) {
- newReg = mcgeom->NofVolumes()+1;
+ newReg = gMCGeom->NofVolumes()+1;
// newLttc = gGeoManager->GetCurrentNodeId();
newLttc = 999999999;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("OUTSIDE\n");
printf(" out: newReg=%i newLttc=%i\n", newReg, newLttc);
printf("<= LKMGWR\n");
}
newReg = node->GetVolume()->GetNumber();
newLttc = gGeoManager->GetCurrentNodeId()+1;
- mcgeom->SetNextRegion(newReg, newLttc);
+ gMCGeom->SetNextRegion(newReg, newLttc);
flagErr = newReg;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf(" out: newReg=%i newLttc=%i in %s\n", newReg, newLttc, gGeoManager->GetPath());
printf("<= LKWR\n");
}
Double_t *norml, const Int_t &oldReg,
const Int_t &newReg, Int_t &flagErr)
{
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
printf("========== Inside NRMLWR (%g, %g, %g, %g, %g, %g)\n", pSx,pSy,pSz,pVx,pVy,pVz);
printf(" oldReg=%i, newReg=%i\n", oldReg,newReg);
}
-// Int_t curreg = (gGeoManager->IsOutside())?(mcgeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
+// Int_t curreg = (gGeoManager->IsOutside())?(gMCGeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
// Int_t curLttc = gGeoManager->GetCurrentNodeId()+1;
-// if (mcgeom->IsDebugging()) printf(" curReg=%i, curLttc=%i in: %s\n", curreg, curLttc, gGeoManager->GetPath());
+// if (gMCGeom->IsDebugging()) printf(" curReg=%i, curLttc=%i in: %s\n", curreg, curLttc, gGeoManager->GetPath());
// Bool_t regsame = (curreg==oldReg)?kTRUE:kFALSE;
gGeoManager->SetCurrentPoint(pSx, pSy, pSz);
gGeoManager->SetCurrentDirection(pVx,pVy,pVz);
/*
if (!regsame) {
- if (mcgeom->IsDebugging()) printf(" REGIONS DOEN NOT MATCH\n");
+ if (gMCGeom->IsDebugging()) printf(" REGIONS DOEN NOT MATCH\n");
gGeoManager->FindNode();
- curreg = (gGeoManager->IsOutside())?(mcgeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
+ curreg = (gGeoManager->IsOutside())?(gMCGeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
curLttc = gGeoManager->GetCurrentNodeId()+1;
- if (mcgeom->IsDebugging()) printf(" re-initialized point: curReg=%i curLttc=%i curPath=%s\n", curreg, curLttc, gGeoManager->GetPath());
+ if (gMCGeom->IsDebugging()) printf(" re-initialized point: curReg=%i curLttc=%i curPath=%s\n", curreg, curLttc, gGeoManager->GetPath());
}
*/
Double_t *dnorm = gGeoManager->FindNormalFast();
norml[0] = -dnorm[0];
norml[1] = -dnorm[1];
norml[2] = -dnorm[2];
- if (mcgeom->IsDebugging()) printf(" normal to boundary: (%g, %g, %g)\n", norml[0], norml[1], norml[2]);
-// curreg = (gGeoManager->IsOutside())?(mcgeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
+ if (gMCGeom->IsDebugging()) printf(" normal to boundary: (%g, %g, %g)\n", norml[0], norml[1], norml[2]);
+// curreg = (gGeoManager->IsOutside())?(gMCGeom->NofVolumes()+1):gGeoManager->GetCurrentVolume()->GetNumber();
// curLttc = gGeoManager->GetCurrentNodeId()+1;
- if (mcgeom->IsDebugging()) {
+ if (gMCGeom->IsDebugging()) {
// printf(" final location: curReg=%i, curLttc=%i in %s\n", curreg,curLttc,gGeoManager->GetPath());
printf("<= NRMLWR\n");
}
void rgrpwr(const Int_t & /*flukaReg*/, const Int_t & /*ptrLttc*/, Int_t & /*g4Reg*/,
Int_t * /*indMother*/, Int_t * /*repMother*/, Int_t & /*depthFluka*/)
{
- if (mcgeom->IsDebugging()) printf("=> Dummy RGRPWR\n");
+ if (gMCGeom->IsDebugging()) printf("=> Dummy RGRPWR\n");
}
//_____________________________________________________________________________
// For TGeo, just return the current node ID. No copy need to be made.
- if (mcgeom->IsDebugging()) printf("=> Inside ISVHWR\n");
+ if (gMCGeom->IsDebugging()) printf("=> Inside ISVHWR\n");
if (check<0) return intHist;
Int_t histInt = gGeoManager->GetCurrentNodeId()+1;
- if (mcgeom->IsDebugging()) printf("<= ISVHWR: history is: %i in: %s\n", histInt, gGeoManager->GetPath());
+ if (gMCGeom->IsDebugging()) printf("<= ISVHWR: history is: %i in: %s\n", histInt, gGeoManager->GetPath());
return histInt;
}