void SetFillLambda(Bool_t flag=kTRUE) {fFillLambda = flag;}
void SetFillALambda(Bool_t flag=kTRUE) {fFillALambda = flag;}
void SetFillCaloClusterInfo(Bool_t flag=kTRUE) {fFillCaloClusterInfo = flag;}
+ void SetFillFMDSectorInfo(Bool_t flag=kFALSE) {fFillFMDSectorInfo = flag;}
+ void SetFillFMDChannelInfo(Bool_t flag=kFALSE) {fFillFMDChannelInfo = flag;}
void SetFillFriendInfo(Bool_t flag=kTRUE) {fFillFriendInfo = flag;}
// Add dielectron objects to the list. These contain cuts and histogram definitions
Bool_t fFillLambda; // fill the lambda V0s
Bool_t fFillALambda; // fill the anti-lambda V0s
Bool_t fFillCaloClusterInfo; // fill the calorimeter clusters
+ Bool_t fFillFMDSectorInfo; // fill the FMD info for every sector
+ Bool_t fFillFMDChannelInfo; // fill the FMD info for every channel
Bool_t fFillFriendInfo; // fill friend tree information
AliAnalysisCuts *fEventFilter; // event filter
AliReducedPair* FillV0PairInfo(AliESDv0* v0, Int_t id, AliESDtrack* legPos, AliESDtrack* legNeg, AliKFVertex* vtxKF, Bool_t chargesAreCorrect);
UChar_t EncodeTPCClusterMap(AliVParticle* track, Bool_t isAOD);
void FillCaloClusters();
+ void FillFMDInfo();
Int_t GetSPDTrackletMultiplicity(AliVEvent* event, Float_t lowEta, Float_t highEta);
AliAnalysisTaskReducedTree(const AliAnalysisTaskReducedTree &c);
AliAnalysisTaskReducedTree& operator= (const AliAnalysisTaskReducedTree &c);
- ClassDef(AliAnalysisTaskReducedTree, 2); //Analysis Task for creating a reduced event information tree
+ ClassDef(AliAnalysisTaskReducedTree, 3); //Analysis Task for creating a reduced event information tree
};
#endif