+ Float_t GetEMCClusteringThreshold() const { return fEMCClusteringThreshold; }
+ Float_t GetEMCLocalMaxCut() const { return fEMCLocMaxCut; }
+ Float_t GetEMCRawDigitThreshold() const { return fEMCRawDigitThreshold; }
+ Float_t GetEMCMinE() const { return fEMCMinE; }
+ Float_t GetEMCLogWeight() const { return fEMCW0; }
+ Float_t GetEMCSampleQualityCut() const { return fEMCSampleQualityCut; }
+ Float_t GetEMCEcoreRadius() const { return fEMCEcoreRadius; }
+ Bool_t EMCEcore2ESD() const { return fEMCEcore2ESD; }
+ Bool_t EMCSubtractPedestals() const { return fEMCSubtractPedestals; }
+ Bool_t EMCToUnfold() const { return fEMCUnfold; }
+ const char* EMCFitterVersion() const { return fEMCFitterVersion.Data(); }
+ Bool_t GetEMCEnergyCorrectionOn() const { return fEMCEnergyCorrectionOn; }
+ Int_t GetGlobalAltroOffset() const { return fGlobalAltroOffset ; }
+ Int_t GetGlobalAltroThreshold() const { return fGlobalAltroThreshold ; }
+
+ Float_t GetCPVClusteringThreshold() const { return fCPVClusteringThreshold; }
+ Float_t GetCPVLocalMaxCut() const { return fCPVLocMaxCut; }
+ Float_t GetCPVMinE() const { return fCPVMinE; }
+ Float_t GetCPVLogWeight() const { return fCPVW0; }
+ Bool_t CPVToUnfold() const { return fCPVUnfold; }
+
+ void SetEMCClusteringThreshold(Float_t cluth) { fEMCClusteringThreshold=cluth; }
+ void SetEMCLocalMaxCut(Float_t cut) { fEMCLocMaxCut =cut; }
+ void SetEMCRawDigitThreshold(Float_t rawDigTh) { fEMCRawDigitThreshold =rawDigTh;}
+ void SetEMCMinE(Float_t minE) { fEMCMinE =minE; }
+ void SetEMCLogWeight(Float_t w) { fEMCW0 =w; }
+ void SetEMCSampleQualityCut(Float_t qu) { fEMCSampleQualityCut =qu; }
+ void SetEMCEcoreRadius(Float_t rCore) { fEMCEcoreRadius =rCore; }
+ void SetEMCEcore2ESD(Bool_t ecore) { fEMCEcore2ESD =ecore; }
+ void SetEMCSubtractPedestals(Bool_t subtract) { fEMCSubtractPedestals =subtract;}
+ void SetEMCFitterVersion(const char* version="v1") { fEMCFitterVersion =version ; }
+ 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 SetGlobalAltroThreshold(Int_t ZSth=5) { fGlobalAltroThreshold =ZSth; }
+
+ void SetCPVClusteringThreshold(Float_t cluth) { fCPVClusteringThreshold=cluth; }
+ void SetCPVLocalMaxCut(Float_t cut) { fCPVLocMaxCut =cut; }
+ void SetCPVMinE(Float_t minE) { fCPVMinE =minE; }
+ void SetCPVLogWeight(Float_t w) { fCPVW0 =w; }
+ void SetCPVUnfolding(Bool_t toUnfold=kFALSE) { fCPVUnfold =toUnfold;}