const char* EMCDecoderVersion() const { return fEMCDecoderVersion.Data();}
Bool_t GetEMCEnergyCorrectionOn() const { return fEMCEnergyCorrectionOn; }
Int_t GetGlobalAltroOffset() const { return fGlobalAltroOffset ; }
const char* EMCDecoderVersion() const { return fEMCDecoderVersion.Data();}
Bool_t GetEMCEnergyCorrectionOn() const { return fEMCEnergyCorrectionOn; }
Int_t GetGlobalAltroOffset() const { return fGlobalAltroOffset ; }
Float_t GetCPVClusteringThreshold() const { return fCPVClusteringThreshold; }
Float_t GetCPVLocalMaxCut() const { return fCPVLocMaxCut; }
Float_t GetCPVClusteringThreshold() const { return fCPVClusteringThreshold; }
Float_t GetCPVLocalMaxCut() const { return fCPVLocMaxCut; }
void SetEMCUnfolding(Bool_t toUnfold=kFALSE) { fEMCUnfold =toUnfold;}
void SetEMCEnergyCorrectionOn(Bool_t on=kTRUE) { fEMCEnergyCorrectionOn =on; }
void SetGlobalAltroOffset(Int_t offset=5) { fGlobalAltroOffset =offset ; }
void SetEMCUnfolding(Bool_t toUnfold=kFALSE) { fEMCUnfold =toUnfold;}
void SetEMCEnergyCorrectionOn(Bool_t on=kTRUE) { fEMCEnergyCorrectionOn =on; }
void SetGlobalAltroOffset(Int_t offset=5) { fGlobalAltroOffset =offset ; }
void SetCPVClusteringThreshold(Float_t cluth) { fCPVClusteringThreshold=cluth; }
void SetCPVLocalMaxCut(Float_t cut) { fCPVLocMaxCut =cut; }
void SetCPVClusteringThreshold(Float_t cluth) { fCPVClusteringThreshold=cluth; }
void SetCPVLocalMaxCut(Float_t cut) { fCPVLocMaxCut =cut; }
Bool_t fEMCEnergyCorrectionOn; // EMC: if true do non-linear correction of cluster energy
TString fEMCDecoderVersion ; // EMC: AliPHOSRawDecoder version
Int_t fGlobalAltroOffset ; // Offset used in ALTRO chips in SZ runs
Bool_t fEMCEnergyCorrectionOn; // EMC: if true do non-linear correction of cluster energy
TString fEMCDecoderVersion ; // EMC: AliPHOSRawDecoder version
Int_t fGlobalAltroOffset ; // Offset used in ALTRO chips in SZ runs
Float_t fCPVClusteringThreshold; // CPV: Min.digit energy to start a new cluster, in GeV
Float_t fCPVLocMaxCut; // CPV: Min.energy difference between two local maxima, in GeV
Float_t fCPVClusteringThreshold; // CPV: Min.digit energy to start a new cluster, in GeV
Float_t fCPVLocMaxCut; // CPV: Min.energy difference between two local maxima, in GeV