add new MC origin type, pi0 where one of the photons suffered conversion
[u/mrichter/AliRoot.git] / PWGGA / CaloTrackCorrelations / AliAnaInsideClusterInvariantMass.h
CommitLineData
992b14a7 1#ifndef ALIANAINSIDECLUSTERINVARIANTMASS_H
2#define ALIANAINSIDECLUSTERINVARIANTMASS_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
992b14a7 5
6//_________________________________________________________________________
7//
8// Split clusters with some criteria and calculate invariant mass
9// to identify them as pi0 or conversion
10//
11//
12//-- Author: Gustavo Conesa (LPSC-Grenoble)
13//_________________________________________________________________________
14
15
16// --- ROOT system ---
17class TList ;
18class TObjString;
19class TLorentzVector;
20
21// --- ANALYSIS system ---
5c46c992 22class AliAODCaloCluster;
23
745913ae 24#include "AliAnaCaloTrackCorrBaseClass.h"
992b14a7 25
745913ae 26class AliAnaInsideClusterInvariantMass : public AliAnaCaloTrackCorrBaseClass {
992b14a7 27
28 public:
3c1d9afb 29
992b14a7 30 AliAnaInsideClusterInvariantMass() ; // default ctor
31 virtual ~AliAnaInsideClusterInvariantMass() { ; } //virtual dtor
992b14a7 32
33 TObjString * GetAnalysisCuts();
34
35 TList * GetCreateOutputObjects();
3c1d9afb 36
992b14a7 37 void Init();
38
39 void InitParameters();
40
41 void MakeAnalysisFillHistograms() ;
992b14a7 42
71e3889f 43 void Print(const Option_t * opt) const;
992b14a7 44
71e3889f 45 void SetCalorimeter(TString & det) { fCalorimeter = det ; }
46
47 void SetM02Cut(Float_t min=0, Float_t max=10) { fM02MinCut = min ; fM02MaxCut = max ; }
992b14a7 48
71e3889f 49 void SetMinNCells(Int_t cut) { fMinNCells = cut ; }
2cb134fb 50
51 void SetMinBadChannelDistance(Float_t cut) { fMinBadDist = cut ; }
992b14a7 52
883411b2 53 void SwitchOnFillAngleHistograms() { fFillAngleHisto = kTRUE ; }
54 void SwitchOffFillAngleHistograms() { fFillAngleHisto = kFALSE ; }
55
56 void SwitchOnFillExtraSSHistograms() { fFillSSExtraHisto = kTRUE ; }
57 void SwitchOffFillExtraSSHistograms() { fFillSSExtraHisto = kFALSE ; }
8e81c2cf 58
59 void SwitchOnFillTMResidualHistograms() { fFillTMResidualHisto = kTRUE ; }
60 void SwitchOffFillTMResidualHistograms() { fFillTMResidualHisto = kFALSE ; }
61
2a77f6f4 62 void SwitchOnMCFractionHistograms() { fFillMCFractionHisto = kTRUE ; }
63 void SwitchOffMCFractionHistograms() { fFillMCFractionHisto = kFALSE ; }
64
65
992b14a7 66 //For histograms
c5693f62 67 enum mcTypes { kmcPhoton = 1, kmcConversion = 2, kmcPi0 = 3,
de7d73e6 68 kmcEta = 4, kmcElectron = 5, kmcHadron = 6, kmcPi0Conv = 7 };
992b14a7 69
70 private:
71
5c46c992 72 TString fCalorimeter ; // Calorimeter where the gamma is searched
3c1d9afb 73 Float_t fM02MaxCut ; // Study clusters with l0 smaller than cut
74 Float_t fM02MinCut ; // Study clusters with l0 larger than cut
75 Int_t fMinNCells ; // Study clusters with ncells larger than cut
76 Float_t fMinBadDist ; // Minimal distance to bad channel to accept cluster
243c2909 77
883411b2 78 Bool_t fFillAngleHisto; // Fill splitted clusters angle histograms
8e81c2cf 79 Bool_t fFillTMResidualHisto ; // Fill track matching histos, residuals
80 Bool_t fFillSSExtraHisto ; // Fill shower shape extra histos
2a77f6f4 81 Bool_t fFillMCFractionHisto ; // Fill MC energy fraction histos
82
992b14a7 83 //Histograms
84
de7d73e6 85 TH2F * fhMassNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max vs E, 1-6 for different MC particle types
86 TH2F * fhMassNLocMax2[8][2] ; //! Mass of 2 cells local maxima vs E, 1-6 for different MC particle types
87 TH2F * fhMassNLocMaxN[8][2] ; //! Mass of >2 cells local maxima vs E, 1-6 for different MC particle types
5c46c992 88
de7d73e6 89 TH2F * fhAsymNLocMax1[8][2] ; //! Asymmetry of 2 highest energy cells when 1 local max vs E, 1-6 for different MC particle types
90 TH2F * fhAsymNLocMax2[8][2] ; //! Asymmetry of 2 cells local maxima vs E, 1-6 for different MC particle types
91 TH2F * fhAsymNLocMaxN[8][2] ; //! Asymmetry of >2 cells local maxima vs E, 1-6 for different MC particle types
2a77f6f4 92
e671adc2 93 TH2F * fhSplitEFractionvsAsyNLocMax1[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1 vs |A|
94 TH2F * fhSplitEFractionvsAsyNLocMax2[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2 vs |A|
95 TH2F * fhSplitEFractionvsAsyNLocMaxN[2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2 vs |A|
96
77cadd95 97 TH2F * fhMassM02CutNLocMax1 ; //! M02(E) selection, not matched, Mass of split clusters, NLM = 1
98 TH2F * fhMassM02CutNLocMax2 ; //! M02(E) selection, not matched, Mass of split clusters, NLM = 1
99 TH2F * fhMassM02CutNLocMaxN ; //! M02(E) selection, not matched, Mass of split clusters, NLM > 2
2a77f6f4 100
77cadd95 101 TH2F * fhAsymM02CutNLocMax1 ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM = 1
102 TH2F * fhAsymM02CutNLocMax2 ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM = 2
103 TH2F * fhAsymM02CutNLocMaxN ; //! M02(E) selection, not matched, energy asymmetry of split clusters, NLM > 2
e671adc2 104
77cadd95 105 TH2F * fhMassSplitECutNLocMax1 ; //! 85% of split energy, not matched, Mass of split clusters, NLM = 1
106 TH2F * fhMassSplitECutNLocMax2 ; //! 85% of split energy, not matched, Mass of split clusters, NLM = 1
107 TH2F * fhMassSplitECutNLocMaxN ; //! 85% of split energy, not matched, Mass of split clusters, NLM > 2
667432ef 108
de7d73e6 109 TH2F * fhMassM02NLocMax1[8][2] ; //! Mass of splitted clusters when 1 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types
110 TH2F * fhMassM02NLocMax2[8][2] ; //! Mass of splitted clusters when 2 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types
111 TH2F * fhMassM02NLocMaxN[8][2] ; //! Mass of splitted clusters when >2 local max vs M02, for E > 8 GeV, 1-6 for different MC particle types
0137016b 112
b8eb40fc 113 TH2F * fhMassM02NLocMax1Ebin[4] ; //! Mass of splitted clusters when 1 local max vs M02, 4 E bins, neutral clusters
114 TH2F * fhMassM02NLocMax2Ebin[4] ; //! Mass of splitted clusters when 2 local max vs M02, 4 E bins, neutral clusters
115 TH2F * fhMassM02NLocMaxNEbin[4] ; //! Mass of splitted clusters when >2 local max vs M02, 4 E bins, neutral clusters
116
117 TH2F * fhMassAsyNLocMax1Ebin[4] ; //! Mass of Mass of splitted clusters when 1 local max vs asymmetry, 4 E bins, neutral clusters
118 TH2F * fhMassAsyNLocMax2Ebin[4] ; //! Mass of Mass of splitted clusters when 2 local max vs asymmetry, 4 E bins, neutral clusters
119 TH2F * fhMassAsyNLocMaxNEbin[4] ; //! Mass of Mass of splitted clusters when >2 local max vs asymmetry, 4 E bins, neutral clusters
120
121 TH2F * fhAsyMCGenRecoNLocMax1EbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when 1 local max, 4 E bins, neutral clusters
122 TH2F * fhAsyMCGenRecoNLocMax2EbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when 2 local max, 4 E bins, neutral clusters
123 TH2F * fhAsyMCGenRecoNLocMaxNEbinPi0[4] ; //! Generated vs reconstructed asymmetry of splitted clusters from pi0 when >2 local max, 4 E bins, neutral clusters
7b686344 124
de7d73e6 125 TH2F * fhMassDispEtaNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types
126 TH2F * fhMassDispEtaNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
127 TH2F * fhMassDispEtaNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
d2655d46 128
e671adc2 129 TH2F * fhMassDispEtaNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters
130 TH2F * fhMassDispEtaNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters
131 TH2F * fhMassDispEtaNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters
d2655d46 132
de7d73e6 133 TH2F * fhMassDispPhiNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types
134 TH2F * fhMassDispPhiNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
135 TH2F * fhMassDispPhiNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
d2655d46 136
e671adc2 137 TH2F * fhMassDispPhiNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters
138 TH2F * fhMassDispPhiNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters
139 TH2F * fhMassDispPhiNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters
d2655d46 140
de7d73e6 141 TH2F * fhMassDispAsyNLocMax1[8][2] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, for E > 8 GeV, 1-6 for different MC particle types
142 TH2F * fhMassDispAsyNLocMax2[8][2] ; //! Mass of 2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
143 TH2F * fhMassDispAsyNLocMaxN[8][2] ; //! Mass of >2 cells local maxima, vs M02, for E > 8 GeV, 1-6 for different MC particle types
d2655d46 144
e671adc2 145 TH2F * fhMassDispAsyNLocMax1Ebin[4] ; //! Mass of 2 highest energy cells when 1 local max, vs M02, 4 E bins, neutral clusters
146 TH2F * fhMassDispAsyNLocMax2Ebin[4] ; //! Mass of 2 cells local maxima, vs M02, 4 E bins, neutral clusters
147 TH2F * fhMassDispAsyNLocMaxNEbin[4] ; //! Mass of >2 cells local maxima, vs M02, 4 E bins, neutral clusters
d2655d46 148
de7d73e6 149 TH2F * fhNLocMax [8][2] ; //! Number of maxima in cluster vs E, 1-6 for different MC particle types
150 TH2F * fhNLocMaxM02Cut[8][2] ; //! Number of maxima in cluster vs E, 1-6 for different MC particle types, after SS cut
5c46c992 151
de7d73e6 152 TH2F * fhM02NLocMax1 [8][2] ; //! M02 vs E for N max in cluster = 1, 1-6 for different MC particle types
153 TH2F * fhM02NLocMax2 [8][2] ; //! M02 vs E for N max in cluster = 2, 1-6 for different MC particle types
154 TH2F * fhM02NLocMaxN [8][2] ; //! M02 vs E for N max in cluster > 2, 1-6 for different MC particle types
8e81c2cf 155
e671adc2 156 TH2F * fhMCAsymM02NLocMax1MCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster = 1, for 4 energy bins
157 TH2F * fhMCAsymM02NLocMax2MCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster = 2, for 4 energy bins
158 TH2F * fhMCAsymM02NLocMaxNMCPi0Ebin[4] ; //! M02 vs decay asymmetry for N max in cluster > 2, for 4 energy bins
8e81c2cf 159
de7d73e6 160 TH2F * fhMCGenFracNLocMax1[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types
161 TH2F * fhMCGenFracNLocMax2[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types
162 TH2F * fhMCGenFracNLocMaxN[8][2] ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types
667432ef 163
b8eb40fc 164 TH2F * fhMCGenFracAfterCutsNLocMax1MCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, MCPi0 after M02 and asymmetry cut
165 TH2F * fhMCGenFracAfterCutsNLocMax2MCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, MCPi0, after M02 and asymmetry cut
166 TH2F * fhMCGenFracAfterCutsNLocMaxNMCPi0 ; //! E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, MCPi0, after M02 and asymmetry cut
667432ef 167
de7d73e6 168 TH2F * fhMCGenSplitEFracNLocMax1[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types
169 TH2F * fhMCGenSplitEFracNLocMax2[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types
170 TH2F * fhMCGenSplitEFracNLocMaxN[8][2] ; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types
667432ef 171
172 TH2F * fhMCGenSplitEFracAfterCutsNLocMax1MCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types
173 TH2F * fhMCGenSplitEFracAfterCutsNLocMax2MCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types
174 TH2F * fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0; //! E generated particle / E1+E2 reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types
bb2d339b 175
de7d73e6 176 TH2F * fhMCGenEFracvsSplitEFracNLocMax1[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster = 1, MC pi0
177 TH2F * fhMCGenEFracvsSplitEFracNLocMax2[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster = 2, MC pi0
178 TH2F * fhMCGenEFracvsSplitEFracNLocMaxN[8][2] ; //! E generated particle / E reconstructed vs E1+E2 reconstructed / E reconstructed for N max in cluster > 2, MC pi0
bb2d339b 179
de7d73e6 180 TH2F * fhMCGenEvsSplitENLocMax1[8][2] ; //! E generated particle vs E1+E2 for N max in cluster = 1, 1-6 for different MC particle types
181 TH2F * fhMCGenEvsSplitENLocMax2[8][2] ; //! E generated particle vs E1+E2 for N max in cluster = 2, 1-6 for different MC particle types
182 TH2F * fhMCGenEvsSplitENLocMaxN[8][2] ; //! E generated particle vs E1+E2 for N max in cluster > 2, 1-6 for different MC particle types
bb2d339b 183
de7d73e6 184 TH2F * fhMCGenFracNLocMaxEbin[8][4] ; //! NLM vs E generated particle / E reconstructed vs E reconstructed 1-6 for different MC particle types, not matched to track
185 TH2F * fhMCGenFracNLocMaxEbinMatched[8][4] ; //! NLM vs E generated particle / E reconstructed vs E reconstructed 1-6 for different MC particle types, matched to track
53f2c382 186
de7d73e6 187 TH2F * fhM02MCGenFracNLocMax1Ebin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types, not track matched
188 TH2F * fhM02MCGenFracNLocMax2Ebin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types, not track matched
189 TH2F * fhM02MCGenFracNLocMaxNEbin[8][4] ; //! M02 vs E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types, not track matched
8e81c2cf 190
de7d73e6 191 TH2F * fhMassMCGenFracNLocMax1Ebin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 1, 1-6 for different MC particle types, not track matched
192 TH2F * fhMassMCGenFracNLocMax2Ebin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster = 2, 1-6 for different MC particle types, not track matched
193 TH2F * fhMassMCGenFracNLocMaxNEbin[8][4] ; //! Mass vs E generated particle / E reconstructed vs E reconstructed for N max in cluster > 2, 1-6 for different MC particle types, not track matched
8e81c2cf 194
de7d73e6 195 TH2F * fhNCellNLocMax1[8][2] ; //! n cells in cluster vs E for N max in cluster = 1, 1-6 for different MC particle types
196 TH2F * fhNCellNLocMax2[8][2] ; //! n cells in cluster vs E for N max in cluster = 2, 1-6 for different MC particle types
197 TH2F * fhNCellNLocMaxN[8][2] ; //! n cells in cluster vs E for N max in cluster > 2, 1-6 for different MC particle types
992b14a7 198
de7d73e6 199 TH2F * fhM02Pi0LocMax1[8][2] ; //! M02 for Mass around pi0, N Local Maxima = 1
200 TH2F * fhM02EtaLocMax1[8][2] ; //! M02 for Mass around eta, N Local Maxima = 1
201 TH2F * fhM02ConLocMax1[8][2] ; //! M02 for Mass around close to 0, N Local Maxima = 1
992b14a7 202
de7d73e6 203 TH2F * fhM02Pi0LocMax2[8][2] ; //! M02 for Mass around pi0, N Local Maxima = 2
204 TH2F * fhM02EtaLocMax2[8][2] ; //! M02 for Mass around eta, N Local Maxima = 2
205 TH2F * fhM02ConLocMax2[8][2] ; //! M02 for Mass around close to 0, N Local Maxima = 2
5c46c992 206
de7d73e6 207 TH2F * fhM02Pi0LocMaxN[8][2] ; //! M02 for Mass around pi0, N Local Maxima > 2
208 TH2F * fhM02EtaLocMaxN[8][2] ; //! M02 for Mass around eta, N Local Maxima > 2
209 TH2F * fhM02ConLocMaxN[8][2] ; //! M02 for Mass around close to 0, N Local Maxima > 2
fc01318e 210
de7d73e6 211 TH2F * fhMassPi0LocMax1[8][2] ; //! Mass for selected pi0, N Local Maxima = 1
212 TH2F * fhMassEtaLocMax1[8][2] ; //! Mass for selected around eta, N Local Maxima = 1
213 TH2F * fhMassConLocMax1[8][2] ; //! Mass for selected around close to 0, N Local Maxima = 1
e671adc2 214
de7d73e6 215 TH2F * fhMassPi0LocMax2[8][2] ; //! Mass for selected around pi0, N Local Maxima = 2
216 TH2F * fhMassEtaLocMax2[8][2] ; //! Mass for selected around eta, N Local Maxima = 2
217 TH2F * fhMassConLocMax2[8][2] ; //! Mass for selected around close to 0, N Local Maxima = 2
bb2d339b 218
de7d73e6 219 TH2F * fhMassPi0LocMaxN[8][2] ; //! Mass for selected around pi0, N Local Maxima > 2
220 TH2F * fhMassEtaLocMaxN[8][2] ; //! Mass for selected around eta, N Local Maxima > 2
221 TH2F * fhMassConLocMaxN[8][2] ; //! Mass for selected around close to 0, N Local Maxima > 2
bb2d339b 222
de7d73e6 223 TH2F * fhMassAfterCutsNLocMax1[8] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima = 1, not matched
224 TH2F * fhMassAfterCutsNLocMax2[8] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima = 2, not matched
225 TH2F * fhMassAfterCutsNLocMaxN[8] ; //! Mass after M02, asymmetry cuts for pi0, N Local Maxima > 2, not matched
167f2534 226
de7d73e6 227 TH2F * fhAsyPi0LocMax1[8][2] ; //! Asy for Mass around pi0, N Local Maxima = 1
228 TH2F * fhAsyEtaLocMax1[8][2] ; //! Asy for Mass around eta, N Local Maxima = 1
229 TH2F * fhAsyConLocMax1[8][2] ; //! Asy for Mass around close to 0, N Local Maxima = 1
bb2d339b 230
de7d73e6 231 TH2F * fhAsyPi0LocMax2[8][2] ; //! Asy for Mass around pi0, N Local Maxima = 2
232 TH2F * fhAsyEtaLocMax2[8][2] ; //! Asy for Mass around eta, N Local Maxima = 2
233 TH2F * fhAsyConLocMax2[8][2] ; //! Asy for Mass around close to 0, N Local Maxima = 2
fc01318e 234
de7d73e6 235 TH2F * fhAsyPi0LocMaxN[8][2] ; //! Asy for Mass around pi0, N Local Maxima > 2
236 TH2F * fhAsyEtaLocMaxN[8][2] ; //! Asy for Mass around eta, N Local Maxima > 2
237 TH2F * fhAsyConLocMaxN[8][2] ; //! Asy for Mass around close to 0, N Local Maxima > 2
e671adc2 238
de7d73e6 239 TH2F * fhSplitEFractionNLocMax1[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1
240 TH2F * fhSplitEFractionNLocMax2[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2
241 TH2F * fhSplitEFractionNLocMaxN[8][2] ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2
667432ef 242
243 TH2F * fhSplitEFractionAfterCutsNLocMax1 ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 1, after M02 and asymmetry cut
244 TH2F * fhSplitEFractionAfterCutsNLocMax2 ; //! sum of splitted cluster energy / cluster energy for N Local Maxima = 2, after M02 and asymmetry cut
245 TH2F * fhSplitEFractionAfterCutsNLocMaxN ; //! sum of splitted cluster energy / cluster energy for N Local Maxima > 2, after M02 and asymmetry cut
246
de7d73e6 247 TH2F * fhMassSplitEFractionNLocMax1Ebin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster = 1, 1-6 for different MC particle types, not track matched
248 TH2F * fhMassSplitEFractionNLocMax2Ebin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster = 2, 1-6 for different MC particle types, not track matched
249 TH2F * fhMassSplitEFractionNLocMaxNEbin[8][4] ; //! Mass vs sum of splitted cluster energy / cluster energy for N max in cluster > 2, 1-6 for different MC particle types, not track matched
5094c724 250
e671adc2 251 TH2F * fhAnglePairLocMax1[2] ; //! pair opening angle vs E
252 TH2F * fhAnglePairLocMax2[2] ; //! pair opening angle vs E
253 TH2F * fhAnglePairLocMaxN[2] ; //! pair opening angle vs E
5c46c992 254
e671adc2 255 TH2F * fhAnglePairMassLocMax1[2] ; //! pair opening angle vs Mass for E > 7 GeV
256 TH2F * fhAnglePairMassLocMax2[2] ; //! pair opening angle vs Mass for E > 7 GeV
257 TH2F * fhAnglePairMassLocMaxN[2] ; //! pair opening angle vs Mass for E > 7 GeV
243c2909 258
de7d73e6 259 TH2F * fhTrackMatchedDEtaLocMax1[8] ; //! Eta distance between track and cluster vs cluster E, 1 local maximum
260 TH2F * fhTrackMatchedDPhiLocMax1[8] ; //! Phi distance between track and cluster vs cluster E, 1 local maximum
261 TH2F * fhTrackMatchedDEtaLocMax2[8] ; //! Eta distance between track and cluster vs cluster E, 2 local maximum
262 TH2F * fhTrackMatchedDPhiLocMax2[8] ; //! Phi distance between track and cluster vs cluster E, 2 local maximum
263 TH2F * fhTrackMatchedDEtaLocMaxN[8] ; //! Eta distance between track and cluster vs cluster E, more than 2 local maximum
264 TH2F * fhTrackMatchedDPhiLocMaxN[8] ; //! Phi distance between track and cluster vs cluster E, more than 2 local maximum
243c2909 265
2a77f6f4 266 AliAnaInsideClusterInvariantMass( const AliAnaInsideClusterInvariantMass & split) ; // cpy ctor
267 AliAnaInsideClusterInvariantMass & operator = (const AliAnaInsideClusterInvariantMass & split) ; // cpy assignment
992b14a7 268
77cadd95 269 ClassDef(AliAnaInsideClusterInvariantMass,18)
992b14a7 270
271} ;
272
273#endif //ALIANAINSIDECLUSTERINVARIANTMASS_H
274
275
276