AliTOF();
AliTOF(const char *name, const char *title, Option_t *option="noTimeZero");
virtual ~AliTOF() ;
+
+ static Int_t NDDL() { return kNDDL;};
+ static Int_t NTRM() { return kNTRM;}
+ static Int_t NTdc() { return kNTdc;};
+ static Int_t NCh() { return kNCh;};
+ static Int_t NPadXTRM() { return kNCh*kNTdc;};
+
// getters for AliTOF object status
- Int_t GetNStripA() const {return fNStripA;}
- Int_t GetNStripB() const {return fNStripB;}
- Int_t GetNStripC() const {return fNStripC;}
- Int_t GetNpadX() const {return fNpadX;}
- Int_t GetNpadZ() const {return fNpadZ;}
- Int_t GetPadXStr() const {return fPadXStr;}
- Float_t GetTimeRes() const {return fTimeRes;}
- Float_t GetChrgRes() const {return fChrgRes;}
+ //Float_t GetTimeRes() const {return fTimeRes;};
+ //Float_t GetChrgRes() const {return fChrgRes;};
virtual void SetTreeAddress();
virtual void AddHit(Int_t track, Int_t* vol, Float_t* hits);
virtual void CreateGeometry();
virtual void CreateMaterials();
virtual void Init();
-// virtual void MakeBranch(Option_t* option, const char *file=0);
+ //virtual void MakeBranch(Option_t* option, const char *file=0);
virtual void MakeBranch(Option_t *opt=" ");
virtual void Makehits(Bool_t hits=1);
virtual void FinishEvent();
virtual void DrawModule() const;
virtual void DrawDetectorModules()=0;
virtual void DrawDetectorStrips()=0;
-// virtual void DrawDetectorModulesinFrame()=0;
-// virtual void DrawDetectorStripsinFrame()=0;
+ //virtual void DrawDetectorModulesinFrame()=0;
+ //virtual void DrawDetectorStripsinFrame()=0;
void CreateTOFFolders();
Bool_t CheckOverlap(Int_t* vol, Float_t* digit, Int_t Track);
virtual void SDigits2Digits();
virtual void SetMerger(AliTOFMerger* merger);
virtual AliTOFMerger* Merger();
-// virtual void Hits2Digits();
+ //virtual void Hits2Digits();
virtual void Hits2SDigits();
virtual void Hits2SDigits(Int_t evNumber1, Int_t evNumber2);
virtual AliDigitizer* CreateDigitizer(AliRunDigitizer* manager) const;
- virtual void Digits2Reco() {cout << "AliTOF::Digits2Reco() dummy function called" << endl;}
- void Digits2Raw (Int_t evNumber=0);
- void Raw2Digits (Int_t evNumber=0);
+ virtual void Digits2Reco() {};
+ void Digits2Raw ();
+ void Raw2Digits (){};
virtual void ResetHits();
virtual void ResetDigits();
virtual void ResetSDigits();
void CreateSDigitsArray();
AliTOFGeometry *GetGeometry() const { return fTOFGeometry; };
- Int_t fNevents ; // Number of events to digitize
-
protected:
TFolder* fFGeom ; // Folder that holds the Geometry definition
TTask* fDTask ; // TOF Digitizer container
TTask* fReTask; // TOF Reconstructioner container
- TClonesArray* fSDigits; //! List of summable digits
- Int_t fNSDigits; //! Number of sdigits
+ TClonesArray* fSDigits; //! List of summable digits
+ Int_t fNSDigits; //! Number of sdigits
TClonesArray* fReconParticles; // List of reconstructed particles
- AliTOFMerger *fMerger; // ! pointer to merger
- Int_t fNTof; // number of TOF sectors
- Float_t fRmax; // upper bound for radial extension of TOF detector
- Float_t fRmin; // lower bound for radial extension of TOF detector
- Float_t fZlenA; // length along z-axis of type A module
- Float_t fZlenB; // length along z-axis of type B module
- Float_t fZlenC; // length along z-axis of type C module
- Float_t fZtof; // total semi-length of TOF detector
- Float_t fStripLn; // Strip Length
- Float_t fSpace; // Space Beetween the strip and the bottom of the plate
- Float_t fDeadBndZ; // Dead Boundaries of a Strip along Z direction (width)
- Float_t fDeadBndX; // Dead Boundaries of a Strip along X direction (length)
- Float_t fXpad; // X size of a pad
- Float_t fZpad; // Z size of a pad
- Float_t fGapA; // Gap beetween tilted strip in A-type plate
- Float_t fGapB; // Gap beetween tilted strip in B-type plate
- Float_t fOverSpc; // Space available for sensitive layers in radial direction
- Int_t fNpadX; // Number of pads in a strip along the X direction
- Int_t fNpadZ; // Number of pads in a strip along the Z direction
- Int_t fPadXStr; // Number of pads per strip
- Int_t fNStripA; // number of strips in A type module
- Int_t fNStripB; // number of strips in B type module
- Int_t fNStripC; // number of strips in C type module
- Float_t fTimeRes; // time resolution of the TOF
- Float_t fChrgRes; // charge resolution of ADC
- Int_t fPadXSector; // number of pads per sector
- Int_t fNRoc; // number of ROC
- Int_t fNFec; // number of FEC
- Int_t fNTdc; // number of TDC
- Int_t fNPadXRoc; // number of pads for each ROC
- Int_t fIdSens; // the unique identifier for sensitive volume FPAD
- Bool_t fTZero; // flag indicating if T0 is used
+ AliTOFMerger *fMerger; // ! pointer to merger
+
+ //Float_t fGapA; // Gap beetween tilted strip in A-type plate
+ //Float_t fGapB; // Gap beetween tilted strip in B-type plate
+
+ //Float_t fTimeRes; // Time resolution of the TOF
+ //Float_t fChrgRes; // Charge resolution of ADC
+
+ Int_t fIdSens; // The unique identifier for sensitive volume FPAD
+
+ Bool_t fTZero; // Flag indicating if T0 is used
AliTOFGeometry *fTOFGeometry; //The TOF Geometry parameters
private:
- ClassDef(AliTOF,6) // Time Of Flight base class
+ // DAQ characteristics
+ // cfr. TOF-TDR pag. 105 for Glossary
+ // TARODA : TOF-ALICE Read Out and Data Acquisition system
+ enum {
+ kNDDL = 4, // Number of DDL (Detector Data Link) per sector
+ kNTRM = 10, // Number of TRM ( Readout Module) per DDL
+ kNTdc = 30, // Number of Tdc (Time to Digital Converter) per TRM
+ kNCh = 8 // Number of channels per Tdc
+ };
+
+ ClassDef(AliTOF,7) // Time Of Flight base class
};
#endif /* ALITOF_H */