void ClusterLoopHistograms(const TObjArray * clusters, AliVCaloCells * cells);
- Bool_t ClusterMCHistograms(TLorentzVector mom, Bool_t matched,
- const Int_t * labels, Int_t nLabels, Int_t & pdg );
+ Bool_t ClusterMCHistograms(Bool_t matched, const Int_t * labels, Int_t nLabels, Int_t & pdg );
- void ClusterMatchedWithTrackHistograms(AliVCluster* clus, TLorentzVector mom,
- Bool_t mcOK, Int_t pdg);
+ void ClusterMatchedWithTrackHistograms(AliVCluster* clus, Bool_t mcOK, Int_t pdg);
void Correlate();
Float_t GetECross(Int_t absId, AliVCaloCells* cells,Float_t dtcut = 10000);
- void InvariantMassHistograms(Int_t iclus, TLorentzVector mom, Int_t nModule,
- const TObjArray* caloClusters, AliVCaloCells * cells);
+ void InvariantMassHistograms(Int_t iclus, Int_t nModule, const TObjArray* caloClusters, AliVCaloCells * cells);
Bool_t IsGoodCluster(Int_t absIdMax, AliVCaloCells *cells);
Float_t fExoNDTimeCuts ; // Number of time cuts
Float_t fExoDTimeCuts[5] ; // List of time cuts
+ TLorentzVector fClusterMomentum; //! Cluster momentum
+ TLorentzVector fClusterMomentum2; //! Cluster momentum
+ TLorentzVector fPrimaryMomentum; //! Primary MC momentum
+
//CaloClusters
TH1F * fhE ; //! E distribution, Reco
TH1F * fhPt ; //! pT distribution, Reco