X-Git-Url: http://git.uio.no/git/?a=blobdiff_plain;f=PWGGA%2FCaloTrackCorrelations%2FAliAnaCalorimeterQA.h;h=f80ef9b95b6975ade2a0a4cbc1d7162065f3f7c0;hb=a22f3f345885119564dfbe2b22b9e9dd98bebad9;hp=0d9504e1b8076aade4469154c7f2b6d17981f8f1;hpb=701cbf54b62248c509f97ebc8024bea24ab5fd6e;p=u%2Fmrichter%2FAliRoot.git diff --git a/PWGGA/CaloTrackCorrelations/AliAnaCalorimeterQA.h b/PWGGA/CaloTrackCorrelations/AliAnaCalorimeterQA.h index 0d9504e1b80..f80ef9b95b6 100755 --- a/PWGGA/CaloTrackCorrelations/AliAnaCalorimeterQA.h +++ b/PWGGA/CaloTrackCorrelations/AliAnaCalorimeterQA.h @@ -54,7 +54,7 @@ public: void CellInClusterPositionHistograms(AliVCluster* cluster); - void ClusterAsymmetryHistograms(AliVCluster* clus, Int_t absIdMax, const Bool_t goodCluster ); + void ClusterAsymmetryHistograms(AliVCluster* clus, Int_t absIdMax, Bool_t goodCluster ); void ClusterHistograms(AliVCluster* cluster, const TObjArray *caloClusters, AliVCaloCells * cells, Int_t absIdMax, Double_t maxCellFraction, Float_t eCrossFrac, Double_t tmax); @@ -81,8 +81,6 @@ public: void MCHistograms(); - void MCHistograms(const TLorentzVector mom, Int_t pdg); - void WeightHistograms(AliVCluster *clus, AliVCaloCells* cells); // Setters and Getters @@ -93,7 +91,10 @@ public: Float_t GetPHOSCellAmpMin() const { return fPHOSCellAmpMin ; } void SetPHOSCellAmpMin (Float_t amp) { fPHOSCellAmpMin = amp ; } - + + Float_t GetInvMassMinECut() const { return fMinInvMassECut ; } + void SetInvMassMinECut(Float_t cut) { fMinInvMassECut = cut ; } + TString GetCalorimeter() const { return fCalorimeter ; } void SetCalorimeter(TString calo) { fCalorimeter = calo ; } @@ -173,6 +174,8 @@ public: Float_t fEMCALCellAmpMin; // amplitude Threshold on emcal cells Float_t fPHOSCellAmpMin ; // amplitude Threshold on phos cells + Float_t fMinInvMassECut; // Minimum energy cut value for clusters entering the invariant mass calculation + // Exotic studies Float_t fExoNECrossCuts ; // Number of ecross cuts Float_t fExoECrossCuts[10]; // List of ecross cuts @@ -277,15 +280,19 @@ public: TH1F * fhNCells; //! Number of towers/crystals with signal TH1F * fhNCellsCutAmpMin; //! Number of towers/crystals with signal, with min amplitude TH1F * fhAmplitude; //! Amplitude measured in towers/crystals - TH2F * fhAmpId; //! Amplitude measured in towers/crystals vs id of tower. + TH2F * fhAmpId; //! Amplitude measured in towers/crystals vs id of tower. TH3F * fhEtaPhiAmp; //! eta vs phi vs amplitude, cells TH1F * fhTime; //! Time measured in towers/crystals TH2F * fhTimeVz; //! Time measured in towers/crystals vs vertex z component, for E > 0.5 TH2F * fhTimeId; //! Time vs Absolute cell Id - TH2F * fhTimeAmp; //! Time vs Amplitude + TH2F * fhTimeAmp; //! Time vs Amplitude - TH2F * fhCellECross; //! 1 - Energy in cross around cell / cell energy + TH2F * fhAmpIdLowGain; //! Amplitude measured in towers/crystals vs id of tower, low gain towers + TH2F * fhTimeIdLowGain; //! Time vs Absolute cell Id, low gain + TH2F * fhTimeAmpLowGain; //! Time vs Amplitude, low gain + + TH2F * fhCellECross; //! 1 - Energy in cross around cell / cell energy //Calorimeters Correlation TH2F * fhCaloCorrNClusters; //! EMCAL vs PHOS, number of clusters @@ -332,6 +339,9 @@ public: TH2F * fhGridCells ; //! Cells ordered in column/row for different module, Reco TH2F * fhGridCellsE ; //! Cells ordered in column/row for different module, weighted with energy, Reco TH2F * fhGridCellsTime ; //! Cells ordered in column/row for different module, weighted with time, Reco + TH2F * fhGridCellsLowGain ; //! Cells ordered in column/row for different module, Reco, low gain + TH2F * fhGridCellsELowGain ; //! Cells ordered in column/row for different module, weighted with energy, Reco, low gain + TH2F * fhGridCellsTimeLowGain ; //! Cells ordered in column/row for different module, weighted with time, Reco, low gain TH2F ** fhTimeAmpPerRCU; //! Time vs Amplitude measured in towers/crystals different RCU TH2F ** fhIMMod; //! cluster pairs invariant mass, different module, @@ -368,19 +378,23 @@ public: //Pure MC - enum mcTypes {kmcPhoton = 0, kmcPi0 = 1, kmcEta = 2, kmcElectron = 3, kmcNeHadron = 4, kmcChHadron = 5 }; - - TH2F * fhRecoMCE[6][2] ; //! E generated particle vs reconstructed E - TH2F * fhRecoMCPhi[6][2] ; //! phi generated particle vs reconstructed phi - TH2F * fhRecoMCEta[6][2] ; //! eta generated particle vs reconstructed Eta - TH2F * fhRecoMCDeltaE[6][2] ; //! Gen-Reco E generated particle vs reconstructed E - TH2F * fhRecoMCRatioE[6][2] ; //! Reco/Gen E generated particle vs reconstructed E - TH2F * fhRecoMCDeltaPhi[6][2]; //! Gen-Reco phi generated particle vs reconstructed E - TH2F * fhRecoMCDeltaEta[6][2]; //! Gen-Reco eta generated particle vs reconstructed E - - TH1F * fhGenMCE[4] ; //! pt of primary particle + enum mcTypes {kmcPhoton = 0, kmcPi0 = 1, kmcEta = 2, + kmcElectron = 3, kmcPhotonConv = 4, + kmcNeHadron = 5, kmcChHadron = 6 }; + + TH2F * fhRecoMCE[7][2] ; //! E generated particle vs reconstructed E + TH2F * fhRecoMCPhi[7][2] ; //! phi generated particle vs reconstructed phi + TH2F * fhRecoMCEta[7][2] ; //! eta generated particle vs reconstructed Eta + TH2F * fhRecoMCDeltaE[7][2] ; //! Gen-Reco E generated particle vs reconstructed E + TH2F * fhRecoMCRatioE[7][2] ; //! Reco/Gen E generated particle vs reconstructed E + TH2F * fhRecoMCDeltaPhi[7][2]; //! Gen-Reco phi generated particle vs reconstructed E + TH2F * fhRecoMCDeltaEta[7][2]; //! Gen-Reco eta generated particle vs reconstructed E + + TH1F * fhGenMCE [4] ; //! pt of primary particle + TH1F * fhGenMCPt[4] ; //! pt of primary particle TH2F * fhGenMCEtaPhi[4] ; //! eta vs phi of primary particle - TH1F * fhGenMCAccE[4] ; //! pt of primary particle, in acceptance + TH1F * fhGenMCAccE [4] ; //! pt of primary particle, in acceptance + TH1F * fhGenMCAccPt[4] ; //! pt of primary particle, in acceptance TH2F * fhGenMCAccEtaPhi[4] ; //! eta vs phi of primary particle, in acceptance TH2F * fhEMVxyz ; //! Electromagnetic particle production vertex @@ -427,7 +441,7 @@ public: AliAnaCalorimeterQA & operator = (const AliAnaCalorimeterQA & qa) ;//cpy assignment AliAnaCalorimeterQA( const AliAnaCalorimeterQA & qa) ; // cpy ctor - ClassDef(AliAnaCalorimeterQA,28) + ClassDef(AliAnaCalorimeterQA,29) } ;