1 #ifndef ALIANALYSISETCUTS_H
2 #define ALIANALYSISETCUTS_H
3 //_________________________________________________________________________
4 // Utility Class for transverse energy studies
5 // Base class for ESD & MC analysis
6 // - cuts for reconstruction and MonteCarlo
8 //*-- Authors: Oystein Djuvsland (Bergen), David Silvermyr (ORNL)
9 //_________________________________________________________________________
13 class AliAnalysisEtCuts : public TNamed
18 virtual ~AliAnalysisEtCuts();
22 Double_t GetCommonEtaCut() const { return fCommonEtaCut; }
23 Double_t GetCommonClusterEnergyCut() const { return fCommonClusterEnergyCut; }
24 Double_t GetCommonTrackPtCut() const { return fCommonTrackPtCut; }
25 Int_t GetCommonSingleCell() const { return fCommonSingleCell; }
27 Double_t GetGeometryPhosEtaAccCut() const { return fGeometryPhosEtaAccCut; }
28 Double_t GetGeometryPhosPhiAccMinCut() const { return fGeometryPhosPhiAccMinCut; }
29 Double_t GetGeometryPhosPhiAccMaxCut() const { return fGeometryPhosPhiAccMaxCut; }
30 Double_t GetGeometryPhosDetectorRadius() const { return fGeometryPhosDetectorRadius; }
32 Double_t GetGeometryEmcalEtaAccCut() const { return fGeometryEmcalEtaAccCut; }
33 Double_t GetGeometryEmcalPhiAccMinCut() const { return fGeometryEmcalPhiAccMinCut; }
34 Double_t GetGeometryEmcalPhiAccMaxCut() const { return fGeometryEmcalPhiAccMaxCut; }
35 Double_t GetGeometryEmcalDetectorRadius() const { return fGeometryEmcalDetectorRadius; }
37 Double_t GetReconstructedVertexXCut() const { return fReconstructedVertexXCut; }
38 Double_t GetReconstructedVertexYCut() const { return fReconstructedVertexYCut; }
39 Double_t GetReconstructedVertexZCut() const { return fReconstructedVertexZCut; }
40 Double_t GetReconstructedIPxyCut() const { return fReconstructedIPxyCut; }
41 Double_t GetReconstructedIPzCut() const { return fReconstructedIPzCut; }
42 Int_t GetReconstructedNTpcClustersCut() const { return fReconstructedNTpcClustersCut; }
43 Int_t GetReconstructedNItsClustersCut() const { return fReconstructedNItsClustersCut; }
45 Char_t GetReconstructedPhosClusterType() const { return fReconstructedPhosClusterType; }
46 Double_t GetReconstructedPhosClusterEnergyCut() const { return fReconstructedPhosClusterEnergyCut; }
47 Double_t GetReconstructedPhosSingleCellEnergyCut() const { return fReconstructedPhosSingleCellEnergyCut; }
48 Double_t GetReconstructedPhosTrackDistanceCut() const { return fReconstructedPhosTrackDistanceCut; }
50 Char_t GetReconstructedEmcalClusterType() const { return fReconstructedEmcalClusterType; }
51 Double_t GetReconstructedEmcalClusterEnergyCut() const { return fReconstructedEmcalClusterEnergyCut; }
52 Double_t GetReconstructedEmcalSingleCellEnergyCut() const { return fReconstructedEmcalSingleCellEnergyCut; }
53 Double_t GetReconstructedEmcalTrackDistanceCut() const { return fReconstructedEmcalTrackDistanceCut; }
55 Double_t GetMonteCarloSingleChargedParticle() const { return fMonteCarloSingleChargedParticle; }
56 Double_t GetMonteCarloNeutralParticle() const { return fMonteCarloNeutralParticle; }
60 void SetCommonEtaCut(const Double_t val) { fCommonEtaCut = val; }
61 void SetCommonClusterEnergyCut(const Double_t val) { fCommonClusterEnergyCut = val; }
62 void SetCommonTrackPtCut(const Double_t val) { fCommonTrackPtCut = val; }
63 void SetCommonSingleCell(const Int_t val) { fCommonSingleCell = val;}
65 void SetGeometryPhosEtaAccCut(const Double_t val) { fGeometryPhosEtaAccCut = val; }
66 void SetGeometryPhosPhiAccMinCut(const Double_t val) { fGeometryPhosPhiAccMinCut = val; }
67 void SetGeometryPhosPhiAccMaxCut(const Double_t val) { fGeometryPhosPhiAccMaxCut = val; }
68 void SetGeometryPhosDetectorRadius(const Double_t val) { fGeometryPhosDetectorRadius = val; }
70 void SetGeometryEmcalEtaAccCut(const Double_t val) { fGeometryEmcalEtaAccCut = val; }
71 void SetGeometryEmcalPhiAccMinCut(const Double_t val) { fGeometryEmcalPhiAccMinCut = val; }
72 void SetGeometryEmcalPhiAccMaxCut(const Double_t val) { fGeometryEmcalPhiAccMaxCut = val; }
73 void SetGeometryEmcalDetectorRadius(const Double_t val) { fGeometryEmcalDetectorRadius = val; }
75 void SetReconstructedVertexXCut(const Double_t val) { fReconstructedVertexXCut = val; }
76 void SetReconstructedVertexYCut(const Double_t val) { fReconstructedVertexYCut = val; }
77 void SetReconstructedVertexZCut(const Double_t val) { fReconstructedVertexZCut = val; }
78 void SetReconstructedIPxyCut(const Double_t val) { fReconstructedIPxyCut = val; }
79 void SetReconstructedIPzCut(const Double_t val) { fReconstructedIPzCut = val; }
80 void SetReconstructedNTpcClustersCut(const Int_t val) { fReconstructedNTpcClustersCut = val; }
81 void SetReconstructedNItsClustersCut(const Int_t val) { fReconstructedNItsClustersCut = val; }
83 void SetReconstructedPhosClusterType(const Char_t val) { fReconstructedPhosClusterType = val; }
84 void SetReconstructedPhosClusterEnergyCut(const Double_t val) { fReconstructedPhosClusterEnergyCut = val; }
85 void SetReconstructedPhosSingleCellEnergyCut(const Double_t val) { fReconstructedPhosSingleCellEnergyCut = val; }
86 void SetReconstructedPhosTrackDistanceCut(const Double_t val) { fReconstructedPhosTrackDistanceCut = val; }
88 void SetReconstructedEmcalClusterType(const Char_t val) { fReconstructedEmcalClusterType = val; }
89 void SetReconstructedEmcalClusterEnergyCut(const Double_t val) { fReconstructedEmcalClusterEnergyCut = val; }
90 void SetReconstructedEmcalSingleCellEnergyCut(const Double_t val) { fReconstructedEmcalSingleCellEnergyCut = val; }
91 void SetReconstructedEmcalTrackDistanceCut(const Double_t val) { fReconstructedEmcalTrackDistanceCut = val; }
93 void SetMonteCarloSingleChargedParticle(const Double_t val) { fMonteCarloSingleChargedParticle = val; }
94 void SetMonteCarloNeutralParticle(const Double_t val) { fMonteCarloNeutralParticle = val; }
99 Double_t fCommonEtaCut; // Eta cut
100 Double_t fCommonClusterEnergyCut; // Cluster Energy cut
101 Double_t fCommonTrackPtCut; // Track Pt
102 Int_t fCommonSingleCell; // Single Cell (1)
105 Double_t fGeometryPhosEtaAccCut; // PHOS Eta Acc cut
106 Double_t fGeometryPhosPhiAccMinCut; // PHOS Phi Acc Min cut
107 Double_t fGeometryPhosPhiAccMaxCut; // PHOS Phi Acc Max cut
108 Double_t fGeometryPhosDetectorRadius; // PHOS Detector Radius
111 Double_t fGeometryEmcalEtaAccCut; // EMCal Eta Acc cut
112 Double_t fGeometryEmcalPhiAccMinCut; // EMCal Phi Acc Min cut
113 Double_t fGeometryEmcalPhiAccMaxCut; // EMCal Phi Acc Max cut
114 Double_t fGeometryEmcalDetectorRadius; // EMCal Detector Radius
117 Double_t fReconstructedVertexXCut; // vertex X cut
118 Double_t fReconstructedVertexYCut; // vertex Y cut
119 Double_t fReconstructedVertexZCut; // vertex Z cut
120 Double_t fReconstructedIPxyCut; // IP xy cut
121 Double_t fReconstructedIPzCut; // IP z cut
122 Int_t fReconstructedNTpcClustersCut; // # of TPC clusters cut
123 Int_t fReconstructedNItsClustersCut; // # of ITS clusters cut
126 Char_t fReconstructedPhosClusterType; // PHOS cluster type
127 Double_t fReconstructedPhosClusterEnergyCut; // PHOS cluster energy
128 Double_t fReconstructedPhosSingleCellEnergyCut; // PHOS single cell energy
129 Double_t fReconstructedPhosTrackDistanceCut; // PHOS track distance
131 // ReconstructedEmcal
132 Char_t fReconstructedEmcalClusterType; // EMCal cluster type
133 Double_t fReconstructedEmcalClusterEnergyCut; // EMCal cluster energy
134 Double_t fReconstructedEmcalSingleCellEnergyCut; // EMCal single cell energy
135 Double_t fReconstructedEmcalTrackDistanceCut; // EMCal track distance
138 Double_t fMonteCarloSingleChargedParticle; // MC charged
139 Double_t fMonteCarloNeutralParticle; // MC neutral
142 //Declare private to avoid compilation warning
143 AliAnalysisEtCuts & operator = (const AliAnalysisEtCuts & g) ;//copy assignment
144 AliAnalysisEtCuts(const AliAnalysisEtCuts & g) ; // copy ctor
146 ClassDef(AliAnalysisEtCuts, 0);
149 #endif // ALIANALYSISETCUTS_H