static void IdealPosition(Int_t iCh,TGeoHMatrix *m); //ideal position of a given chamber
static void IdealPositionCradle(Int_t iCh,TGeoHMatrix *m); //ideal position of a module of the cradle
void CreateGeometry ( ); //from AliModule invoked from AliMC
- AliDigitizer* CreateDigitizer (AliRunDigitizer *m )const{return new AliHMPIDDigitizer(m);} //from AliModule invoked from AliSimulation::RunDigitization()
+ AliDigitizer* CreateDigitizer (AliDigitizationInput *m )const{return new AliHMPIDDigitizer(m);} //from AliModule invoked from AliSimulation::RunDigitization()
void Digits2Raw ( ); //from AliModule invoked from AliSimulation::WriteRawFiles()
virtual void DefineOpticalProperties( ); //from AliModule invoked from AliMC::ConstructOpGeometry() to set Cerenkov properties
- void InitProperties ( ); //define the phys processes on/off (dray,eloss...)
+ // void InitProperties ( ); //define the phys processes on/off (dray,eloss...)
void Hits2SDigits ( ); //from AliModule invoked from AliSimulation::RunSDigitization()
void Init ( ); //from AliModule invoked from AliMC::InitGeometry()
Int_t IsVersion ( )const{return 1; } //from AliModule not used
static void TestGeom ( ); //tests the validity of geometry
static void TestPoint (Int_t ch,Float_t x,Float_t y ); //tests the validity of geometry
TGeoVolume* CreateChamber (Int_t number ); //chamber geometry building
- TGeoVolume* CradleBaseVolume ( TGeoMedium *med, Double_t l[7], char *name); //base topology of the cradle elements
+ TGeoVolume* CradleBaseVolume ( TGeoMedium *med, Double_t l[7], const char *name); //base topology of the cradle elements
TGeoVolume* CreateCradle ( ); //cradle geometry building
protected:
enum EMedia {kAir=1,kRoha=2,kSiO2=3,kC6F14=4,kCH4=5,kCsI=6,kAl=7,kCu=8,kW=9,kNeo=10,kAr=11}; //media ids, used for geometry creation