public:
AliTOFT0maker() ; // default constructor
- AliTOFT0maker(AliESDpid *externalPID, AliTOFcalib *tofCalib); // overloaded constructor
+ AliTOFT0maker(AliESDpid *externalPID, AliTOFcalib *tofCalib=NULL); // overloaded constructor
virtual ~AliTOFT0maker() ; // dtor
-
+
// return (fCalculated[0]=event time -- fCalculated[1]=sigma event time in ps -- fCalculated[2]=mean event time for each fill -- fCalculated[3]=number of tracks at the TOF level) if you can subtruct the event time; return NULL if there is no event time
Double_t *ComputeT0TOF(AliESDEvent *esd,Double_t t0time=0.,Double_t t0sigma=1000.); // t0time and t0sigma in ps
void ApplyT0TOF(AliESDEvent *esd);
Float_t GetExpectedSigma(Float_t mom, Float_t tof, Float_t mass);
Double_t *GetT0p(Float_t p);
-
+
void SetTimeResolution(Double_t timeresolution){fTimeResolution=timeresolution;};// TOF timeresolution in [ps]
Double_t GetTimeResolution() const {return fTimeResolution;} // Get TOF Time Resolution
- void SetT0FillWidth(Float_t width){fT0width = width;}; // in ps
+ void SetT0FillWidth(Float_t width){if(width > 50) fT0width = width; else fT0width=150;}; // in ps
- void LoadChannelMap(char *filename="$ALICE_ROOT/TOF/enableMap.104892.root"); //load the enable channel map
+ void LoadChannelMap(const char *filename="$ALICE_ROOT/TOF/enableMap.104892.root"); //load the enable channel map
void ApplyMask(AliESDEvent * const esd); // Apply the channel mask
void SetNoTOFT0(Bool_t status=kTRUE){fNoTOFT0=status;}; // disable the TOF T0 info
void SetMaskOffChannel(Bool_t status=kTRUE){fKmask=status;}; // switch for the map off channel
-
+
Float_t TuneForMC(AliESDEvent *esd); // set enabled channeld, add a smeared t0, add a TOF smearing, return true(smeared) T0 event
+
+ void SetT0spread(Float_t t0spread){fT0spreadExt=t0spread;}; // get T0spread
+ Float_t GetT0spread() const {return fT0spreadExt;} // get T0spread
+ void SetT0fill(Float_t t0fill){fT0fillExt=t0fill;};
+
+ void WriteInESD(AliESDEvent *esd);
- private:
+ void SetTOFT0algorithm(Int_t flag=1){fTOFT0algorithm=flag;};
+ Int_t GetTOFT0algorithm() const {return fTOFT0algorithm;};
+ private:
+
AliTOFT0maker(const AliTOFT0maker &);
AliTOFT0maker & operator=(const AliTOFT0maker &);
-
+
void SetTOFResponse();
AliTOFT0v1 *fT0TOF; // T0-TOF
Bool_t fExternalPIDFlag; // external PID flag
AliTOFcalib *fTOFcalib; // TOF calibration
- Double_t fT0pt[10],fT0ptSigma[10]; // T0 and T0sigma in p-bins
+ Bool_t fNoTOFT0; // switch to avoid T0-TOF is used
+
+ Int_t fNmomBins;
- Bool_t fNoTOFT0; // swithc to avoid T0-TOF is used
+ Double_t fCalculated[10]; // contains the parameters with the event time
- Float_t fPtCutMin[10]; // min values for p bins
- Float_t fPtCutMax[10]; // max values for p bins
Double_t fT0cur[2]; // current T0 and T0 sigma
- Double_t fCalculated[8]; // contains the parameters with the event time
Double_t fTimeResolution; // global time resolution used to calculate T0
Float_t fT0sigma; // T0 resolution
Float_t fT0width; // T0 FILL width
- ClassDef(AliTOFT0maker,2); // Calculate the time zero using TOF detector */
+ Float_t fT0spreadExt;
+ Float_t fT0fillExt; // t0spread if set
+ Int_t fTOFT0algorithm; // select algorithm (1 default, 2 speed up)
+
+ ClassDef(AliTOFT0maker,3); // Calculate the time zero using TOF detector */
};
-#endif // ALITOFT0MAKERANA_H
+#endif // ALITOFT0MAKER_H