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992b14a7 | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
15 | ||
16 | //_________________________________________________________________________ | |
17 | // | |
18 | // Split clusters with some criteria and calculate invariant mass | |
19 | // to identify them as pi0 or conversion | |
20 | // | |
21 | // | |
22 | //-- Author: Gustavo Conesa (LPSC-Grenoble) | |
23 | //_________________________________________________________________________ | |
24 | ||
25 | ////////////////////////////////////////////////////////////////////////////// | |
26 | ||
27 | ||
28 | // --- ROOT system --- | |
29 | #include <TList.h> | |
30 | #include <TClonesArray.h> | |
31 | #include <TObjString.h> | |
3c1d9afb | 32 | #include <TH2F.h> |
b2e375c7 | 33 | #include <TDatabasePDG.h> |
992b14a7 | 34 | |
35 | // --- Analysis system --- | |
36 | #include "AliAnaInsideClusterInvariantMass.h" | |
37 | #include "AliCaloTrackReader.h" | |
38 | #include "AliMCAnalysisUtils.h" | |
39 | #include "AliStack.h" | |
40 | #include "AliFiducialCut.h" | |
41 | #include "TParticle.h" | |
42 | #include "AliVCluster.h" | |
43 | #include "AliAODEvent.h" | |
44 | #include "AliAODMCParticle.h" | |
45 | #include "AliEMCALGeoParams.h" | |
46 | ||
1253480f | 47 | // --- Detectors --- |
c5693f62 | 48 | //#include "AliPHOSGeoUtils.h" |
49 | #include "AliEMCALGeometry.h" | |
50 | ||
992b14a7 | 51 | ClassImp(AliAnaInsideClusterInvariantMass) |
52 | ||
53 | //__________________________________________________________________ | |
54 | AliAnaInsideClusterInvariantMass::AliAnaInsideClusterInvariantMass() : | |
0186b6a2 | 55 | AliAnaCaloTrackCorrBaseClass(), fCalorimeter(""), |
56 | fMinNCells(0), fMinBadDist(0), | |
57 | fHistoECut(0), fCheckSplitDistToBad(0), fFillAngleHisto(kFALSE), | |
58 | fFillTMHisto(kFALSE), fFillTMResidualHisto(kFALSE), fFillSSExtraHisto(kFALSE), | |
ff6aa4ce | 59 | fFillMCHisto(kFALSE), fFillSSWeightHisto(kFALSE), |
60 | fFillNLMDiffCutHisto(kFALSE), fFillEbinHisto(0), | |
0186b6a2 | 61 | fFillMCOverlapHisto(0), fFillNCellHisto(0), fFillIdConvHisto(0), |
29555e96 | 62 | fFillIdEtaHisto(0), fFillHighMultHisto(0), |
63 | fFillArmenterosHisto(0), fFillThetaStarHisto(0), | |
ff6aa4ce | 64 | fSSWeightN(0), fSSECellCutN(0), |
09a5b22d | 65 | fNLMSettingN(0), fWSimu(), |
0186b6a2 | 66 | fhMassAsyCutNLocMax1(0), fhMassAsyCutNLocMax2(0), fhMassAsyCutNLocMaxN(0), |
67 | fhM02AsyCutNLocMax1(0), fhM02AsyCutNLocMax2(0), fhM02AsyCutNLocMaxN(0), | |
68 | fhMassM02CutNLocMax1(0), fhMassM02CutNLocMax2(0), fhMassM02CutNLocMaxN(0), | |
69 | fhAsymM02CutNLocMax1(0), fhAsymM02CutNLocMax2(0), fhAsymM02CutNLocMaxN(0), | |
2c36e041 | 70 | fhMassEnCutNLocMax1(0), fhMassEnCutNLocMax2(0), fhMassEnCutNLocMaxN(0), |
71 | fhM02EnCutNLocMax1(0), fhM02EnCutNLocMax2(0), fhM02EnCutNLocMaxN(0), | |
72 | fhAsymEnCutNLocMax1(0), fhAsymEnCutNLocMax2(0), fhAsymEnCutNLocMaxN(0), | |
a6d3b0a8 | 73 | fhSplitEFracEnCutNLocMax1(0), fhSplitEFracEnCutNLocMax2(0), fhSplitEFracEnCutNLocMaxN(0), |
0186b6a2 | 74 | fhMassSplitECutNLocMax1(0), fhMassSplitECutNLocMax2(0), fhMassSplitECutNLocMaxN(0), |
75 | fhMCGenFracAfterCutsNLocMax1MCPi0(0), fhMCGenFracAfterCutsNLocMax2MCPi0(0), fhMCGenFracAfterCutsNLocMaxNMCPi0(0), | |
76 | fhMCGenSplitEFracAfterCutsNLocMax1MCPi0(0),fhMCGenSplitEFracAfterCutsNLocMax2MCPi0(0),fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0(0), | |
77 | fhNCellMassEHighNLocMax1MCPi0(0), fhNCellM02EHighNLocMax1MCPi0(0), | |
78 | fhNCellMassELowNLocMax1MCPi0(0), fhNCellM02ELowNLocMax1MCPi0(0), | |
79 | fhNCellMassEHighNLocMax2MCPi0(0), fhNCellM02EHighNLocMax2MCPi0(0), | |
80 | fhNCellMassELowNLocMax2MCPi0(0), fhNCellM02ELowNLocMax2MCPi0(0), | |
81 | fhNCellMassEHighNLocMaxNMCPi0(0), fhNCellM02EHighNLocMaxNMCPi0(0), | |
82 | fhNCellMassELowNLocMaxNMCPi0(0), fhNCellM02ELowNLocMaxNMCPi0(0), | |
83 | fhAnglePairPrimPi0RecoNLocMax1(0), fhAnglePairPrimPi0RecoNLocMax2(0), fhAnglePairPrimPi0RecoNLocMaxN(0), | |
84 | fhAnglePairPrimPi0vsRecoNLocMax1(0), fhAnglePairPrimPi0vsRecoNLocMax2(0), fhAnglePairPrimPi0vsRecoNLocMaxN(0), | |
4e5a94c5 | 85 | fhAnglePairPrimPi0OverM02NLocMax1(0), fhAnglePairPrimPi0OverM02NLocMax2(0), fhAnglePairPrimPi0OverM02NLocMaxN(0), |
0186b6a2 | 86 | fhCentralityPi0NLocMax1(0), fhCentralityEtaNLocMax1(0), |
87 | fhCentralityPi0NLocMax2(0), fhCentralityEtaNLocMax2(0), | |
88 | fhCentralityPi0NLocMaxN(0), fhCentralityEtaNLocMaxN(0), | |
89 | fhEventPlanePi0NLocMax1(0), fhEventPlaneEtaNLocMax1(0), | |
90 | fhEventPlanePi0NLocMax2(0), fhEventPlaneEtaNLocMax2(0), | |
91 | fhEventPlanePi0NLocMaxN(0), fhEventPlaneEtaNLocMaxN(0), | |
92 | fhClusterEtaPhiNLocMax1(0), fhClusterEtaPhiNLocMax2(0), fhClusterEtaPhiNLocMaxN(0), | |
93 | fhPi0EtaPhiNLocMax1(0), fhPi0EtaPhiNLocMax2(0), fhPi0EtaPhiNLocMaxN(0), | |
94 | fhEtaEtaPhiNLocMax1(0), fhEtaEtaPhiNLocMax2(0), fhEtaEtaPhiNLocMaxN(0), | |
95 | fhPi0EPairDiffTimeNLM1(0), fhPi0EPairDiffTimeNLM2(0), fhPi0EPairDiffTimeNLMN(0), | |
96 | fhEtaEPairDiffTimeNLM1(0), fhEtaEPairDiffTimeNLM2(0), fhEtaEPairDiffTimeNLMN(0), | |
97 | fhMCPi0HighNLMPair(0), fhMCPi0LowNLMPair(0), | |
98 | fhMCPi0AnyNLMPair(0), fhMCPi0NoneNLMPair(0), | |
99 | fhMCPi0HighNLMPairNoMCMatch(0), fhMCPi0LowNLMPairNoMCMatch(0), | |
100 | fhMCPi0AnyNLMPairNoMCMatch(0), fhMCPi0NoneNLMPairNoMCMatch(0), | |
101 | fhMCPi0HighNLMPairOverlap(0), fhMCPi0LowNLMPairOverlap(0), | |
102 | fhMCPi0AnyNLMPairOverlap(0), fhMCPi0NoneNLMPairOverlap(0), | |
103 | fhMCPi0HighNLMPairNoMCMatchOverlap(0), fhMCPi0LowNLMPairNoMCMatchOverlap(0), | |
104 | fhMCPi0AnyNLMPairNoMCMatchOverlap(0), fhMCPi0NoneNLMPairNoMCMatchOverlap(0), | |
105 | fhMCPi0DecayPhotonHitHighLM(0), fhMCPi0DecayPhotonAdjHighLM(0), | |
106 | fhMCPi0DecayPhotonHitOtherLM(0), fhMCPi0DecayPhotonAdjOtherLM(0), | |
107 | fhMCPi0DecayPhotonAdjacent(0), fhMCPi0DecayPhotonHitNoLM(0), | |
108 | fhMCPi0DecayPhotonHitHighLMOverlap(0), fhMCPi0DecayPhotonAdjHighLMOverlap(0), | |
109 | fhMCPi0DecayPhotonHitOtherLMOverlap(0), fhMCPi0DecayPhotonAdjOtherLMOverlap(0), | |
110 | fhMCPi0DecayPhotonAdjacentOverlap(0), fhMCPi0DecayPhotonHitNoLMOverlap(0), | |
111 | fhMCEOverlapType(0), fhMCEOverlapTypeMatch(0) | |
992b14a7 | 112 | { |
113 | //default ctor | |
114 | ||
115 | // Init array of histograms | |
cb99fa55 | 116 | for(Int_t i = 0; i < 7; i++) |
5c46c992 | 117 | { |
118 | for(Int_t j = 0; j < 2; j++) | |
119 | { | |
5c46c992 | 120 | fhMassNLocMax1[i][j] = 0; |
121 | fhMassNLocMax2[i][j] = 0; | |
122 | fhMassNLocMaxN[i][j] = 0; | |
c7e9a4e9 | 123 | fhMassSplitENLocMax1[i][j] = 0; |
124 | fhMassSplitENLocMax2[i][j] = 0; | |
125 | fhMassSplitENLocMaxN[i][j] = 0; | |
5c46c992 | 126 | fhNLocMax[i][j] = 0; |
5c46c992 | 127 | fhNLocMaxM02Cut[i][j] = 0; |
cc909e6f | 128 | fhSplitClusterENLocMax [i][j] = 0; |
129 | fhSplitClusterEPi0NLocMax[i][j] = 0; | |
5c46c992 | 130 | fhM02NLocMax1[i][j] = 0; |
131 | fhM02NLocMax2[i][j] = 0; | |
132 | fhM02NLocMaxN[i][j] = 0; | |
133 | fhNCellNLocMax1[i][j] = 0; | |
134 | fhNCellNLocMax2[i][j] = 0; | |
135 | fhNCellNLocMaxN[i][j] = 0; | |
c8710850 | 136 | fhM02Pi0NLocMax1[i][j] = 0; |
137 | fhM02EtaNLocMax1[i][j] = 0; | |
138 | fhM02ConNLocMax1[i][j] = 0; | |
139 | fhM02Pi0NLocMax2[i][j] = 0; | |
140 | fhM02EtaNLocMax2[i][j] = 0; | |
141 | fhM02ConNLocMax2[i][j] = 0; | |
142 | fhM02Pi0NLocMaxN[i][j] = 0; | |
143 | fhM02EtaNLocMaxN[i][j] = 0; | |
144 | fhM02ConNLocMaxN[i][j] = 0; | |
145 | ||
146 | fhMassPi0NLocMax1[i][j] = 0; | |
147 | fhMassEtaNLocMax1[i][j] = 0; | |
148 | fhMassConNLocMax1[i][j] = 0; | |
149 | fhMassPi0NLocMax2[i][j] = 0; | |
150 | fhMassEtaNLocMax2[i][j] = 0; | |
151 | fhMassConNLocMax2[i][j] = 0; | |
152 | fhMassPi0NLocMaxN[i][j] = 0; | |
153 | fhMassEtaNLocMaxN[i][j] = 0; | |
154 | fhMassConNLocMaxN[i][j] = 0; | |
cb99fa55 | 155 | |
1253480f | 156 | fhNCellPi0NLocMax1[i][j] = 0; |
157 | fhNCellEtaNLocMax1[i][j] = 0; | |
158 | fhNCellPi0NLocMax2[i][j] = 0; | |
159 | fhNCellEtaNLocMax2[i][j] = 0; | |
160 | fhNCellPi0NLocMaxN[i][j] = 0; | |
161 | fhNCellEtaNLocMaxN[i][j] = 0; | |
c8710850 | 162 | |
163 | fhAsyPi0NLocMax1[i][j] = 0; | |
164 | fhAsyEtaNLocMax1[i][j] = 0; | |
165 | fhAsyConNLocMax1[i][j] = 0; | |
166 | fhAsyPi0NLocMax2[i][j] = 0; | |
167 | fhAsyEtaNLocMax2[i][j] = 0; | |
168 | fhAsyConNLocMax2[i][j] = 0; | |
169 | fhAsyPi0NLocMaxN[i][j] = 0; | |
170 | fhAsyEtaNLocMaxN[i][j] = 0; | |
171 | fhAsyConNLocMaxN[i][j] = 0; | |
e671adc2 | 172 | |
0137016b | 173 | fhMassM02NLocMax1[i][j]= 0; |
174 | fhMassM02NLocMax2[i][j]= 0; | |
c7e9a4e9 | 175 | fhMassM02NLocMaxN[i][j]= 0; |
176 | ||
177 | fhMassSplitEPi0NLocMax1[i][j] = 0; | |
178 | fhMassSplitEPi0NLocMax2[i][j] = 0; | |
179 | fhMassSplitEPi0NLocMaxN[i][j] = 0; | |
180 | ||
181 | fhMassSplitEAfterCutsNLocMax1[i][j] = 0; | |
182 | fhMassSplitEAfterCutsNLocMax2[i][j] = 0; | |
183 | fhMassSplitEAfterCutsNLocMaxN[i][j] = 0; | |
184 | ||
185 | ||
d2655d46 | 186 | fhMassDispEtaNLocMax1[i][j]= 0; |
187 | fhMassDispEtaNLocMax2[i][j]= 0; | |
188 | fhMassDispEtaNLocMaxN[i][j]= 0; | |
189 | fhMassDispPhiNLocMax1[i][j]= 0; | |
190 | fhMassDispPhiNLocMax2[i][j]= 0; | |
191 | fhMassDispPhiNLocMaxN[i][j]= 0; | |
192 | fhMassDispAsyNLocMax1[i][j]= 0; | |
193 | fhMassDispAsyNLocMax2[i][j]= 0; | |
194 | fhMassDispAsyNLocMaxN[i][j]= 0; | |
8e81c2cf | 195 | |
fc01318e | 196 | fhSplitEFractionNLocMax1[i][j]=0; |
197 | fhSplitEFractionNLocMax2[i][j]=0; | |
198 | fhSplitEFractionNLocMaxN[i][j]=0; | |
199 | ||
29555e96 | 200 | fhAnglePairNLocMax1 [i][j] = 0; |
201 | fhAnglePairNLocMax2 [i][j] = 0; | |
202 | fhAnglePairNLocMaxN [i][j] = 0; | |
203 | ||
204 | fhAnglePairAfterCutsNLocMax1[i][j] = 0; | |
205 | fhAnglePairAfterCutsNLocMax2[i][j] = 0; | |
206 | fhAnglePairAfterCutsNLocMaxN[i][j] = 0; | |
207 | ||
208 | fhAnglePairPi0NLocMax1 [i][j] = 0; | |
209 | fhAnglePairPi0NLocMax2 [i][j] = 0; | |
210 | fhAnglePairPi0NLocMaxN [i][j] = 0; | |
211 | ||
212 | fhAnglePairMassNLocMax1 [i][j] = 0; | |
213 | fhAnglePairMassNLocMax2 [i][j] = 0; | |
214 | fhAnglePairMassNLocMaxN [i][j] = 0; | |
d261ae67 | 215 | |
216 | fhAnglePairM02NLocMax1 [i][j] = 0; | |
217 | fhAnglePairM02NLocMax2 [i][j] = 0; | |
218 | fhAnglePairM02NLocMaxN [i][j] = 0; | |
29555e96 | 219 | |
4e5a94c5 | 220 | fhAnglePairOverM02NLocMax1 [i][j] = 0; |
221 | fhAnglePairOverM02NLocMax2 [i][j] = 0; | |
222 | fhAnglePairOverM02NLocMaxN [i][j] = 0; | |
223 | ||
224 | fhAnglePairOverM02NLocMax1Overlap0[i][j] = 0; | |
225 | fhAnglePairOverM02NLocMax2Overlap0[i][j] = 0; | |
226 | fhAnglePairOverM02NLocMaxNOverlap0[i][j] = 0; | |
227 | ||
29555e96 | 228 | fhCosThStarNLocMax1 [i][j] = 0; |
229 | fhCosThStarNLocMax2 [i][j] = 0; | |
230 | fhCosThStarNLocMaxN [i][j] = 0; | |
231 | ||
232 | fhCosThStarAfterCutsNLocMax1[i][j] = 0; | |
233 | fhCosThStarAfterCutsNLocMax2[i][j] = 0; | |
234 | fhCosThStarAfterCutsNLocMaxN[i][j] = 0; | |
235 | ||
236 | fhCosThStarPi0NLocMax1 [i][j] = 0; | |
237 | fhCosThStarPi0NLocMax2 [i][j] = 0; | |
238 | fhCosThStarPi0NLocMaxN [i][j] = 0; | |
0186b6a2 | 239 | |
8e81c2cf | 240 | fhMCGenFracNLocMax1[i][j]= 0; |
241 | fhMCGenFracNLocMax2[i][j]= 0; | |
242 | fhMCGenFracNLocMaxN[i][j]= 0; | |
4914e781 | 243 | |
244 | fhMCGenFracNLocMax1NoOverlap[i][j]= 0; | |
245 | fhMCGenFracNLocMax2NoOverlap[i][j]= 0; | |
246 | fhMCGenFracNLocMaxNNoOverlap[i][j]= 0; | |
5094c724 | 247 | |
248 | fhMCGenSplitEFracNLocMax1[i][j]= 0; | |
249 | fhMCGenSplitEFracNLocMax2[i][j]= 0; | |
bb2d339b | 250 | fhMCGenSplitEFracNLocMaxN[i][j]= 0; |
4914e781 | 251 | |
252 | fhMCGenSplitEFracNLocMax1NoOverlap[i][j]= 0; | |
253 | fhMCGenSplitEFracNLocMax2NoOverlap[i][j]= 0; | |
254 | fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]= 0; | |
bb2d339b | 255 | |
256 | fhMCGenEFracvsSplitEFracNLocMax1[i][j]= 0; | |
257 | fhMCGenEFracvsSplitEFracNLocMax2[i][j]= 0; | |
258 | fhMCGenEFracvsSplitEFracNLocMaxN[i][j]= 0; | |
259 | ||
260 | fhMCGenEvsSplitENLocMax1[i][j]= 0; | |
261 | fhMCGenEvsSplitENLocMax2[i][j]= 0; | |
e671adc2 | 262 | fhMCGenEvsSplitENLocMaxN[i][j]= 0; |
263 | ||
264 | fhAsymNLocMax1 [i][j] = 0; | |
265 | fhAsymNLocMax2 [i][j] = 0; | |
266 | fhAsymNLocMaxN [i][j] = 0; | |
74858845 | 267 | |
268 | fhMassAfterCutsNLocMax1[i][j] = 0; | |
269 | fhMassAfterCutsNLocMax2[i][j] = 0; | |
270 | fhMassAfterCutsNLocMaxN[i][j] = 0; | |
cb99fa55 | 271 | |
74858845 | 272 | |
273 | fhSplitEFractionAfterCutsNLocMax1[i][j] = 0 ; | |
274 | fhSplitEFractionAfterCutsNLocMax2[i][j] = 0 ; | |
275 | fhSplitEFractionAfterCutsNLocMaxN[i][j] = 0 ; | |
8e81c2cf | 276 | } |
19391b8c | 277 | |
8e81c2cf | 278 | for(Int_t jj = 0; jj < 4; jj++) |
279 | { | |
53f2c382 | 280 | fhM02MCGenFracNLocMax1Ebin[i][jj] = 0; |
281 | fhM02MCGenFracNLocMax2Ebin[i][jj] = 0; | |
282 | fhM02MCGenFracNLocMaxNEbin[i][jj] = 0; | |
8e81c2cf | 283 | |
284 | fhMassMCGenFracNLocMax1Ebin[i][jj]= 0; | |
285 | fhMassMCGenFracNLocMax2Ebin[i][jj]= 0; | |
286 | fhMassMCGenFracNLocMaxNEbin[i][jj]= 0; | |
53f2c382 | 287 | |
fc01318e | 288 | fhMCGenFracNLocMaxEbin[i][jj] = 0; |
53f2c382 | 289 | fhMCGenFracNLocMaxEbinMatched[i][jj]= 0; |
fc01318e | 290 | |
291 | fhMassSplitEFractionNLocMax1Ebin[i][jj] = 0; | |
292 | fhMassSplitEFractionNLocMax2Ebin[i][jj] = 0; | |
293 | fhMassSplitEFractionNLocMaxNEbin[i][jj] = 0; | |
5c46c992 | 294 | } |
295 | ||
b2e375c7 | 296 | fhTrackMatchedDEtaNLocMax1[i] = 0; |
c8710850 | 297 | fhTrackMatchedDPhiNLocMax1[i] = 0; |
298 | fhTrackMatchedDEtaNLocMax2[i] = 0; | |
299 | fhTrackMatchedDPhiNLocMax2[i] = 0; | |
300 | fhTrackMatchedDEtaNLocMaxN[i] = 0; | |
301 | fhTrackMatchedDPhiNLocMaxN[i] = 0; | |
b2e375c7 | 302 | |
303 | fhTrackMatchedDEtaNLocMax1Pos[i] = 0; | |
304 | fhTrackMatchedDPhiNLocMax1Pos[i] = 0; | |
305 | fhTrackMatchedDEtaNLocMax2Pos[i] = 0; | |
306 | fhTrackMatchedDPhiNLocMax2Pos[i] = 0; | |
307 | fhTrackMatchedDEtaNLocMaxNPos[i] = 0; | |
308 | fhTrackMatchedDPhiNLocMaxNPos[i] = 0; | |
309 | ||
310 | fhTrackMatchedDEtaNLocMax1Neg[i] = 0; | |
311 | fhTrackMatchedDPhiNLocMax1Neg[i] = 0; | |
312 | fhTrackMatchedDEtaNLocMax2Neg[i] = 0; | |
313 | fhTrackMatchedDPhiNLocMax2Neg[i] = 0; | |
314 | fhTrackMatchedDEtaNLocMaxNNeg[i] = 0; | |
315 | fhTrackMatchedDPhiNLocMaxNNeg[i] = 0; | |
243c2909 | 316 | |
b2e375c7 | 317 | for(Int_t nlm = 0; nlm < 3; nlm++) |
318 | { | |
319 | fhMCEM02Overlap0 [nlm][i] = 0; | |
320 | fhMCEM02Overlap1 [nlm][i] = 0; | |
321 | fhMCEM02OverlapN [nlm][i] = 0; | |
322 | fhMCEM02Overlap0Match[nlm][i] = 0; | |
323 | fhMCEM02Overlap1Match[nlm][i] = 0; | |
324 | fhMCEM02OverlapNMatch[nlm][i] = 0; | |
325 | ||
326 | fhMCEMassOverlap0 [nlm][i] = 0; | |
327 | fhMCEMassOverlap1 [nlm][i] = 0; | |
328 | fhMCEMassOverlapN [nlm][i] = 0; | |
329 | fhMCEMassOverlap0Match[nlm][i] = 0; | |
330 | fhMCEMassOverlap1Match[nlm][i] = 0; | |
331 | fhMCEMassOverlapNMatch[nlm][i] = 0; | |
83351853 | 332 | |
4914e781 | 333 | fhMCEAsymOverlap0 [nlm][i] = 0; |
334 | fhMCEAsymOverlap1 [nlm][i] = 0; | |
335 | fhMCEAsymOverlapN [nlm][i] = 0; | |
336 | fhMCEAsymOverlap0Match[nlm][i] = 0; | |
337 | fhMCEAsymOverlap1Match[nlm][i] = 0; | |
338 | fhMCEAsymOverlapNMatch[nlm][i] = 0; | |
339 | ||
74e3eb22 | 340 | fhMCENCellOverlap0 [nlm][i] = 0; |
341 | fhMCENCellOverlap1 [nlm][i] = 0; | |
342 | fhMCENCellOverlapN [nlm][i] = 0; | |
343 | fhMCENCellOverlap0Match[nlm][i] = 0; | |
344 | fhMCENCellOverlap1Match[nlm][i] = 0; | |
345 | fhMCENCellOverlapNMatch[nlm][i] = 0; | |
346 | ||
4914e781 | 347 | fhMCEEpriOverlap0 [nlm][i] = 0; |
348 | fhMCEEpriOverlap1 [nlm][i] = 0; | |
349 | fhMCEEpriOverlapN [nlm][i] = 0; | |
350 | fhMCEEpriOverlap0Match[nlm][i] = 0; | |
351 | fhMCEEpriOverlap1Match[nlm][i] = 0; | |
352 | fhMCEEpriOverlapNMatch[nlm][i] = 0; | |
cc909e6f | 353 | |
354 | fhMCEEpriOverlap0IdPi0[nlm][i] = 0; | |
355 | fhMCEEpriOverlap1IdPi0[nlm][i] = 0; | |
356 | fhMCEEpriOverlapNIdPi0[nlm][i] = 0; | |
4914e781 | 357 | |
83351853 | 358 | fhMCESplitEFracOverlap0 [nlm][i] = 0; |
359 | fhMCESplitEFracOverlap1 [nlm][i] = 0; | |
360 | fhMCESplitEFracOverlapN [nlm][i] = 0; | |
361 | fhMCESplitEFracOverlap0Match[nlm][i] = 0; | |
362 | fhMCESplitEFracOverlap1Match[nlm][i] = 0; | |
363 | fhMCESplitEFracOverlapNMatch[nlm][i] = 0; | |
b2e375c7 | 364 | |
365 | fhMCENOverlaps [nlm][i] = 0; | |
366 | fhMCENOverlapsMatch [nlm][i] = 0; | |
b583134f | 367 | |
b2e375c7 | 368 | if(i > 3) continue ; |
369 | ||
370 | fhMCPi0MassM02Overlap0 [nlm][i] = 0; | |
371 | fhMCPi0MassM02Overlap1 [nlm][i] = 0; | |
372 | fhMCPi0MassM02OverlapN [nlm][i] = 0; | |
373 | fhMCPi0MassM02Overlap0Match[nlm][i] = 0; | |
374 | fhMCPi0MassM02Overlap1Match[nlm][i] = 0; | |
375 | fhMCPi0MassM02OverlapNMatch[nlm][i] = 0; | |
376 | } | |
992b14a7 | 377 | } |
378 | ||
5c46c992 | 379 | for(Int_t i = 0; i < 2; i++) |
380 | { | |
e671adc2 | 381 | fhSplitEFractionvsAsyNLocMax1[i] = 0; |
382 | fhSplitEFractionvsAsyNLocMax2[i] = 0; | |
383 | fhSplitEFractionvsAsyNLocMaxN[i] = 0; | |
5c46c992 | 384 | } |
385 | ||
7b686344 | 386 | for(Int_t i = 0; i < 4; i++) |
387 | { | |
388 | fhMassM02NLocMax1Ebin[i] = 0 ; | |
389 | fhMassM02NLocMax2Ebin[i] = 0 ; | |
390 | fhMassM02NLocMaxNEbin[i] = 0 ; | |
b8eb40fc | 391 | |
392 | fhMassAsyNLocMax1Ebin[i] = 0 ; | |
393 | fhMassAsyNLocMax2Ebin[i] = 0 ; | |
394 | fhMassAsyNLocMaxNEbin[i] = 0 ; | |
395 | ||
396 | fhAsyMCGenRecoNLocMax1EbinPi0[i] = 0 ; | |
397 | fhAsyMCGenRecoNLocMax2EbinPi0[i] = 0 ; | |
398 | fhAsyMCGenRecoNLocMaxNEbinPi0[i] = 0 ; | |
d2655d46 | 399 | |
400 | fhMassDispEtaNLocMax1Ebin[i] = 0 ; | |
401 | fhMassDispEtaNLocMax2Ebin[i] = 0 ; | |
402 | fhMassDispEtaNLocMaxNEbin[i] = 0 ; | |
403 | ||
404 | fhMassDispPhiNLocMax1Ebin[i] = 0 ; | |
405 | fhMassDispPhiNLocMax2Ebin[i] = 0 ; | |
406 | fhMassDispPhiNLocMaxNEbin[i] = 0 ; | |
407 | ||
408 | fhMassDispAsyNLocMax1Ebin[i] = 0 ; | |
409 | fhMassDispAsyNLocMax2Ebin[i] = 0 ; | |
410 | fhMassDispAsyNLocMaxNEbin[i] = 0 ; | |
8e81c2cf | 411 | |
412 | fhMCAsymM02NLocMax1MCPi0Ebin[i] = 0 ; | |
413 | fhMCAsymM02NLocMax2MCPi0Ebin[i] = 0 ; | |
414 | fhMCAsymM02NLocMaxNMCPi0Ebin[i] = 0 ; | |
7b686344 | 415 | } |
416 | ||
dbe09c26 | 417 | for(Int_t nlm = 0; nlm < 3; nlm++) |
418 | { | |
b583134f | 419 | |
420 | fhMCPi0DecayPhotonHitHighLMDiffELM1 [nlm] = 0 ; | |
421 | fhMCPi0DecayPhotonAdjHighLMDiffELM1 [nlm] = 0 ; | |
422 | fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] = 0 ; | |
423 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] = 0 ; | |
424 | ||
425 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1 [nlm] = 0 ; | |
426 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1 [nlm] = 0 ; | |
427 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm] = 0 ; | |
428 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm] = 0 ; | |
429 | ||
430 | fhMCPi0DecayPhotonHitHighLMDiffELM2 [nlm] = 0 ; | |
431 | fhMCPi0DecayPhotonAdjHighLMDiffELM2 [nlm] = 0 ; | |
432 | fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] = 0 ; | |
433 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] = 0 ; | |
434 | ||
435 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2 [nlm] = 0 ; | |
436 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2 [nlm] = 0 ; | |
437 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm] = 0 ; | |
29555e96 | 438 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm] = 0 ; |
439 | ||
440 | fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1 [nlm] = 0 ; | |
441 | fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1 [nlm] = 0 ; | |
442 | fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] = 0 ; | |
443 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] = 0 ; | |
b583134f | 444 | |
29555e96 | 445 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1 [nlm] = 0 ; |
446 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1 [nlm] = 0 ; | |
447 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm] = 0 ; | |
448 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm] = 0 ; | |
449 | ||
450 | fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2 [nlm] = 0 ; | |
451 | fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2 [nlm] = 0 ; | |
452 | fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] = 0 ; | |
453 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] = 0 ; | |
454 | ||
455 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2 [nlm] = 0 ; | |
456 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2 [nlm] = 0 ; | |
457 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm] = 0 ; | |
458 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm] = 0 ; | |
459 | ||
460 | fhMCPi0DecayPhotonHitHighLMMass [nlm] = 0 ; | |
b583134f | 461 | fhMCPi0DecayPhotonAdjHighLMMass [nlm] = 0 ; |
462 | fhMCPi0DecayPhotonHitOtherLMMass[nlm] = 0 ; | |
463 | fhMCPi0DecayPhotonAdjOtherLMMass[nlm] = 0 ; | |
464 | fhMCPi0DecayPhotonAdjacentMass [nlm] = 0 ; | |
465 | fhMCPi0DecayPhotonHitNoLMMass [nlm] = 0 ; | |
466 | ||
467 | fhMCPi0DecayPhotonHitHighLMOverlapMass [nlm] = 0 ; | |
468 | fhMCPi0DecayPhotonAdjHighLMOverlapMass [nlm] = 0 ; | |
469 | fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm] = 0 ; | |
470 | fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm] = 0 ; | |
471 | fhMCPi0DecayPhotonAdjacentOverlapMass [nlm] = 0 ; | |
472 | fhMCPi0DecayPhotonHitNoLMOverlapMass [nlm] = 0 ; | |
473 | ||
dbe09c26 | 474 | fhPi0CellE [nlm] = 0 ; |
475 | fhPi0CellEFrac [nlm] = 0 ; | |
476 | fhPi0CellLogEFrac[nlm] = 0 ; | |
477 | ||
19391b8c | 478 | fhPi0CellEMaxEMax2Frac [nlm] = 0 ; |
479 | fhPi0CellEMaxClusterFrac [nlm] = 0 ; | |
480 | fhPi0CellEMax2ClusterFrac[nlm] = 0 ; | |
481 | ||
482 | fhPi0CellEMaxFrac [nlm] = 0 ; | |
483 | fhPi0CellEMax2Frac[nlm] = 0 ; | |
484 | ||
5cd814a9 | 485 | for(Int_t i = 0; i < 20; i++) |
19391b8c | 486 | { |
487 | fhM02WeightPi0 [nlm][i] = 0; | |
488 | fhM02ECellCutPi0[nlm][i] = 0; | |
489 | } | |
ce49dd72 | 490 | |
491 | fhMassBadDistClose[nlm] = 0; | |
492 | fhM02BadDistClose [nlm] = 0; | |
493 | fhMassOnBorder [nlm] = 0; | |
494 | fhM02OnBorder [nlm] = 0; | |
b583134f | 495 | |
496 | fhAsyMCGenRecoDiffMCPi0 [nlm] = 0; | |
497 | fhAsyMCGenRecoDiffMCPi0Conv[nlm] = 0; | |
498 | ||
dbe09c26 | 499 | } |
500 | ||
ed10b649 | 501 | for(Int_t i = 0; i < 7; i++) |
502 | { | |
503 | for(Int_t j = 0; j < 4; j++) | |
504 | { | |
505 | ||
506 | fhArmNLocMax1[i][j] = 0; | |
507 | fhArmNLocMax2[i][j] = 0; | |
508 | fhArmNLocMaxN[i][j] = 0; | |
509 | ||
510 | fhArmPi0NLocMax1[i][j] = 0; | |
511 | fhArmPi0NLocMax2[i][j] = 0; | |
512 | fhArmPi0NLocMaxN[i][j] = 0; | |
513 | ||
514 | fhArmAfterCutsNLocMax1[i][j] = 0; | |
515 | fhArmAfterCutsNLocMax2[i][j] = 0; | |
516 | fhArmAfterCutsNLocMaxN[i][j] = 0; | |
517 | ||
518 | } | |
519 | } | |
520 | ||
ff6aa4ce | 521 | for(Int_t i = 0; i < 5; i++) |
522 | { | |
523 | for(Int_t j = 0; j < 5; j++) | |
524 | { | |
58a18c5d | 525 | fhNLocMaxDiffCut [i][j][0] = 0; |
526 | fhNLocMaxDiffCut [i][j][1] = 0; | |
527 | fhNLocMaxDiffCutPi0[i][j][0] = 0; | |
528 | fhNLocMaxDiffCutPi0[i][j][1] = 0; | |
ff6aa4ce | 529 | for(Int_t k = 0; k < 3; k++) |
530 | { | |
58a18c5d | 531 | fhM02NLocMaxDiffCut [i][j][k][0] = 0; |
532 | fhM02NLocMaxDiffCut [i][j][k][1] = 0; | |
533 | fhM02NLocMaxDiffCutPi0 [i][j][k][0] = 0; | |
534 | fhM02NLocMaxDiffCutPi0 [i][j][k][1] = 0; | |
535 | fhMassNLocMaxDiffCut [i][j][k][0] = 0; | |
536 | fhMassNLocMaxDiffCut [i][j][k][1] = 0; | |
537 | fhMassNLocMaxDiffCutPi0[i][j][k][0] = 0; | |
538 | fhMassNLocMaxDiffCutPi0[i][j][k][1] = 0; | |
ff6aa4ce | 539 | } |
540 | } | |
541 | } | |
542 | ||
992b14a7 | 543 | InitParameters(); |
19391b8c | 544 | |
992b14a7 | 545 | } |
546 | ||
b94e038e | 547 | //___________________________________________________________________________________________________________________ |
548 | void AliAnaInsideClusterInvariantMass::CheckLocalMaximaMCOrigin(AliVCluster* cluster, Int_t mcindex, Int_t noverlaps, | |
549 | Float_t e1, Float_t e2, Float_t mass) | |
b583134f | 550 | //Float_t m02, |
4914e781 | 551 | //TLorentzVector l1, TLorentzVector l2) |
b2e375c7 | 552 | { |
553 | // Check origin NLM tower of the cluster, when MC gives merged pi0 | |
554 | ||
b2e375c7 | 555 | if(mcindex != kmcPi0 && mcindex != kmcPi0Conv) return; |
36769d30 | 556 | |
b2e375c7 | 557 | const UInt_t nc = cluster->GetNCells(); |
558 | Int_t list[nc]; | |
559 | Float_t elist[nc]; | |
560 | Int_t nMax = GetCaloUtils()->GetNumberOfLocalMaxima(cluster, GetEMCALCells(),list, elist); | |
36769d30 | 561 | |
4914e781 | 562 | |
563 | //// PRINTS ///// | |
564 | ||
565 | //if(mcindex==kmcPi0) printf("** Normal Pi0 **\n"); | |
566 | //if(mcindex==kmcPi0Conv) printf("** Converted Pi0 **\n"); | |
567 | ||
568 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) | |
b2e375c7 | 569 | // { |
4914e781 | 570 | // printf("** N max %d - Overlaps = %d **, mass %2.2f, m02 %2.2f, Cl1(E,eta,phi)=(%2.2f,%2.2f,%2.2f),Cl2(E,eta,phi)=(%2.2f,%2.2f,%2.2f), mass(1,2) %2.2f \n", |
571 | // nMax, noverlaps,mass,m02, | |
572 | // l1.E(),l1.Eta(),l1.Phi()*TMath::RadToDeg(), | |
573 | // l2.E(),l2.Eta(),l2.Phi()*TMath::RadToDeg(), (l1+l2).M()); | |
36769d30 | 574 | // |
4914e781 | 575 | // // Study the mothers of cluster |
576 | // printf("Cluster MC labels %d \n", cluster->GetNLabels()); | |
577 | // for (UInt_t ilab = 0; ilab < cluster->GetNLabels(); ilab++ ) | |
36769d30 | 578 | // { |
4914e781 | 579 | // Int_t mclabel = cluster->GetLabels()[ilab]; |
580 | // | |
581 | // Bool_t mOK = 0; | |
582 | // Int_t mpdg = -999999; | |
583 | // Int_t mstatus = -1; | |
584 | // Int_t grandLabel = -1; | |
585 | // TLorentzVector mother = GetMCAnalysisUtils()->GetMother(mclabel,GetReader(),mpdg,mstatus,mOK,grandLabel); | |
586 | // | |
587 | // printf("******** mother %d : Label %d, pdg %d; status %d, E %2.2f, Eta %2.2f, Phi %2.2f, ok %d, mother label %d\n", | |
588 | // ilab, mclabel, mpdg, mstatus,mother.E(), mother.Eta(),mother.Phi()*TMath::RadToDeg(),mOK,grandLabel); | |
589 | // | |
590 | // if( ( mpdg == 22 || TMath::Abs(mpdg)==11 ) && grandLabel >=0 ) | |
36769d30 | 591 | // { |
4914e781 | 592 | // while( ( mpdg == 22 || TMath::Abs(mpdg)==11 ) && grandLabel >=0 ) |
593 | // { | |
594 | // Int_t newLabel = -1; | |
595 | // TLorentzVector grandmother = GetMCAnalysisUtils()->GetMother(grandLabel,GetReader(),mpdg,mstatus,mOK,newLabel); | |
596 | // printf("\t grandmother %d : Label %d, pdg %d; status %d, E %2.2f, Eta %2.2f, Phi %2.2f, ok %d, mother label %d\n", | |
597 | // ilab, grandLabel, mpdg, mstatus,grandmother.E(), grandmother.Eta(), grandmother.Phi()*TMath::RadToDeg(),mOK,newLabel); | |
598 | // grandLabel = newLabel; | |
599 | // | |
600 | // } | |
36769d30 | 601 | // } |
602 | // } | |
b2e375c7 | 603 | // |
4914e781 | 604 | // printf("Cells in cluster %d\n",cluster->GetNCells() ); |
605 | // for(Int_t icell = 0; icell < cluster->GetNCells(); icell++) | |
606 | // { | |
607 | // Int_t absIdCell = cluster->GetCellAbsId(icell); | |
608 | // Int_t mcLabel = GetEMCALCells()->GetCellMCLabel(absIdCell); | |
609 | // GetReader()->RemapMCLabelForAODs(mcLabel); | |
610 | // Int_t ietac=-1; Int_t iphic = 0; Int_t rcuc = 0; | |
611 | // Int_t smc = GetModuleNumberCellIndexes(absIdCell,fCalorimeter, ietac, iphic, rcuc); | |
612 | // | |
613 | // printf(" \t cell i %d, abs %d, amp %2.3f, mclabel %d, (sm,ieta,iphi)=(%d,%d,%d)\n",icell,absIdCell,GetEMCALCells()->GetCellAmplitude(absIdCell),mcLabel,smc,ietac,iphic); | |
614 | // } | |
bfa0a1a7 | 615 | // } |
4914e781 | 616 | //// PRINTS ///// |
617 | ||
bfa0a1a7 | 618 | |
619 | //If only one maxima, consider all the towers in the cluster | |
620 | if(nMax==1) | |
621 | { | |
36769d30 | 622 | for (UInt_t icell = 0; icell < nc; icell++ ) |
623 | { | |
624 | list [icell] = cluster->GetCellAbsId(icell); | |
625 | elist[icell] = GetEMCALCells()->GetCellAmplitude(list[icell]); | |
626 | } | |
b2e375c7 | 627 | } |
628 | ||
83351853 | 629 | Int_t nmaxima = nMax; |
630 | if(nMax==1) nmaxima = nc ; | |
631 | ||
b2e375c7 | 632 | //Find highest energy Local Maxima Towers |
86b521c9 | 633 | Int_t imax = 999; |
634 | Int_t imax2 = 999; | |
b2e375c7 | 635 | Float_t emax = -1; |
636 | Float_t emax2 = -1; | |
83351853 | 637 | for(Int_t i = 0; i < nmaxima; i++) |
b2e375c7 | 638 | { |
639 | //printf("i %d: AbsId %d; E %2.3f\n",i,list[i],elist[i]); | |
640 | if(elist[i] > emax) | |
641 | { | |
642 | imax = i; | |
643 | emax = elist[i]; | |
644 | } | |
645 | } | |
86b521c9 | 646 | |
b2e375c7 | 647 | //Find second highest |
83351853 | 648 | for(Int_t i = 0; i < nmaxima; i++) |
b2e375c7 | 649 | { |
650 | if(i==imax) continue; | |
bfa0a1a7 | 651 | |
83351853 | 652 | //printf("j %d: AbsId %d; E %2.3f\n",i,list[i],elist[i]); |
36769d30 | 653 | |
b2e375c7 | 654 | if(elist[i] > emax2) |
655 | { | |
656 | imax2 = i; | |
657 | emax2 = elist[i]; | |
658 | } | |
659 | } | |
660 | ||
4914e781 | 661 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
662 | // printf("Local maxima: a) index %d, absId %d; b) index %d, absId %d\n",imax, list[imax], imax2, list[imax2]); | |
b2e375c7 | 663 | |
36769d30 | 664 | //--------------------------------------------------------- |
83351853 | 665 | //--------------------------------------------------------- |
666 | // Compare ancestors of all local maxima at cell MC level | |
667 | //--------------------------------------------------------- | |
36769d30 | 668 | //--------------------------------------------------------- |
83351853 | 669 | |
b2e375c7 | 670 | // Check that the highest mc label and the max cluster label are the same |
87c4fd53 | 671 | Int_t mcLabelMax = -1 ; |
86b521c9 | 672 | if(imax >=0 && imax < 999) |
87c4fd53 | 673 | { |
674 | mcLabelMax = GetEMCALCells()->GetCellMCLabel(list[imax]); | |
675 | GetReader()->RemapMCLabelForAODs(mcLabelMax); | |
676 | } | |
677 | ||
678 | Int_t mcLabelMax2 = -1 ; | |
86b521c9 | 679 | if(imax2 >=0 && imax2 < 999) |
87c4fd53 | 680 | { |
681 | mcLabelMax2 = GetEMCALCells()->GetCellMCLabel(list[imax2]); | |
682 | GetReader()->RemapMCLabelForAODs(mcLabelMax2); | |
683 | } | |
b2e375c7 | 684 | |
685 | Int_t mcLabelclusterMax = cluster->GetLabels()[0]; | |
686 | Bool_t matchHighLMAndHighMC = kFALSE; | |
687 | ||
36769d30 | 688 | //printf("MC label: LM1 %d, LM2 %d, cluster %d\n",mcLabelMax,mcLabelMax2,mcLabelclusterMax); |
689 | ||
87c4fd53 | 690 | if(mcLabelclusterMax == mcLabelMax && mcLabelclusterMax >= 0) |
b2e375c7 | 691 | { |
692 | matchHighLMAndHighMC = kTRUE; | |
36769d30 | 693 | //printf("\t *** MATCH cluster and LM maximum ***\n"); |
b2e375c7 | 694 | } |
695 | else | |
696 | { | |
36769d30 | 697 | //printf("\t *** NO MATCH cluster and LM maximum, check second ***\n"); |
87c4fd53 | 698 | if(mcLabelclusterMax == mcLabelMax2 && mcLabelclusterMax >= 0) |
b2e375c7 | 699 | { |
36769d30 | 700 | //printf("\t \t *** MATCH cluster and 2nd LM maximum ***\n"); |
b2e375c7 | 701 | matchHighLMAndHighMC = kTRUE; |
702 | } | |
703 | else | |
704 | { | |
36769d30 | 705 | //printf("\t \t *** NO MATCH***\n"); |
b2e375c7 | 706 | matchHighLMAndHighMC = kFALSE; |
707 | } | |
708 | } | |
709 | ||
710 | // Compare the common ancestors of the 2 highest energy local maxima | |
711 | Int_t ancPDG = 0, ancStatus = -1; | |
712 | TLorentzVector momentum; TVector3 prodVertex; | |
713 | Int_t ancLabel = 0; | |
714 | Bool_t high = kFALSE; | |
715 | Bool_t low = kFALSE; | |
716 | ||
717 | // // print maxima origin | |
718 | // for(Int_t i = 0; i < nMax; i++) | |
719 | // { | |
720 | // Int_t mcLabel1 = GetEMCALCells()->GetCellMCLabel(list[i]); | |
721 | // GetReader()->RemapMCLabelForAODs(mcLabel1); | |
722 | // | |
723 | // Bool_t ok =kFALSE,gok = kFALSE; | |
724 | // Int_t pdg = -22222, status = -1; | |
725 | // Int_t gpdg = -22222, gstatus = -1; | |
726 | // Int_t ggpdg = -22222, ggstatus = -1; | |
727 | // Int_t gLabel = -1, ggLabel = -1; | |
728 | // TLorentzVector primary =GetMCAnalysisUtils()->GetMother (mcLabel1,GetReader(), pdg, status, ok); | |
729 | // TLorentzVector gprimary =GetMCAnalysisUtils()->GetGrandMother(mcLabel1,GetReader(), gpdg, gstatus,gok, gLabel,ggLabel); | |
730 | // TLorentzVector ggprimary =GetMCAnalysisUtils()->GetMother(ggLabel ,GetReader(),ggpdg,ggstatus,gok); | |
731 | // printf("Max index %d; mother: Label %d; PDG %d; E %2.2f - grand mother label %d; PDG %d; E %2.2f- great grand mother label %d; PDG %d; E %2.2f\n", | |
732 | // i,mcLabel1,pdg,primary.E(), gLabel,gpdg,gprimary.E(), ggLabel,ggpdg,ggprimary.E()); | |
733 | // } | |
83351853 | 734 | |
bfa0a1a7 | 735 | for(Int_t i = 0; i < nmaxima-1; i++) |
b2e375c7 | 736 | { |
737 | Int_t mcLabel1 = GetEMCALCells()->GetCellMCLabel(list[i]); | |
738 | GetReader()->RemapMCLabelForAODs(mcLabel1); | |
739 | ||
bfa0a1a7 | 740 | for(Int_t j = i+1; j < nmaxima; j++) |
b2e375c7 | 741 | { |
742 | Int_t mcLabel2 = GetEMCALCells()->GetCellMCLabel(list[j]); | |
743 | GetReader()->RemapMCLabelForAODs(mcLabel2); | |
744 | ||
745 | if(mcLabel1 < 0 || mcLabel2 < 0 ) | |
746 | { | |
747 | //printf("\t i %d label %d - j %d label %d; skip!\n",i,mcLabel1,j,mcLabel2); | |
748 | continue; | |
749 | } | |
83351853 | 750 | |
b2e375c7 | 751 | ancLabel = GetMCAnalysisUtils()->CheckCommonAncestor(mcLabel1,mcLabel2, |
752 | GetReader(),ancPDG,ancStatus,momentum,prodVertex); | |
753 | if(ancPDG==111) | |
754 | { | |
755 | if((i==imax && j==imax2) || (j==imax && i==imax2)) | |
756 | high = kTRUE; | |
757 | else | |
758 | low = kTRUE; | |
759 | } | |
760 | else if(ancPDG==22 || TMath::Abs(ancPDG)==11) | |
761 | { | |
762 | // If both bits are set, it could be that one of the maxima had a conversion | |
763 | // reset the bit in this case | |
764 | if(high && low) | |
765 | { | |
766 | //printf("\t Reset low bit\n"); | |
767 | low = kFALSE; | |
768 | } | |
769 | } | |
770 | ||
771 | Bool_t ok =kFALSE; | |
772 | Int_t pdg = -22222, status = -1; | |
773 | TLorentzVector primary =GetMCAnalysisUtils()->GetMother(ancLabel,GetReader(), pdg, status, ok); | |
b2e375c7 | 774 | //printf("\t i %d label %d - j %d label %d; ancestor label %d, PDG %d-%d; E %2.2f; high %d, any %d \n",i,mcLabel1,j,mcLabel2, ancLabel, ancPDG,pdg, primary.E(), high, low); |
775 | ||
776 | } | |
777 | } | |
778 | ||
779 | Float_t en = cluster->E(); | |
780 | ||
4914e781 | 781 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
782 | // printf("Cell MC match: nMax %d; Match MC? %d; high %d; low %d\n",nMax,matchHighLMAndHighMC,high,low); | |
b2e375c7 | 783 | |
36769d30 | 784 | if(!noverlaps) |
b2e375c7 | 785 | { |
36769d30 | 786 | if(matchHighLMAndHighMC) |
787 | { | |
788 | if (high && !low) fhMCPi0HighNLMPair->Fill(en,nMax); | |
789 | else if(low && !high) fhMCPi0LowNLMPair ->Fill(en,nMax); | |
790 | else if(low && high) fhMCPi0AnyNLMPair ->Fill(en,nMax); | |
791 | else fhMCPi0NoneNLMPair->Fill(en,nMax); | |
792 | } | |
793 | else | |
794 | { | |
795 | if (high && !low) fhMCPi0HighNLMPairNoMCMatch->Fill(en,nMax); | |
796 | else if(low && !high) fhMCPi0LowNLMPairNoMCMatch ->Fill(en,nMax); | |
797 | else if(low && high) fhMCPi0AnyNLMPairNoMCMatch ->Fill(en,nMax); | |
798 | else fhMCPi0NoneNLMPairNoMCMatch->Fill(en,nMax); | |
799 | } | |
b2e375c7 | 800 | } |
801 | else | |
802 | { | |
36769d30 | 803 | if(matchHighLMAndHighMC) |
804 | { | |
805 | if (high && !low) fhMCPi0HighNLMPairOverlap->Fill(en,nMax); | |
806 | else if(low && !high) fhMCPi0LowNLMPairOverlap->Fill(en,nMax); | |
807 | else if(low && high) fhMCPi0AnyNLMPairOverlap->Fill(en,nMax); | |
808 | else fhMCPi0NoneNLMPairOverlap->Fill(en,nMax); | |
809 | } | |
810 | else | |
811 | { | |
812 | if (high && !low) fhMCPi0HighNLMPairNoMCMatchOverlap->Fill(en,nMax); | |
813 | else if(low && !high) fhMCPi0LowNLMPairNoMCMatchOverlap->Fill(en,nMax); | |
814 | else if(low && high) fhMCPi0AnyNLMPairNoMCMatchOverlap->Fill(en,nMax); | |
815 | else fhMCPi0NoneNLMPairNoMCMatchOverlap->Fill(en,nMax); | |
816 | } | |
b2e375c7 | 817 | } |
1253480f | 818 | |
36769d30 | 819 | //---------------------------------------------------------------------- |
83351853 | 820 | //---------------------------------------------------------------------- |
821 | // Compare MC decay photon projection to cell location and Local Maxima | |
822 | //---------------------------------------------------------------------- | |
36769d30 | 823 | //---------------------------------------------------------------------- |
83351853 | 824 | |
825 | // Get the mother pi0 | |
826 | ||
827 | Bool_t ok = kFALSE; | |
828 | Int_t pdg = -22222, status = -1; | |
829 | Int_t gLabel = -1; | |
830 | ||
831 | Int_t label = cluster->GetLabel(); | |
832 | TLorentzVector pi0Kine; | |
833 | ||
834 | while( pdg!=111 && label>=0 ) | |
835 | { | |
836 | pi0Kine = GetMCAnalysisUtils()->GetGrandMother(label,GetReader(),pdg,status,ok, label,gLabel); | |
837 | } | |
838 | ||
839 | if(pdg!=111 || label < 0) | |
840 | { | |
a6d3b0a8 | 841 | Info("CheckLocalMaximaMCOrigin","Mother Pi0 not found!\n"); |
83351853 | 842 | return; |
843 | } | |
844 | ||
845 | Int_t nDaugthers = GetMCAnalysisUtils()->GetNDaughters(label,GetReader(),ok); | |
846 | ||
847 | if(nDaugthers != 2) | |
848 | { | |
a6d3b0a8 | 849 | Info("CheckLocalMaximaMCOrigin","N daughters %d !=2!\n",nDaugthers); |
83351853 | 850 | return; |
851 | } | |
852 | ||
853 | // Get daughter photon kinematics | |
854 | Int_t pdg0 = -22222, status0 = -1; Int_t label0 = -1; | |
855 | TLorentzVector photon0Kine = GetMCAnalysisUtils()->GetDaughter(0,label,GetReader(),pdg0,status0,ok,label0); | |
856 | Int_t pdg1 = -22222, status1 = -1; Int_t label1 = -1; | |
857 | TLorentzVector photon1Kine = GetMCAnalysisUtils()->GetDaughter(1,label,GetReader(),pdg1,status1,ok,label1); | |
858 | ||
859 | if(pdg1!=22 || pdg0 != 22) | |
860 | { | |
a6d3b0a8 | 861 | Info("CheckLocalMaximaMCOrigin","Wrong daughters PDG: photon0 %d - photon1 %d\n",pdg0,pdg1); |
83351853 | 862 | return; |
863 | } | |
864 | ||
865 | // In what cells did the photons hit | |
866 | Float_t eta0 = photon0Kine.Eta(); | |
867 | Float_t eta1 = photon1Kine.Eta(); | |
868 | ||
869 | Float_t phi0 = photon0Kine.Phi(); | |
870 | Float_t phi1 = photon1Kine.Phi(); | |
871 | ||
4914e781 | 872 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
873 | // { | |
874 | // printf("MC pi0 label %d E %2.2f, eta %2.2f, phi %2.2f, mass (ph1, ph2) %2.2f: \n \t photon0 label %d E %2.2f, eta %2.2f, phi %2.2f \n \t photon1 label %d E %2.2f eta %2.2f, phi %2.2f\n", | |
875 | // label , pi0Kine.E() , pi0Kine.Eta(),pi0Kine.Phi()*TMath::RadToDeg(), (photon0Kine+photon1Kine).M(), | |
876 | // label0, photon0Kine.E(), eta0, phi0*TMath::RadToDeg(), | |
877 | // label1, photon1Kine.E(), eta1, phi1*TMath::RadToDeg()); | |
878 | // | |
879 | // TLorentzVector momclus; | |
880 | // cluster->GetMomentum(momclus,GetVertex(0)); | |
881 | // printf("Cluster E %2.2F eta %2.2f, phi %2.2f, dist to bad %2.2f\n",momclus.E(),momclus.Eta(),momclus.Phi()*TMath::RadToDeg(), cluster->GetDistanceToBadChannel()); | |
882 | // } | |
36769d30 | 883 | |
83351853 | 884 | if(phi0 < 0 ) phi0+=TMath::TwoPi(); |
885 | if(phi1 < 0 ) phi1+=TMath::TwoPi(); | |
886 | ||
887 | Int_t absId0=-1, absId1=-1; | |
888 | GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta0, phi0, absId0); | |
889 | GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta1, phi1, absId1); | |
890 | ||
891 | if(absId1 < 0 || absId1 < 0) | |
892 | { | |
4914e781 | 893 | //printf("AliAnaInsideClusterInvariantMass::CheckLocalMaximaMCOrigin(() - Photon hit AbsId: photon0 %d - photon1 %d\n",absId0,absId1); |
83351853 | 894 | return; |
895 | } | |
896 | ||
36769d30 | 897 | //----------------------------------------------- |
83351853 | 898 | // Check that the 2 photons hit the Local Maxima |
36769d30 | 899 | //----------------------------------------------- |
83351853 | 900 | |
4914e781 | 901 | |
902 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) | |
903 | // { | |
904 | // printf("Photons AbsId (%d,%d); Local Maxima AbsId(%d,%d)\n",absId0,absId1,list[imax],list[imax2]); | |
905 | // printf("Photon1 (eta,phi)=(%f,%f); Photon2 (eta,phi)=(%f,%f);\n",eta0,phi0*TMath::RadToDeg(),eta1,phi1*TMath::RadToDeg()); | |
906 | // | |
907 | // Int_t ieta0=-1; Int_t iphi0 = 0; Int_t rcu0 = 0; | |
908 | // Int_t sm0 = GetModuleNumberCellIndexes(absId0,fCalorimeter, ieta0, iphi0, rcu0); | |
909 | // Int_t ieta1=-1; Int_t iphi1 = 0; Int_t rcu1 = 0; | |
910 | // Int_t sm1 = GetModuleNumberCellIndexes(absId1,fCalorimeter, ieta1, iphi1, rcu1); | |
911 | // | |
912 | // printf("Photon1 (id,sm,eta,phi)=(%d,%d,%d,%d), Photon2 (id,sm,eta,phi)=(%d,%d,%d,%d)\n", | |
913 | // absId0,sm0,ieta0,iphi0,absId1,sm1,ieta1,iphi1); | |
914 | // | |
915 | // Int_t ietam0=-1; Int_t iphim0 = 0; Int_t rcum0 = 0; Int_t smm0 = -1 ; | |
916 | // if(imax >= 0) smm0 = GetModuleNumberCellIndexes(list[imax] ,fCalorimeter, ietam0, iphim0, rcum0); | |
917 | // Int_t ietam1=-1; Int_t iphim1 = 0; Int_t rcum1 = 0; Int_t smm1 = -1 ; | |
918 | // if(imax2 >= 0) smm1 = GetModuleNumberCellIndexes(list[imax2],fCalorimeter, ietam1, iphim1, rcum1); | |
919 | // | |
920 | // printf("Max (id, sm,eta,phi)=(%d,%d,%d,%d), Max2 (id, sm,eta,phi)=(%d,%d,%d,%d)\n", | |
921 | // list[imax],smm0,ietam0,iphim0,list[imax2],smm1,ietam1,iphim1); | |
922 | // } | |
923 | ||
b583134f | 924 | Int_t inlm = nMax-1; |
925 | if(inlm > 2) inlm = 2; | |
83351853 | 926 | |
36769d30 | 927 | Bool_t match0 = kFALSE; |
928 | Bool_t match1 = kFALSE; | |
929 | Int_t imatch0 = -1; | |
930 | Int_t imatch1 = -1; | |
931 | if(imax >= 0 && imax2 >=0 && absId0 > 0 && absId1 > 0 ) | |
87c4fd53 | 932 | { |
36769d30 | 933 | if (absId0 == list[imax] ) { match0 = kTRUE ; imatch0 = imax ; } |
934 | else if(absId0 == list[imax2]) { match0 = kTRUE ; imatch0 = imax2 ; } | |
935 | ||
936 | if (absId1 == list[imax] ) { match1 = kTRUE ; imatch1 = imax ; } | |
937 | else if(absId1 == list[imax2]) { match1 = kTRUE ; imatch1 = imax2 ; } | |
87c4fd53 | 938 | } |
83351853 | 939 | |
36769d30 | 940 | //printf("primary imatch0 %d, imatch1 %d\n",imatch0,imatch1); |
941 | ||
942 | // If one or the 2 not matched, check with the other MC labels | |
943 | // only in case there was a conversion | |
83351853 | 944 | |
36769d30 | 945 | Int_t absId0second = -1; |
946 | Int_t absId1second = -1; | |
947 | Int_t secLabel0 = -1; | |
948 | Int_t secLabel1 = -1; | |
949 | Int_t mcLabel0 = -1; | |
950 | Int_t mcLabel1 = -1; | |
951 | Bool_t secOK = 0; | |
952 | Int_t secpdg = -999999; | |
953 | Int_t secstatus = -1; | |
954 | Int_t secgrandLabel = -1; | |
955 | ||
956 | if(match0) { secLabel0 = label0 ; mcLabel0 = label0 ; } | |
957 | if(match1) { secLabel1 = label1 ; mcLabel1 = label1 ; } | |
958 | ||
959 | if((!match0 || !match1) && mcindex == kmcPi0Conv) | |
83351853 | 960 | { |
36769d30 | 961 | for (UInt_t ilab = 0; ilab < cluster->GetNLabels(); ilab++ ) |
962 | { | |
963 | Int_t mclabel = cluster->GetLabels()[ilab]; | |
964 | ||
965 | //printf("Check label %d - %d\n",ilab,mclabel); | |
966 | ||
967 | if(mclabel == label0 || mclabel == label1) | |
968 | { | |
969 | //printf("continue: secLabel %d, label0 %d, label1 %d\n",mclabel,label0,label1); | |
970 | if(mclabel == label0 && secLabel0 < 0) { secLabel0 = label0 ; mcLabel0 = label0 ; } | |
971 | if(mclabel == label1 && secLabel1 < 0) { secLabel1 = label1 ; mcLabel1 = label1 ; } | |
972 | continue ; | |
973 | } | |
974 | ||
975 | //printf("Before while: secLabel0 %d, secLabel1 %d\n",secLabel0,secLabel1); | |
976 | ||
977 | // match mc label and parent photon | |
978 | Int_t tmplabel = mclabel; | |
979 | while((secLabel0 < 0 || secLabel1 < 0) && tmplabel > 0 ) | |
980 | { | |
981 | TLorentzVector mother = GetMCAnalysisUtils()->GetMother(tmplabel,GetReader(),secpdg,secstatus,secOK,secgrandLabel); | |
982 | ||
983 | //printf("\t \t while secLabel %d, mom %d, granmom %d\n",mclabel,tmplabel,secgrandLabel); | |
984 | ||
985 | if((secgrandLabel == label0) || (secgrandLabel == label1 )) | |
986 | { | |
987 | //printf("mcMatch! grand label %d, secLabel %d\n",secgrandLabel, mclabel); | |
988 | if(!match0 && mcLabel1 != secgrandLabel) { secLabel0 = mclabel; mcLabel0 = secgrandLabel; } | |
989 | if(!match1 && mcLabel0 != secgrandLabel) { secLabel1 = mclabel; mcLabel1 = secgrandLabel; } | |
990 | } | |
991 | ||
992 | //printf("\t GrandMother %d, secLabel0 %d, secLabel1 %d \n",secgrandLabel, secLabel0,secLabel1); | |
83351853 | 993 | |
36769d30 | 994 | tmplabel = secgrandLabel; |
995 | } | |
996 | } | |
83351853 | 997 | |
36769d30 | 998 | // Get the position of the found secondaries mother |
999 | if(!match0 && secLabel0 > 0) | |
87c4fd53 | 1000 | { |
36769d30 | 1001 | TLorentzVector mother = GetMCAnalysisUtils()->GetMother(secLabel0,GetReader(),secpdg,secstatus,secOK,secgrandLabel); |
1002 | ||
4914e781 | 1003 | //Float_t eta = mother.Eta(); |
1004 | //Float_t phi = mother.Phi(); | |
1005 | //if(phi < 0 ) phi+=TMath::TwoPi(); | |
1006 | //GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta, phi, absId0second); | |
36769d30 | 1007 | |
1008 | //printf("Secondary MC0 label %d, absId %d E %2.2F eta %2.2f, phi %f\n", secLabel0,absId0second, mother.E(),mother.Eta(),mother.Phi()*TMath::RadToDeg()); | |
1009 | ||
1010 | if(absId0second == list[imax] ) { match0 = kTRUE ; imatch0 = imax ; } | |
1011 | if(absId0second == list[imax2]) { match0 = kTRUE ; imatch0 = imax2 ; } | |
87c4fd53 | 1012 | } |
36769d30 | 1013 | |
1014 | if(!match1 && secLabel1 > 0) | |
87c4fd53 | 1015 | { |
36769d30 | 1016 | TLorentzVector mother = GetMCAnalysisUtils()->GetMother(secLabel1,GetReader(),secpdg,secstatus,secOK,secgrandLabel); |
1017 | ||
4914e781 | 1018 | //Float_t eta = mother.Eta(); |
1019 | //Float_t phi = mother.Phi(); | |
1020 | //if(phi < 0 ) phi+=TMath::TwoPi(); | |
1021 | //GetEMCALGeometry()->GetAbsCellIdFromEtaPhi(eta, phi, absId1second); | |
36769d30 | 1022 | |
1023 | //printf("Secondary MC1 label %d absId %d E %2.2F eta %2.2f, phi %f\n",secLabel1, absId1second, mother.E(),mother.Eta(),mother.Phi()*TMath::RadToDeg()); | |
1024 | ||
1025 | if(absId1second == list[imax] ) { match1 = kTRUE ; imatch1 = imax ; } | |
1026 | if(absId1second == list[imax2]) { match1 = kTRUE ; imatch1 = imax2 ; } | |
87c4fd53 | 1027 | } |
36769d30 | 1028 | |
1029 | //printf("secondary label mc0 %d, mc1 %d, imatch0 %d, imatch1 %d\n",secLabel0,secLabel1,imatch0,imatch1); | |
1030 | ||
1031 | } | |
1032 | ||
1033 | //printf("imatch0 %d, imatch1 %d\n",imatch0,imatch1); | |
1034 | if( match0 && match1 ) | |
1035 | { | |
4914e781 | 1036 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
1037 | // printf("a) Both Photons hit local maxima \n"); | |
36769d30 | 1038 | |
b583134f | 1039 | if(!noverlaps) |
1040 | { | |
1041 | fhMCPi0DecayPhotonHitHighLM ->Fill(en,nMax); | |
1042 | fhMCPi0DecayPhotonHitHighLMMass[inlm]->Fill(en,mass); | |
1043 | if(match0 && imatch0 == imax) | |
1044 | { | |
cb99fa55 | 1045 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1046 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
29555e96 | 1047 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon0Kine.E())/photon0Kine.E()); |
1048 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1049 | } |
1050 | else | |
1051 | { | |
cb99fa55 | 1052 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1053 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
29555e96 | 1054 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon1Kine.E())/photon1Kine.E()); |
1055 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1056 | } |
1057 | } | |
1058 | else | |
1059 | { | |
1060 | fhMCPi0DecayPhotonHitHighLMOverlap ->Fill(en,nMax); | |
1061 | fhMCPi0DecayPhotonHitHighLMOverlapMass[inlm]->Fill(en,mass); | |
1062 | if(match0 && imatch0 == imax ) | |
1063 | { | |
cb99fa55 | 1064 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1065 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
29555e96 | 1066 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon0Kine.E())/photon0Kine.E()); |
1067 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1068 | } |
1069 | else | |
1070 | { | |
cb99fa55 | 1071 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1072 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
29555e96 | 1073 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon1Kine.E())/photon1Kine.E()); |
1074 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1075 | } |
1076 | ||
1077 | } | |
36769d30 | 1078 | |
1079 | return ; | |
1080 | } | |
1081 | ||
1082 | //printf("Any match? photon0 %d, photon1 %d\n",match0,match1); | |
1083 | //if(!match0 && !match1) printf("WARNING, LM not matched to any photon decay!\n"); | |
1084 | ||
1085 | //--------------------------------------------- | |
1086 | // Check the adjacent cells to the local maxima | |
1087 | //--------------------------------------------- | |
1088 | ||
36769d30 | 1089 | if(!match0) |
1090 | { | |
b583134f | 1091 | if(imatch1!=imax && GetCaloUtils()->AreNeighbours(fCalorimeter,absId0,list[imax])) { match0 = kTRUE; imatch0 = imax ; } |
36769d30 | 1092 | //printf("imax - match0? (%d-%d)=%d, (%d-%d)=%d\n",ieta0,ietam0,ieta0-ietam0, iphi0,iphim0,iphi0-iphim0); |
b583134f | 1093 | if(imatch1!=imax2 && GetCaloUtils()->AreNeighbours(fCalorimeter,absId0,list[imax2]) ) { match0 = kTRUE; imatch0 = imax2 ; } |
36769d30 | 1094 | //printf("imax2 - match0? (%d-%d)=%d, (%d-%d)=%d\n",ieta0,ietam1,ieta0-ietam1, iphi0,iphim1,iphi0-iphim1); |
1095 | } | |
1096 | ||
1097 | if(!match1) | |
1098 | { | |
b583134f | 1099 | if(imatch0!=imax && GetCaloUtils()->AreNeighbours(fCalorimeter,absId1,list[imax]) ) { match1 = kTRUE; imatch1 = imax ; } |
36769d30 | 1100 | //printf("imax - match1? (%d-%d)=%d, (%d-%d)=%d\n",ieta1,ietam0,ieta1-ietam0, iphi1,iphim0,iphi1-iphim0); |
1101 | ||
b583134f | 1102 | if(imatch0!=imax2 && GetCaloUtils()->AreNeighbours(fCalorimeter,absId1,list[imax2])) { match1 = kTRUE; imatch1 = imax2 ; } |
36769d30 | 1103 | //printf("imax2 - match1? (%d-%d)=%d, (%d-%d)=%d\n",ieta1,ietam1,ieta1-ietam1, iphi1,iphim1,iphi1-iphim1); |
1104 | } | |
1105 | ||
1106 | //printf("Local Maxima: adjacent0 %d,adjacent1 %d \n",match0,match1); | |
1107 | ||
1108 | if(match0 && match1) | |
1109 | { | |
4914e781 | 1110 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
1111 | // printf("b) Both Photons hit local maxima or cell adjacent or 2 cells adjacent \n"); | |
83351853 | 1112 | |
b583134f | 1113 | if(!noverlaps) |
1114 | { | |
1115 | fhMCPi0DecayPhotonAdjHighLM ->Fill(en,nMax); | |
1116 | fhMCPi0DecayPhotonAdjHighLMMass[inlm]->Fill(en,mass); | |
1117 | ||
1118 | if(match0 && imatch0 == imax) | |
1119 | { | |
cb99fa55 | 1120 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1121 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
29555e96 | 1122 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon0Kine.E())/photon0Kine.E()); |
1123 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1124 | } |
1125 | else | |
1126 | { | |
cb99fa55 | 1127 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1128 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
29555e96 | 1129 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon1Kine.E())/photon1Kine.E()); |
1130 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1131 | } |
1132 | } | |
1133 | else | |
1134 | { | |
1135 | fhMCPi0DecayPhotonAdjHighLMOverlap ->Fill(en,nMax); | |
1136 | fhMCPi0DecayPhotonAdjHighLMOverlapMass[inlm]->Fill(en,mass); | |
1137 | if(match0 && imatch0 == imax) | |
1138 | { | |
cb99fa55 | 1139 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1140 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
29555e96 | 1141 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon0Kine.E())/photon0Kine.E()); |
1142 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1143 | } |
1144 | else | |
1145 | { | |
cb99fa55 | 1146 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1147 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
29555e96 | 1148 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[inlm]->Fill(e1,(e1-photon1Kine.E())/photon1Kine.E()); |
1149 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[inlm]->Fill(e2,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1150 | } |
1151 | } | |
36769d30 | 1152 | |
1153 | return; | |
1154 | } | |
36769d30 | 1155 | |
1156 | // Decay photon cells are adjacent? | |
1157 | ||
1158 | if( (match0 || match1) && GetCaloUtils()->AreNeighbours(fCalorimeter,absId0,absId1) ) | |
1159 | { | |
4914e781 | 1160 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
1161 | // printf("c) Both Photons hit a local maxima and in adjacent cells \n"); | |
b583134f | 1162 | if(!noverlaps) |
1163 | { | |
1164 | fhMCPi0DecayPhotonAdjacent ->Fill(en,nMax); | |
1165 | fhMCPi0DecayPhotonAdjacentMass[inlm]->Fill(en,mass); | |
1166 | } | |
1167 | else | |
1168 | { | |
1169 | fhMCPi0DecayPhotonAdjacentOverlap ->Fill(en,nMax); | |
1170 | fhMCPi0DecayPhotonAdjacentOverlapMass[inlm]->Fill(en,mass); | |
1171 | } | |
83351853 | 1172 | |
36769d30 | 1173 | return; |
83351853 | 1174 | } |
1175 | ||
36769d30 | 1176 | //-------------------- |
1177 | // Other Local maxima | |
1178 | //-------------------- | |
1179 | ||
83351853 | 1180 | Bool_t matchMCHitOtherLM = kFALSE; |
36769d30 | 1181 | if(!match1) |
1182 | { | |
1183 | for(Int_t i = 0; i < nmaxima; i++) | |
1184 | { | |
1185 | if(imax!=i && imax2!=i && absId1 == list[i]) { match1 = kTRUE; matchMCHitOtherLM = kTRUE; } | |
1186 | } | |
1187 | } | |
1188 | ||
1189 | if(!match0) | |
1190 | { | |
1191 | for(Int_t i = 0; i < nmaxima; i++) | |
1192 | { | |
1193 | if(imax!=i && imax2!=i && absId0 == list[i]) { match0 = kTRUE; matchMCHitOtherLM = kTRUE; } | |
1194 | } | |
1195 | } | |
1196 | ||
1197 | if(matchMCHitOtherLM) | |
1198 | { | |
4914e781 | 1199 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
1200 | // printf("d) One Photon hits a local maxima, the other another not high \n"); | |
36769d30 | 1201 | |
b583134f | 1202 | if(!noverlaps) |
1203 | { | |
1204 | fhMCPi0DecayPhotonHitOtherLM ->Fill(en,nMax); | |
1205 | fhMCPi0DecayPhotonHitOtherLMMass[inlm]->Fill(en,mass); | |
1206 | if(match0 && imatch0 == imax) | |
1207 | { | |
cb99fa55 | 1208 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1209 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1210 | } |
1211 | else | |
1212 | { | |
cb99fa55 | 1213 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1214 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1215 | } |
1216 | } | |
1217 | else | |
1218 | { | |
1219 | fhMCPi0DecayPhotonHitOtherLMOverlap ->Fill(en,nMax); | |
1220 | fhMCPi0DecayPhotonHitOtherLMMass[inlm]->Fill(en,mass); | |
1221 | if(match0 && imatch0 == imax) | |
1222 | { | |
cb99fa55 | 1223 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1224 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1225 | } |
1226 | else | |
1227 | { | |
cb99fa55 | 1228 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1229 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1230 | } |
1231 | } | |
36769d30 | 1232 | |
1233 | return ; | |
1234 | } | |
1235 | ||
1236 | // Adjacent to other maxima | |
1237 | ||
1238 | Bool_t adjacentOther1 = kFALSE; | |
1239 | if(match0) | |
83351853 | 1240 | { |
36769d30 | 1241 | for(Int_t i = 0; i < nmaxima; i++) |
83351853 | 1242 | { |
36769d30 | 1243 | Int_t ieta=-1; Int_t iphi = 0; Int_t rcu = 0; |
1244 | GetModuleNumberCellIndexes(list[i] ,fCalorimeter, ieta, iphi, rcu); | |
83351853 | 1245 | |
36769d30 | 1246 | //printf(" Other Max (eta,phi)=(%d,%d)\n",ieta,iphi); |
1247 | ||
1248 | if(GetCaloUtils()->AreNeighbours(fCalorimeter,absId1,list[i]) ) adjacentOther1 = kTRUE; | |
1249 | ||
1250 | //printf("Other Maxima: adjacentOther1 %d\n",adjacentOther1); | |
83351853 | 1251 | } |
1252 | } | |
1253 | ||
36769d30 | 1254 | Bool_t adjacentOther0 = kFALSE; |
1255 | if(match1) | |
83351853 | 1256 | { |
36769d30 | 1257 | for(Int_t i = 0; i < nmaxima; i++) |
83351853 | 1258 | { |
36769d30 | 1259 | Int_t ieta=-1; Int_t iphi = 0; Int_t rcu = 0; |
1260 | GetModuleNumberCellIndexes(list[i] ,fCalorimeter, ieta, iphi, rcu); | |
83351853 | 1261 | |
36769d30 | 1262 | //printf(" Other Max (eta,phi)=(%d,%d)\n",ieta,iphi); |
1263 | ||
1264 | if(GetCaloUtils()->AreNeighbours(fCalorimeter,absId0,list[i]) ) adjacentOther0 = kTRUE; | |
1265 | ||
1266 | //printf("Other Maxima: adjacentOther0 %d\n",adjacentOther0); | |
83351853 | 1267 | } |
1268 | } | |
1269 | ||
36769d30 | 1270 | if((match0 && adjacentOther1) || (match1 && adjacentOther0)) |
1271 | { | |
4914e781 | 1272 | |
1273 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) | |
1274 | // printf("e) One Photon hits a local maxima, the other another not high, adjacent \n"); | |
36769d30 | 1275 | |
b583134f | 1276 | if(!noverlaps) |
1277 | { | |
1278 | fhMCPi0DecayPhotonAdjOtherLM ->Fill(en,nMax); | |
1279 | fhMCPi0DecayPhotonAdjOtherLMMass[inlm]->Fill(en,mass); | |
1280 | if(match0 && imatch0 == imax) | |
1281 | { | |
cb99fa55 | 1282 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1283 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1284 | } |
1285 | else | |
1286 | { | |
cb99fa55 | 1287 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1288 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1289 | } |
1290 | } | |
1291 | else | |
1292 | { | |
1293 | fhMCPi0DecayPhotonAdjOtherLMOverlap ->Fill(en,nMax); | |
1294 | fhMCPi0DecayPhotonAdjOtherLMOverlapMass[inlm]->Fill(en,mass); | |
1295 | if(match0 && imatch0 == imax) | |
1296 | { | |
cb99fa55 | 1297 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon0Kine.E())/photon0Kine.E()); |
1298 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon1Kine.E())/photon1Kine.E()); | |
b583134f | 1299 | } |
1300 | else | |
1301 | { | |
cb99fa55 | 1302 | if(photon1Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[inlm]->Fill(en,(e1-photon1Kine.E())/photon1Kine.E()); |
1303 | if(photon0Kine.E()>0)fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[inlm]->Fill(en,(e2-photon0Kine.E())/photon0Kine.E()); | |
b583134f | 1304 | } |
1305 | } | |
36769d30 | 1306 | |
1307 | return; | |
1308 | } | |
1309 | ||
4914e781 | 1310 | // if((mass < 0.06 || mass > 1.8) && mcindex==kmcPi0 && noverlaps == 0) |
1311 | // printf("f) No hit found \n"); | |
b583134f | 1312 | if(!noverlaps) |
1313 | { | |
1314 | fhMCPi0DecayPhotonHitNoLM ->Fill(en,nMax); | |
1315 | fhMCPi0DecayPhotonHitNoLMMass[inlm]->Fill(en,mass); | |
1316 | } | |
1317 | else | |
1318 | { | |
1319 | fhMCPi0DecayPhotonHitNoLMOverlap ->Fill(en,nMax); | |
1320 | fhMCPi0DecayPhotonHitNoLMOverlapMass[inlm]->Fill(en,mass); | |
1321 | } | |
83351853 | 1322 | |
b2e375c7 | 1323 | } |
1324 | ||
b94e038e | 1325 | //___________________________________________________________________________________________________________ |
1326 | void AliAnaInsideClusterInvariantMass::FillAngleHistograms(Int_t nMax, Bool_t matched, Int_t mcIndex, | |
1327 | Float_t en, Float_t e1, Float_t e2, | |
1328 | Float_t angle, Float_t mass, | |
1329 | Float_t anglePrim, Float_t m02, | |
1330 | Float_t asym, Int_t pid, Int_t noverlaps) | |
b2e375c7 | 1331 | { |
1332 | // Fill histograms related to opening angle | |
29555e96 | 1333 | |
1334 | Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax); | |
1335 | Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax); | |
1336 | Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn(); | |
1337 | Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn(); | |
a6d3b0a8 | 1338 | |
1339 | Bool_t eCutOK= kFALSE; | |
1340 | Int_t inlm = nMax-1; | |
1341 | if(inlm > 2 ) inlm = 2; | |
1342 | Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm); | |
1343 | if (ensubcut > 0.1 && ensubcut < e1 && ensubcut < e2 ) eCutOK = kTRUE; | |
1344 | else if(ensubcut < 0.1) eCutOK = kTRUE; | |
1345 | ||
b2e375c7 | 1346 | if (nMax==1) |
1347 | { | |
0186b6a2 | 1348 | fhAnglePairNLocMax1[0][matched]->Fill(en,angle); |
29555e96 | 1349 | |
a6d3b0a8 | 1350 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1351 | fhAnglePairAfterCutsNLocMax1[0][matched]->Fill(en,angle); |
1352 | if(pid==AliCaloPID::kPi0) | |
1353 | fhAnglePairPi0NLocMax1[0][matched]->Fill(en,angle); | |
1354 | ||
4e5a94c5 | 1355 | if(m02 > 0) |
1356 | { | |
1357 | fhAnglePairOverM02NLocMax1[0][matched]->Fill(en,angle/m02); | |
1358 | if(noverlaps == 0) fhAnglePairOverM02NLocMax1Overlap0[0][matched]->Fill(en,angle/m02); | |
1359 | } | |
1360 | ||
d261ae67 | 1361 | if( en > 15 ) |
1362 | { | |
1363 | fhAnglePairMassNLocMax1[0][matched]->Fill(mass,angle); | |
1364 | fhAnglePairM02NLocMax1 [0][matched]->Fill(m02 ,angle); | |
1365 | } | |
b2e375c7 | 1366 | } |
1367 | else if(nMax==2) | |
1368 | { | |
0186b6a2 | 1369 | fhAnglePairNLocMax2[0][matched]->Fill(en,angle); |
29555e96 | 1370 | |
a6d3b0a8 | 1371 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1372 | fhAnglePairAfterCutsNLocMax2[0][matched]->Fill(en,angle); |
1373 | if(pid==AliCaloPID::kPi0) | |
1374 | fhAnglePairPi0NLocMax2[0][matched]->Fill(en,angle); | |
1375 | ||
4e5a94c5 | 1376 | if(m02 > 0) |
1377 | { | |
1378 | fhAnglePairOverM02NLocMax2[0][matched]->Fill(en,angle/m02); | |
1379 | if(noverlaps == 0) fhAnglePairOverM02NLocMax2Overlap0[0][matched]->Fill(angle/m02,en); | |
1380 | } | |
1381 | ||
d261ae67 | 1382 | if( en > fHistoECut ) |
1383 | { | |
1384 | fhAnglePairMassNLocMax2[0][matched]->Fill(mass,angle); | |
1385 | fhAnglePairM02NLocMax2 [0][matched]->Fill(m02,angle); | |
1386 | } | |
b2e375c7 | 1387 | } |
1388 | else if(nMax >2) | |
1389 | { | |
0186b6a2 | 1390 | fhAnglePairNLocMaxN[0][matched]->Fill(en,angle); |
29555e96 | 1391 | |
a6d3b0a8 | 1392 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1393 | fhAnglePairAfterCutsNLocMaxN[0][matched]->Fill(en,angle); |
1394 | if(pid==AliCaloPID::kPi0) | |
1395 | fhAnglePairPi0NLocMaxN[0][matched]->Fill(en,angle); | |
1396 | ||
4e5a94c5 | 1397 | if(m02 > 0) |
1398 | { | |
1399 | fhAnglePairOverM02NLocMaxN[0][matched]->Fill(en,angle/m02); | |
1400 | if(noverlaps == 0) fhAnglePairOverM02NLocMaxNOverlap0[0][matched]->Fill(angle/m02,en); | |
1401 | } | |
1402 | ||
d261ae67 | 1403 | if( en > fHistoECut ) |
1404 | { | |
1405 | fhAnglePairMassNLocMaxN[0][matched]->Fill(mass,angle); | |
1406 | fhAnglePairM02NLocMaxN [0][matched]->Fill(m02,angle); | |
1407 | } | |
0186b6a2 | 1408 | } |
1409 | ||
1410 | if(IsDataMC() && mcIndex > 0 && mcIndex < 7) | |
1411 | { | |
1412 | if (nMax==1) | |
1413 | { | |
1414 | fhAnglePairNLocMax1[mcIndex][matched]->Fill(en,angle); | |
d261ae67 | 1415 | if( en > 15 ) |
1416 | { | |
1417 | fhAnglePairMassNLocMax1[mcIndex][matched]->Fill(mass,angle); | |
1418 | fhAnglePairM02NLocMax1 [mcIndex][matched]->Fill(m02,angle); | |
1419 | } | |
a6d3b0a8 | 1420 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1421 | fhAnglePairAfterCutsNLocMax1[mcIndex][matched]->Fill(en,angle); |
1422 | if(pid==AliCaloPID::kPi0) | |
1423 | fhAnglePairPi0NLocMax1[mcIndex][matched]->Fill(en,angle); | |
1424 | ||
4e5a94c5 | 1425 | if(m02 > 0) |
1426 | { | |
1427 | fhAnglePairOverM02NLocMax1[mcIndex][matched]->Fill(en,angle/m02); | |
1428 | if(noverlaps == 0) fhAnglePairOverM02NLocMax1Overlap0[mcIndex][matched]->Fill(angle/m02,en); | |
1429 | } | |
1430 | ||
0186b6a2 | 1431 | if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0) |
1432 | { | |
1433 | fhAnglePairPrimPi0RecoNLocMax1->Fill(en,angle/anglePrim); | |
4e5a94c5 | 1434 | if(m02>0)fhAnglePairPrimPi0OverM02NLocMax1->Fill(en,anglePrim/m02); |
0186b6a2 | 1435 | if(en > 15) fhAnglePairPrimPi0vsRecoNLocMax1->Fill(anglePrim,angle); |
1436 | ||
1437 | } | |
1438 | } | |
1439 | else if(nMax==2) | |
1440 | { | |
1441 | fhAnglePairNLocMax2[mcIndex][matched]->Fill(en,angle); | |
d261ae67 | 1442 | if( en > fHistoECut ) |
1443 | { | |
1444 | fhAnglePairMassNLocMax2[mcIndex][matched]->Fill(mass,angle); | |
1445 | fhAnglePairM02NLocMax2 [mcIndex][matched]->Fill(m02 ,angle); | |
1446 | } | |
29555e96 | 1447 | |
a6d3b0a8 | 1448 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1449 | fhAnglePairAfterCutsNLocMax2[mcIndex][matched]->Fill(en,angle); |
1450 | if(pid==AliCaloPID::kPi0) | |
1451 | fhAnglePairPi0NLocMax2[mcIndex][matched]->Fill(en,angle); | |
1452 | ||
4e5a94c5 | 1453 | if(m02 > 0) |
1454 | { | |
1455 | fhAnglePairOverM02NLocMax2[mcIndex][matched]->Fill(en,angle/m02); | |
1456 | if(noverlaps == 0) fhAnglePairOverM02NLocMax2Overlap0[mcIndex][matched]->Fill(angle/m02,en); | |
1457 | } | |
1458 | ||
0186b6a2 | 1459 | if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0) |
1460 | { | |
1461 | fhAnglePairPrimPi0RecoNLocMax2->Fill(en,angle/anglePrim); | |
4e5a94c5 | 1462 | if(m02>0)fhAnglePairPrimPi0OverM02NLocMax2->Fill(en,anglePrim/m02); |
0186b6a2 | 1463 | if(en > 10) fhAnglePairPrimPi0vsRecoNLocMax2->Fill(anglePrim,angle); |
1464 | } | |
1465 | } | |
1466 | else if(nMax >2) | |
1467 | { | |
1468 | fhAnglePairNLocMaxN[mcIndex][matched]->Fill(en,angle); | |
d261ae67 | 1469 | if( en > fHistoECut ) |
1470 | { | |
1471 | fhAnglePairMassNLocMaxN[mcIndex][matched]->Fill(mass,angle); | |
1472 | fhAnglePairM02NLocMaxN [mcIndex][matched]->Fill(m02 ,angle); | |
1473 | } | |
a6d3b0a8 | 1474 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1475 | fhAnglePairAfterCutsNLocMaxN[mcIndex][matched]->Fill(en,angle); |
1476 | if(pid==AliCaloPID::kPi0) | |
1477 | fhAnglePairPi0NLocMaxN[mcIndex][matched]->Fill(en,angle); | |
1478 | ||
4e5a94c5 | 1479 | if(m02 > 0) |
1480 | { | |
1481 | fhAnglePairOverM02NLocMaxN[mcIndex][matched]->Fill(en,angle/m02); | |
1482 | if(noverlaps == 0) fhAnglePairOverM02NLocMaxNOverlap0[mcIndex][matched]->Fill(angle/m02,en); | |
1483 | } | |
1484 | ||
0186b6a2 | 1485 | if((mcIndex == kmcPi0 || mcIndex == kmcPi0Conv) && !matched && anglePrim > 0) |
1486 | { | |
1487 | fhAnglePairPrimPi0RecoNLocMaxN->Fill(en,angle/anglePrim); | |
4e5a94c5 | 1488 | if(m02>0)fhAnglePairPrimPi0OverM02NLocMaxN->Fill(en,anglePrim/m02); |
0186b6a2 | 1489 | if(en > 10) fhAnglePairPrimPi0vsRecoNLocMaxN->Fill(anglePrim,angle); |
1490 | } | |
1491 | } | |
1492 | ||
b2e375c7 | 1493 | } |
1494 | ||
1495 | } | |
1496 | ||
cb99fa55 | 1497 | //______________________________________________________________________________________________________________________ |
b94e038e | 1498 | void AliAnaInsideClusterInvariantMass::FillArmenterosHistograms(Int_t nMax, Int_t ebin, Int_t mcIndex, |
1499 | Float_t en, TLorentzVector g1, TLorentzVector g2, | |
1500 | Float_t m02, Int_t pid) | |
cb99fa55 | 1501 | { |
1502 | // Fill Armeteros type histograms | |
be894c1d | 1503 | |
1504 | // Get pTArm and AlphaArm | |
29555e96 | 1505 | TLorentzVector pi0 = g1+g2; |
be894c1d | 1506 | Float_t momentumSquaredMother = pi0.P()*pi0.P(); |
1507 | Float_t momentumDaughter1AlongMother = 0.; | |
1508 | Float_t momentumDaughter2AlongMother = 0.; | |
1509 | ||
1510 | if (momentumSquaredMother > 0.) | |
1511 | { | |
1512 | momentumDaughter1AlongMother = (g1.Px()*pi0.Px() + g1.Py()*pi0.Py()+ g1.Pz()*pi0.Pz()) / sqrt(momentumSquaredMother); | |
1513 | momentumDaughter2AlongMother = (g2.Px()*pi0.Px() + g2.Py()*pi0.Py()+ g2.Pz()*pi0.Pz()) / sqrt(momentumSquaredMother); | |
1514 | } | |
1515 | ||
1516 | Float_t momentumSquaredDaughter1 = g1.P()*g1.P(); | |
1517 | Float_t ptArmSquared = momentumSquaredDaughter1 - momentumDaughter1AlongMother*momentumDaughter1AlongMother; | |
1518 | ||
1519 | Float_t pTArm = 0.; | |
1520 | if (ptArmSquared > 0.) | |
1521 | pTArm = sqrt(ptArmSquared); | |
1522 | ||
1523 | Float_t alphaArm = 0.; | |
1524 | if(momentumDaughter1AlongMother +momentumDaughter2AlongMother > 0) | |
1525 | alphaArm = (momentumDaughter1AlongMother -momentumDaughter2AlongMother) / (momentumDaughter1AlongMother + momentumDaughter2AlongMother); | |
1526 | ||
cb99fa55 | 1527 | Float_t asym = TMath::Abs( g1.Energy()-g2.Energy() )/( g1.Energy()+g2.Energy() ) ; |
be894c1d | 1528 | |
a6d3b0a8 | 1529 | if(GetDebug() > 2 ) Info("FillArmenterosHistograms()","E %f, alphaArm %f, pTArm %f\n",en,alphaArm,pTArm); |
be894c1d | 1530 | |
cb99fa55 | 1531 | Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax); |
1532 | Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax); | |
1533 | Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn(); | |
1534 | Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn(); | |
cb99fa55 | 1535 | |
a6d3b0a8 | 1536 | Bool_t eCutOK= kFALSE; |
1537 | Int_t inlm = nMax-1; | |
1538 | if(inlm > 2 ) inlm = 2; | |
1539 | Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm); | |
1540 | if (ensubcut > 0.1 && ensubcut < g1.E() && ensubcut < g2.E() ) eCutOK = kTRUE; | |
1541 | else if(ensubcut < 0.1) eCutOK = kTRUE; | |
1542 | ||
1543 | ||
cb99fa55 | 1544 | if (nMax==1) |
1545 | { | |
be894c1d | 1546 | fhArmNLocMax1[0][ebin]->Fill(alphaArm,pTArm); |
a6d3b0a8 | 1547 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
be894c1d | 1548 | fhArmAfterCutsNLocMax1[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1549 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1550 | fhArmPi0NLocMax1[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1551 | } |
1552 | else if(nMax==2) | |
1553 | { | |
be894c1d | 1554 | fhArmNLocMax2[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1555 | if((m02OK && asyOK) && (asyOn || m02On)) |
be894c1d | 1556 | fhArmAfterCutsNLocMax2[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1557 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1558 | fhArmPi0NLocMax2[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1559 | } |
1560 | else if(nMax >2) | |
1561 | { | |
be894c1d | 1562 | fhArmNLocMaxN[0][ebin]->Fill(alphaArm,pTArm); |
a6d3b0a8 | 1563 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
be894c1d | 1564 | fhArmAfterCutsNLocMaxN[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1565 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1566 | fhArmPi0NLocMaxN[0][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1567 | } |
1568 | ||
ed10b649 | 1569 | if(IsDataMC() && mcIndex > 0 && mcIndex < 7) |
cb99fa55 | 1570 | { |
1571 | if (nMax==1) | |
1572 | { | |
be894c1d | 1573 | fhArmNLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm); |
a6d3b0a8 | 1574 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
be894c1d | 1575 | fhArmAfterCutsNLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1576 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1577 | fhArmPi0NLocMax1[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1578 | } |
1579 | else if(nMax==2) | |
1580 | { | |
be894c1d | 1581 | fhArmNLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm); |
a6d3b0a8 | 1582 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
be894c1d | 1583 | fhArmAfterCutsNLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1584 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1585 | fhArmPi0NLocMax2[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1586 | } |
1587 | else if(nMax >2) | |
1588 | { | |
be894c1d | 1589 | fhArmNLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm); |
a6d3b0a8 | 1590 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
be894c1d | 1591 | fhArmAfterCutsNLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1592 | if(pid==AliCaloPID::kPi0) |
be894c1d | 1593 | fhArmPi0NLocMaxN[mcIndex][ebin]->Fill(alphaArm,pTArm); |
cb99fa55 | 1594 | } |
1595 | ||
1596 | } | |
1597 | ||
1598 | } | |
1599 | ||
b94e038e | 1600 | //______________________________________________________________________________________________________________ |
1601 | void AliAnaInsideClusterInvariantMass::FillThetaStarHistograms(Int_t nMax, Bool_t matched, Int_t mcIndex, | |
1602 | Float_t en, TLorentzVector g1, TLorentzVector g2, | |
1603 | Float_t m02, Int_t pid) | |
29555e96 | 1604 | { |
1605 | // Fill cos Theta^star histograms | |
1606 | ||
1607 | ||
1608 | // Get cos Theta^star | |
1609 | TLorentzVector pi0 = g1+g2; | |
1610 | TLorentzVector g1Boost = g1; | |
1611 | g1Boost.Boost(-pi0.BoostVector()); | |
1612 | Float_t cosThStar=TMath::Cos(g1Boost.Vect().Angle(pi0.Vect())); | |
1613 | ||
1614 | Float_t asym = TMath::Abs( g1.Energy()-g2.Energy() )/( g1.Energy()+g2.Energy() ) ; | |
1615 | ||
1616 | Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,m02,nMax); | |
1617 | Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax); | |
1618 | Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn(); | |
1619 | Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn(); | |
1620 | ||
a6d3b0a8 | 1621 | Bool_t eCutOK= kFALSE; |
1622 | Int_t inlm = nMax-1; | |
1623 | if(inlm > 2 ) inlm = 2; | |
1624 | Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm); | |
1625 | if (ensubcut > 0.1 && ensubcut < g1.E() && ensubcut < g2.E() ) eCutOK = kTRUE; | |
1626 | else if(ensubcut < 0.1) eCutOK = kTRUE; | |
1627 | ||
29555e96 | 1628 | //printf("Reco cos %f, asy %f\n",cosThStar,asym); |
1629 | ||
1630 | if (nMax==1) | |
1631 | { | |
1632 | fhCosThStarNLocMax1[0][matched]->Fill(en,cosThStar); | |
1633 | ||
a6d3b0a8 | 1634 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1635 | fhCosThStarAfterCutsNLocMax1[0][matched]->Fill(en,cosThStar); |
1636 | if(pid==AliCaloPID::kPi0) | |
1637 | fhCosThStarPi0NLocMax1[0][matched]->Fill(en,cosThStar); | |
1638 | } | |
1639 | else if(nMax==2) | |
1640 | { | |
1641 | fhCosThStarNLocMax2[0][matched]->Fill(en,cosThStar); | |
1642 | ||
a6d3b0a8 | 1643 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1644 | fhCosThStarAfterCutsNLocMax2[0][matched]->Fill(en,cosThStar); |
1645 | if(pid==AliCaloPID::kPi0) | |
1646 | fhCosThStarPi0NLocMax2[0][matched]->Fill(en,cosThStar); | |
1647 | } | |
1648 | else if(nMax >2) | |
1649 | { | |
1650 | fhCosThStarNLocMaxN[0][matched]->Fill(en,cosThStar); | |
1651 | ||
a6d3b0a8 | 1652 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1653 | fhCosThStarAfterCutsNLocMaxN[0][matched]->Fill(en,cosThStar); |
1654 | if(pid==AliCaloPID::kPi0) | |
1655 | fhCosThStarPi0NLocMaxN[0][matched]->Fill(en,cosThStar); | |
1656 | } | |
1657 | ||
1658 | if(IsDataMC() && mcIndex > 0 && mcIndex < 7) | |
1659 | { | |
1660 | if (nMax==1) | |
1661 | { | |
1662 | fhCosThStarNLocMax1[mcIndex][matched]->Fill(en,cosThStar); | |
1663 | ||
a6d3b0a8 | 1664 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1665 | fhCosThStarAfterCutsNLocMax1[mcIndex][matched]->Fill(en,cosThStar); |
1666 | if(pid==AliCaloPID::kPi0) | |
1667 | fhCosThStarPi0NLocMax1[mcIndex][matched]->Fill(en,cosThStar); | |
1668 | } | |
1669 | else if(nMax==2) | |
1670 | { | |
1671 | fhCosThStarNLocMax2[mcIndex][matched]->Fill(en,cosThStar); | |
1672 | ||
a6d3b0a8 | 1673 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1674 | fhCosThStarAfterCutsNLocMax2[mcIndex][matched]->Fill(en,cosThStar); |
1675 | if(pid==AliCaloPID::kPi0) | |
1676 | fhCosThStarPi0NLocMax2[mcIndex][matched]->Fill(en,cosThStar); | |
1677 | } | |
1678 | else if(nMax >2) | |
1679 | { | |
1680 | fhCosThStarNLocMaxN[mcIndex][matched]->Fill(en,cosThStar); | |
1681 | ||
a6d3b0a8 | 1682 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
29555e96 | 1683 | fhCosThStarAfterCutsNLocMaxN[mcIndex][matched]->Fill(en,cosThStar); |
1684 | if(pid==AliCaloPID::kPi0) | |
1685 | fhCosThStarPi0NLocMaxN[mcIndex][matched]->Fill(en,cosThStar); | |
1686 | } | |
1687 | ||
1688 | } | |
1689 | ||
1690 | } | |
1691 | ||
b94e038e | 1692 | //__________________________________________________________________________________________________________________ |
1693 | void AliAnaInsideClusterInvariantMass::FillEBinHistograms(Int_t ebin , Int_t nMax, Int_t mcindex, | |
1694 | Float_t splitFrac, Float_t mass, Float_t asym, Float_t l0) | |
b2e375c7 | 1695 | { |
1696 | // Fill some histograms integrating in few energy bins | |
1253480f | 1697 | |
b2e375c7 | 1698 | if (nMax==1) |
1699 | { | |
1700 | fhMassSplitEFractionNLocMax1Ebin[0][ebin]->Fill(splitFrac, mass); | |
cb99fa55 | 1701 | if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMax1Ebin[mcindex][ebin]->Fill(splitFrac, mass); |
b2e375c7 | 1702 | |
1703 | fhMassM02NLocMax1Ebin [ebin]->Fill(l0 , mass ); | |
1704 | fhMassAsyNLocMax1Ebin [ebin]->Fill(asym, mass ); | |
1705 | } | |
1706 | else if(nMax==2) | |
1707 | { | |
1708 | fhMassSplitEFractionNLocMax2Ebin[0][ebin]->Fill(splitFrac, mass); | |
cb99fa55 | 1709 | if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMax2Ebin[mcindex][ebin]->Fill(splitFrac, mass); |
b2e375c7 | 1710 | |
1711 | fhMassM02NLocMax2Ebin [ebin]->Fill(l0 , mass ); | |
1712 | fhMassAsyNLocMax2Ebin [ebin]->Fill(asym, mass ); | |
1713 | } | |
1714 | else if(nMax > 2 ) | |
1715 | { | |
1716 | fhMassSplitEFractionNLocMaxNEbin[0][ebin]->Fill(splitFrac, mass); | |
cb99fa55 | 1717 | if(IsDataMC() && mcindex > 0 && mcindex < 7)fhMassSplitEFractionNLocMaxNEbin[mcindex][ebin]->Fill(splitFrac, mass); |
b2e375c7 | 1718 | |
1719 | fhMassM02NLocMaxNEbin [ebin]->Fill(l0 , mass ); | |
1720 | fhMassAsyNLocMaxNEbin [ebin]->Fill(asym, mass ); | |
1721 | } | |
1722 | ||
1723 | } | |
1724 | ||
b94e038e | 1725 | //________________________________________________________________________________________________ |
1726 | void AliAnaInsideClusterInvariantMass::FillHistograms1(Float_t en, Float_t e1, Float_t e2, | |
1727 | Int_t nMax, Float_t mass, Float_t l0, | |
1728 | Float_t eta, Float_t phi, | |
1729 | Bool_t matched, Int_t mcindex) | |
1253480f | 1730 | { |
1731 | // Fill histograms for clusters before any selection after spliting | |
1732 | ||
1733 | Float_t splitFrac = (e1+e2)/en; | |
1734 | ||
1735 | Float_t asym = -10; | |
1736 | if(e1+e2>0) asym = (e1-e2)/(e1+e2); | |
1737 | ||
29555e96 | 1738 | fhNLocMax [0][matched]->Fill(en,nMax); |
1739 | fhLM1NLocMax[0][matched]->Fill(e1,nMax); | |
1740 | fhLM2NLocMax[0][matched]->Fill(e2,nMax); | |
cc909e6f | 1741 | fhSplitClusterENLocMax[0][matched]->Fill(e1,nMax); |
1742 | fhSplitClusterENLocMax[0][matched]->Fill(e2,nMax); | |
1743 | ||
cb99fa55 | 1744 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
cc909e6f | 1745 | { |
29555e96 | 1746 | fhNLocMax [mcindex][matched]->Fill(en,nMax); |
1747 | fhLM1NLocMax[mcindex][matched]->Fill(e1,nMax); | |
1748 | fhLM2NLocMax[mcindex][matched]->Fill(e2,nMax); | |
b583134f | 1749 | fhSplitClusterENLocMax[mcindex][matched]->Fill(e1,nMax); |
1750 | fhSplitClusterENLocMax[mcindex][matched]->Fill(e2,nMax); | |
cc909e6f | 1751 | } |
1253480f | 1752 | |
1753 | if ( nMax == 1 ) | |
1754 | { | |
1755 | fhM02NLocMax1[0][matched]->Fill(en,l0) ; | |
1756 | fhSplitEFractionNLocMax1[0][matched]->Fill(en,splitFrac) ; | |
1757 | ||
cb99fa55 | 1758 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 1759 | { |
1760 | fhM02NLocMax1[mcindex][matched]->Fill(en,l0) ; | |
1761 | fhSplitEFractionNLocMax1[mcindex][matched]->Fill(en,splitFrac) ; | |
1762 | } | |
1763 | ||
1764 | if(en > fHistoECut) | |
1765 | { | |
1766 | fhMassM02NLocMax1[0][matched]->Fill(l0, mass); | |
cb99fa55 | 1767 | if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMax1[mcindex][matched]->Fill(l0, mass); |
1253480f | 1768 | |
1769 | fhSplitEFractionvsAsyNLocMax1[matched]->Fill(asym,splitFrac) ; | |
1770 | if(!matched)fhClusterEtaPhiNLocMax1->Fill(eta,phi); | |
1771 | } | |
1772 | } | |
1773 | else if( nMax == 2 ) | |
1774 | { | |
1775 | fhM02NLocMax2[0][matched]->Fill(en,l0) ; | |
1776 | fhSplitEFractionNLocMax2[0][matched]->Fill(en,splitFrac) ; | |
1777 | ||
cb99fa55 | 1778 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 1779 | { |
1780 | fhM02NLocMax2[mcindex][matched]->Fill(en,l0) ; | |
1781 | fhSplitEFractionNLocMax2[mcindex][matched]->Fill(en,splitFrac) ; | |
1782 | } | |
1783 | ||
1784 | if(en > fHistoECut) | |
1785 | { | |
1786 | fhMassM02NLocMax2[0][matched]->Fill(l0, mass ); | |
cb99fa55 | 1787 | if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMax2[mcindex][matched]->Fill(l0,mass); |
1253480f | 1788 | |
1789 | fhSplitEFractionvsAsyNLocMax2[matched]->Fill(asym,splitFrac) ; | |
1790 | if(!matched)fhClusterEtaPhiNLocMax2->Fill(eta,phi); | |
1791 | } | |
1792 | } | |
1793 | else if( nMax >= 3 ) | |
1794 | { | |
1795 | fhM02NLocMaxN[0][matched]->Fill(en,l0) ; | |
1796 | fhSplitEFractionNLocMaxN[0][matched]->Fill(en,splitFrac) ; | |
1797 | ||
cb99fa55 | 1798 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 1799 | { |
1800 | fhM02NLocMaxN[mcindex][matched]->Fill(en,l0) ; | |
1801 | fhSplitEFractionNLocMaxN[mcindex][matched]->Fill(en,splitFrac) ; | |
1802 | } | |
1803 | ||
1804 | if(en > fHistoECut) | |
1805 | { | |
1806 | ||
1807 | fhMassM02NLocMaxN[0][matched]->Fill(l0,mass); | |
cb99fa55 | 1808 | if( IsDataMC() && mcindex > 0 && mcindex < 7 ) fhMassM02NLocMaxN[mcindex][matched]->Fill(l0,mass); |
1253480f | 1809 | |
1810 | fhSplitEFractionvsAsyNLocMaxN[matched]->Fill(asym,splitFrac) ; | |
1811 | if(!matched)fhClusterEtaPhiNLocMaxN->Fill(eta,phi); | |
1812 | } | |
1813 | } | |
1814 | ||
1815 | ||
1816 | } | |
1817 | ||
b94e038e | 1818 | //________________________________________________________________________________________________ |
1819 | void AliAnaInsideClusterInvariantMass::FillHistograms2(Float_t en, Float_t eprim, | |
1820 | Float_t e1, Float_t e2, | |
1821 | Int_t nMax, Float_t mass, Float_t l0, | |
1822 | Bool_t matched, Int_t mcindex) | |
1253480f | 1823 | { |
1824 | // Fill histograms for clusters passing the first M02 selection | |
1825 | ||
1826 | Float_t efrac = eprim/en; | |
1827 | Float_t efracSplit = 0; | |
1828 | if(e1+e2 > 0) efracSplit = eprim/(e1+e2); | |
1829 | ||
1830 | Float_t splitFrac = (e1+e2)/en; | |
1831 | ||
1832 | Float_t asym = -10; | |
1833 | if(e1+e2>0) asym = (e1-e2)/(e1+e2); | |
1834 | ||
1835 | Int_t inlm = nMax-1; | |
1836 | if(inlm > 2) inlm = 2; | |
1837 | Float_t splitFracMin = GetCaloPID()->GetSplitEnergyFractionMinimum(inlm) ; | |
1838 | ||
1839 | Bool_t m02OK = GetCaloPID()->IsInPi0M02Range(en,l0,nMax); | |
1840 | Bool_t asyOK = GetCaloPID()->IsInPi0SplitAsymmetryRange(en,asym,nMax); | |
1841 | Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn(); | |
1842 | Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn(); | |
1843 | ||
a6d3b0a8 | 1844 | Bool_t eCutOK = kFALSE; |
1845 | Float_t ensubcut = GetCaloPID()->GetSubClusterEnergyMinimum(inlm); | |
1846 | if (ensubcut > 0.1 && ensubcut < e1 && ensubcut < e2 ) eCutOK = kTRUE; | |
1847 | else if(ensubcut < 0.1) eCutOK = kTRUE; | |
1848 | ||
1849 | //printf("splitFracMin %f, val %f, m02ok %d, asyok %d, m02On %d, asyOn %d, ecutOK %d\n",splitFracMin,splitFrac,m02OK,asyOK,m02On,asyOn,eCutOK); | |
1253480f | 1850 | |
1851 | if(m02On && m02OK) | |
1852 | { | |
29555e96 | 1853 | fhNLocMaxM02Cut [0][matched]->Fill(en,nMax); |
1854 | fhLM1NLocMaxM02Cut[0][matched]->Fill(e1,nMax); | |
1855 | fhLM2NLocMaxM02Cut[0][matched]->Fill(e2,nMax); | |
1856 | if(IsDataMC() && mcindex > 0 && mcindex < 7) | |
1857 | { | |
1858 | fhNLocMaxM02Cut [mcindex][matched]->Fill(en,nMax); | |
1859 | fhLM1NLocMaxM02Cut[mcindex][matched]->Fill(e1,nMax); | |
1860 | fhLM2NLocMaxM02Cut[mcindex][matched]->Fill(e2,nMax); | |
1861 | } | |
1253480f | 1862 | } |
1863 | ||
1864 | if (nMax==1) | |
1865 | { | |
1866 | fhMassNLocMax1[0][matched]->Fill(en,mass ); | |
1867 | fhAsymNLocMax1[0][matched]->Fill(en,asym ); | |
c7e9a4e9 | 1868 | fhMassSplitENLocMax1[0][matched]->Fill(e1+e2,mass); |
1253480f | 1869 | |
1870 | // Effect of cuts in mass histograms | |
cb99fa55 | 1871 | |
1872 | if(!matched && asyOK && asyOn ) | |
1873 | { | |
1874 | fhMassAsyCutNLocMax1->Fill(en,mass); | |
1875 | fhM02AsyCutNLocMax1 ->Fill(en,l0 ); | |
1876 | } | |
1253480f | 1877 | |
1878 | if(!matched && m02OK && m02On ) | |
1879 | { | |
1880 | fhMassM02CutNLocMax1->Fill(en,mass); | |
1881 | fhAsymM02CutNLocMax1->Fill(en,asym ); | |
1882 | if(splitFrac > splitFracMin && fhMassSplitECutNLocMax1) fhMassSplitECutNLocMax1->Fill(en,mass ); | |
1883 | } | |
1884 | ||
a6d3b0a8 | 1885 | if(!matched && eCutOK && ensubcut > 0.1) |
2c36e041 | 1886 | { |
1887 | fhMassEnCutNLocMax1->Fill(en,mass ); | |
1888 | fhM02EnCutNLocMax1 ->Fill(en,l0 ); | |
1889 | fhAsymEnCutNLocMax1->Fill(en,asym ); | |
a6d3b0a8 | 1890 | fhSplitEFracEnCutNLocMax1->Fill(en,splitFrac ); |
2c36e041 | 1891 | } |
1892 | ||
a6d3b0a8 | 1893 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 1894 | { |
1895 | fhSplitEFractionAfterCutsNLocMax1[0][matched]->Fill(en,splitFrac); | |
c7e9a4e9 | 1896 | if(splitFrac > splitFracMin) |
1897 | { | |
1898 | fhMassAfterCutsNLocMax1[0][matched]->Fill(en,mass); | |
1899 | fhMassSplitEAfterCutsNLocMax1[0][matched]->Fill(e1+e2,mass); | |
1900 | } | |
1253480f | 1901 | if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0) |
1902 | { | |
1903 | fhMCGenFracAfterCutsNLocMax1MCPi0 ->Fill(en , efrac ); | |
1904 | fhMCGenSplitEFracAfterCutsNLocMax1MCPi0->Fill(en , efracSplit); | |
1905 | } | |
1906 | } | |
1907 | } | |
2c36e041 | 1908 | else if( nMax == 2 ) |
1253480f | 1909 | { |
1910 | fhMassNLocMax2[0][matched]->Fill(en,mass ); | |
1911 | fhAsymNLocMax2[0][matched]->Fill(en,asym ); | |
c7e9a4e9 | 1912 | fhMassSplitENLocMax2[0][matched]->Fill(e1+e2,mass); |
1913 | ||
1253480f | 1914 | // Effect of cuts in mass histograms |
1915 | ||
cb99fa55 | 1916 | if(!matched && asyOK && asyOn ) |
1917 | { | |
1918 | fhMassAsyCutNLocMax2->Fill(en,mass); | |
1919 | fhM02AsyCutNLocMax2 ->Fill(en,l0 ); | |
1920 | } | |
1921 | ||
1253480f | 1922 | if(!matched && m02OK && m02On ) |
1923 | { | |
1924 | fhMassM02CutNLocMax2->Fill(en,mass); | |
1925 | fhAsymM02CutNLocMax2->Fill(en,asym ); | |
1926 | if(splitFrac > splitFracMin && fhMassSplitECutNLocMax2) fhMassSplitECutNLocMax2->Fill(en,mass ); | |
1927 | } | |
1928 | ||
a6d3b0a8 | 1929 | if(!matched && eCutOK && ensubcut > 0.1) |
2c36e041 | 1930 | { |
1931 | fhMassEnCutNLocMax2->Fill(en,mass ); | |
1932 | fhM02EnCutNLocMax2 ->Fill(en,l0 ); | |
1933 | fhAsymEnCutNLocMax2->Fill(en,asym ); | |
a6d3b0a8 | 1934 | fhSplitEFracEnCutNLocMax2->Fill(en,splitFrac ); |
2c36e041 | 1935 | } |
1936 | ||
a6d3b0a8 | 1937 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 1938 | { |
1939 | fhSplitEFractionAfterCutsNLocMax2[0][matched]->Fill(en,splitFrac); | |
c7e9a4e9 | 1940 | if(splitFrac > splitFracMin) |
1941 | { | |
1942 | fhMassAfterCutsNLocMax2[0][matched]->Fill(en,mass); | |
1943 | fhMassSplitEAfterCutsNLocMax2[0][matched]->Fill(e1+e2,mass); | |
1944 | } | |
1253480f | 1945 | |
1946 | if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0) | |
1947 | { | |
1948 | fhMCGenFracAfterCutsNLocMax2MCPi0 ->Fill(en , efrac ); | |
1949 | fhMCGenSplitEFracAfterCutsNLocMax2MCPi0->Fill(en , efracSplit); | |
1950 | } | |
1951 | } | |
1952 | } | |
2c36e041 | 1953 | else if( nMax > 2 ) |
1253480f | 1954 | { |
1955 | fhMassNLocMaxN[0][matched]->Fill(en,mass); | |
1956 | fhAsymNLocMaxN[0][matched]->Fill(en,asym); | |
c7e9a4e9 | 1957 | fhMassSplitENLocMaxN[0][matched]->Fill(e1+e2,mass); |
1958 | ||
1253480f | 1959 | // Effect of cuts in mass histograms |
cb99fa55 | 1960 | |
1961 | if(!matched && asyOK && asyOn ) | |
1962 | { | |
1963 | fhMassAsyCutNLocMaxN->Fill(en,mass); | |
1964 | fhM02AsyCutNLocMaxN ->Fill(en,l0 ); | |
1965 | } | |
1966 | ||
1253480f | 1967 | if(!matched && m02OK && m02On ) |
1968 | { | |
1969 | fhMassM02CutNLocMaxN->Fill(en,mass); | |
1970 | fhAsymM02CutNLocMaxN->Fill(en,asym ); | |
1971 | if(splitFrac > splitFracMin && fhMassSplitECutNLocMaxN) fhMassSplitECutNLocMaxN->Fill(en,mass ); | |
1972 | } | |
1973 | ||
a6d3b0a8 | 1974 | if(!matched && eCutOK && ensubcut > 0.1 ) |
2c36e041 | 1975 | { |
1976 | fhMassEnCutNLocMaxN->Fill(en,mass ); | |
1977 | fhM02EnCutNLocMaxN ->Fill(en,l0 ); | |
1978 | fhAsymEnCutNLocMaxN->Fill(en,asym ); | |
a6d3b0a8 | 1979 | fhSplitEFracEnCutNLocMaxN->Fill(en,splitFrac ); |
2c36e041 | 1980 | } |
1981 | ||
a6d3b0a8 | 1982 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 1983 | { |
1984 | fhSplitEFractionAfterCutsNLocMaxN[0][matched]->Fill(en,splitFrac); | |
c7e9a4e9 | 1985 | if(splitFrac > splitFracMin) |
1986 | { | |
1987 | fhMassAfterCutsNLocMaxN[0][matched]->Fill(en,mass); | |
1988 | fhMassSplitEAfterCutsNLocMaxN[0][matched]->Fill(e1+e2,mass); | |
1989 | } | |
1253480f | 1990 | |
1991 | if(!matched && IsDataMC() && fFillMCHisto && mcindex==kmcPi0) | |
1992 | { | |
1993 | fhMCGenFracAfterCutsNLocMaxNMCPi0 ->Fill(en , efrac ); | |
1994 | fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0->Fill(en , efracSplit); | |
1995 | } | |
1996 | } | |
1997 | } | |
1998 | ||
cb99fa55 | 1999 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 2000 | { |
2001 | if (nMax==1) | |
2002 | { | |
2003 | fhMassNLocMax1[mcindex][matched]->Fill(en,mass); | |
2004 | fhAsymNLocMax1[mcindex][matched]->Fill(en,asym); | |
c7e9a4e9 | 2005 | fhMassSplitENLocMax1[mcindex][matched]->Fill(e1+e2,mass); |
2006 | ||
a6d3b0a8 | 2007 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 2008 | { |
2009 | fhSplitEFractionAfterCutsNLocMax1[mcindex][matched]->Fill(en,splitFrac); | |
2010 | if(splitFrac > splitFracMin) | |
c7e9a4e9 | 2011 | { |
1253480f | 2012 | fhMassAfterCutsNLocMax1[mcindex][matched]->Fill(en,mass); |
c7e9a4e9 | 2013 | fhMassSplitEAfterCutsNLocMax1[mcindex][matched]->Fill(e1+e2,mass); |
2014 | } | |
1253480f | 2015 | } |
2016 | } | |
2017 | else if(nMax==2) | |
2018 | { | |
2019 | fhMassNLocMax2[mcindex][matched]->Fill(en,mass); | |
2020 | fhAsymNLocMax2[mcindex][matched]->Fill(en,asym); | |
c7e9a4e9 | 2021 | fhMassSplitENLocMax2[mcindex][matched]->Fill(e1+e2,mass); |
2022 | ||
a6d3b0a8 | 2023 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 2024 | { |
2025 | fhSplitEFractionAfterCutsNLocMax2[mcindex][matched]->Fill(en,splitFrac); | |
c7e9a4e9 | 2026 | if(splitFrac > splitFracMin) |
2027 | { | |
1253480f | 2028 | fhMassAfterCutsNLocMax2[mcindex][matched]->Fill(en,mass); |
c7e9a4e9 | 2029 | fhMassSplitEAfterCutsNLocMax2[mcindex][matched]->Fill(e1+e2,mass); |
2030 | } | |
2031 | ||
1253480f | 2032 | } |
2033 | } | |
2034 | else if(nMax >2) | |
2035 | { | |
2036 | fhMassNLocMaxN[mcindex][matched]->Fill(en,mass); | |
2037 | fhAsymNLocMaxN[mcindex][matched]->Fill(en,asym); | |
c7e9a4e9 | 2038 | fhMassSplitENLocMaxN[mcindex][matched]->Fill(e1+e2,mass); |
2039 | ||
a6d3b0a8 | 2040 | if((m02OK && asyOK) && (asyOn || m02On) && eCutOK) |
1253480f | 2041 | { |
2042 | fhSplitEFractionAfterCutsNLocMaxN[mcindex][matched]->Fill(en,splitFrac); | |
c7e9a4e9 | 2043 | if(splitFrac > splitFracMin) |
2044 | { | |
1253480f | 2045 | fhMassAfterCutsNLocMaxN[mcindex][matched]->Fill(en,mass); |
c7e9a4e9 | 2046 | fhMassSplitEAfterCutsNLocMaxN[mcindex][matched]->Fill(e1+e2,mass); |
2047 | } | |
1253480f | 2048 | } |
2049 | } | |
2050 | }//Work with MC truth | |
2051 | } | |
2052 | ||
2053 | ||
b94e038e | 2054 | //_________________________________________________________________________________________________________ |
2055 | void AliAnaInsideClusterInvariantMass::FillIdPi0Histograms(Float_t en, Float_t e1, Float_t e2, | |
2056 | Int_t nc, Int_t nMax, Float_t t12diff, | |
2057 | Float_t mass, Float_t l0, | |
2058 | Float_t eta, Float_t phi, | |
2059 | Bool_t matched, Int_t mcindex) | |
1253480f | 2060 | { |
2061 | // Fill histograms for clusters passing the pi0 selection | |
2062 | ||
2063 | Float_t asym = -10; | |
2064 | if(e1+e2>0) asym = (e1-e2)/(e1+e2); | |
2065 | ||
29555e96 | 2066 | fhNLocMaxIdPi0 [0][matched]->Fill(en,nMax); |
2067 | fhLM1NLocMaxIdPi0[0][matched]->Fill(e1,nMax); | |
2068 | fhLM2NLocMaxIdPi0[0][matched]->Fill(e2,nMax); | |
2069 | ||
cc909e6f | 2070 | fhSplitClusterEPi0NLocMax[0][matched]->Fill(e1,nMax); |
2071 | fhSplitClusterEPi0NLocMax[0][matched]->Fill(e2,nMax); | |
2072 | ||
cb99fa55 | 2073 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
cc909e6f | 2074 | { |
2075 | fhSplitClusterEPi0NLocMax[mcindex][matched]->Fill(e1,nMax); | |
2076 | fhSplitClusterEPi0NLocMax[mcindex][matched]->Fill(e2,nMax); | |
2077 | } | |
2078 | ||
1253480f | 2079 | if (nMax==1) |
2080 | { | |
2081 | fhM02Pi0NLocMax1 [0][matched]->Fill(en,l0); | |
2082 | fhMassPi0NLocMax1[0][matched]->Fill(en,mass); | |
2083 | fhAsyPi0NLocMax1 [0][matched]->Fill(en,asym); | |
c7e9a4e9 | 2084 | fhMassSplitEPi0NLocMax1[0][matched]->Fill(e1+e2,mass); |
1253480f | 2085 | if(fFillNCellHisto) fhNCellPi0NLocMax1[0][matched]->Fill(en,nc); |
2086 | ||
2087 | if(!matched) | |
2088 | { | |
2089 | if(fFillHighMultHisto) | |
2090 | { | |
2091 | fhCentralityPi0NLocMax1->Fill(en,GetEventCentrality()) ; | |
2092 | fhEventPlanePi0NLocMax1->Fill(en,GetEventPlaneAngle()) ; | |
2093 | } | |
2094 | if(en > fHistoECut)fhPi0EtaPhiNLocMax1->Fill(eta,phi); | |
2095 | fhPi0EPairDiffTimeNLM1->Fill(e1+e2,t12diff); | |
2096 | } | |
2097 | } | |
2098 | else if(nMax==2) | |
2099 | { | |
2100 | fhM02Pi0NLocMax2 [0][matched]->Fill(en,l0); | |
2101 | fhMassPi0NLocMax2[0][matched]->Fill(en,mass); | |
2102 | fhAsyPi0NLocMax2 [0][matched]->Fill(en,asym); | |
c7e9a4e9 | 2103 | fhMassSplitEPi0NLocMax2[0][matched]->Fill(e1+e2,mass); |
1253480f | 2104 | if(fFillNCellHisto) fhNCellPi0NLocMax2[0][matched]->Fill(en,nc); |
2105 | ||
2106 | if(!matched) | |
2107 | { | |
2108 | if(fFillHighMultHisto) | |
2109 | { | |
2110 | fhCentralityPi0NLocMax2->Fill(en,GetEventCentrality()) ; | |
2111 | fhEventPlanePi0NLocMax2->Fill(en,GetEventPlaneAngle()) ; | |
2112 | } | |
2113 | if(en > fHistoECut)fhPi0EtaPhiNLocMax2->Fill(eta,phi); | |
2114 | fhPi0EPairDiffTimeNLM2->Fill(e1+e2,t12diff); | |
2115 | } | |
2116 | } | |
2117 | else if(nMax >2) | |
2118 | { | |
2119 | fhM02Pi0NLocMaxN [0][matched]->Fill(en,l0); | |
2120 | fhMassPi0NLocMaxN[0][matched]->Fill(en,mass); | |
2121 | fhAsyPi0NLocMaxN [0][matched]->Fill(en,asym); | |
c7e9a4e9 | 2122 | fhMassSplitEPi0NLocMaxN[0][matched]->Fill(e1+e2,mass); |
1253480f | 2123 | if(fFillNCellHisto) fhNCellPi0NLocMaxN[0][matched]->Fill(en,nc); |
2124 | ||
2125 | if(!matched) | |
2126 | { | |
2127 | if(fFillHighMultHisto) | |
2128 | { | |
2129 | fhCentralityPi0NLocMaxN->Fill(en,GetEventCentrality()) ; | |
2130 | fhEventPlanePi0NLocMaxN->Fill(en,GetEventPlaneAngle()) ; | |
2131 | } | |
2132 | if(en > fHistoECut)fhPi0EtaPhiNLocMaxN->Fill(eta,phi); | |
2133 | fhPi0EPairDiffTimeNLMN->Fill(e1+e2,t12diff); | |
2134 | } | |
2135 | } | |
2136 | ||
cb99fa55 | 2137 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 2138 | { |
db790ee8 | 2139 | fhNLocMaxIdPi0 [mcindex][matched]->Fill(en,nMax); |
2140 | fhLM1NLocMaxIdPi0[mcindex][matched]->Fill(e1,nMax); | |
2141 | fhLM2NLocMaxIdPi0[mcindex][matched]->Fill(e2,nMax); | |
29555e96 | 2142 | |
1253480f | 2143 | if (nMax==1) |
2144 | { | |
2145 | fhM02Pi0NLocMax1 [mcindex][matched]->Fill(en,l0); | |
2146 | fhMassPi0NLocMax1[mcindex][matched]->Fill(en,mass); | |
2147 | fhAsyPi0NLocMax1 [mcindex][matched]->Fill(en,asym); | |
c7e9a4e9 | 2148 | fhMassSplitEPi0NLocMax1[mcindex][matched]->Fill(e1+e2,mass); |
1253480f | 2149 | if(fFillNCellHisto) fhNCellPi0NLocMax1[mcindex][matched]->Fill(en,nc); |
2150 | ||
2151 | } | |
2152 | else if(nMax==2) | |
2153 | { | |
2154 | fhM02Pi0NLocMax2 [mcindex][matched]->Fill(en,l0); | |
2155 | fhMassPi0NLocMax2[mcindex][matched]->Fill(en,mass); | |
2156 | fhAsyPi0NLocMax2 [mcindex][matched]->Fill(en,asym); | |
c7e9a4e9 | 2157 | fhMassSplitEPi0NLocMax2[mcindex][matched]->Fill(e1+e2,mass); |
2158 | if(fFillNCellHisto) fhNCellPi0NLocMax2[mcindex][matched]->Fill(en,nc); | |
1253480f | 2159 | } |
2160 | else if(nMax >2) | |
2161 | { | |
cc909e6f | 2162 | fhM02Pi0NLocMaxN [mcindex][matched]->Fill(en,l0); |
1253480f | 2163 | fhMassPi0NLocMaxN[mcindex][matched]->Fill(en,mass); |
cc909e6f | 2164 | fhAsyPi0NLocMaxN [mcindex][matched]->Fill(en,asym); |
c7e9a4e9 | 2165 | fhMassSplitEPi0NLocMaxN[mcindex][matched]->Fill(e1+e2,mass); |
1253480f | 2166 | if(fFillNCellHisto) fhNCellPi0NLocMaxN[mcindex][matched]->Fill(en,nc); |
2167 | } | |
2168 | }//Work with MC truth | |
2169 | } | |
2170 | ||
b94e038e | 2171 | //______________________________________________________________________________________________________ |
2172 | void AliAnaInsideClusterInvariantMass::FillIdEtaHistograms(Float_t en, Float_t e1, Float_t e2, | |
2173 | Int_t nc, Int_t nMax, Float_t t12diff, | |
2174 | Float_t mass, Float_t l0, | |
2175 | Float_t eta, Float_t phi, | |
2176 | Bool_t matched, Int_t mcindex) | |
1253480f | 2177 | { |
2178 | // Fill histograms for clusters passing the eta selection | |
2179 | ||
2180 | Float_t asym = -10; | |
2181 | if(e1+e2>0) asym = (e1-e2)/(e1+e2); | |
2182 | ||
2183 | if (nMax==1) | |
2184 | { | |
2185 | fhM02EtaNLocMax1 [0][matched]->Fill(en,l0); | |
2186 | fhMassEtaNLocMax1[0][matched]->Fill(en,mass); | |
2187 | fhAsyEtaNLocMax1 [0][matched]->Fill(en,asym); | |
2188 | if(fFillNCellHisto) fhNCellEtaNLocMax1[0][matched]->Fill(en,nc); | |
2189 | ||
2190 | if(!matched) | |
2191 | { | |
2192 | if(fFillHighMultHisto) | |
2193 | { | |
2194 | fhCentralityEtaNLocMax1->Fill(en,GetEventCentrality()) ; | |
2195 | fhEventPlaneEtaNLocMax1->Fill(en,GetEventPlaneAngle()) ; | |
2196 | } | |
2197 | if(en > fHistoECut)fhEtaEtaPhiNLocMax1->Fill(eta,phi); | |
2198 | fhEtaEPairDiffTimeNLM1->Fill(e1+e2,t12diff); | |
2199 | } | |
2200 | } | |
2201 | else if(nMax==2) | |
2202 | { | |
2203 | fhM02EtaNLocMax2 [0][matched]->Fill(en,l0); | |
2204 | fhMassEtaNLocMax2[0][matched]->Fill(en,mass); | |
2205 | fhAsyEtaNLocMax2 [0][matched]->Fill(en,asym); | |
2206 | if(fFillNCellHisto) fhNCellEtaNLocMax2[0][matched]->Fill(en,nc); | |
2207 | ||
2208 | if(!matched) | |
2209 | { | |
2210 | if(fFillHighMultHisto) | |
2211 | { | |
2212 | fhCentralityEtaNLocMax2->Fill(en,GetEventCentrality()) ; | |
2213 | fhEventPlaneEtaNLocMax2->Fill(en,GetEventPlaneAngle()) ; | |
2214 | } | |
2215 | if(en > fHistoECut)fhEtaEtaPhiNLocMax2->Fill(eta,phi); | |
2216 | fhEtaEPairDiffTimeNLM2->Fill(e1+e2,t12diff); | |
2217 | } | |
2218 | } | |
2219 | else if(nMax >2) | |
2220 | { | |
2221 | fhM02EtaNLocMaxN [0][matched]->Fill(en,l0); | |
2222 | fhMassEtaNLocMaxN[0][matched]->Fill(en,mass); | |
2223 | fhAsyEtaNLocMaxN [0][matched]->Fill(en,asym); | |
2224 | if(fFillNCellHisto) fhNCellEtaNLocMaxN[0][matched]->Fill(en,nc); | |
2225 | ||
2226 | if(!matched) | |
2227 | { | |
2228 | if(fFillHighMultHisto) | |
2229 | { | |
2230 | fhCentralityEtaNLocMaxN->Fill(en,GetEventCentrality()) ; | |
2231 | fhEventPlaneEtaNLocMaxN->Fill(en,GetEventPlaneAngle()) ; | |
2232 | } | |
2233 | if(en > fHistoECut)fhEtaEtaPhiNLocMaxN->Fill(eta,phi); | |
2234 | fhEtaEPairDiffTimeNLMN->Fill(e1+e2,t12diff); | |
2235 | } | |
2236 | } | |
2237 | ||
cb99fa55 | 2238 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 2239 | { |
2240 | if (nMax==1) | |
2241 | { | |
2242 | fhM02EtaNLocMax1[mcindex][matched]->Fill(en,l0); | |
2243 | fhMassEtaNLocMax1[mcindex][matched]->Fill(en,mass); | |
2244 | fhAsyEtaNLocMax1[mcindex][matched]->Fill(en,asym); | |
2245 | if(fFillNCellHisto) fhNCellEtaNLocMax1[mcindex][matched]->Fill(en,nc); | |
2246 | } | |
2247 | else if(nMax==2) | |
2248 | { | |
2249 | fhM02EtaNLocMax2 [mcindex][matched]->Fill(en,l0); | |
2250 | fhMassEtaNLocMax2[mcindex][matched]->Fill(en,mass); | |
2251 | fhAsyEtaNLocMax2 [mcindex][matched]->Fill(en,asym); | |
2252 | if(fFillNCellHisto) fhNCellEtaNLocMax2[mcindex][matched]->Fill(en,nc); | |
2253 | ||
2254 | } | |
2255 | else if(nMax >2) | |
2256 | { | |
c7e9a4e9 | 2257 | fhM02EtaNLocMaxN[mcindex][matched]->Fill(en,l0); |
2258 | fhMassEtaNLocMaxN[mcindex][matched]->Fill(en,mass); | |
2259 | fhAsyEtaNLocMaxN[mcindex][matched]->Fill(en,asym); | |
2260 | if(fFillNCellHisto) fhNCellEtaNLocMaxN[mcindex][matched]->Fill(en,nc); | |
1253480f | 2261 | } |
2262 | }//Work with MC truth | |
2263 | } | |
2264 | ||
2265 | ||
b94e038e | 2266 | //__________________________________________________________________________________________________ |
2267 | void AliAnaInsideClusterInvariantMass::FillIdConvHistograms(Float_t en, Int_t nMax, Float_t asym, | |
2268 | Float_t mass, Float_t l0, | |
2269 | Bool_t matched, Int_t mcindex) | |
1253480f | 2270 | { |
2271 | // Fill histograms for clusters passing the photon selection | |
2272 | ||
2273 | if (nMax==1) | |
2274 | { | |
2275 | fhM02ConNLocMax1 [0][matched]->Fill(en,l0); | |
2276 | fhMassConNLocMax1[0][matched]->Fill(en,mass); | |
2277 | fhAsyConNLocMax1 [0][matched]->Fill(en,asym); | |
2278 | } | |
2279 | else if(nMax==2) | |
2280 | { | |
2281 | fhM02ConNLocMax2 [0][matched]->Fill(en,l0); | |
2282 | fhMassConNLocMax2[0][matched]->Fill(en,mass); | |
2283 | fhAsyConNLocMax2 [0][matched]->Fill(en,asym); | |
2284 | } | |
2285 | else if(nMax >2) | |
2286 | { | |
2287 | fhM02ConNLocMaxN [0][matched]->Fill(en,l0); | |
2288 | fhMassConNLocMaxN[0][matched]->Fill(en,mass); | |
2289 | fhAsyConNLocMaxN [0][matched]->Fill(en,asym); | |
2290 | } | |
2291 | ||
cb99fa55 | 2292 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
1253480f | 2293 | { |
2294 | if (nMax==1) | |
2295 | { | |
2296 | fhM02ConNLocMax1 [mcindex][matched]->Fill(en,l0); | |
2297 | fhMassConNLocMax1[mcindex][matched]->Fill(en,mass); | |
2298 | fhAsyConNLocMax1 [mcindex][matched]->Fill(en,asym); | |
2299 | } | |
2300 | else if(nMax==2) | |
2301 | { | |
2302 | fhM02ConNLocMax2 [mcindex][matched]->Fill(en,l0); | |
2303 | fhMassConNLocMax2[mcindex][matched]->Fill(en,mass); | |
2304 | fhAsyConNLocMax2 [mcindex][matched]->Fill(en,asym); | |
2305 | } | |
2306 | else if(nMax >2) | |
2307 | { | |
2308 | fhM02ConNLocMaxN [mcindex][matched]->Fill(en,l0); | |
2309 | fhMassConNLocMaxN[mcindex][matched]->Fill(en,mass); | |
2310 | fhAsyConNLocMaxN [mcindex][matched]->Fill(en,asym); | |
2311 | } | |
2312 | ||
2313 | }//Work with MC truth | |
2314 | } | |
2315 | ||
b94e038e | 2316 | //_______________________________________________________________________________________________________ |
2317 | void AliAnaInsideClusterInvariantMass::FillMCHistograms(Float_t en, Float_t e1 , Float_t e2, | |
2318 | Int_t ebin, Int_t mcindex,Int_t noverlaps, | |
2319 | Float_t l0, Float_t mass, | |
2320 | Int_t nMax, Bool_t matched, | |
2321 | Float_t splitFrac, Float_t asym, | |
2322 | Float_t eprim, Float_t asymGen) | |
b2e375c7 | 2323 | { |
2324 | // Fill histograms needing some MC input | |
1253480f | 2325 | |
b2e375c7 | 2326 | Float_t efrac = eprim/en; |
2327 | Float_t efracSplit = 0; | |
2328 | if(e1+e2 > 0) efracSplit = eprim/(e1+e2); | |
b583134f | 2329 | Float_t asymDiff = TMath::Abs(asym) - TMath::Abs(asymGen); |
2330 | ||
b2e375c7 | 2331 | //printf("e1 %2.2f, e2 %2.2f, eprim %2.2f, ereco %2.2f, esplit/ereco %2.2f, egen/ereco %2.2f, egen/esplit %2.2f\n", |
2332 | // e1,e2,eprim,en,splitFrac,efrac,efracSplit); | |
2333 | ||
2334 | if(ebin >= 0 && fFillEbinHisto) | |
2335 | { | |
2336 | if( !matched ) fhMCGenFracNLocMaxEbin [mcindex][ebin]->Fill(efrac,nMax); | |
2337 | else fhMCGenFracNLocMaxEbinMatched[mcindex][ebin]->Fill(efrac,nMax); | |
2338 | } | |
2339 | ||
2340 | if (nMax==1) | |
2341 | { | |
2342 | fhMCGenFracNLocMax1 [mcindex][matched]->Fill(en , efrac ); | |
2343 | fhMCGenSplitEFracNLocMax1[mcindex][matched]->Fill(en , efracSplit ); | |
2344 | fhMCGenEvsSplitENLocMax1 [mcindex][matched]->Fill(eprim , e1+e2); | |
b583134f | 2345 | if(asym > 0 && !matched) |
2346 | { | |
2347 | if (mcindex==kmcPi0) fhAsyMCGenRecoDiffMCPi0[0] ->Fill(en, asymDiff ); | |
2348 | else if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[0]->Fill(en, asymDiff ); | |
2349 | } | |
2350 | ||
4914e781 | 2351 | if(noverlaps==0) |
2352 | { | |
2353 | fhMCGenFracNLocMax1NoOverlap [mcindex][matched]->Fill(en , efrac ); | |
2354 | fhMCGenSplitEFracNLocMax1NoOverlap[mcindex][matched]->Fill(en , efracSplit ); | |
2355 | } | |
2356 | ||
b2e375c7 | 2357 | if( en > fHistoECut ) |
2358 | { | |
2359 | fhMCGenEFracvsSplitEFracNLocMax1[mcindex][matched]->Fill(efrac,splitFrac ); | |
2360 | ||
2361 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2362 | { | |
2363 | fhM02MCGenFracNLocMax1Ebin [mcindex][ebin]->Fill(efrac , l0 ); | |
2364 | fhMassMCGenFracNLocMax1Ebin[mcindex][ebin]->Fill(efrac , mass ); | |
2365 | ||
b583134f | 2366 | if(mcindex==kmcPi0 || mcindex==kmcPi0Conv) |
2367 | { | |
2368 | fhMCAsymM02NLocMax1MCPi0Ebin [ebin]->Fill(l0 , asymGen ); | |
2369 | fhAsyMCGenRecoNLocMax1EbinPi0[ebin]->Fill(asym, asymGen ); | |
2370 | } | |
b2e375c7 | 2371 | } |
2372 | } | |
2373 | } | |
2374 | else if(nMax==2) | |
2375 | { | |
2376 | fhMCGenFracNLocMax2 [mcindex][matched]->Fill(en , efrac ); | |
2377 | fhMCGenSplitEFracNLocMax2[mcindex][matched]->Fill(en , efracSplit ); | |
2378 | fhMCGenEvsSplitENLocMax2 [mcindex][matched]->Fill(eprim , e1+e2); | |
b583134f | 2379 | |
2380 | if(asym > 0 && !matched) | |
2381 | { | |
2382 | if (mcindex==kmcPi0) fhAsyMCGenRecoDiffMCPi0[1] ->Fill(en, asymDiff ); | |
2383 | else if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[1]->Fill(en, asymDiff ); | |
2384 | } | |
b2e375c7 | 2385 | |
4914e781 | 2386 | if(noverlaps==0) |
2387 | { | |
2388 | fhMCGenFracNLocMax2NoOverlap [mcindex][matched]->Fill(en , efrac ); | |
2389 | fhMCGenSplitEFracNLocMax2NoOverlap[mcindex][matched]->Fill(en , efracSplit ); | |
2390 | } | |
2391 | ||
b2e375c7 | 2392 | if( en > fHistoECut ) |
2393 | { | |
2394 | fhMCGenEFracvsSplitEFracNLocMax2[mcindex][matched]->Fill(efrac,splitFrac ); | |
2395 | ||
2396 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2397 | { | |
2398 | fhM02MCGenFracNLocMax2Ebin [mcindex][ebin]->Fill(efrac , l0 ); | |
2399 | fhMassMCGenFracNLocMax2Ebin[mcindex][ebin]->Fill(efrac , mass ); | |
b583134f | 2400 | if(mcindex==kmcPi0 || mcindex==kmcPi0Conv) |
2401 | { | |
2402 | fhMCAsymM02NLocMax2MCPi0Ebin [ebin]->Fill(l0 , asymGen ); | |
2403 | fhAsyMCGenRecoNLocMax2EbinPi0[ebin]->Fill(asym, asymGen ); | |
2404 | } | |
b2e375c7 | 2405 | } |
2406 | } | |
2407 | ||
2408 | } | |
2409 | else if(nMax > 2 ) | |
2410 | { | |
2411 | fhMCGenFracNLocMaxN [mcindex][matched]->Fill(en , efrac ); | |
2412 | fhMCGenSplitEFracNLocMaxN[mcindex][matched]->Fill(en , efracSplit ); | |
2413 | fhMCGenEvsSplitENLocMaxN [mcindex][matched]->Fill(eprim , e1+e2); | |
b583134f | 2414 | if(asym > 0 && !matched) |
2415 | { | |
2416 | if (mcindex==kmcPi0) fhAsyMCGenRecoDiffMCPi0[2] ->Fill(en, asymDiff ); | |
2417 | else if(mcindex==kmcPi0Conv)fhAsyMCGenRecoDiffMCPi0Conv[2]->Fill(en, asymDiff ); | |
2418 | } | |
2419 | ||
4914e781 | 2420 | if(noverlaps==0) |
2421 | { | |
2422 | fhMCGenFracNLocMaxNNoOverlap [mcindex][matched]->Fill(en , efrac ); | |
2423 | fhMCGenSplitEFracNLocMaxNNoOverlap[mcindex][matched]->Fill(en , efracSplit ); | |
2424 | } | |
2425 | ||
b2e375c7 | 2426 | if( en > fHistoECut ) |
2427 | { | |
2428 | fhMCGenEFracvsSplitEFracNLocMaxN[mcindex][matched]->Fill(efrac,splitFrac ); | |
2429 | ||
2430 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2431 | { | |
2432 | fhM02MCGenFracNLocMaxNEbin [mcindex][ebin]->Fill(efrac , l0 ); | |
2433 | fhMassMCGenFracNLocMaxNEbin[mcindex][ebin]->Fill(efrac , mass ); | |
2434 | ||
b583134f | 2435 | if(mcindex==kmcPi0 || mcindex==kmcPi0Conv) |
2436 | { | |
2437 | fhMCAsymM02NLocMaxNMCPi0Ebin [ebin]->Fill(l0 , asymGen ); | |
2438 | fhAsyMCGenRecoNLocMaxNEbinPi0[ebin]->Fill(asym, asymGen ); | |
2439 | } | |
b2e375c7 | 2440 | } |
2441 | } | |
2442 | } | |
2443 | } | |
2444 | ||
b94e038e | 2445 | //__________________________________________________________________________________________________________ |
2446 | void AliAnaInsideClusterInvariantMass::FillMCOverlapHistograms(Float_t en, Float_t enprim, | |
2447 | Int_t nc, Float_t mass, Float_t l0, | |
2448 | Float_t asym, Float_t splitFrac, | |
2449 | Int_t inlm, Int_t ebin, Bool_t matched, | |
2450 | Int_t mcindex, Int_t noverlaps) | |
b2e375c7 | 2451 | { |
b2e375c7 | 2452 | // Fill histograms for MC Overlaps |
2453 | ||
2454 | //printf("en %f,mass %f,l0 %f,inlm %d,ebin %d,matched %d,mcindex %d,noverlaps %d \n",en,mass,l0,inlm,ebin,matched,mcindex,noverlaps); | |
1253480f | 2455 | |
b2e375c7 | 2456 | //printf("AliAnaInsideClusterInvariantMass::FillMCOverlapHistograms - NLM bin=%d, mcIndex %d, n Overlaps %d\n",inlm,mcindex,noverlaps); |
2457 | ||
2458 | if(!matched) | |
2459 | { | |
2460 | fhMCENOverlaps[inlm][mcindex]->Fill(en,noverlaps); | |
2461 | ||
2462 | if (noverlaps == 0) | |
2463 | { | |
74e3eb22 | 2464 | fhMCEM02Overlap0 [inlm][mcindex]->Fill(en, l0); |
2465 | fhMCEMassOverlap0 [inlm][mcindex]->Fill(en, mass); | |
2466 | fhMCEEpriOverlap0 [inlm][mcindex]->Fill(en, enprim); | |
2467 | fhMCEAsymOverlap0 [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2468 | if(fFillNCellHisto) fhMCENCellOverlap0[inlm][mcindex]->Fill(en, nc); |
83351853 | 2469 | fhMCESplitEFracOverlap0[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2470 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap0[inlm][ebin]->Fill(l0,mass); |
2471 | } | |
2472 | else if(noverlaps == 1) | |
2473 | { | |
74e3eb22 | 2474 | fhMCEM02Overlap1 [inlm][mcindex]->Fill(en, l0); |
2475 | fhMCEMassOverlap1 [inlm][mcindex]->Fill(en, mass); | |
2476 | fhMCEEpriOverlap1 [inlm][mcindex]->Fill(en, enprim); | |
2477 | fhMCEAsymOverlap1 [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2478 | if(fFillNCellHisto) fhMCENCellOverlap1[inlm][mcindex]->Fill(en, nc); |
83351853 | 2479 | fhMCESplitEFracOverlap1[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2480 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap1[inlm][ebin]->Fill(l0,mass); |
2481 | } | |
2482 | else if(noverlaps > 1) | |
2483 | { | |
74e3eb22 | 2484 | fhMCEM02OverlapN [inlm][mcindex]->Fill(en, l0); |
2485 | fhMCEMassOverlapN [inlm][mcindex]->Fill(en, mass); | |
2486 | fhMCEEpriOverlapN [inlm][mcindex]->Fill(en, enprim); | |
2487 | fhMCEAsymOverlapN [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2488 | if(fFillNCellHisto) fhMCENCellOverlapN[inlm][mcindex]->Fill(en, nc); |
83351853 | 2489 | fhMCESplitEFracOverlapN[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2490 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02OverlapN[inlm][ebin]->Fill(l0,mass); |
2491 | } | |
2492 | else | |
a6d3b0a8 | 2493 | Info("FillMCOverlapHistograms","n overlaps = %d!!", noverlaps); |
b2e375c7 | 2494 | } |
2495 | else if(fFillTMHisto) | |
2496 | { | |
2497 | fhMCENOverlapsMatch[inlm][mcindex]->Fill(en,noverlaps); | |
2498 | ||
2499 | if (noverlaps == 0) | |
2500 | { | |
74e3eb22 | 2501 | fhMCEM02Overlap0Match [inlm][mcindex]->Fill(en, l0); |
2502 | fhMCEMassOverlap0Match [inlm][mcindex]->Fill(en, mass); | |
2503 | fhMCEEpriOverlap0Match [inlm][mcindex]->Fill(en, enprim); | |
2504 | fhMCEAsymOverlap0Match [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2505 | if(fFillNCellHisto) fhMCENCellOverlap0Match[inlm][mcindex]->Fill(en, nc); |
83351853 | 2506 | fhMCESplitEFracOverlap0Match[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2507 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap0Match[inlm][ebin]->Fill(l0,mass); |
2508 | } | |
2509 | else if(noverlaps == 1) | |
2510 | { | |
74e3eb22 | 2511 | fhMCEM02Overlap1Match [inlm][mcindex]->Fill(en, l0); |
2512 | fhMCEMassOverlap1Match [inlm][mcindex]->Fill(en, mass); | |
2513 | fhMCEEpriOverlap1Match [inlm][mcindex]->Fill(en, enprim); | |
2514 | fhMCEAsymOverlap1Match [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2515 | if(fFillNCellHisto) fhMCENCellOverlap1Match[inlm][mcindex]->Fill(en, nc); |
83351853 | 2516 | fhMCESplitEFracOverlap1Match[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2517 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02Overlap1Match[inlm][ebin]->Fill(l0,mass); |
2518 | } | |
2519 | else if(noverlaps > 1) | |
2520 | { | |
74e3eb22 | 2521 | fhMCEM02OverlapNMatch [inlm][mcindex]->Fill(en, l0); |
2522 | fhMCEMassOverlapNMatch [inlm][mcindex]->Fill(en, mass); | |
2523 | fhMCEEpriOverlapNMatch [inlm][mcindex]->Fill(en, enprim); | |
2524 | fhMCEAsymOverlapNMatch [inlm][mcindex]->Fill(en, TMath::Abs(asym)); | |
cb99fa55 | 2525 | if(fFillNCellHisto) fhMCENCellOverlapNMatch[inlm][mcindex]->Fill(en, nc); |
83351853 | 2526 | fhMCESplitEFracOverlapN[inlm][mcindex]->Fill(en, splitFrac); |
b2e375c7 | 2527 | if((mcindex==kmcPi0 || mcindex == kmcPi0Conv) && ebin >=0) fhMCPi0MassM02OverlapNMatch[inlm][ebin]->Fill(l0,mass); |
2528 | } | |
2529 | else | |
a6d3b0a8 | 2530 | Info("FillMCOverlapHistograms()","n overlaps in matched = %d!!", noverlaps); |
b2e375c7 | 2531 | } |
2532 | } | |
2533 | ||
4914e781 | 2534 | |
b94e038e | 2535 | //_____________________________________________________________________________________________________ |
2536 | void AliAnaInsideClusterInvariantMass::FillNCellHistograms(Int_t ncells, Float_t energy, Int_t nMax, | |
2537 | Bool_t matched, Int_t mcindex, | |
2538 | Float_t mass , Float_t l0) | |
4914e781 | 2539 | |
2540 | { | |
2541 | // Fill optional histograms with more SS parameters | |
1253480f | 2542 | |
4914e781 | 2543 | if (nMax==1) |
2544 | { | |
2545 | fhNCellNLocMax1[0][matched]->Fill(energy,ncells) ; | |
2546 | if(mcindex > 0 ) fhNCellNLocMax1[mcindex][matched]->Fill(energy,ncells) ; | |
2547 | ||
2548 | if (mcindex==kmcPi0 && !matched) | |
2549 | { | |
2550 | if( energy > fHistoECut) | |
2551 | { | |
2552 | fhNCellMassEHighNLocMax1MCPi0->Fill(ncells,mass); | |
2553 | fhNCellM02EHighNLocMax1MCPi0 ->Fill(ncells,l0); | |
2554 | } | |
2555 | else | |
2556 | { | |
2557 | fhNCellMassELowNLocMax1MCPi0->Fill(ncells,mass); | |
2558 | fhNCellM02ELowNLocMax1MCPi0 ->Fill(ncells,l0); | |
2559 | } | |
2560 | } | |
2561 | } | |
2562 | else if( nMax == 2 ) | |
2563 | { | |
2564 | fhNCellNLocMax2[0][matched]->Fill(energy,ncells) ; | |
2565 | if(mcindex > 0 ) fhNCellNLocMax2[mcindex][matched]->Fill(energy,ncells) ; | |
2566 | ||
2567 | ||
2568 | if (mcindex==kmcPi0 && !matched) | |
2569 | { | |
2570 | if( energy > fHistoECut) | |
2571 | { | |
2572 | fhNCellMassEHighNLocMax2MCPi0->Fill(ncells,mass); | |
2573 | fhNCellM02EHighNLocMax2MCPi0 ->Fill(ncells,l0); | |
2574 | } | |
2575 | else | |
2576 | { | |
2577 | fhNCellMassELowNLocMax2MCPi0->Fill(ncells,mass); | |
2578 | fhNCellM02ELowNLocMax2MCPi0 ->Fill(ncells,l0); | |
2579 | } | |
2580 | } | |
2581 | } | |
2582 | else if( nMax >= 3 ) | |
2583 | { | |
2584 | fhNCellNLocMaxN[0][matched]->Fill(energy,ncells) ; | |
2585 | if(mcindex > 0 ) fhNCellNLocMaxN[mcindex][matched]->Fill(energy,ncells) ; | |
2586 | ||
2587 | if (mcindex==kmcPi0 && !matched) | |
2588 | { | |
2589 | if( energy > fHistoECut) | |
2590 | { | |
2591 | fhNCellMassEHighNLocMaxNMCPi0->Fill(ncells,mass); | |
2592 | fhNCellM02EHighNLocMaxNMCPi0 ->Fill(ncells,l0); | |
2593 | } | |
2594 | else | |
2595 | { | |
2596 | fhNCellMassELowNLocMaxNMCPi0->Fill(ncells,mass); | |
2597 | fhNCellM02ELowNLocMaxNMCPi0 ->Fill(ncells,l0); | |
2598 | } | |
2599 | } | |
2600 | } | |
2601 | } | |
2602 | ||
ff6aa4ce | 2603 | //______________________________________________________________________________________________________ |
2604 | void AliAnaInsideClusterInvariantMass::FillNLMDiffCutHistograms(AliVCluster *clus, AliVCaloCells* cells, Bool_t matched) | |
2605 | { | |
58a18c5d | 2606 | // Calculate NLM for different settings |
ff6aa4ce | 2607 | |
2608 | Float_t energy = clus->E(); | |
2609 | Float_t m02 = clus->GetM02(); | |
2610 | ||
2611 | Float_t minEOrg = GetCaloUtils()->GetLocalMaximaCutE() ; | |
2612 | Float_t minEDiffOrg = GetCaloUtils()->GetLocalMaximaCutEDiff(); | |
2613 | ||
58a18c5d | 2614 | Int_t nlm = 0; |
2615 | Double_t mass = 0., angle = 0.; | |
2616 | TLorentzVector lv1, lv2; | |
2617 | Int_t absId1 =-1; Int_t absId2 =-1; | |
2618 | Float_t distbad1 =-1; Float_t distbad2 =-1; | |
2619 | Bool_t fidcut1 = 0; Bool_t fidcut2 = 0; | |
2620 | Int_t pidTag = -1; | |
2621 | ||
ff6aa4ce | 2622 | //printf("E %f, m02 %f; Org: minE %f, minDiffE %f\n",energy, m02, minEOrg,minEDiffOrg); |
2623 | for(Int_t iE = 0; iE < fNLMSettingN; iE++) | |
2624 | { | |
2625 | for(Int_t iDiff = 0; iDiff < fNLMSettingN; iDiff++) | |
2626 | { | |
2627 | GetCaloUtils()->SetLocalMaximaCutE (fNLMMinE [iE] ); | |
2628 | GetCaloUtils()->SetLocalMaximaCutEDiff(fNLMMinDiff[iDiff]); | |
58a18c5d | 2629 | |
2630 | //nlm = GetCaloUtils()->GetNumberOfLocalMaxima(clus, cells) ; | |
2631 | ||
2632 | //printf("\t Change: i %d minE %f, j %d minDiffE %f - NLM = %d\n",iE, fNLMMinE[iE], iDiff, fNLMMinDiff[iDiff],nlm); | |
2633 | ||
2634 | pidTag = GetCaloPID()->GetIdentifiedParticleTypeFromClusterSplitting(clus,cells,GetCaloUtils(), | |
2635 | GetVertex(0), nlm, mass, angle, | |
2636 | lv1,lv2,absId1,absId2, | |
2637 | distbad1,distbad2,fidcut1,fidcut2); | |
2638 | if (nlm <= 0) | |
2639 | { | |
2640 | if(GetDebug() > 0 ) | |
2641 | Info("MakeAnalysisFillHistograms","No local maximum found! It did not pass CaloPID selection criteria \n"); | |
2642 | ||
2643 | continue; | |
2644 | } | |
2645 | ||
ff6aa4ce | 2646 | Int_t inlm = nlm-1; |
2647 | if(inlm>2) inlm = 2; | |
ff6aa4ce | 2648 | |
58a18c5d | 2649 | fhNLocMaxDiffCut [iE][iDiff] [matched]->Fill(energy,nlm); |
2650 | fhM02NLocMaxDiffCut [iE][iDiff][inlm][matched]->Fill(energy,m02); | |
2651 | fhMassNLocMaxDiffCut[iE][iDiff][inlm][matched]->Fill(energy,mass); | |
ff6aa4ce | 2652 | |
58a18c5d | 2653 | if(pidTag==AliCaloPID::kPi0) |
2654 | { | |
2655 | fhNLocMaxDiffCutPi0 [iE][iDiff] [matched]->Fill(energy,nlm); | |
2656 | fhM02NLocMaxDiffCutPi0 [iE][iDiff][inlm][matched]->Fill(energy,m02); | |
2657 | fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][matched]->Fill(energy,mass); | |
2658 | } | |
2659 | ||
ff6aa4ce | 2660 | } |
2661 | } | |
2662 | ||
2663 | GetCaloUtils()->SetLocalMaximaCutE (minEOrg ); | |
2664 | GetCaloUtils()->SetLocalMaximaCutEDiff(minEDiffOrg); | |
2665 | ||
2666 | } | |
2667 | ||
2668 | ||
b94e038e | 2669 | //_____________________________________________________________________________________________ |
2670 | void AliAnaInsideClusterInvariantMass::FillSSExtraHistograms(AliVCluster *cluster, Int_t nMax, | |
2671 | Bool_t matched, Int_t mcindex, | |
2672 | Float_t mass , Int_t ebin) | |
b2e375c7 | 2673 | { |
2674 | // Fill optional histograms with more SS parameters | |
1253480f | 2675 | |
b2e375c7 | 2676 | Float_t en = cluster->E(); |
b2e375c7 | 2677 | |
2678 | // Get more Shower Shape parameters | |
2679 | Float_t ll0 = 0., ll1 = 0.; | |
2680 | Float_t disp= 0., dispEta = 0., dispPhi = 0.; | |
2681 | Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.; | |
2682 | ||
2683 | GetCaloUtils()->GetEMCALRecoUtils()->RecalculateClusterShowerShapeParameters(GetEMCALGeometry(), GetReader()->GetInputEvent()->GetEMCALCells(), cluster, | |
2684 | ll0, ll1, disp, dispEta, dispPhi, sEta, sPhi, sEtaPhi); | |
2685 | ||
2686 | Float_t dispAsy = -1; | |
2687 | if(dispEta+dispPhi >0 ) dispAsy = (dispPhi-dispEta) / (dispPhi+dispEta); | |
b2e375c7 | 2688 | |
2689 | if (nMax==1) | |
2690 | { | |
b2e375c7 | 2691 | if( en > fHistoECut ) |
2692 | { | |
2693 | fhMassDispEtaNLocMax1[0][matched]->Fill(dispEta, mass ); | |
2694 | fhMassDispPhiNLocMax1[0][matched]->Fill(dispPhi, mass ); | |
2695 | fhMassDispAsyNLocMax1[0][matched]->Fill(dispAsy, mass ); | |
2696 | ||
cb99fa55 | 2697 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2698 | { |
2699 | fhMassDispEtaNLocMax1[mcindex][matched]->Fill(dispEta, mass ); | |
2700 | fhMassDispPhiNLocMax1[mcindex][matched]->Fill(dispPhi, mass ); | |
2701 | fhMassDispAsyNLocMax1[mcindex][matched]->Fill(dispAsy, mass ); | |
2702 | } | |
2703 | } | |
2704 | ||
2705 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2706 | { | |
2707 | fhMassDispEtaNLocMax1Ebin[ebin]->Fill(dispEta, mass ); | |
2708 | fhMassDispPhiNLocMax1Ebin[ebin]->Fill(dispPhi, mass ); | |
2709 | fhMassDispAsyNLocMax1Ebin[ebin]->Fill(dispAsy, mass ); | |
2710 | } | |
2711 | } | |
2712 | else if( nMax == 2 ) | |
2713 | { | |
b2e375c7 | 2714 | if( en > fHistoECut ) |
2715 | { | |
2716 | fhMassDispEtaNLocMax2[0][matched]->Fill(dispEta, mass ); | |
2717 | fhMassDispPhiNLocMax2[0][matched]->Fill(dispPhi, mass ); | |
2718 | fhMassDispAsyNLocMax2[0][matched]->Fill(dispAsy, mass ); | |
2719 | ||
cb99fa55 | 2720 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2721 | { |
2722 | fhMassDispEtaNLocMax2[mcindex][matched]->Fill(dispEta, mass ); | |
2723 | fhMassDispPhiNLocMax2[mcindex][matched]->Fill(dispPhi, mass ); | |
2724 | fhMassDispAsyNLocMax2[mcindex][matched]->Fill(dispAsy, mass ); | |
2725 | } | |
2726 | } | |
2727 | ||
2728 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2729 | { | |
2730 | fhMassDispEtaNLocMax2Ebin[ebin]->Fill(dispEta, mass ); | |
2731 | fhMassDispPhiNLocMax2Ebin[ebin]->Fill(dispPhi, mass ); | |
2732 | fhMassDispAsyNLocMax2Ebin[ebin]->Fill(dispAsy, mass ); | |
2733 | } | |
2734 | ||
2735 | } | |
2736 | else if( nMax >= 3 ) | |
2737 | { | |
b2e375c7 | 2738 | if( en > fHistoECut ) |
2739 | { | |
2740 | fhMassDispEtaNLocMaxN[0][matched]->Fill(dispEta, mass ); | |
2741 | fhMassDispPhiNLocMaxN[0][matched]->Fill(dispPhi, mass ); | |
2742 | fhMassDispAsyNLocMaxN[0][matched]->Fill(dispAsy, mass ); | |
2743 | ||
cb99fa55 | 2744 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2745 | { |
2746 | fhMassDispEtaNLocMaxN[mcindex][matched]->Fill(dispEta, mass ); | |
2747 | fhMassDispPhiNLocMaxN[mcindex][matched]->Fill(dispPhi, mass ); | |
2748 | fhMassDispAsyNLocMaxN[mcindex][matched]->Fill(dispAsy, mass ); | |
2749 | } | |
2750 | } | |
2751 | ||
2752 | if(!matched && ebin >= 0 && fFillEbinHisto) | |
2753 | { | |
2754 | fhMassDispEtaNLocMaxNEbin[ebin]->Fill(dispEta, mass ); | |
2755 | fhMassDispPhiNLocMaxNEbin[ebin]->Fill(dispPhi, mass ); | |
2756 | fhMassDispAsyNLocMaxNEbin[ebin]->Fill(dispAsy, mass ); | |
2757 | } | |
2758 | ||
2759 | } | |
2760 | ||
2761 | } | |
2762 | ||
b94e038e | 2763 | //__________________________________________________________________________________________ |
2764 | void AliAnaInsideClusterInvariantMass::FillSSWeightHistograms(AliVCluster *clus, Int_t nlm, | |
2765 | Int_t absId1, Int_t absId2) | |
dbe09c26 | 2766 | { |
2767 | // Calculate weights and fill histograms | |
1253480f | 2768 | |
dbe09c26 | 2769 | AliVCaloCells* cells = 0; |
2770 | if(fCalorimeter == "EMCAL") cells = GetEMCALCells(); | |
2771 | else cells = GetPHOSCells(); | |
2772 | ||
2773 | // First recalculate energy in case non linearity was applied | |
09a5b22d | 2774 | Float_t energy = GetCaloUtils()->RecalibrateClusterEnergy(clus, cells);// recalculate cluster energy, avoid non lin correction. |
2775 | ||
2776 | Float_t simuTotWeight = 0; | |
2777 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) | |
dbe09c26 | 2778 | { |
09a5b22d | 2779 | simuTotWeight = GetCaloUtils()->RecalibrateClusterEnergyWeightCell(clus, cells,energy); |
2780 | simuTotWeight/= energy; | |
2781 | } | |
dbe09c26 | 2782 | |
2783 | if(energy <=0 ) | |
2784 | { | |
a6d3b0a8 | 2785 | Info("WeightHistograms()","Wrong calculated energy %f\n",energy); |
dbe09c26 | 2786 | return; |
2787 | } | |
2788 | ||
19391b8c | 2789 | //Get amplitude of main local maxima, recalibrate if needed |
2790 | Float_t amp1 = cells->GetCellAmplitude(absId1); | |
2791 | GetCaloUtils()->RecalibrateCellAmplitude(amp1,fCalorimeter, absId1); | |
2792 | Float_t amp2 = cells->GetCellAmplitude(absId2); | |
2793 | GetCaloUtils()->RecalibrateCellAmplitude(amp2,fCalorimeter, absId2); | |
2794 | ||
a6d3b0a8 | 2795 | if(amp1 < amp2) Info("FillSSWeightHistograms","Bad local maxima E ordering : id1 E %f, id2 E %f\n ",amp1,amp2); |
2796 | if(amp1==0 || amp2==0) Info("FillSSWeightHistograms","Null E local maxima : id1 E %f, id2 E %f\n " ,amp1,amp2); | |
19391b8c | 2797 | |
09a5b22d | 2798 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) |
2799 | { | |
2800 | amp1*=GetCaloUtils()->GetMCECellClusFracCorrection(amp1,energy)/simuTotWeight; | |
2801 | amp2*=GetCaloUtils()->GetMCECellClusFracCorrection(amp2,energy)/simuTotWeight; | |
2802 | } | |
2803 | ||
19391b8c | 2804 | if(amp1>0)fhPi0CellEMaxEMax2Frac [nlm]->Fill(energy,amp2/amp1); |
2805 | fhPi0CellEMaxClusterFrac [nlm]->Fill(energy,amp1/energy); | |
2806 | fhPi0CellEMax2ClusterFrac[nlm]->Fill(energy,amp2/energy); | |
2807 | ||
dbe09c26 | 2808 | //Get the ratio and log ratio to all cells in cluster |
2809 | for (Int_t ipos = 0; ipos < clus->GetNCells(); ipos++) | |
2810 | { | |
2811 | Int_t id = clus->GetCellsAbsId()[ipos]; | |
2812 | ||
2813 | //Recalibrate cell energy if needed | |
2814 | Float_t amp = cells->GetCellAmplitude(id); | |
2815 | GetCaloUtils()->RecalibrateCellAmplitude(amp,fCalorimeter, id); | |
09a5b22d | 2816 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) |
2817 | { | |
2818 | //printf("eCell a) %f",amp); | |
2819 | amp*=GetCaloUtils()->GetMCECellClusFracCorrection(amp,energy)/simuTotWeight; | |
2820 | //printf(", b)%f\n",amp); | |
2821 | } | |
dbe09c26 | 2822 | |
19391b8c | 2823 | if(amp > 0)fhPi0CellE [nlm]->Fill(energy,amp); |
dbe09c26 | 2824 | fhPi0CellEFrac [nlm]->Fill(energy,amp/energy); |
2825 | fhPi0CellLogEFrac[nlm]->Fill(energy,TMath::Log(amp/energy)); | |
19391b8c | 2826 | |
2827 | if (id!=absId1 && id!=absId2) | |
2828 | { | |
2829 | if(amp1>0)fhPi0CellEMaxFrac [nlm]->Fill(energy,amp/amp1); | |
2830 | if(amp2>0)fhPi0CellEMax2Frac[nlm]->Fill(energy,amp/amp2); | |
2831 | } | |
2832 | ||
dbe09c26 | 2833 | } |
09a5b22d | 2834 | |
dbe09c26 | 2835 | //Recalculate shower shape for different W0 |
2836 | if(fCalorimeter=="EMCAL") | |
2837 | { | |
2838 | Float_t l0org = clus->GetM02(); | |
2839 | Float_t l1org = clus->GetM20(); | |
2840 | Float_t dorg = clus->GetDispersion(); | |
19391b8c | 2841 | Float_t w0org = GetCaloUtils()->GetEMCALRecoUtils()->GetW0(); |
dbe09c26 | 2842 | |
5cd814a9 | 2843 | //printf("E cl %2.3f, E recal %2.3f, nlm %d, Org w0 %2.3f, org l0 %2.3f\n",clus->E(), energy,nlm, w0org,l0org); |
2844 | ||
dbe09c26 | 2845 | for(Int_t iw = 0; iw < fSSWeightN; iw++) |
2846 | { | |
2847 | GetCaloUtils()->GetEMCALRecoUtils()->SetW0(fSSWeight[iw]); | |
8edbd100 | 2848 | //GetCaloUtils()->GetEMCALRecoUtils()->RecalculateClusterShowerShapeParameters(GetEMCALGeometry(), cells, clus); |
5cd814a9 | 2849 | //fhM02WeightPi0[nlm][iw]->Fill(energy,clus->GetM02()); |
2850 | ||
8edbd100 | 2851 | Float_t l0 = 0., l1 = 0.; |
2852 | Float_t disp = 0., dEta = 0., dPhi = 0.; | |
2853 | Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.; | |
2854 | ||
2855 | RecalculateClusterShowerShapeParametersWithCellCut(GetEMCALGeometry(), cells, clus,l0,l1,disp, | |
5cd814a9 | 2856 | dEta, dPhi, sEta, sPhi, sEtaPhi,fSSECellCut[0]); |
2857 | //Make sure that for pp fSSECellCut[0]=0.05 and for PbPb fSSECellCut[0]=0.15 | |
8edbd100 | 2858 | |
dbe09c26 | 2859 | |
5cd814a9 | 2860 | fhM02WeightPi0[nlm][iw]->Fill(energy,l0); |
2861 | ||
2862 | //printf("\t w0 %2.3f, l0 %2.3f\n",GetCaloUtils()->GetEMCALRecoUtils()->GetW0(),l0); | |
dbe09c26 | 2863 | |
2864 | } // w0 loop | |
2865 | ||
2866 | // Set the original values back | |
2867 | clus->SetM02(l0org); | |
2868 | clus->SetM20(l1org); | |
2869 | clus->SetDispersion(dorg); | |
19391b8c | 2870 | GetCaloUtils()->GetEMCALRecoUtils()->SetW0(w0org); |
2871 | ||
2872 | for(Int_t iec = 0; iec < fSSECellCutN; iec++) | |
2873 | { | |
2874 | Float_t l0 = 0., l1 = 0.; | |
2875 | Float_t disp = 0., dEta = 0., dPhi = 0.; | |
2876 | Float_t sEta = 0., sPhi = 0., sEtaPhi = 0.; | |
19391b8c | 2877 | |
3ae72bd8 | 2878 | RecalculateClusterShowerShapeParametersWithCellCut(GetEMCALGeometry(), cells, clus,l0,l1,disp, |
2879 | dEta, dPhi, sEta, sPhi, sEtaPhi,fSSECellCut[iec]); | |
2880 | ||
19391b8c | 2881 | fhM02ECellCutPi0[nlm][iec]->Fill(energy,l0); |
2882 | ||
5cd814a9 | 2883 | //printf("\t min E cell %2.3f, l0 %2.3f\n",fSSECellCut[iec], l0); |
2884 | ||
19391b8c | 2885 | } // w0 loop |
3ae72bd8 | 2886 | |
dbe09c26 | 2887 | }// EMCAL |
2888 | } | |
2889 | ||
b94e038e | 2890 | //____________________________________________________________________________________________ |
2891 | void AliAnaInsideClusterInvariantMass::FillTrackMatchingHistograms(AliVCluster * cluster, | |
2892 | Int_t nMax, Int_t mcindex) | |
b2e375c7 | 2893 | { |
2894 | // Fill histograms related to track matching | |
1253480f | 2895 | |
b2e375c7 | 2896 | Float_t dZ = cluster->GetTrackDz(); |
2897 | Float_t dR = cluster->GetTrackDx(); | |
2898 | Float_t en = cluster->E(); | |
2899 | ||
2900 | if(cluster->IsEMCAL() && GetCaloUtils()->IsRecalculationOfClusterTrackMatchingOn()) | |
2901 | { | |
2902 | dR = 2000., dZ = 2000.; | |
2903 | GetCaloUtils()->GetEMCALRecoUtils()->GetMatchedResiduals(cluster->GetID(),dZ,dR); | |
2904 | } | |
2905 | ||
2906 | //printf("Pi0EbE: dPhi %f, dEta %f\n",dR,dZ); | |
2907 | ||
2908 | if(TMath::Abs(dR) < 999) | |
2909 | { | |
2910 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1[0]->Fill(en,dR); } | |
2911 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2[0]->Fill(en,dR); } | |
2912 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxN[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxN[0]->Fill(en,dR); } | |
2913 | ||
cb99fa55 | 2914 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2915 | { |
2916 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1[mcindex]->Fill(en,dR); } | |
2917 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2[mcindex]->Fill(en,dR); } | |
2918 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxN[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxN[mcindex]->Fill(en,dR); } | |
2919 | } | |
2920 | ||
2921 | AliVTrack *track = GetCaloUtils()->GetMatchedTrack(cluster, GetReader()->GetInputEvent()); | |
2922 | ||
2923 | Bool_t positive = kFALSE; | |
2924 | if(track) positive = (track->Charge()>0); | |
2925 | ||
2926 | if(track) | |
2927 | { | |
2928 | if(positive) | |
2929 | { | |
2930 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1Pos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Pos[0]->Fill(en,dR); } | |
2931 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2Pos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Pos[0]->Fill(en,dR); } | |
2932 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxNPos[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNPos[0]->Fill(en,dR); } | |
2933 | ||
cb99fa55 | 2934 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2935 | { |
2936 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1Pos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Pos[mcindex]->Fill(en,dR); } | |
2937 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2Pos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Pos[mcindex]->Fill(en,dR); } | |
2938 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxNPos[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNPos[mcindex]->Fill(en,dR); } | |
2939 | } | |
2940 | } | |
2941 | else | |
2942 | { | |
2943 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1Neg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Neg[0]->Fill(en,dR); } | |
2944 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2Neg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Neg[0]->Fill(en,dR); } | |
2945 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxNNeg[0]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNNeg[0]->Fill(en,dR); } | |
2946 | ||
cb99fa55 | 2947 | if(IsDataMC() && mcindex > 0 && mcindex < 7) |
b2e375c7 | 2948 | { |
2949 | if ( nMax == 1 ) { fhTrackMatchedDEtaNLocMax1Neg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax1Neg[mcindex]->Fill(en,dR); } | |
2950 | else if( nMax == 2 ) { fhTrackMatchedDEtaNLocMax2Neg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMax2Neg[mcindex]->Fill(en,dR); } | |
2951 | else if( nMax >= 3 ) { fhTrackMatchedDEtaNLocMaxNNeg[mcindex]->Fill(en,dZ); fhTrackMatchedDPhiNLocMaxNNeg[mcindex]->Fill(en,dR); } | |
2952 | } | |
2953 | } | |
2954 | ||
2955 | }// track exists | |
2956 | ||
2957 | } | |
2958 | } | |
dbe09c26 | 2959 | |
992b14a7 | 2960 | //_______________________________________________________________ |
2961 | TObjString * AliAnaInsideClusterInvariantMass::GetAnalysisCuts() | |
2962 | { | |
2963 | //Save parameters used for analysis | |
2964 | TString parList ; //this will be list of parameters used for this analysis. | |
b94e038e | 2965 | Int_t buffersize = 255; |
992b14a7 | 2966 | char onePar[buffersize] ; |
2967 | ||
2968 | snprintf(onePar,buffersize,"--- AliAnaInsideClusterInvariantMass ---\n") ; | |
2969 | parList+=onePar ; | |
2970 | ||
243c2909 | 2971 | snprintf(onePar,buffersize,"Calorimeter: %s\n", fCalorimeter.Data()) ; |
992b14a7 | 2972 | parList+=onePar ; |
c8710850 | 2973 | snprintf(onePar,buffersize,"fNLocMaxCutE =%2.2f \n", GetCaloUtils()->GetLocalMaximaCutE()) ; |
29ca9cad | 2974 | parList+=onePar ; |
c8710850 | 2975 | snprintf(onePar,buffersize,"fNLocMaxCutEDiff =%2.2f \n",GetCaloUtils()->GetLocalMaximaCutEDiff()) ; |
29ca9cad | 2976 | parList+=onePar ; |
e23a0471 | 2977 | snprintf(onePar,buffersize,"fMinNCells =%d \n", fMinNCells) ; |
2cb134fb | 2978 | parList+=onePar ; |
3c1d9afb | 2979 | snprintf(onePar,buffersize,"fMinBadDist =%1.1f \n", fMinBadDist) ; |
992b14a7 | 2980 | parList+=onePar ; |
19391b8c | 2981 | if(fFillSSWeightHisto) |
2982 | { | |
2983 | snprintf(onePar,buffersize," N w %d - N e cut %d \n",fSSWeightN,fSSECellCutN); | |
2984 | parList+=onePar ; | |
2985 | } | |
2986 | ||
992b14a7 | 2987 | return new TObjString(parList) ; |
2988 | ||
2989 | } | |
2990 | ||
992b14a7 | 2991 | //________________________________________________________________ |
2992 | TList * AliAnaInsideClusterInvariantMass::GetCreateOutputObjects() | |
1253480f | 2993 | { |
992b14a7 | 2994 | // Create histograms to be saved in output file and |
2995 | // store them in outputContainer | |
2996 | TList * outputContainer = new TList() ; | |
667432ef | 2997 | outputContainer->SetName("InsideClusterHistos") ; |
992b14a7 | 2998 | |
745913ae | 2999 | Int_t nptbins = GetHistogramRanges()->GetHistoPtBins(); Float_t ptmax = GetHistogramRanges()->GetHistoPtMax(); Float_t ptmin = GetHistogramRanges()->GetHistoPtMin(); |
3000 | Int_t ssbins = GetHistogramRanges()->GetHistoShowerShapeBins(); Float_t ssmax = GetHistogramRanges()->GetHistoShowerShapeMax(); Float_t ssmin = GetHistogramRanges()->GetHistoShowerShapeMin(); | |
3001 | Int_t mbins = GetHistogramRanges()->GetHistoMassBins(); Float_t mmax = GetHistogramRanges()->GetHistoMassMax(); Float_t mmin = GetHistogramRanges()->GetHistoMassMin(); | |
3002 | Int_t ncbins = GetHistogramRanges()->GetHistoNClusterCellBins(); Int_t ncmax = GetHistogramRanges()->GetHistoNClusterCellMax(); Int_t ncmin = GetHistogramRanges()->GetHistoNClusterCellMin(); | |
9554fc65 | 3003 | Int_t nphibins = GetHistogramRanges()->GetHistoPhiBins(); Float_t phimax = GetHistogramRanges()->GetHistoPhiMax(); Float_t phimin = GetHistogramRanges()->GetHistoPhiMin(); |
3004 | Int_t netabins = GetHistogramRanges()->GetHistoEtaBins(); Float_t etamax = GetHistogramRanges()->GetHistoEtaMax(); Float_t etamin = GetHistogramRanges()->GetHistoEtaMin(); | |
1253480f | 3005 | |
5c46c992 | 3006 | Int_t nresetabins = GetHistogramRanges()->GetHistoTrackResidualEtaBins(); |
3007 | Float_t resetamax = GetHistogramRanges()->GetHistoTrackResidualEtaMax(); | |
3008 | Float_t resetamin = GetHistogramRanges()->GetHistoTrackResidualEtaMin(); | |
3009 | Int_t nresphibins = GetHistogramRanges()->GetHistoTrackResidualPhiBins(); | |
3010 | Float_t resphimax = GetHistogramRanges()->GetHistoTrackResidualPhiMax(); | |
3011 | Float_t resphimin = GetHistogramRanges()->GetHistoTrackResidualPhiMin(); | |
3012 | ||
1253480f | 3013 | Bool_t m02On = GetCaloPID()->IsSplitShowerShapeCutOn(); |
3014 | Bool_t asyOn = GetCaloPID()->IsSplitAsymmetryCutOn(); | |
3015 | Bool_t splitOn = kFALSE; | |
3016 | if(GetCaloPID()->GetSplitEnergyFractionMinimum(0) > 0 || | |
3017 | GetCaloPID()->GetSplitEnergyFractionMinimum(1) > 0 || | |
3018 | GetCaloPID()->GetSplitEnergyFractionMinimum(2) > 0) splitOn = kTRUE; | |
3019 | ||
cb99fa55 | 3020 | TString ptype[] ={"","#gamma","#gamma->e^{#pm}","#pi^{0}","#pi^{0} (#gamma->e^{#pm})","#eta", "hadron"}; |
3021 | TString pname[] ={"","Photon","Conversion", "Pi0", "Pi0Conv", "Eta","Hadron"}; | |
ce49dd72 | 3022 | TString snlm [] = {"1","2","N"}; |
3023 | ||
25330263 | 3024 | TString sEBin[] = {"8 < #it{E} < 12 GeV","12 < #it{E} < 16 GeV", "16 < #it{E} < 20 GeV", "#it{E} > 20 GeV" }; |
be894c1d | 3025 | |
992b14a7 | 3026 | Int_t n = 1; |
3027 | ||
cb99fa55 | 3028 | if(IsDataMC()) n = 7; |
992b14a7 | 3029 | |
243c2909 | 3030 | Int_t nMaxBins = 10; |
3031 | ||
5c46c992 | 3032 | TString sMatched[] = {"","Matched"}; |
3033 | ||
8edbd100 | 3034 | Int_t nMatched = 2; |
3035 | if(!fFillTMHisto) nMatched = 1; | |
aa12888f | 3036 | |
58a18c5d | 3037 | |
3038 | if(fFillNLMDiffCutHisto) | |
3039 | { | |
3040 | for(Int_t imatch = 0; imatch < nMatched; imatch++) | |
3041 | { | |
3042 | for(Int_t iE = 0; iE < fNLMSettingN; iE++) | |
3043 | { | |
3044 | for(Int_t iDiff = 0; iDiff < fNLMSettingN; iDiff++) | |
3045 | { | |
3046 | fhNLocMaxDiffCut[iE][iDiff][imatch] = new TH2F(Form("hNLocMax_MinE%d_MinDiffE%d%s",iE, iDiff, sMatched[imatch].Data()), | |
25330263 | 3047 | Form("NLM for #it{E}_{LM}>%1.2f, #Delta E=%1.2F %s", fNLMMinE[iE], fNLMMinDiff[iDiff],sMatched[imatch].Data()), |
58a18c5d | 3048 | nptbins,ptmin,ptmax, nMaxBins,0,nMaxBins); |
25330263 | 3049 | fhNLocMaxDiffCut[iE][iDiff][imatch]->SetYTitle("#it{NLM}"); |
3050 | fhNLocMaxDiffCut[iE][iDiff][imatch]->SetXTitle("#it{E}_{cluster}"); | |
58a18c5d | 3051 | outputContainer->Add(fhNLocMaxDiffCut[iE][iDiff][imatch]) ; |
3052 | ||
3053 | fhNLocMaxDiffCutPi0[iE][iDiff][imatch] = new TH2F(Form("hNLocMaxPi0_MinE%d_MinDiffE%d%s",iE, iDiff, sMatched[imatch].Data()), | |
25330263 | 3054 | Form("#pi^{0} NLM for #it{E}_{LM}>%1.2f, #Delta E=%1.2F %s", |
58a18c5d | 3055 | fNLMMinE[iE], fNLMMinDiff[iDiff],sMatched[imatch].Data()), |
3056 | nptbins,ptmin,ptmax, nMaxBins,0,nMaxBins); | |
25330263 | 3057 | fhNLocMaxDiffCutPi0[iE][iDiff][imatch]->SetYTitle("#it{NLM}"); |
3058 | fhNLocMaxDiffCutPi0[iE][iDiff][imatch]->SetXTitle("#it{E}_{#pi^{0}}"); | |
58a18c5d | 3059 | outputContainer->Add(fhNLocMaxDiffCutPi0[iE][iDiff][imatch]) ; |
3060 | ||
3061 | for(Int_t inlm = 0; inlm < 3; inlm++) | |
3062 | { | |
3063 | ||
3064 | fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch] = new TH2F(Form("hNLocMaxM02_MinE%d_MinDiffE%d_NLM%s%s", | |
3065 | iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()), | |
25330263 | 3066 | Form("#lambda^{2}_{0} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s", |
58a18c5d | 3067 | fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()), |
3068 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); | |
3069 | fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetYTitle("#lambda^{2}_{0}"); | |
25330263 | 3070 | fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}"); |
58a18c5d | 3071 | outputContainer->Add(fhM02NLocMaxDiffCut[iE][iDiff][inlm][imatch]) ; |
3072 | ||
3073 | fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch] = new TH2F(Form("hNLocMaxMass_MinE%d_MinDiffE%d_NLM%s%s", | |
3074 | iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()), | |
25330263 | 3075 | Form("#it{M}_{split} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s", |
58a18c5d | 3076 | fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()), |
3077 | nptbins,ptmin,ptmax, mbins,mmin,mmax); | |
25330263 | 3078 | fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetYTitle("#it{M}_{split}"); |
3079 | fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}"); | |
58a18c5d | 3080 | outputContainer->Add(fhMassNLocMaxDiffCut[iE][iDiff][inlm][imatch]) ; |
3081 | ||
3082 | fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch] = new TH2F(Form("hNLocMaxPi0M02_MinE%d_MinDiffE%d_NLM%s%s", | |
3083 | iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()), | |
25330263 | 3084 | Form("#pi^{0} #lambda^{2}_{0} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s", |
58a18c5d | 3085 | fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()), |
3086 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); | |
3087 | fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetYTitle("#lambda^{2}_{0}"); | |
25330263 | 3088 | fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}"); |
58a18c5d | 3089 | outputContainer->Add(fhM02NLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]) ; |
3090 | ||
3091 | fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch] = new TH2F(Form("hNLocMaxPi0Mass_MinE%d_MinDiffE%d_NLM%s%s", | |
3092 | iE, iDiff, snlm[inlm].Data(),sMatched[imatch].Data()), | |
25330263 | 3093 | Form("#pi^{0} #it{M}_{split} for #it{E}_{LM}>%1.2f, #Delta E=%1.2F NLM %s %s", |
58a18c5d | 3094 | fNLMMinE[iE], fNLMMinDiff[iDiff],snlm[inlm].Data(), sMatched[imatch].Data()), |
3095 | nptbins,ptmin,ptmax, mbins,mmin,mmax); | |
25330263 | 3096 | fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetYTitle("#it{M}_{split}"); |
3097 | fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]->SetXTitle("#it{E}_{cluster}"); | |
58a18c5d | 3098 | outputContainer->Add(fhMassNLocMaxDiffCutPi0[iE][iDiff][inlm][imatch]) ; |
3099 | ||
3100 | } | |
3101 | ||
3102 | } | |
3103 | } | |
3104 | } | |
3105 | return outputContainer; | |
3106 | } | |
3107 | ||
ce49dd72 | 3108 | if(fCheckSplitDistToBad) |
3109 | { | |
3110 | for(Int_t inlm = 0; inlm < 3; inlm++) | |
3111 | { | |
3112 | fhMassBadDistClose[inlm] = new TH2F(Form("hMassBadDistCloseNLocMax%s",snlm[inlm].Data()), | |
25330263 | 3113 | Form("Invariant mass of splitted cluster with #it{NLM}=%d vs E, 2nd LM close to bad channel",inlm), |
ce49dd72 | 3114 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3115 | fhMassBadDistClose[inlm]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3116 | fhMassBadDistClose[inlm]->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3117 | outputContainer->Add(fhMassBadDistClose[inlm]) ; |
3118 | ||
3119 | fhM02BadDistClose[inlm] = new TH2F(Form("hM02BadDistCloseNLocMax%s",snlm[inlm].Data()), | |
25330263 | 3120 | Form("#lambda_{0}^{2} for cluster with #it{NLM}=%d vs E, 2nd LM close to bad channel",inlm), |
ce49dd72 | 3121 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
3122 | fhM02BadDistClose[inlm]->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3123 | fhM02BadDistClose[inlm]->SetXTitle("#it{E} (GeV)"); |
ce49dd72 | 3124 | outputContainer->Add(fhM02BadDistClose[inlm]) ; |
3125 | ||
3126 | fhMassOnBorder[inlm] = new TH2F(Form("hMassOnBorderNLocMax%s",snlm[inlm].Data()), | |
25330263 | 3127 | Form("Invariant mass of splitted cluster with #it{NLM}=%d vs E, 2nd LM close to border",inlm), |
ce49dd72 | 3128 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3129 | fhMassOnBorder[inlm]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3130 | fhMassOnBorder[inlm]->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3131 | outputContainer->Add(fhMassOnBorder[inlm]) ; |
3132 | ||
3133 | fhM02OnBorder[inlm] = new TH2F(Form("hM02OnBorderNLocMax%s",snlm[inlm].Data()), | |
25330263 | 3134 | Form("#lambda_{0}^{2} for cluster with #it{NLM}=%d vs E, 2nd LM close to border",inlm), |
ce49dd72 | 3135 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
3136 | fhM02OnBorder[inlm]->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3137 | fhM02OnBorder[inlm]->SetXTitle("#it{E} (GeV)"); |
ce49dd72 | 3138 | outputContainer->Add(fhM02OnBorder[inlm]) ; |
3139 | ||
3140 | } | |
3141 | } | |
3142 | ||
5c46c992 | 3143 | for(Int_t i = 0; i < n; i++) |
667432ef | 3144 | { |
8edbd100 | 3145 | for(Int_t j = 0; j < nMatched; j++) |
667432ef | 3146 | { |
5c46c992 | 3147 | |
ce49dd72 | 3148 | fhNLocMax[i][j] = new TH2F(Form("hNLocMax%s%s",pname[i].Data(),sMatched[j].Data()), |
3149 | Form("Number of local maxima in cluster %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3150 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3151 | fhNLocMax[i][j] ->SetYTitle("#it{N} maxima"); |
3152 | fhNLocMax[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3153 | outputContainer->Add(fhNLocMax[i][j]) ; |
29555e96 | 3154 | |
3155 | fhLM1NLocMax[i][j] = new TH2F(Form("hLM1NLocMax%s%s",pname[i].Data(),sMatched[j].Data()), | |
3156 | Form("Number of local maxima in cluster for split cluster 1 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3157 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3158 | fhLM1NLocMax[i][j] ->SetYTitle("#it{N} maxima"); |
3159 | fhLM1NLocMax[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3160 | outputContainer->Add(fhLM1NLocMax[i][j]) ; |
3161 | ||
3162 | fhLM2NLocMax[i][j] = new TH2F(Form("hLM2NLocMax%s%s",pname[i].Data(),sMatched[j].Data()), | |
3163 | Form("Number of local maxima in cluster for split cluster 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3164 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3165 | fhLM2NLocMax[i][j] ->SetYTitle("#it{N} maxima"); |
3166 | fhLM2NLocMax[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3167 | outputContainer->Add(fhLM2NLocMax[i][j]) ; |
3168 | ||
3169 | if(m02On) | |
3170 | { | |
3171 | fhNLocMaxM02Cut[i][j] = new TH2F(Form("hNLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()), | |
3172 | Form("Number of local maxima in cluster %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()), | |
3173 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3174 | fhNLocMaxM02Cut[i][j]->SetYTitle("#it{N} maxima"); |
3175 | fhNLocMaxM02Cut[i][j]->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3176 | outputContainer->Add(fhNLocMaxM02Cut[i][j]) ; |
3177 | ||
3178 | fhLM1NLocMaxM02Cut[i][j] = new TH2F(Form("hLM1NLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()), | |
3179 | Form("Number of local maxima in cluster for split cluster 1 %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()), | |
3180 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3181 | fhLM1NLocMaxM02Cut[i][j] ->SetYTitle("#it{N} maxima"); |
3182 | fhLM1NLocMaxM02Cut[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3183 | outputContainer->Add(fhLM1NLocMaxM02Cut[i][j]) ; |
3184 | ||
3185 | fhLM2NLocMaxM02Cut[i][j] = new TH2F(Form("hLM2NLocMaxM02Cut%s%s",pname[i].Data(),sMatched[j].Data()), | |
3186 | Form("Number of local maxima in cluster for split cluster 2 %s %s, M02 cut",ptype[i].Data(),sMatched[j].Data()), | |
3187 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3188 | fhLM2NLocMaxM02Cut[i][j] ->SetYTitle("#it{N} maxima"); |
3189 | fhLM2NLocMaxM02Cut[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3190 | outputContainer->Add(fhLM2NLocMaxM02Cut[i][j]) ; |
3191 | ||
3192 | } | |
3193 | ||
3194 | ||
3195 | fhNLocMaxIdPi0[i][j] = new TH2F(Form("hNLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()), | |
3196 | Form("Number of local maxima in pi0 ID cluster %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3197 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3198 | fhNLocMaxIdPi0[i][j] ->SetYTitle("#it{N} maxima"); |
3199 | fhNLocMaxIdPi0[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3200 | outputContainer->Add(fhNLocMaxIdPi0[i][j]) ; |
3201 | ||
3202 | ||
3203 | fhLM1NLocMaxIdPi0[i][j] = new TH2F(Form("hLM1NLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()), | |
3204 | Form("Number of local maxima in cluster for split cluster 1 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3205 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3206 | fhLM1NLocMaxIdPi0[i][j] ->SetYTitle("#it{N} maxima"); |
3207 | fhLM1NLocMaxIdPi0[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3208 | outputContainer->Add(fhLM1NLocMaxIdPi0[i][j]) ; |
3209 | ||
3210 | fhLM2NLocMaxIdPi0[i][j] = new TH2F(Form("hLM2NLocMaxIdPi0%s%s",pname[i].Data(),sMatched[j].Data()), | |
3211 | Form("Number of local maxima in cluster for split cluster 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3212 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3213 | fhLM2NLocMaxIdPi0[i][j] ->SetYTitle("#it{N} maxima"); |
3214 | fhLM2NLocMaxIdPi0[i][j] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 3215 | outputContainer->Add(fhLM2NLocMaxIdPi0[i][j]) ; |
3216 | ||
3217 | ||
3218 | ||
ce49dd72 | 3219 | |
3220 | fhSplitClusterENLocMax[i][j] = new TH2F(Form("hSplitEClusterNLocMax%s%s",pname[i].Data(),sMatched[j].Data()), | |
3221 | Form("Number of local maxima vs E of split clusters %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3222 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3223 | fhSplitClusterENLocMax[i][j] ->SetYTitle("#it{N} maxima"); |
3224 | fhSplitClusterENLocMax[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3225 | outputContainer->Add(fhSplitClusterENLocMax[i][j]) ; |
3226 | ||
3227 | ||
3228 | fhSplitClusterEPi0NLocMax[i][j] = new TH2F(Form("hSplitEClusterPi0NLocMax%s%s",pname[i].Data(),sMatched[j].Data()), | |
3229 | Form("Number of local maxima vs E of split clusters, id as pi0, %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3230 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 3231 | fhSplitClusterEPi0NLocMax[i][j] ->SetYTitle("#it{N} maxima"); |
3232 | fhSplitClusterEPi0NLocMax[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3233 | outputContainer->Add(fhSplitClusterEPi0NLocMax[i][j]) ; |
3234 | ||
3235 | if(fFillNCellHisto) | |
3236 | { | |
3237 | fhNCellNLocMax1[i][j] = new TH2F(Form("hNCellNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3238 | Form("n cells vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3239 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3240 | fhNCellNLocMax1[i][j] ->SetYTitle("#it{N} cells"); |
3241 | fhNCellNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3242 | outputContainer->Add(fhNCellNLocMax1[i][j]) ; |
3243 | ||
3244 | fhNCellNLocMax2[i][j] = new TH2F(Form("hNCellNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3245 | Form("n cells vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3246 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3247 | fhNCellNLocMax2[i][j] ->SetYTitle("#it{N} cells"); |
3248 | fhNCellNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3249 | outputContainer->Add(fhNCellNLocMax2[i][j]) ; |
3250 | ||
3251 | ||
3252 | fhNCellNLocMaxN[i][j] = new TH2F(Form("hNCellNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3253 | Form("n cells vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3254 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3255 | fhNCellNLocMaxN[i][j] ->SetYTitle("#it{N} cells"); |
3256 | fhNCellNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
ce49dd72 | 3257 | outputContainer->Add(fhNCellNLocMaxN[i][j]) ; |
3258 | } | |
3259 | ||
5c46c992 | 3260 | fhMassNLocMax1[i][j] = new TH2F(Form("hMassNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3261 | Form("Invariant mass of splitted cluster with #it{NLM}=1 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()), |
5c46c992 | 3262 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3263 | fhMassNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3264 | fhMassNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); | |
5c46c992 | 3265 | outputContainer->Add(fhMassNLocMax1[i][j]) ; |
3266 | ||
3267 | fhMassNLocMax2[i][j] = new TH2F(Form("hMassNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3268 | Form("Invariant mass of splitted cluster with #it{NLM}=2 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()), |
5c46c992 | 3269 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3270 | fhMassNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3271 | fhMassNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); | |
5c46c992 | 3272 | outputContainer->Add(fhMassNLocMax2[i][j]) ; |
3273 | ||
3274 | fhMassNLocMaxN[i][j] = new TH2F(Form("hMassNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
2a77f6f4 | 3275 | Form("Invariant mass of splitted cluster with NLM>2 vs E, %s %s",ptype[i].Data(),sMatched[j].Data()), |
5c46c992 | 3276 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3277 | fhMassNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3278 | fhMassNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); | |
667432ef | 3279 | outputContainer->Add(fhMassNLocMaxN[i][j]) ; |
c7e9a4e9 | 3280 | |
3281 | fhMassSplitENLocMax1[i][j] = new TH2F(Form("hMassSplitENLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3282 | Form("Invariant mass of splitted cluster with #it{NLM}=1 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3283 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3284 | fhMassSplitENLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3285 | fhMassSplitENLocMax1[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3286 | outputContainer->Add(fhMassSplitENLocMax1[i][j]) ; |
3287 | ||
3288 | fhMassSplitENLocMax2[i][j] = new TH2F(Form("hMassSplitENLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3289 | Form("Invariant mass of splitted cluster with #it{NLM}=2 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3290 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3291 | fhMassSplitENLocMax2[i][j]->SetYTitle("#it{E} _{M} (GeV/#it{c}^{2})"); |
3292 | fhMassSplitENLocMax2[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3293 | outputContainer->Add(fhMassSplitENLocMax2[i][j]) ; |
3294 | ||
3295 | fhMassSplitENLocMaxN[i][j] = new TH2F(Form("hMassSplitENLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3296 | Form("Invariant mass of splitted cluster with NLM>2 vs #it{E}_{1}+#it{E}_{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3297 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3298 | fhMassSplitENLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3299 | fhMassSplitENLocMaxN[i][j]->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3300 | outputContainer->Add(fhMassSplitENLocMaxN[i][j]) ; |
1253480f | 3301 | |
3302 | fhM02NLocMax1[i][j] = new TH2F(Form("hM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3303 | Form("#lambda_{0}^{2} vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3304 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3305 | fhM02NLocMax1[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3306 | fhM02NLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3307 | outputContainer->Add(fhM02NLocMax1[i][j]) ; |
3308 | ||
3309 | fhM02NLocMax2[i][j] = new TH2F(Form("hM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3310 | Form("#lambda_{0}^{2} vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3311 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3312 | fhM02NLocMax2[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3313 | fhM02NLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3314 | outputContainer->Add(fhM02NLocMax2[i][j]) ; |
3315 | ||
3316 | fhM02NLocMaxN[i][j] = new TH2F(Form("hM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3317 | Form("#lambda_{0}^{2} vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3318 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3319 | fhM02NLocMaxN[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3320 | fhM02NLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3321 | outputContainer->Add(fhM02NLocMaxN[i][j]) ; |
3322 | ||
3323 | fhAsymNLocMax1[i][j] = new TH2F(Form("hAsymNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3324 | Form("Asymmetry of #it{NLM}=1 vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3325 | nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 3326 | fhAsymNLocMax1[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3327 | fhAsymNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3328 | outputContainer->Add(fhAsymNLocMax1[i][j]) ; |
3329 | ||
3330 | fhAsymNLocMax2[i][j] = new TH2F(Form("hAsymNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3331 | Form("Asymmetry of #it{NLM}=2 vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3332 | nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 3333 | fhAsymNLocMax2[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3334 | fhAsymNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3335 | outputContainer->Add(fhAsymNLocMax2[i][j]) ; |
3336 | ||
3337 | fhAsymNLocMaxN[i][j] = new TH2F(Form("hAsymNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3338 | Form("Asymmetry of NLM>2 vs cluster Energy, %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3339 | nptbins,ptmin,ptmax,200,-1,1); | |
25330263 | 3340 | fhAsymNLocMaxN[i][j]->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3341 | fhAsymNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3342 | outputContainer->Add(fhAsymNLocMaxN[i][j]) ; |
3343 | ||
3344 | fhSplitEFractionNLocMax1[i][j] = new TH2F(Form("hSplitEFractionNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3345 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3346 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3347 | fhSplitEFractionNLocMax1[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3348 | fhSplitEFractionNLocMax1[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3349 | outputContainer->Add(fhSplitEFractionNLocMax1[i][j]) ; |
3350 | ||
3351 | fhSplitEFractionNLocMax2[i][j] = new TH2F(Form("hSplitEFractionNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3352 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3353 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3354 | fhSplitEFractionNLocMax2[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3355 | fhSplitEFractionNLocMax2[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3356 | outputContainer->Add(fhSplitEFractionNLocMax2[i][j]) ; |
3357 | ||
3358 | fhSplitEFractionNLocMaxN[i][j] = new TH2F(Form("hSplitEFractionNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3359 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3360 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3361 | fhSplitEFractionNLocMaxN[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3362 | fhSplitEFractionNLocMaxN[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3363 | outputContainer->Add(fhSplitEFractionNLocMaxN[i][j]) ; |
1253480f | 3364 | |
cb99fa55 | 3365 | if(i==0 && j==0 ) |
1253480f | 3366 | { |
cb99fa55 | 3367 | if(m02On) |
1253480f | 3368 | { |
25330263 | 3369 | fhMassM02CutNLocMax1 = new TH2F("hMassM02CutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, M02 cut, no TM", |
cb99fa55 | 3370 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3371 | fhMassM02CutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3372 | fhMassM02CutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3373 | outputContainer->Add(fhMassM02CutNLocMax1) ; |
1253480f | 3374 | |
25330263 | 3375 | fhMassM02CutNLocMax2 = new TH2F("hMassM02CutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, M02 cut, no TM", |
cb99fa55 | 3376 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3377 | fhMassM02CutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3378 | fhMassM02CutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3379 | outputContainer->Add(fhMassM02CutNLocMax2) ; |
1253480f | 3380 | |
cb99fa55 | 3381 | fhMassM02CutNLocMaxN = new TH2F("hMassM02CutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, M02 cut, no TM", |
3382 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3383 | fhMassM02CutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3384 | fhMassM02CutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3385 | outputContainer->Add(fhMassM02CutNLocMaxN) ; |
3386 | ||
25330263 | 3387 | fhAsymM02CutNLocMax1 = new TH2F("hAsymM02CutNLocMax1","Asymmetry of #it{NLM}=1 vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1); |
3388 | fhAsymM02CutNLocMax1->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); | |
3389 | fhAsymM02CutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3390 | outputContainer->Add(fhAsymM02CutNLocMax1) ; |
3391 | ||
25330263 | 3392 | fhAsymM02CutNLocMax2 = new TH2F("hAsymM02CutNLocMax2","Asymmetry of #it{NLM}=2 vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1); |
3393 | fhAsymM02CutNLocMax2->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); | |
3394 | fhAsymM02CutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3395 | outputContainer->Add(fhAsymM02CutNLocMax2) ; |
3396 | ||
3397 | fhAsymM02CutNLocMaxN = new TH2F("hAsymM02CutNLocMaxN","Asymmetry of NLM>2 vs cluster Energy, M02Cut, no TM", nptbins,ptmin,ptmax,200,-1,1); | |
25330263 | 3398 | fhAsymM02CutNLocMaxN->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3399 | fhAsymM02CutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3400 | outputContainer->Add(fhAsymM02CutNLocMaxN) ; |
7350f5d6 | 3401 | |
cb99fa55 | 3402 | if(splitOn) |
3403 | { | |
25330263 | 3404 | fhMassSplitECutNLocMax1 = new TH2F("hMassSplitECutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM", |
cb99fa55 | 3405 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3406 | fhMassSplitECutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3407 | fhMassSplitECutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3408 | outputContainer->Add(fhMassSplitECutNLocMax1) ; |
3409 | ||
25330263 | 3410 | fhMassSplitECutNLocMax2 = new TH2F("hMassSplitECutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM", |
cb99fa55 | 3411 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3412 | fhMassSplitECutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3413 | fhMassSplitECutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3414 | outputContainer->Add(fhMassSplitECutNLocMax2) ; |
3415 | ||
25330263 | 3416 | fhMassSplitECutNLocMaxN = new TH2F("hMassSplitECutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, (#it{E}_{1}+#it{E}_{2})/E cut, M02 cut, no TM", |
cb99fa55 | 3417 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3418 | fhMassSplitECutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3419 | fhMassSplitECutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3420 | outputContainer->Add(fhMassSplitECutNLocMaxN) ; |
3421 | } | |
3422 | }//m02on | |
1253480f | 3423 | |
cb99fa55 | 3424 | if(asyOn) |
3425 | { | |
25330263 | 3426 | fhMassAsyCutNLocMax1 = new TH2F("hMassAsyCutNLocMax1","Invariant mass of splitted cluster with #it{NLM}=1 vs E, Asy cut, no TM", |
cb99fa55 | 3427 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3428 | fhMassAsyCutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3429 | fhMassAsyCutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3430 | outputContainer->Add(fhMassAsyCutNLocMax1) ; |
3431 | ||
25330263 | 3432 | fhMassAsyCutNLocMax2 = new TH2F("hMassAsyCutNLocMax2","Invariant mass of splitted cluster with #it{NLM}=2 vs E, Asy cut, no TM", |
cb99fa55 | 3433 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3434 | fhMassAsyCutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3435 | fhMassAsyCutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3436 | outputContainer->Add(fhMassAsyCutNLocMax2) ; |
3437 | ||
2c36e041 | 3438 | fhMassAsyCutNLocMaxN = new TH2F("hMassAsyCutNLocMaxN","Invariant mass of splitted cluster with NLM>2 vs E, Asy cut, no TM", |
cb99fa55 | 3439 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3440 | fhMassAsyCutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3441 | fhMassAsyCutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 3442 | outputContainer->Add(fhMassAsyCutNLocMaxN) ; |
3443 | ||
25330263 | 3444 | fhM02AsyCutNLocMax1 = new TH2F("hM02AsyCutNLocMax1","#lambda_{0}^{2} of #it{NLM}=1 vs cluster Energy, AsyCut, no TM", |
cb99fa55 | 3445 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); |
3446 | fhM02AsyCutNLocMax1->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3447 | fhM02AsyCutNLocMax1->SetXTitle("#it{E} (GeV)"); |
cb99fa55 | 3448 | outputContainer->Add(fhM02AsyCutNLocMax1) ; |
3449 | ||
25330263 | 3450 | fhM02AsyCutNLocMax2 = new TH2F("hM02AsyCutNLocMax2","#lambda_{0}^{2} of #it{NLM}=2 vs cluster Energy, AsyCut, no TM", |
cb99fa55 | 3451 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); |
3452 | fhM02AsyCutNLocMax2->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3453 | fhM02AsyCutNLocMax2->SetXTitle("#it{E} (GeV)"); |
cb99fa55 | 3454 | outputContainer->Add(fhM02AsyCutNLocMax2) ; |
3455 | ||
3456 | fhM02AsyCutNLocMaxN = new TH2F("hM02AsyCutNLocMaxN","#lambda_{0}^{2} of NLM>2 vs cluster Energy, AsyCut, no TM", | |
3457 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); | |
3458 | fhM02AsyCutNLocMaxN->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3459 | fhM02AsyCutNLocMaxN->SetXTitle("#it{E} (GeV)"); |
cb99fa55 | 3460 | outputContainer->Add(fhM02AsyCutNLocMaxN) ; |
2c36e041 | 3461 | } |
3462 | ||
7350f5d6 | 3463 | if(GetCaloPID()->GetSubClusterEnergyMinimum(0) > 0.1) |
2c36e041 | 3464 | { |
25330263 | 3465 | fhMassEnCutNLocMax1 = new TH2F("hMassEnCutNLocMax1",Form("Invariant mass of splitted cluster with #it{NLM}=1 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)), |
7350f5d6 | 3466 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3467 | fhMassEnCutNLocMax1->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3468 | fhMassEnCutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3469 | outputContainer->Add(fhMassEnCutNLocMax1) ; |
3470 | ||
25330263 | 3471 | fhMassEnCutNLocMax2 = new TH2F("hMassEnCutNLocMax2",Form("Invariant mass of splitted cluster with #it{NLM}=2 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)), |
7350f5d6 | 3472 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3473 | fhMassEnCutNLocMax2->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3474 | fhMassEnCutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3475 | outputContainer->Add(fhMassEnCutNLocMax2) ; |
3476 | ||
3477 | fhMassEnCutNLocMaxN = new TH2F("hMassEnCutNLocMaxN",Form("Invariant mass of splitted cluster with NLM>2 vs E, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)), | |
3478 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3479 | fhMassEnCutNLocMaxN->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3480 | fhMassEnCutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3481 | outputContainer->Add(fhMassEnCutNLocMaxN) ; |
3482 | ||
25330263 | 3483 | fhM02EnCutNLocMax1 = new TH2F("hM02EnCutNLocMax1",Form("#lambda_{0}^{2} of #it{NLM}=1 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)), |
7350f5d6 | 3484 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); |
3485 | fhM02EnCutNLocMax1->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3486 | fhM02EnCutNLocMax1->SetXTitle("#it{E} (GeV)"); |
7350f5d6 | 3487 | outputContainer->Add(fhM02EnCutNLocMax1) ; |
3488 | ||
25330263 | 3489 | fhM02EnCutNLocMax2 = new TH2F("hM02EnCutNLocMax2",Form("#lambda_{0}^{2} of #it{NLM}=2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)), |
7350f5d6 | 3490 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); |
3491 | fhM02EnCutNLocMax2->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3492 | fhM02EnCutNLocMax2->SetXTitle("#it{E} (GeV)"); |
7350f5d6 | 3493 | outputContainer->Add(fhM02EnCutNLocMax2) ; |
3494 | ||
3495 | fhM02EnCutNLocMaxN = new TH2F("hM02EnCutNLocMaxN",Form("#lambda_{0}^{2} of NLM>2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)), | |
3496 | nptbins,ptmin,ptmax, ssbins,ssmin,ssmax); | |
3497 | fhM02EnCutNLocMaxN->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3498 | fhM02EnCutNLocMaxN->SetXTitle("#it{E} (GeV)"); |
7350f5d6 | 3499 | outputContainer->Add(fhM02EnCutNLocMaxN) ; |
3500 | ||
25330263 | 3501 | fhAsymEnCutNLocMax1 = new TH2F("hAsymEnCutNLocMax1",Form("Asymmetry of #it{NLM}=1 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)) |
7350f5d6 | 3502 | , nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 3503 | fhAsymEnCutNLocMax1->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3504 | fhAsymEnCutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3505 | outputContainer->Add(fhAsymEnCutNLocMax1) ; |
3506 | ||
25330263 | 3507 | fhAsymEnCutNLocMax2 = new TH2F("hAsymEnCutNLocMax2",Form("Asymmetry of #it{NLM}=2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)) |
7350f5d6 | 3508 | , nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 3509 | fhAsymEnCutNLocMax2->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3510 | fhAsymEnCutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3511 | outputContainer->Add(fhAsymEnCutNLocMax2) ; |
3512 | ||
3513 | fhAsymEnCutNLocMaxN = new TH2F("hAsymEnCutNLocMaxN",Form("Asymmetry of NLM>2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)) | |
3514 | , nptbins,ptmin,ptmax,200,-1,1); | |
25330263 | 3515 | fhAsymEnCutNLocMaxN->SetYTitle("(#it{E}_{1}-#it{E}_{2})/(#it{E}_{1}+#it{E}_{2})"); |
3516 | fhAsymEnCutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
7350f5d6 | 3517 | outputContainer->Add(fhAsymEnCutNLocMaxN) ; |
a6d3b0a8 | 3518 | |
25330263 | 3519 | fhSplitEFracEnCutNLocMax1 = new TH2F("hSplitEFracEnCutNLocMax1",Form("SplitEFracmetry of #it{NLM}=1 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(0)) |
a6d3b0a8 | 3520 | , nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3521 | fhSplitEFracEnCutNLocMax1->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
3522 | fhSplitEFracEnCutNLocMax1->SetXTitle("#it{E} (GeV)"); | |
a6d3b0a8 | 3523 | outputContainer->Add(fhSplitEFracEnCutNLocMax1) ; |
2c36e041 | 3524 | |
25330263 | 3525 | fhSplitEFracEnCutNLocMax2 = new TH2F("hSplitEFracEnCutNLocMax2",Form("SplitEFracmetry of #it{NLM}=2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(1)) |
a6d3b0a8 | 3526 | , nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3527 | fhSplitEFracEnCutNLocMax2->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
3528 | fhSplitEFracEnCutNLocMax2->SetXTitle("#it{E} (GeV)"); | |
a6d3b0a8 | 3529 | outputContainer->Add(fhSplitEFracEnCutNLocMax2) ; |
3530 | ||
3531 | fhSplitEFracEnCutNLocMaxN = new TH2F("hSplitEFracEnCutNLocMaxN",Form("SplitEFracmetry of NLM>2 vs cluster Energy, E > %1.1f GeV, no TM",GetCaloPID()->GetSubClusterEnergyMinimum(2)) | |
3532 | , nptbins,ptmin,ptmax,120,0,1.2); | |
25330263 | 3533 | fhSplitEFracEnCutNLocMaxN->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
3534 | fhSplitEFracEnCutNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
a6d3b0a8 | 3535 | outputContainer->Add(fhSplitEFracEnCutNLocMaxN) ; |
2c36e041 | 3536 | } |
7350f5d6 | 3537 | |
3538 | } // no MC | |
aa12888f | 3539 | |
c7e9a4e9 | 3540 | if(asyOn || m02On ) |
1253480f | 3541 | { |
3542 | fhMassAfterCutsNLocMax1[i][j] = new TH2F(Form("hMassAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3543 | Form("Mass vs E, %s %s, for NLM = 1, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), | |
3544 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3545 | fhMassAfterCutsNLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3546 | fhMassAfterCutsNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3547 | outputContainer->Add(fhMassAfterCutsNLocMax1[i][j]) ; |
3548 | ||
3549 | fhMassAfterCutsNLocMax2[i][j] = new TH2F(Form("hMassAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3550 | Form("Mass vs E, %s %s, for NLM = 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), | |
3551 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3552 | fhMassAfterCutsNLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3553 | fhMassAfterCutsNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3554 | outputContainer->Add(fhMassAfterCutsNLocMax2[i][j]) ; |
3555 | ||
1253480f | 3556 | fhMassAfterCutsNLocMaxN[i][j] = new TH2F(Form("hMassAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
3557 | Form("Mass vs E, %s %s, for NLM > 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), | |
3558 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3559 | fhMassAfterCutsNLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3560 | fhMassAfterCutsNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3561 | outputContainer->Add(fhMassAfterCutsNLocMaxN[i][j]) ; |
c7e9a4e9 | 3562 | |
3563 | fhMassSplitEAfterCutsNLocMax1[i][j] = new TH2F(Form("hMassSplitEAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3564 | Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM = 1, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3565 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3566 | fhMassSplitEAfterCutsNLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3567 | fhMassSplitEAfterCutsNLocMax1[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3568 | outputContainer->Add(fhMassSplitEAfterCutsNLocMax1[i][j]) ; |
3569 | ||
3570 | fhMassSplitEAfterCutsNLocMax2[i][j] = new TH2F(Form("hMassSplitEAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3571 | Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM = 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3572 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3573 | fhMassSplitEAfterCutsNLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3574 | fhMassSplitEAfterCutsNLocMax2[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3575 | outputContainer->Add(fhMassSplitEAfterCutsNLocMax2[i][j]) ; |
3576 | ||
3577 | fhMassSplitEAfterCutsNLocMaxN[i][j] = new TH2F(Form("hMassSplitEAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3578 | Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s %s, for NLM > 2, M02 and asy cut",ptype[i].Data(),sMatched[j].Data()), |
c7e9a4e9 | 3579 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3580 | fhMassSplitEAfterCutsNLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3581 | fhMassSplitEAfterCutsNLocMaxN[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3582 | outputContainer->Add(fhMassSplitEAfterCutsNLocMaxN[i][j]) ; |
3583 | ||
1253480f | 3584 | |
3585 | fhSplitEFractionAfterCutsNLocMax1[i][j] = new TH2F(Form("hSplitEFractionAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3586 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max = 1, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3587 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3588 | fhSplitEFractionAfterCutsNLocMax1[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3589 | fhSplitEFractionAfterCutsNLocMax1[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3590 | outputContainer->Add(fhSplitEFractionAfterCutsNLocMax1[i][j]) ; |
3591 | ||
3592 | fhSplitEFractionAfterCutsNLocMax2[i][j] = new TH2F(Form("hSplitEFractionAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3593 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max = 2, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3594 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3595 | fhSplitEFractionAfterCutsNLocMax2[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3596 | fhSplitEFractionAfterCutsNLocMax2[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3597 | outputContainer->Add(fhSplitEFractionAfterCutsNLocMax2[i][j]) ; |
3598 | ||
3599 | fhSplitEFractionAfterCutsNLocMaxN[i][j] = new TH2F(Form("hSplitEFractionAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3600 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs #it{E}_{cluster} for N max > 2, M02 and Asy cut on, %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3601 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 3602 | fhSplitEFractionAfterCutsNLocMaxN[i][j] ->SetXTitle("#it{E}_{cluster} (GeV)"); |
3603 | fhSplitEFractionAfterCutsNLocMaxN[i][j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
1253480f | 3604 | outputContainer->Add(fhSplitEFractionAfterCutsNLocMaxN[i][j]) ; |
3605 | } | |
5c46c992 | 3606 | |
0137016b | 3607 | fhMassM02NLocMax1[i][j] = new TH2F(Form("hMassM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3608 | Form("Invariant mass of splitted cluster with #it{NLM}=1, #lambda_{0}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()), |
0137016b | 3609 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3610 | fhMassM02NLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
0137016b | 3611 | fhMassM02NLocMax1[i][j]->SetXTitle("#lambda_{0}^{2}"); |
3612 | outputContainer->Add(fhMassM02NLocMax1[i][j]) ; | |
3613 | ||
3614 | fhMassM02NLocMax2[i][j] = new TH2F(Form("hMassM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3615 | Form("Invariant mass of splitted cluster with #it{NLM}=2, #lambda_{0}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()), |
0137016b | 3616 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3617 | fhMassM02NLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
0137016b | 3618 | fhMassM02NLocMax2[i][j]->SetXTitle("#lambda_{0}^{2}"); |
3619 | outputContainer->Add(fhMassM02NLocMax2[i][j]) ; | |
3620 | ||
3621 | fhMassM02NLocMaxN[i][j] = new TH2F(Form("hMassM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
2a77f6f4 | 3622 | Form("Invariant mass of splitted cluster with NLM>2, vs #lambda_{0}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), |
0137016b | 3623 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3624 | fhMassM02NLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
0137016b | 3625 | fhMassM02NLocMaxN[i][j]->SetXTitle("#lambda_{0}^{2}"); |
3626 | outputContainer->Add(fhMassM02NLocMaxN[i][j]) ; | |
3627 | ||
8e81c2cf | 3628 | if(fFillSSExtraHisto) |
3629 | { | |
3630 | fhMassDispEtaNLocMax1[i][j] = new TH2F(Form("hMassDispEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3631 | Form("Invariant mass of splitted cluster with #it{NLM}=1, #sigma_{#eta #eta}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3632 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3633 | fhMassDispEtaNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3634 | fhMassDispEtaNLocMax1[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
3635 | outputContainer->Add(fhMassDispEtaNLocMax1[i][j]) ; | |
3636 | ||
3637 | fhMassDispEtaNLocMax2[i][j] = new TH2F(Form("hMassDispEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3638 | Form("Invariant mass of splitted cluster with #it{NLM}=2 #sigma_{#eta #eta}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3639 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3640 | fhMassDispEtaNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3641 | fhMassDispEtaNLocMax2[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
3642 | outputContainer->Add(fhMassDispEtaNLocMax2[i][j]) ; | |
3643 | ||
3644 | fhMassDispEtaNLocMaxN[i][j] = new TH2F(Form("hMassDispEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
2a77f6f4 | 3645 | Form("Invariant mass of splitted cluster with NLM>2, #sigma_{#eta #eta}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3646 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3647 | fhMassDispEtaNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3648 | fhMassDispEtaNLocMaxN[i][j]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
3649 | outputContainer->Add(fhMassDispEtaNLocMaxN[i][j]) ; | |
3650 | ||
3651 | fhMassDispPhiNLocMax1[i][j] = new TH2F(Form("hMassDispPhiNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
c8710850 | 3652 | Form("Invariant mass of 2 highest energy cells #sigma_{#phi #phi}^{2}, E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3653 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3654 | fhMassDispPhiNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3655 | fhMassDispPhiNLocMax1[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
3656 | outputContainer->Add(fhMassDispPhiNLocMax1[i][j]) ; | |
3657 | ||
3658 | fhMassDispPhiNLocMax2[i][j] = new TH2F(Form("hMassDispPhiNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
c8710850 | 3659 | Form("Invariant mass of 2 local maxima cells #sigma_{#phi #phi}^{2}, E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3660 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 3661 | fhMassDispPhiNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3662 | fhMassDispPhiNLocMax2[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
3663 | outputContainer->Add(fhMassDispPhiNLocMax2[i][j]) ; | |
3664 | ||
3665 | fhMassDispPhiNLocMaxN[i][j] = new TH2F(Form("hMassDispPhiNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3666 | Form("Invariant mass of N>2 local maxima cells vs #sigma_{#phi #phi}^{2}, %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3667 | ssbins,ssmin,ssmax,mbins,mmin,mmax); | |
25330263 | 3668 | fhMassDispPhiNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3669 | fhMassDispPhiNLocMaxN[i][j]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
3670 | outputContainer->Add(fhMassDispPhiNLocMaxN[i][j]) ; | |
3671 | ||
3672 | fhMassDispAsyNLocMax1[i][j] = new TH2F(Form("hMassDispAsyNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
c8710850 | 3673 | Form("Invariant mass of 2 highest energy cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), E > 12 GeV,%s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3674 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 3675 | fhMassDispAsyNLocMax1[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3676 | fhMassDispAsyNLocMax1[i][j]->SetXTitle("A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); |
3677 | outputContainer->Add(fhMassDispAsyNLocMax1[i][j]) ; | |
3678 | ||
3679 | fhMassDispAsyNLocMax2[i][j] = new TH2F(Form("hMassDispAsyNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
c8710850 | 3680 | Form("Invariant mass of 2 local maxima cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), E > 12 GeV, %s %s",ptype[i].Data(),sMatched[j].Data()), |
8e81c2cf | 3681 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 3682 | fhMassDispAsyNLocMax2[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
8e81c2cf | 3683 | fhMassDispAsyNLocMax2[i][j]->SetXTitle("A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); |
3684 | outputContainer->Add(fhMassDispAsyNLocMax2[i][j]) ; | |
3685 | ||
3686 | fhMassDispAsyNLocMaxN[i][j] = new TH2F(Form("hMassDispAsyNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3687 | Form("Invariant mass of N>2 local maxima cells vsA = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3688 | 200,-1,1,mbins,mmin,mmax); | |
25330263 | 3689 | fhMassDispAsyNLocMaxN[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3690 | fhMassDispAsyNLocMaxN[i][j]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); | |
8e81c2cf | 3691 | outputContainer->Add(fhMassDispAsyNLocMaxN[i][j]) ; |
3692 | } | |
d2655d46 | 3693 | |
fc01318e | 3694 | |
b2e375c7 | 3695 | if(i > 0 && fFillMCHisto) // skip first entry in array, general case not filled |
883411b2 | 3696 | { |
3697 | fhMCGenFracNLocMax1[i][j] = new TH2F(Form("hMCGenFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3698 | Form("#lambda_{0}^{2} vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3699 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3700 | fhMCGenFracNLocMax1[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3701 | fhMCGenFracNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
883411b2 | 3702 | outputContainer->Add(fhMCGenFracNLocMax1[i][j]) ; |
3703 | ||
3704 | fhMCGenFracNLocMax2[i][j] = new TH2F(Form("hMCGenFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3705 | Form("#lambda_{0}^{2} vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3706 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3707 | fhMCGenFracNLocMax2[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3708 | fhMCGenFracNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
883411b2 | 3709 | outputContainer->Add(fhMCGenFracNLocMax2[i][j]) ; |
3710 | ||
883411b2 | 3711 | fhMCGenFracNLocMaxN[i][j] = new TH2F(Form("hMCGenFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
3712 | Form("#lambda_{0}^{2} vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), | |
3713 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3714 | fhMCGenFracNLocMaxN[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3715 | fhMCGenFracNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
883411b2 | 3716 | outputContainer->Add(fhMCGenFracNLocMaxN[i][j]) ; |
4914e781 | 3717 | |
3718 | fhMCGenFracNLocMax1NoOverlap[i][j] = new TH2F(Form("hMCGenFracNoOverlapNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
1253480f | 3719 | Form("#lambda_{0}^{2} vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
3720 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3721 | fhMCGenFracNLocMax1NoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3722 | fhMCGenFracNLocMax1NoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3723 | outputContainer->Add(fhMCGenFracNLocMax1NoOverlap[i][j]) ; |
3724 | ||
3725 | fhMCGenFracNLocMax2NoOverlap[i][j] = new TH2F(Form("hMCGenFracNoOverlapNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
1253480f | 3726 | Form("#lambda_{0}^{2} vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
3727 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3728 | fhMCGenFracNLocMax2NoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3729 | fhMCGenFracNLocMax2NoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3730 | outputContainer->Add(fhMCGenFracNLocMax2NoOverlap[i][j]) ; |
3731 | ||
3732 | fhMCGenFracNLocMaxNNoOverlap[i][j] = new TH2F(Form("hMCGenFracNoOverlapNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
1253480f | 3733 | Form("#lambda_{0}^{2} vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
3734 | nptbins,ptmin,ptmax,200,0,2); | |
25330263 | 3735 | fhMCGenFracNLocMaxNNoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
3736 | fhMCGenFracNLocMaxNNoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3737 | outputContainer->Add(fhMCGenFracNLocMaxNNoOverlap[i][j]) ; |
1253480f | 3738 | |
4914e781 | 3739 | |
5094c724 | 3740 | fhMCGenSplitEFracNLocMax1[i][j] = new TH2F(Form("hMCGenSplitEFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3741 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3742 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3743 | fhMCGenSplitEFracNLocMax1[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3744 | fhMCGenSplitEFracNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
5094c724 | 3745 | outputContainer->Add(fhMCGenSplitEFracNLocMax1[i][j]) ; |
3746 | ||
3747 | fhMCGenSplitEFracNLocMax2[i][j] = new TH2F(Form("hMCGenSplitEFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3748 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3749 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3750 | fhMCGenSplitEFracNLocMax2[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3751 | fhMCGenSplitEFracNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
5094c724 | 3752 | outputContainer->Add(fhMCGenSplitEFracNLocMax2[i][j]) ; |
3753 | ||
5094c724 | 3754 | fhMCGenSplitEFracNLocMaxN[i][j] = new TH2F(Form("hMCGenSplitEFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3755 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3756 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3757 | fhMCGenSplitEFracNLocMaxN[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3758 | fhMCGenSplitEFracNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
5094c724 | 3759 | outputContainer->Add(fhMCGenSplitEFracNLocMaxN[i][j]) ; |
1253480f | 3760 | |
4914e781 | 3761 | fhMCGenSplitEFracNLocMax1NoOverlap[i][j] = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3762 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3763 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3764 | fhMCGenSplitEFracNLocMax1NoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3765 | fhMCGenSplitEFracNLocMax1NoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3766 | outputContainer->Add(fhMCGenSplitEFracNLocMax1NoOverlap[i][j]) ; |
3767 | ||
3768 | fhMCGenSplitEFracNLocMax2NoOverlap[i][j] = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3769 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3770 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3771 | fhMCGenSplitEFracNLocMax2NoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3772 | fhMCGenSplitEFracNLocMax2NoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3773 | outputContainer->Add(fhMCGenSplitEFracNLocMax2NoOverlap[i][j]) ; |
3774 | ||
3775 | fhMCGenSplitEFracNLocMaxNNoOverlap[i][j] = new TH2F(Form("hMCGenSplitEFracNoOverlapNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3776 | Form("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3777 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 3778 | fhMCGenSplitEFracNLocMaxNNoOverlap[i][j] ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
3779 | fhMCGenSplitEFracNLocMaxNNoOverlap[i][j] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 3780 | outputContainer->Add(fhMCGenSplitEFracNLocMaxNNoOverlap[i][j]) ; |
3781 | ||
bb2d339b | 3782 | fhMCGenEFracvsSplitEFracNLocMax1[i][j] = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3783 | Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3784 | 200,0,2,200,0,2); |
25330263 | 3785 | fhMCGenEFracvsSplitEFracNLocMax1[i][j] ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}"); |
3786 | fhMCGenEFracvsSplitEFracNLocMax1[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
bb2d339b | 3787 | outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMax1[i][j]) ; |
3788 | ||
3789 | fhMCGenEFracvsSplitEFracNLocMax2[i][j] = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3790 | Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3791 | 200,0,2,200,0,2); |
25330263 | 3792 | fhMCGenEFracvsSplitEFracNLocMax2[i][j] ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}"); |
3793 | fhMCGenEFracvsSplitEFracNLocMax2[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
bb2d339b | 3794 | outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMax2[i][j]) ; |
3795 | ||
3796 | ||
3797 | fhMCGenEFracvsSplitEFracNLocMaxN[i][j] = new TH2F(Form("hMCGenEFracvsSplitEFracNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3798 | Form("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco} vs #it{E}_{gen} / #it{E}_{reco} for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3799 | 200,0,2,200,0,2); |
25330263 | 3800 | fhMCGenEFracvsSplitEFracNLocMaxN[i][j] ->SetYTitle("(#it{E}_{1 split}+#it{E}_{2 split})/#it{E}_{reco}"); |
3801 | fhMCGenEFracvsSplitEFracNLocMaxN[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
bb2d339b | 3802 | outputContainer->Add(fhMCGenEFracvsSplitEFracNLocMaxN[i][j]) ; |
3803 | ||
3804 | ||
3805 | fhMCGenEvsSplitENLocMax1[i][j] = new TH2F(Form("hMCGenEvsSplitENLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3806 | Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max = 1 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3807 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 3808 | fhMCGenEvsSplitENLocMax1[i][j] ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)"); |
3809 | fhMCGenEvsSplitENLocMax1[i][j] ->SetXTitle("#it{E}_{gen} (GeV)"); | |
bb2d339b | 3810 | outputContainer->Add(fhMCGenEvsSplitENLocMax1[i][j]) ; |
3811 | ||
3812 | fhMCGenEvsSplitENLocMax2[i][j] = new TH2F(Form("hMCGenEvsSplitENLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3813 | Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max = 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3814 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 3815 | fhMCGenEvsSplitENLocMax2[i][j] ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)"); |
3816 | fhMCGenEvsSplitENLocMax2[i][j] ->SetXTitle("#it{E}_{gen} (GeV)"); | |
bb2d339b | 3817 | outputContainer->Add(fhMCGenEvsSplitENLocMax2[i][j]) ; |
3818 | ||
3819 | ||
3820 | fhMCGenEvsSplitENLocMaxN[i][j] = new TH2F(Form("hMCGenEvsSplitENLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3821 | Form("#it{E}_{1 split}+#it{E}_{2 split} vs #it{E}_{gen} for N max > 2 %s %s",ptype[i].Data(),sMatched[j].Data()), |
1253480f | 3822 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 3823 | fhMCGenEvsSplitENLocMaxN[i][j] ->SetYTitle("#it{E}_{1 split}+#it{E}_{2 split} (GeV)"); |
3824 | fhMCGenEvsSplitENLocMaxN[i][j] ->SetXTitle("#it{E}_{gen} (GeV)"); | |
bb2d339b | 3825 | outputContainer->Add(fhMCGenEvsSplitENLocMaxN[i][j]) ; |
883411b2 | 3826 | } |
ce49dd72 | 3827 | |
1253480f | 3828 | // Histograms after cluster identification |
17f5b4b6 | 3829 | |
17f5b4b6 | 3830 | |
1253480f | 3831 | // Pi0 // |
17f5b4b6 | 3832 | |
c8710850 | 3833 | fhM02Pi0NLocMax1[i][j] = new TH2F(Form("hM02Pi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3834 | Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM = 1",ptype[i].Data()), |
1253480f | 3835 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
c8710850 | 3836 | fhM02Pi0NLocMax1[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 3837 | fhM02Pi0NLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); |
17f5b4b6 | 3838 | outputContainer->Add(fhM02Pi0NLocMax1[i][j]) ; |
5c46c992 | 3839 | |
c8710850 | 3840 | fhM02Pi0NLocMax2[i][j] = new TH2F(Form("hM02Pi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3841 | Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM = 2",ptype[i].Data()), |
1253480f | 3842 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
c8710850 | 3843 | fhM02Pi0NLocMax2[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 3844 | fhM02Pi0NLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); |
c8710850 | 3845 | outputContainer->Add(fhM02Pi0NLocMax2[i][j]) ; |
5c46c992 | 3846 | |
c8710850 | 3847 | fhM02Pi0NLocMaxN[i][j] = new TH2F(Form("hM02Pi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3848 | Form("#lambda_{0}^{2} vs #it{E}, %s, for NLM > 2",ptype[i].Data()), |
1253480f | 3849 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
c8710850 | 3850 | fhM02Pi0NLocMaxN[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 3851 | fhM02Pi0NLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); |
c8710850 | 3852 | outputContainer->Add(fhM02Pi0NLocMaxN[i][j]) ; |
5c46c992 | 3853 | |
c8710850 | 3854 | fhMassPi0NLocMax1[i][j] = new TH2F(Form("hMassPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3855 | Form("Mass vs #it{E}, %s, for NLM = 1",ptype[i].Data()), |
1253480f | 3856 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3857 | fhMassPi0NLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3858 | fhMassPi0NLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3859 | outputContainer->Add(fhMassPi0NLocMax1[i][j]) ; |
bb2d339b | 3860 | |
c8710850 | 3861 | fhMassPi0NLocMax2[i][j] = new TH2F(Form("hMassPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3862 | Form("Mass vs #it{E} , %s, for NLM = 2",ptype[i].Data()), |
1253480f | 3863 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3864 | fhMassPi0NLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3865 | fhMassPi0NLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3866 | outputContainer->Add(fhMassPi0NLocMax2[i][j]) ; |
bb2d339b | 3867 | |
c8710850 | 3868 | fhMassPi0NLocMaxN[i][j] = new TH2F(Form("hMassPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 3869 | Form("Mass vs #it{E}, %s, for NLM > 2",ptype[i].Data()), |
1253480f | 3870 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3871 | fhMassPi0NLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3872 | fhMassPi0NLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3873 | outputContainer->Add(fhMassPi0NLocMaxN[i][j]) ; |
c7e9a4e9 | 3874 | |
3875 | fhMassSplitEPi0NLocMax1[i][j] = new TH2F(Form("hMassSplitEPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3876 | Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s, for NLM = 1",ptype[i].Data()), |
c7e9a4e9 | 3877 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3878 | fhMassSplitEPi0NLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3879 | fhMassSplitEPi0NLocMax1[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3880 | outputContainer->Add(fhMassSplitEPi0NLocMax1[i][j]) ; |
3881 | ||
3882 | fhMassSplitEPi0NLocMax2[i][j] = new TH2F(Form("hMassSplitEPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3883 | Form("Mass vs #it{E}_{1}+#it{E}_{2} , %s, for NLM = 2",ptype[i].Data()), |
c7e9a4e9 | 3884 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3885 | fhMassSplitEPi0NLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3886 | fhMassSplitEPi0NLocMax2[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3887 | outputContainer->Add(fhMassSplitEPi0NLocMax2[i][j]) ; |
3888 | ||
3889 | fhMassSplitEPi0NLocMaxN[i][j] = new TH2F(Form("hMassSplitEPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 3890 | Form("Mass vs #it{E}_{1}+#it{E}_{2}, %s, for NLM > 2",ptype[i].Data()), |
c7e9a4e9 | 3891 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3892 | fhMassSplitEPi0NLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3893 | fhMassSplitEPi0NLocMaxN[i][j] ->SetXTitle("#it{E}_{1}+#it{E}_{2} (GeV)"); | |
c7e9a4e9 | 3894 | outputContainer->Add(fhMassSplitEPi0NLocMaxN[i][j]) ; |
bb2d339b | 3895 | |
c8710850 | 3896 | fhAsyPi0NLocMax1[i][j] = new TH2F(Form("hAsyPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
1253480f | 3897 | Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()), |
e671adc2 | 3898 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3899 | fhAsyPi0NLocMax1[i][j] ->SetYTitle("#it{A}"); |
3900 | fhAsyPi0NLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3901 | outputContainer->Add(fhAsyPi0NLocMax1[i][j]) ; |
e671adc2 | 3902 | |
c8710850 | 3903 | fhAsyPi0NLocMax2[i][j] = new TH2F(Form("hAsyPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), |
1253480f | 3904 | Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()), |
e671adc2 | 3905 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3906 | fhAsyPi0NLocMax2[i][j] ->SetYTitle("#it{A}"); |
3907 | fhAsyPi0NLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3908 | outputContainer->Add(fhAsyPi0NLocMax2[i][j]) ; |
e671adc2 | 3909 | |
c8710850 | 3910 | fhAsyPi0NLocMaxN[i][j] = new TH2F(Form("hAsyPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), |
1253480f | 3911 | Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()), |
e671adc2 | 3912 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 3913 | fhAsyPi0NLocMaxN[i][j] ->SetYTitle("#it{A}"); |
3914 | fhAsyPi0NLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 3915 | outputContainer->Add(fhAsyPi0NLocMaxN[i][j]) ; |
e671adc2 | 3916 | |
1253480f | 3917 | if(fFillNCellHisto) |
3918 | { | |
3919 | fhNCellPi0NLocMax1[i][j] = new TH2F(Form("hNCellPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3920 | Form("n cells vs E, %s, for NLM = 1",ptype[i].Data()), | |
3921 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3922 | fhNCellPi0NLocMax1[i][j] ->SetYTitle("#it{N} cells"); |
3923 | fhNCellPi0NLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3924 | outputContainer->Add(fhNCellPi0NLocMax1[i][j]) ; |
3925 | ||
3926 | fhNCellPi0NLocMax2[i][j] = new TH2F(Form("hNCellPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3927 | Form("n cells vs E, %s, for NLM = 2",ptype[i].Data()), | |
3928 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3929 | fhNCellPi0NLocMax2[i][j] ->SetYTitle("#it{N} cells"); |
3930 | fhNCellPi0NLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3931 | outputContainer->Add(fhNCellPi0NLocMax2[i][j]) ; |
3932 | ||
3933 | fhNCellPi0NLocMaxN[i][j] = new TH2F(Form("hNCellPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3934 | Form("n cells vs E, %s, for NLM > 2",ptype[i].Data()), | |
3935 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 3936 | fhNCellPi0NLocMaxN[i][j] ->SetYTitle("#it{N} cells"); |
3937 | fhNCellPi0NLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3938 | outputContainer->Add(fhNCellPi0NLocMaxN[i][j]) ; |
3939 | } | |
3940 | ||
3941 | // Eta | |
3942 | ||
3943 | if(fFillIdEtaHisto) | |
3944 | { | |
3945 | fhM02EtaNLocMax1[i][j] = new TH2F(Form("hM02EtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3946 | Form("#lambda_{0}^{2} vs E, %s, for NLM = 1",ptype[i].Data()), | |
3947 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3948 | fhM02EtaNLocMax1[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3949 | fhM02EtaNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3950 | outputContainer->Add(fhM02EtaNLocMax1[i][j]) ; |
3951 | ||
3952 | ||
3953 | fhM02EtaNLocMax2[i][j] = new TH2F(Form("hM02EtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3954 | Form("#lambda_{0}^{2} vs E, %s, for NLM = 2",ptype[i].Data()), | |
3955 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3956 | fhM02EtaNLocMax2[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3957 | fhM02EtaNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3958 | outputContainer->Add(fhM02EtaNLocMax2[i][j]) ; |
3959 | ||
3960 | fhM02EtaNLocMaxN[i][j] = new TH2F(Form("hM02EtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3961 | Form("#lambda_{0}^{2} vs E, %s, for NLM > 2",ptype[i].Data()), | |
3962 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
3963 | fhM02EtaNLocMaxN[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 3964 | fhM02EtaNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 3965 | outputContainer->Add(fhM02EtaNLocMaxN[i][j]) ; |
3966 | ||
3967 | fhMassEtaNLocMax1[i][j] = new TH2F(Form("hMassEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3968 | Form("Mass vs E, %s, for NLM = 1",ptype[i].Data()), | |
3969 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3970 | fhMassEtaNLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3971 | fhMassEtaNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3972 | outputContainer->Add(fhMassEtaNLocMax1[i][j]) ; |
3973 | ||
3974 | fhMassEtaNLocMax2[i][j] = new TH2F(Form("hMassEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3975 | Form("Mass vs E, %s, for NLM = 2",ptype[i].Data()), | |
3976 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3977 | fhMassEtaNLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3978 | fhMassEtaNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3979 | outputContainer->Add(fhMassEtaNLocMax2[i][j]) ; |
3980 | ||
3981 | fhMassEtaNLocMaxN[i][j] = new TH2F(Form("hMassEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
3982 | Form("Mass vs E, %s, for NLM > 2",ptype[i].Data()), | |
3983 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3984 | fhMassEtaNLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
3985 | fhMassEtaNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3986 | outputContainer->Add(fhMassEtaNLocMaxN[i][j]) ; |
3987 | ||
3988 | fhAsyEtaNLocMax1[i][j] = new TH2F(Form("hAsyEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
3989 | Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()), | |
3990 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3991 | fhAsyEtaNLocMax1[i][j] ->SetYTitle("#it{A}"); |
3992 | fhAsyEtaNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 3993 | outputContainer->Add(fhAsyEtaNLocMax1[i][j]) ; |
3994 | ||
3995 | fhAsyEtaNLocMax2[i][j] = new TH2F(Form("hAsyEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
3996 | Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()), | |
3997 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 3998 | fhAsyEtaNLocMax2[i][j] ->SetYTitle("#it{A}"); |
3999 | fhAsyEtaNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4000 | outputContainer->Add(fhAsyEtaNLocMax2[i][j]) ; |
4001 | ||
4002 | fhAsyEtaNLocMaxN[i][j] = new TH2F(Form("hAsyEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4003 | Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()), | |
4004 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4005 | fhAsyEtaNLocMaxN[i][j] ->SetYTitle("#it{A}"); |
4006 | fhAsyEtaNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4007 | outputContainer->Add(fhAsyEtaNLocMaxN[i][j]) ; |
4008 | ||
4009 | if(fFillNCellHisto) | |
4010 | { | |
4011 | fhNCellEtaNLocMax1[i][j] = new TH2F(Form("hNCellEtaNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
4012 | Form("n cells vs E, %s, for NLM = 1",ptype[i].Data()), | |
4013 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 4014 | fhNCellEtaNLocMax1[i][j] ->SetYTitle("#it{N} cells"); |
4015 | fhNCellEtaNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4016 | outputContainer->Add(fhNCellEtaNLocMax1[i][j]) ; |
4017 | ||
4018 | fhNCellEtaNLocMax2[i][j] = new TH2F(Form("hNCellEtaNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
4019 | Form("n cells vs E, %s, for NLM = 2",ptype[i].Data()), | |
4020 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 4021 | fhNCellEtaNLocMax2[i][j] ->SetYTitle("#it{N} cells"); |
4022 | fhNCellEtaNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4023 | outputContainer->Add(fhNCellEtaNLocMax2[i][j]) ; |
4024 | ||
4025 | fhNCellEtaNLocMaxN[i][j] = new TH2F(Form("hNCellEtaNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4026 | Form("n cells vs E, %s, for NLM > 2",ptype[i].Data()), | |
4027 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); | |
25330263 | 4028 | fhNCellEtaNLocMaxN[i][j] ->SetYTitle("#it{N} cells"); |
4029 | fhNCellEtaNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4030 | outputContainer->Add(fhNCellEtaNLocMaxN[i][j]) ; |
4031 | ||
4032 | } | |
4033 | } | |
4034 | ||
4035 | if(fFillIdConvHisto) | |
4036 | { | |
4037 | fhM02ConNLocMax1[i][j] = new TH2F(Form("hM02ConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
4038 | Form("#lambda_{0}^{2} vs E, %s, for NLM = 1",ptype[i].Data()), | |
4039 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
4040 | fhM02ConNLocMax1[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 4041 | fhM02ConNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 4042 | outputContainer->Add(fhM02ConNLocMax1[i][j]) ; |
4043 | ||
4044 | fhM02ConNLocMax2[i][j] = new TH2F(Form("hM02ConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
4045 | Form("#lambda_{0}^{2} vs E, %s, for NLM = 2",ptype[i].Data()), | |
4046 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
4047 | fhM02ConNLocMax2[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 4048 | fhM02ConNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 4049 | outputContainer->Add(fhM02ConNLocMax2[i][j]) ; |
4050 | ||
4051 | fhM02ConNLocMaxN[i][j] = new TH2F(Form("hM02ConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4052 | Form("#lambda_{0}^{2} vs E, %s, for NLM > 2",ptype[i].Data()), | |
4053 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
4054 | fhM02ConNLocMaxN[i][j] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 4055 | fhM02ConNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); |
1253480f | 4056 | outputContainer->Add(fhM02ConNLocMaxN[i][j]) ; |
4057 | ||
4058 | ||
4059 | fhMassConNLocMax1[i][j] = new TH2F(Form("hMassConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
4060 | Form("Mass vs E, %s, for NLM = 1",ptype[i].Data()), | |
4061 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4062 | fhMassConNLocMax1[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4063 | fhMassConNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4064 | outputContainer->Add(fhMassConNLocMax1[i][j]) ; |
4065 | ||
4066 | fhMassConNLocMax2[i][j] = new TH2F(Form("hMassConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
4067 | Form("Mass vs E, %s, for NLM = 2",ptype[i].Data()), | |
4068 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4069 | fhMassConNLocMax2[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4070 | fhMassConNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4071 | outputContainer->Add(fhMassConNLocMax2[i][j]) ; |
4072 | ||
4073 | fhMassConNLocMaxN[i][j] = new TH2F(Form("hMassConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4074 | Form("Mass vs E, %s, for NLM > 2",ptype[i].Data()), | |
4075 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4076 | fhMassConNLocMaxN[i][j] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4077 | fhMassConNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4078 | outputContainer->Add(fhMassConNLocMaxN[i][j]) ; |
4079 | ||
4080 | fhAsyConNLocMax1[i][j] = new TH2F(Form("hAsyConNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
4081 | Form("Asymmetry vs E, %s, for NLM = 1",ptype[i].Data()), | |
4082 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4083 | fhAsyConNLocMax1[i][j] ->SetYTitle("#it{A}"); |
4084 | fhAsyConNLocMax1[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4085 | outputContainer->Add(fhAsyConNLocMax1[i][j]) ; |
4086 | ||
4087 | fhAsyConNLocMax2[i][j] = new TH2F(Form("hAsyConNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
4088 | Form("Asymmetry vs E, %s, for NLM = 2",ptype[i].Data()), | |
4089 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4090 | fhAsyConNLocMax2[i][j] ->SetYTitle("#it{A}"); |
4091 | fhAsyConNLocMax2[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4092 | outputContainer->Add(fhAsyConNLocMax2[i][j]) ; |
4093 | ||
4094 | fhAsyConNLocMaxN[i][j] = new TH2F(Form("hAsyConNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4095 | Form("Asymmetry vs E, %s, for NLM > 2",ptype[i].Data()), | |
4096 | nptbins,ptmin,ptmax,mbins,mmin,mmax); | |
25330263 | 4097 | fhAsyConNLocMaxN[i][j] ->SetYTitle("#it{A}"); |
4098 | fhAsyConNLocMaxN[i][j] ->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4099 | outputContainer->Add(fhAsyConNLocMaxN[i][j]) ; |
4100 | ||
4101 | } | |
e671adc2 | 4102 | |
5c46c992 | 4103 | } // matched, not matched |
4104 | ||
19391b8c | 4105 | if(fFillEbinHisto) |
4106 | { | |
883411b2 | 4107 | for(Int_t j = 0; j < 4; j++) |
19391b8c | 4108 | { |
53f2c382 | 4109 | |
fc01318e | 4110 | fhMassSplitEFractionNLocMax1Ebin[i][j] = new TH2F(Form("hMassSplitEFractionNLocMax1%sEbin%d",pname[i].Data(),j), |
25330263 | 4111 | Form("Invariant mass of 2 highest energy cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4112 | 120,0,1.2,mbins,mmin,mmax); |
25330263 | 4113 | fhMassSplitEFractionNLocMax1Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4114 | fhMassSplitEFractionNLocMax1Ebin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
19391b8c | 4115 | outputContainer->Add(fhMassSplitEFractionNLocMax1Ebin[i][j]) ; |
883411b2 | 4116 | |
fc01318e | 4117 | fhMassSplitEFractionNLocMax2Ebin[i][j] = new TH2F(Form("hMassSplitEFractionNLocMax2%sEbin%d",pname[i].Data(),j), |
25330263 | 4118 | Form("Invariant mass of 2 local maxima cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4119 | 120,0,1.2,mbins,mmin,mmax); |
25330263 | 4120 | fhMassSplitEFractionNLocMax2Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4121 | fhMassSplitEFractionNLocMax2Ebin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
19391b8c | 4122 | outputContainer->Add(fhMassSplitEFractionNLocMax2Ebin[i][j]) ; |
883411b2 | 4123 | |
fc01318e | 4124 | fhMassSplitEFractionNLocMaxNEbin[i][j] = new TH2F(Form("hMassSplitEFractionNLocMaxN%sEbin%d",pname[i].Data(),j), |
25330263 | 4125 | Form("Invariant mass of N>2 local maxima cells vs (#it{E}_{1}+#it{E}_{2})/Ecluster, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4126 | 120,0,1.2,mbins,mmin,mmax); |
25330263 | 4127 | fhMassSplitEFractionNLocMaxNEbin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4128 | fhMassSplitEFractionNLocMaxNEbin[i][j]->SetXTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
19391b8c | 4129 | outputContainer->Add(fhMassSplitEFractionNLocMaxNEbin[i][j]) ; |
883411b2 | 4130 | |
b2e375c7 | 4131 | if(i>0 && fFillMCHisto) // skip first entry in array, general case not filled |
fc01318e | 4132 | { |
4133 | fhMCGenFracNLocMaxEbin[i][j] = new TH2F(Form("hMCGenFracNLocMax%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4134 | Form("NLM vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4135 | 200,0,2,nMaxBins,0,nMaxBins); |
25330263 | 4136 | fhMCGenFracNLocMaxEbin[i][j]->SetYTitle("#it{NLM}"); |
4137 | fhMCGenFracNLocMaxEbin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
19391b8c | 4138 | outputContainer->Add(fhMCGenFracNLocMaxEbin[i][j]) ; |
fc01318e | 4139 | |
4140 | fhMCGenFracNLocMaxEbinMatched[i][j] = new TH2F(Form("hMCGenFracNLocMax%sEbin%dMatched",pname[i].Data(),j), | |
be894c1d | 4141 | Form("NLM vs E, %s, %s, matched to a track",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4142 | 200,0,2,nMaxBins,0,nMaxBins); |
25330263 | 4143 | fhMCGenFracNLocMaxEbinMatched[i][j]->SetYTitle("#it{NLM}"); |
4144 | fhMCGenFracNLocMaxEbinMatched[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
19391b8c | 4145 | outputContainer->Add(fhMCGenFracNLocMaxEbinMatched[i][j]) ; |
fc01318e | 4146 | |
4147 | fhMassMCGenFracNLocMax1Ebin[i][j] = new TH2F(Form("hMassMCGenFracNLocMax1%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4148 | Form("Invariant mass of 2 highest energy cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4149 | 200,0,2,mbins,mmin,mmax); |
25330263 | 4150 | fhMassMCGenFracNLocMax1Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4151 | fhMassMCGenFracNLocMax1Ebin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
19391b8c | 4152 | outputContainer->Add(fhMassMCGenFracNLocMax1Ebin[i][j]) ; |
fc01318e | 4153 | |
4154 | fhMassMCGenFracNLocMax2Ebin[i][j] = new TH2F(Form("hMassMCGenFracNLocMax2%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4155 | Form("Invariant mass of 2 local maxima cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4156 | 200,0,2,mbins,mmin,mmax); |
25330263 | 4157 | fhMassMCGenFracNLocMax2Ebin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4158 | fhMassMCGenFracNLocMax2Ebin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
19391b8c | 4159 | outputContainer->Add(fhMassMCGenFracNLocMax2Ebin[i][j]) ; |
fc01318e | 4160 | |
4161 | fhMassMCGenFracNLocMaxNEbin[i][j] = new TH2F(Form("hMassMCGenFracNLocMaxN%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4162 | Form("Invariant mass of N>2 local maxima cells vs E, %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4163 | 200,0,2,mbins,mmin,mmax); |
25330263 | 4164 | fhMassMCGenFracNLocMaxNEbin[i][j]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4165 | fhMassMCGenFracNLocMaxNEbin[i][j]->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); | |
19391b8c | 4166 | outputContainer->Add(fhMassMCGenFracNLocMaxNEbin[i][j]) ; |
fc01318e | 4167 | |
4168 | fhM02MCGenFracNLocMax1Ebin[i][j] = new TH2F(Form("hM02MCGenFracNLocMax1%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4169 | Form("#lambda_{0}^{2} vs E for N max = 1 %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4170 | 200,0,2,ssbins,ssmin,ssmax); |
fc01318e | 4171 | fhM02MCGenFracNLocMax1Ebin[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 4172 | fhM02MCGenFracNLocMax1Ebin[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); |
19391b8c | 4173 | outputContainer->Add(fhM02MCGenFracNLocMax1Ebin[i][j]) ; |
fc01318e | 4174 | |
4175 | fhM02MCGenFracNLocMax2Ebin[i][j] = new TH2F(Form("hM02MCGenFracNLocMax2%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4176 | Form("#lambda_{0}^{2} vs E for N max = 2 %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4177 | 200,0,2,ssbins,ssmin,ssmax); |
fc01318e | 4178 | fhM02MCGenFracNLocMax2Ebin[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 4179 | fhM02MCGenFracNLocMax2Ebin[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); |
19391b8c | 4180 | outputContainer->Add(fhM02MCGenFracNLocMax2Ebin[i][j]) ; |
fc01318e | 4181 | |
4182 | fhM02MCGenFracNLocMaxNEbin[i][j] = new TH2F(Form("hM02MCGenFracNLocMaxN%sEbin%d",pname[i].Data(),j), | |
be894c1d | 4183 | Form("#lambda_{0}^{2} vs E for N max > 2 %s, %s",ptype[i].Data(),sEBin[j].Data()), |
19391b8c | 4184 | 200,0,2,ssbins,ssmin,ssmax); |
fc01318e | 4185 | fhM02MCGenFracNLocMaxNEbin[i][j] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 4186 | fhM02MCGenFracNLocMaxNEbin[i][j] ->SetXTitle("#it{E}_{gen} / #it{E}_{reco}"); |
19391b8c | 4187 | outputContainer->Add(fhM02MCGenFracNLocMaxNEbin[i][j]) ; |
fc01318e | 4188 | } |
883411b2 | 4189 | } |
19391b8c | 4190 | } |
5c46c992 | 4191 | } // MC particle list |
1253480f | 4192 | |
4193 | if(fFillHighMultHisto) | |
4194 | { | |
4195 | // E vs centrality | |
4196 | ||
4197 | fhCentralityPi0NLocMax1 = new TH2F("hCentralityPi0NLocMax1", | |
25330263 | 4198 | "E vs Centrality, selected pi0 cluster with #it{NLM}=1", |
1253480f | 4199 | nptbins,ptmin,ptmax,100,0,100); |
25330263 | 4200 | fhCentralityPi0NLocMax1->SetYTitle("#it{Centrality}"); |
4201 | fhCentralityPi0NLocMax1->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4202 | outputContainer->Add(fhCentralityPi0NLocMax1) ; |
4203 | ||
4204 | fhCentralityPi0NLocMax2 = new TH2F("hCentralityPi0NLocMax2", | |
25330263 | 4205 | "E vs Centrality, selected pi0 cluster with #it{NLM}=2", |
1253480f | 4206 | nptbins,ptmin,ptmax,100,0,100); |
25330263 | 4207 | fhCentralityPi0NLocMax2->SetYTitle("#it{Centrality}"); |
4208 | fhCentralityPi0NLocMax2->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4209 | outputContainer->Add(fhCentralityPi0NLocMax2) ; |
4210 | ||
4211 | fhCentralityPi0NLocMaxN = new TH2F("hCentralityPi0NLocMaxN", | |
4212 | "E vs Centrality, selected pi0 cluster with NLM>1", | |
4213 | nptbins,ptmin,ptmax,100,0,100); | |
25330263 | 4214 | fhCentralityPi0NLocMaxN->SetYTitle("#it{Centrality}"); |
4215 | fhCentralityPi0NLocMaxN->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4216 | outputContainer->Add(fhCentralityPi0NLocMaxN) ; |
4217 | ||
4218 | if(fFillIdEtaHisto) | |
4219 | { | |
4220 | fhCentralityEtaNLocMax1 = new TH2F("hCentralityEtaNLocMax1", | |
25330263 | 4221 | "E vs Centrality, selected pi0 cluster with #it{NLM}=1", |
1253480f | 4222 | nptbins,ptmin,ptmax,100,0,100); |
25330263 | 4223 | fhCentralityEtaNLocMax1->SetYTitle("#it{Centrality}"); |
4224 | fhCentralityEtaNLocMax1->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4225 | outputContainer->Add(fhCentralityEtaNLocMax1) ; |
4226 | ||
4227 | fhCentralityEtaNLocMax2 = new TH2F("hCentralityEtaNLocMax2", | |
25330263 | 4228 | "E vs Centrality, selected pi0 cluster with #it{NLM}=2", |
1253480f | 4229 | nptbins,ptmin,ptmax,100,0,100); |
25330263 | 4230 | fhCentralityEtaNLocMax2->SetYTitle("#it{Centrality}"); |
4231 | fhCentralityEtaNLocMax2->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4232 | outputContainer->Add(fhCentralityEtaNLocMax2) ; |
4233 | ||
4234 | fhCentralityEtaNLocMaxN = new TH2F("hCentralityEtaNLocMaxN", | |
4235 | "E vs Centrality, selected pi0 cluster with NLM>1", | |
4236 | nptbins,ptmin,ptmax,100,0,100); | |
25330263 | 4237 | fhCentralityEtaNLocMaxN->SetYTitle("#it{Centrality}"); |
4238 | fhCentralityEtaNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4239 | outputContainer->Add(fhCentralityEtaNLocMaxN) ; |
4240 | } | |
4241 | ||
4242 | // E vs Event plane angle | |
4243 | ||
25330263 | 4244 | fhEventPlanePi0NLocMax1 = new TH2F("hEventPlanePi0NLocMax1","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=1", |
1253480f | 4245 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); |
25330263 | 4246 | fhEventPlanePi0NLocMax1->SetYTitle("#it{Event Plane Angle} (rad)"); |
4247 | fhEventPlanePi0NLocMax1->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4248 | outputContainer->Add(fhEventPlanePi0NLocMax1) ; |
4249 | ||
25330263 | 4250 | fhEventPlanePi0NLocMax2 = new TH2F("hEventPlanePi0NLocMax2","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=2", |
1253480f | 4251 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); |
25330263 | 4252 | fhEventPlanePi0NLocMax2->SetYTitle("#it{Event Plane Angle} (rad)"); |
4253 | fhEventPlanePi0NLocMax2->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4254 | outputContainer->Add(fhEventPlanePi0NLocMax2) ; |
4255 | ||
4256 | fhEventPlanePi0NLocMaxN = new TH2F("hEventPlanePi0NLocMaxN","E vs Event Plane Angle, selected pi0 cluster with NLM>1", | |
4257 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); | |
25330263 | 4258 | fhEventPlanePi0NLocMaxN->SetYTitle("#it{Event Plane Angle} (rad)"); |
4259 | fhEventPlanePi0NLocMaxN->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4260 | outputContainer->Add(fhEventPlanePi0NLocMaxN) ; |
4261 | ||
4262 | if(fFillIdEtaHisto) | |
4263 | { | |
25330263 | 4264 | fhEventPlaneEtaNLocMax1 = new TH2F("hEventPlaneEtaNLocMax1","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=1", |
1253480f | 4265 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); |
25330263 | 4266 | fhEventPlaneEtaNLocMax1->SetYTitle("#it{Event Plane Angle} (rad)"); |
4267 | fhEventPlaneEtaNLocMax1->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4268 | outputContainer->Add(fhEventPlaneEtaNLocMax1) ; |
4269 | ||
25330263 | 4270 | fhEventPlaneEtaNLocMax2 = new TH2F("hEventPlaneEtaNLocMax2","E vs Event Plane Angle, selected pi0 cluster with #it{NLM}=2", |
1253480f | 4271 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); |
25330263 | 4272 | fhEventPlaneEtaNLocMax2->SetYTitle("#it{Event Plane Angle} (rad)"); |
4273 | fhEventPlaneEtaNLocMax2->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4274 | outputContainer->Add(fhEventPlaneEtaNLocMax2) ; |
4275 | ||
4276 | fhEventPlaneEtaNLocMaxN = new TH2F("hEventPlaneEtaNLocMaxN","E vs Event Plane Angle, selected pi0 cluster with NLM>1", | |
4277 | nptbins,ptmin,ptmax,100,0,TMath::Pi()); | |
25330263 | 4278 | fhEventPlaneEtaNLocMaxN->SetYTitle("#it{Event Plane Angle} (rad)"); |
4279 | fhEventPlaneEtaNLocMaxN->SetXTitle("#it{E} (GeV)"); | |
1253480f | 4280 | outputContainer->Add(fhEventPlaneEtaNLocMaxN) ; |
4281 | } | |
4282 | } | |
17f5b4b6 | 4283 | |
19391b8c | 4284 | if(fFillEbinHisto) |
4285 | { | |
4286 | for(Int_t i = 0; i < 4; i++) | |
8e81c2cf | 4287 | { |
19391b8c | 4288 | fhMassM02NLocMax1Ebin[i] = new TH2F(Form("hMassM02NLocMax1Ebin%d",i), |
25330263 | 4289 | Form("Invariant mass of split clusters vs #lambda_{0}^{2}, #it{NLM}=1, %s",sEBin[i].Data()), |
19391b8c | 4290 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4291 | fhMassM02NLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4292 | fhMassM02NLocMax1Ebin[i]->SetXTitle("#lambda_{0}^{2}"); |
4293 | outputContainer->Add(fhMassM02NLocMax1Ebin[i]) ; | |
4294 | ||
4295 | fhMassM02NLocMax2Ebin[i] = new TH2F(Form("hMassM02NLocMax2Ebin%d",i), | |
25330263 | 4296 | Form("Invariant mass of split clusters vs #lambda_{0}^{2}, #it{NLM}=2, %s",sEBin[i].Data()), |
19391b8c | 4297 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4298 | fhMassM02NLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4299 | fhMassM02NLocMax2Ebin[i]->SetXTitle("#lambda_{0}^{2}"); |
4300 | outputContainer->Add(fhMassM02NLocMax2Ebin[i]) ; | |
4301 | ||
4302 | fhMassM02NLocMaxNEbin[i] = new TH2F(Form("hMassM02NLocMaxNEbin%d",i), | |
be894c1d | 4303 | Form("Invariant mass of split clusters vs vs #lambda_{0}^{2}, NLM>2, %s",sEBin[i].Data()), |
19391b8c | 4304 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4305 | fhMassM02NLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4306 | fhMassM02NLocMaxNEbin[i]->SetXTitle("#lambda_{0}^{2}"); |
4307 | outputContainer->Add(fhMassM02NLocMaxNEbin[i]) ; | |
4308 | ||
4309 | ||
4310 | fhMassAsyNLocMax1Ebin[i] = new TH2F(Form("hMassAsyNLocMax1Ebin%d",i), | |
25330263 | 4311 | Form("Invariant mass of split clusters vs split asymmetry, #it{NLM}=1, %s",sEBin[i].Data()), |
19391b8c | 4312 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4313 | fhMassAsyNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4314 | fhMassAsyNLocMax1Ebin[i]->SetXTitle("asymmetry"); |
4315 | outputContainer->Add(fhMassAsyNLocMax1Ebin[i]) ; | |
4316 | ||
4317 | fhMassAsyNLocMax2Ebin[i] = new TH2F(Form("hMassAsyNLocMax2Ebin%d",i), | |
25330263 | 4318 | Form("Invariant mass of split clusters vs split asymmetry, #it{NLM}=2, %s",sEBin[i].Data()), |
19391b8c | 4319 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4320 | fhMassAsyNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4321 | fhMassAsyNLocMax2Ebin[i]->SetXTitle("asymmetry"); |
4322 | outputContainer->Add(fhMassAsyNLocMax2Ebin[i]) ; | |
4323 | ||
4324 | fhMassAsyNLocMaxNEbin[i] = new TH2F(Form("hMassAsyNLocMaxNEbin%d",i), | |
be894c1d | 4325 | Form("Invariant mass of split clusters vs split asymmetry, NLM>2, %s",sEBin[i].Data()), |
19391b8c | 4326 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4327 | fhMassAsyNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4328 | fhMassAsyNLocMaxNEbin[i]->SetXTitle("asymmetry"); |
4329 | outputContainer->Add(fhMassAsyNLocMaxNEbin[i]) ; | |
4330 | ||
4331 | ||
b2e375c7 | 4332 | if(IsDataMC() && fFillMCHisto) |
19391b8c | 4333 | { |
4334 | fhMCAsymM02NLocMax1MCPi0Ebin[i] = new TH2F(Form("hMCAsymM02NLocMax1MCPi0Ebin%d",i), | |
25330263 | 4335 | Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, #it{NLM}=1, %s",sEBin[i].Data()), |
19391b8c | 4336 | ssbins,ssmin,ssmax,100,0,1); |
4337 | fhMCAsymM02NLocMax1MCPi0Ebin[i]->SetYTitle("Decay asymmetry"); | |
4338 | fhMCAsymM02NLocMax1MCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}"); | |
4339 | outputContainer->Add(fhMCAsymM02NLocMax1MCPi0Ebin[i]) ; | |
4340 | ||
4341 | fhMCAsymM02NLocMax2MCPi0Ebin[i] = new TH2F(Form("hMCAsymM02NLocMax2MCPi0Ebin%d",i), | |
25330263 | 4342 | Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, #it{NLM}=2, %s",sEBin[i].Data()), |
19391b8c | 4343 | ssbins,ssmin,ssmax,100,0,1); |
4344 | fhMCAsymM02NLocMax2MCPi0Ebin[i]->SetYTitle("Decay asymmetry"); | |
4345 | fhMCAsymM02NLocMax2MCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}"); | |
4346 | outputContainer->Add(fhMCAsymM02NLocMax2MCPi0Ebin[i]) ; | |
4347 | ||
4348 | fhMCAsymM02NLocMaxNMCPi0Ebin[i] = new TH2F(Form("hMCAsymM02NLocMaxNMCPi0Ebin%d",i), | |
be894c1d | 4349 | Form("Asymmetry of MC #pi^{0} vs #lambda_{0}^{2}, NLM>2, %s",sEBin[i].Data()), |
19391b8c | 4350 | ssbins,ssmin,ssmax,100,0,1); |
4351 | fhMCAsymM02NLocMaxNMCPi0Ebin[i]->SetYTitle("Decay asymmetry"); | |
4352 | fhMCAsymM02NLocMaxNMCPi0Ebin[i]->SetXTitle("#lambda_{0}^{2}"); | |
4353 | outputContainer->Add(fhMCAsymM02NLocMaxNMCPi0Ebin[i]) ; | |
4354 | ||
4355 | ||
4356 | fhAsyMCGenRecoNLocMax1EbinPi0[i] = new TH2F(Form("hAsyMCGenRecoNLocMax1Ebin%dPi0",i), | |
25330263 | 4357 | Form("Generated vs reconstructed asymmetry of split clusters from pi0, #it{NLM}=1, %s",sEBin[i].Data()), |
19391b8c | 4358 | 200,-1,1,200,-1,1); |
25330263 | 4359 | fhAsyMCGenRecoNLocMax1EbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4360 | fhAsyMCGenRecoNLocMax1EbinPi0[i]->SetXTitle("#it{A}"); | |
19391b8c | 4361 | outputContainer->Add(fhAsyMCGenRecoNLocMax1EbinPi0[i]) ; |
4362 | ||
4363 | fhAsyMCGenRecoNLocMax2EbinPi0[i] = new TH2F(Form("hAsyMCGenRecoNLocMax2Ebin%dPi0",i), | |
25330263 | 4364 | Form("Generated vs reconstructed asymmetry of split clusters from pi0, #it{NLM}=2, %s",sEBin[i].Data()), |
19391b8c | 4365 | 200,-1,1,200,-1,1); |
25330263 | 4366 | fhAsyMCGenRecoNLocMax2EbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4367 | fhAsyMCGenRecoNLocMax2EbinPi0[i]->SetXTitle("#it{A}"); | |
19391b8c | 4368 | outputContainer->Add(fhAsyMCGenRecoNLocMax2EbinPi0[i]) ; |
4369 | ||
4370 | fhAsyMCGenRecoNLocMaxNEbinPi0[i] = new TH2F(Form("hAsyMCGenRecoNLocMaxNEbin%dPi0",i), | |
be894c1d | 4371 | Form("Generated vs reconstructed asymmetry of split clusters from pi0, NLM>2, %s",sEBin[i].Data()), |
19391b8c | 4372 | 200,-1,1,200,-1,1); |
25330263 | 4373 | fhAsyMCGenRecoNLocMaxNEbinPi0[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4374 | fhAsyMCGenRecoNLocMaxNEbinPi0[i]->SetXTitle("#it{A}"); | |
19391b8c | 4375 | outputContainer->Add(fhAsyMCGenRecoNLocMaxNEbinPi0[i]) ; |
4376 | } | |
4377 | ||
4378 | if(fFillSSExtraHisto) | |
4379 | { | |
4380 | fhMassDispEtaNLocMax1Ebin[i] = new TH2F(Form("hMassDispEtaNLocMax1Ebin%d",i), | |
be894c1d | 4381 | Form("Invariant mass of 2 highest energy cells #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4382 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4383 | fhMassDispEtaNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4384 | fhMassDispEtaNLocMax1Ebin[i]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
4385 | outputContainer->Add(fhMassDispEtaNLocMax1Ebin[i]) ; | |
4386 | ||
4387 | fhMassDispEtaNLocMax2Ebin[i] = new TH2F(Form("hMassDispEtaNLocMax2Ebin%d",i), | |
be894c1d | 4388 | Form("Invariant mass of 2 local maxima cells #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4389 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4390 | fhMassDispEtaNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4391 | fhMassDispEtaNLocMax2Ebin[i]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
4392 | outputContainer->Add(fhMassDispEtaNLocMax2Ebin[i]) ; | |
4393 | ||
4394 | fhMassDispEtaNLocMaxNEbin[i] = new TH2F(Form("hMassDispEtaNLocMaxNEbin%d",i), | |
be894c1d | 4395 | Form("Invariant mass of N>2 local maxima cells vs #sigma_{#eta #eta}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4396 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4397 | fhMassDispEtaNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4398 | fhMassDispEtaNLocMaxNEbin[i]->SetXTitle("#sigma_{#eta #eta}^{2}"); |
4399 | outputContainer->Add(fhMassDispEtaNLocMaxNEbin[i]) ; | |
4400 | ||
4401 | fhMassDispPhiNLocMax1Ebin[i] = new TH2F(Form("hMassDispPhiNLocMax1Ebin%d",i), | |
be894c1d | 4402 | Form("Invariant mass of 2 highest energy cells #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4403 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4404 | fhMassDispPhiNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4405 | fhMassDispPhiNLocMax1Ebin[i]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
4406 | outputContainer->Add(fhMassDispPhiNLocMax1Ebin[i]) ; | |
4407 | ||
4408 | fhMassDispPhiNLocMax2Ebin[i] = new TH2F(Form("hMassDispPhiNLocMax2Ebin%d",i), | |
be894c1d | 4409 | Form("Invariant mass of 2 local maxima cells #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4410 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4411 | fhMassDispPhiNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4412 | fhMassDispPhiNLocMax2Ebin[i]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
4413 | outputContainer->Add(fhMassDispPhiNLocMax2Ebin[i]) ; | |
4414 | ||
4415 | fhMassDispPhiNLocMaxNEbin[i] = new TH2F(Form("hMassDispPhiNLocMaxNEbin%d",i), | |
be894c1d | 4416 | Form("Invariant mass of N>2 local maxima cells vs #sigma_{#phi #phi}^{2}, %s",sEBin[i].Data()), |
19391b8c | 4417 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 4418 | fhMassDispPhiNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
19391b8c | 4419 | fhMassDispPhiNLocMaxNEbin[i]->SetXTitle("#sigma_{#phi #phi}^{2}"); |
4420 | outputContainer->Add(fhMassDispPhiNLocMaxNEbin[i]) ; | |
4421 | ||
4422 | fhMassDispAsyNLocMax1Ebin[i] = new TH2F(Form("hMassDispAsyNLocMax1Ebin%d",i), | |
be894c1d | 4423 | Form("Invariant mass of 2 highest energy cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()), |
19391b8c | 4424 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4425 | fhMassDispAsyNLocMax1Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4426 | fhMassDispAsyNLocMax1Ebin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); | |
19391b8c | 4427 | outputContainer->Add(fhMassDispAsyNLocMax1Ebin[i]) ; |
4428 | ||
4429 | fhMassDispAsyNLocMax2Ebin[i] = new TH2F(Form("hMassDispAsyNLocMax2Ebin%d",i), | |
be894c1d | 4430 | Form("Invariant mass of 2 local maxima cells A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()), |
19391b8c | 4431 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4432 | fhMassDispAsyNLocMax2Ebin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4433 | fhMassDispAsyNLocMax2Ebin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); | |
19391b8c | 4434 | outputContainer->Add(fhMassDispAsyNLocMax2Ebin[i]) ; |
4435 | ||
4436 | fhMassDispAsyNLocMaxNEbin[i] = new TH2F(Form("hMassDispAsyNLocMaxNEbin%d",i), | |
be894c1d | 4437 | Form("Invariant mass of N>2 local maxima cells vs A = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2}), %s",sEBin[i].Data()), |
19391b8c | 4438 | 200,-1,1,mbins,mmin,mmax); |
25330263 | 4439 | fhMassDispAsyNLocMaxNEbin[i]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
4440 | fhMassDispAsyNLocMaxNEbin[i]->SetXTitle("#it{A} = (#sigma_{#phi #phi}^{2} - #sigma_{#eta #eta}^{2}) / (#sigma_{#phi #phi}^{2} + #sigma_{#eta #eta}^{2})"); | |
19391b8c | 4441 | outputContainer->Add(fhMassDispAsyNLocMaxNEbin[i]) ; |
4442 | } | |
8e81c2cf | 4443 | } |
19391b8c | 4444 | } |
1253480f | 4445 | |
c7e9a4e9 | 4446 | if(IsDataMC() && fFillMCHisto && (asyOn || m02On)) |
c8710850 | 4447 | { |
4448 | fhMCGenSplitEFracAfterCutsNLocMax1MCPi0 = new TH2F("hMCGenSplitEFracAfterCutsNLocMax1MCPi0", | |
25330263 | 4449 | "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 1 MC Pi0, after M02 and Asym cut", |
c8710850 | 4450 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4451 | fhMCGenSplitEFracAfterCutsNLocMax1MCPi0 ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
4452 | fhMCGenSplitEFracAfterCutsNLocMax1MCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4453 | outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMax1MCPi0) ; |
4454 | ||
4455 | fhMCGenSplitEFracAfterCutsNLocMax2MCPi0 = new TH2F("hMCGenSplitEFracAfterCutsNLocMax2MCPi0", | |
25330263 | 4456 | "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max = 2 MC Pi0, after M02 and Asym cut", |
c8710850 | 4457 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4458 | fhMCGenSplitEFracAfterCutsNLocMax2MCPi0 ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
4459 | fhMCGenSplitEFracAfterCutsNLocMax2MCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4460 | outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMax2MCPi0) ; |
4461 | ||
4462 | ||
4463 | fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0 = new TH2F("hMCGenSplitEFracAfterCutsNLocMaxNMCPi0", | |
25330263 | 4464 | "#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split}) vs E for N max > 2 MC Pi0, after M02 and Asym cut", |
c8710850 | 4465 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4466 | fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0 ->SetYTitle("#it{E}_{gen} / (#it{E}_{1 split}+#it{E}_{2 split})"); |
4467 | fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4468 | outputContainer->Add(fhMCGenSplitEFracAfterCutsNLocMaxNMCPi0) ; |
4469 | ||
4470 | fhMCGenFracAfterCutsNLocMax1MCPi0 = new TH2F("hMCGenFracAfterCutsNLocMax1MCPi0", | |
25330263 | 4471 | "#it{E}_{gen} / #it{E}_{reco} vs #it{E}_{reco} for N max = 1 MC Pi0, after M02 and Asym cut", |
c8710850 | 4472 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4473 | fhMCGenFracAfterCutsNLocMax1MCPi0 ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
4474 | fhMCGenFracAfterCutsNLocMax1MCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4475 | outputContainer->Add(fhMCGenFracAfterCutsNLocMax1MCPi0) ; |
4476 | ||
4477 | fhMCGenFracAfterCutsNLocMax2MCPi0 = new TH2F("hMCGenFracAfterCutsNLocMax2MCPi0", | |
25330263 | 4478 | " #it{E}_{gen} / #it{E}_{reco} vs #it{E}_{reco} for N max = 2 MC Pi0, after M02 and Asym cut", |
c8710850 | 4479 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4480 | fhMCGenFracAfterCutsNLocMax2MCPi0 ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
4481 | fhMCGenFracAfterCutsNLocMax2MCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4482 | outputContainer->Add(fhMCGenFracAfterCutsNLocMax2MCPi0) ; |
4483 | ||
4484 | ||
4485 | fhMCGenFracAfterCutsNLocMaxNMCPi0 = new TH2F("hMCGenFracAfterCutsNLocMaxNMCPi0", | |
25330263 | 4486 | " #it{E}_{gen} / #it{E}_{reco} vs #it{E}_{reco} for N max > 2 MC Pi0, after M02 and Asym cut", |
c8710850 | 4487 | nptbins,ptmin,ptmax,200,0,2); |
25330263 | 4488 | fhMCGenFracAfterCutsNLocMaxNMCPi0 ->SetYTitle("#it{E}_{gen} / #it{E}_{reco}"); |
4489 | fhMCGenFracAfterCutsNLocMaxNMCPi0 ->SetXTitle("#it{E} (GeV)"); | |
c8710850 | 4490 | outputContainer->Add(fhMCGenFracAfterCutsNLocMaxNMCPi0) ; |
4491 | ||
4492 | } | |
4493 | ||
8edbd100 | 4494 | if(fFillTMResidualHisto && fFillTMHisto) |
8e81c2cf | 4495 | { |
4496 | for(Int_t i = 0; i < n; i++) | |
4497 | { | |
4498 | ||
c8710850 | 4499 | fhTrackMatchedDEtaNLocMax1[i] = new TH2F |
4500 | (Form("hTrackMatchedDEtaNLocMax1%s",pname[i].Data()), | |
8e81c2cf | 4501 | Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), |
4502 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
c8710850 | 4503 | fhTrackMatchedDEtaNLocMax1[i]->SetYTitle("d#eta"); |
25330263 | 4504 | fhTrackMatchedDEtaNLocMax1[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4505 | |
c8710850 | 4506 | fhTrackMatchedDPhiNLocMax1[i] = new TH2F |
4507 | (Form("hTrackMatchedDPhiNLocMax1%s",pname[i].Data()), | |
8e81c2cf | 4508 | Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), |
4509 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
c8710850 | 4510 | fhTrackMatchedDPhiNLocMax1[i]->SetYTitle("d#phi (rad)"); |
25330263 | 4511 | fhTrackMatchedDPhiNLocMax1[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4512 | |
c8710850 | 4513 | outputContainer->Add(fhTrackMatchedDEtaNLocMax1[i]) ; |
4514 | outputContainer->Add(fhTrackMatchedDPhiNLocMax1[i]) ; | |
8e81c2cf | 4515 | |
c8710850 | 4516 | fhTrackMatchedDEtaNLocMax2[i] = new TH2F |
4517 | (Form("hTrackMatchedDEtaNLocMax2%s",pname[i].Data()), | |
8e81c2cf | 4518 | Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), |
4519 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
c8710850 | 4520 | fhTrackMatchedDEtaNLocMax2[i]->SetYTitle("d#eta"); |
25330263 | 4521 | fhTrackMatchedDEtaNLocMax2[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4522 | |
c8710850 | 4523 | fhTrackMatchedDPhiNLocMax2[i] = new TH2F |
4524 | (Form("hTrackMatchedDPhiNLocMax2%s",pname[i].Data()), | |
8e81c2cf | 4525 | Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), |
4526 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
c8710850 | 4527 | fhTrackMatchedDPhiNLocMax2[i]->SetYTitle("d#phi (rad)"); |
25330263 | 4528 | fhTrackMatchedDPhiNLocMax2[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4529 | |
c8710850 | 4530 | outputContainer->Add(fhTrackMatchedDEtaNLocMax2[i]) ; |
4531 | outputContainer->Add(fhTrackMatchedDPhiNLocMax2[i]) ; | |
8e81c2cf | 4532 | |
c8710850 | 4533 | fhTrackMatchedDEtaNLocMaxN[i] = new TH2F |
4534 | (Form("hTrackMatchedDEtaNLocMaxN%s",pname[i].Data()), | |
8e81c2cf | 4535 | Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), |
4536 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
c8710850 | 4537 | fhTrackMatchedDEtaNLocMaxN[i]->SetYTitle("d#eta"); |
25330263 | 4538 | fhTrackMatchedDEtaNLocMaxN[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4539 | |
c8710850 | 4540 | fhTrackMatchedDPhiNLocMaxN[i] = new TH2F |
4541 | (Form("hTrackMatchedDPhiNLocMaxN%s",pname[i].Data()), | |
8e81c2cf | 4542 | Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), |
4543 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
c8710850 | 4544 | fhTrackMatchedDPhiNLocMaxN[i]->SetYTitle("d#phi (rad)"); |
25330263 | 4545 | fhTrackMatchedDPhiNLocMaxN[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
8e81c2cf | 4546 | |
c8710850 | 4547 | outputContainer->Add(fhTrackMatchedDEtaNLocMaxN[i]) ; |
b2e375c7 | 4548 | outputContainer->Add(fhTrackMatchedDPhiNLocMaxN[i]) ; |
883411b2 | 4549 | |
b2e375c7 | 4550 | fhTrackMatchedDEtaNLocMax1Pos[i] = new TH2F |
4551 | (Form("hTrackMatchedDEtaNLocMax1Pos%s",pname[i].Data()), | |
4552 | Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), | |
4553 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4554 | fhTrackMatchedDEtaNLocMax1Pos[i]->SetYTitle("d#eta"); | |
25330263 | 4555 | fhTrackMatchedDEtaNLocMax1Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4556 | |
4557 | fhTrackMatchedDPhiNLocMax1Pos[i] = new TH2F | |
4558 | (Form("hTrackMatchedDPhiNLocMax1Pos%s",pname[i].Data()), | |
4559 | Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), | |
4560 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4561 | fhTrackMatchedDPhiNLocMax1Pos[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4562 | fhTrackMatchedDPhiNLocMax1Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4563 | |
4564 | outputContainer->Add(fhTrackMatchedDEtaNLocMax1Pos[i]) ; | |
4565 | outputContainer->Add(fhTrackMatchedDPhiNLocMax1Pos[i]) ; | |
4566 | ||
4567 | fhTrackMatchedDEtaNLocMax2Pos[i] = new TH2F | |
4568 | (Form("hTrackMatchedDEtaNLocMax2Pos%s",pname[i].Data()), | |
4569 | Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), | |
4570 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4571 | fhTrackMatchedDEtaNLocMax2Pos[i]->SetYTitle("d#eta"); | |
25330263 | 4572 | fhTrackMatchedDEtaNLocMax2Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4573 | |
4574 | fhTrackMatchedDPhiNLocMax2Pos[i] = new TH2F | |
4575 | (Form("hTrackMatchedDPhiNLocMax2Pos%s",pname[i].Data()), | |
4576 | Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), | |
4577 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4578 | fhTrackMatchedDPhiNLocMax2Pos[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4579 | fhTrackMatchedDPhiNLocMax2Pos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4580 | |
4581 | outputContainer->Add(fhTrackMatchedDEtaNLocMax2Pos[i]) ; | |
4582 | outputContainer->Add(fhTrackMatchedDPhiNLocMax2Pos[i]) ; | |
4583 | ||
4584 | fhTrackMatchedDEtaNLocMaxNPos[i] = new TH2F | |
4585 | (Form("hTrackMatchedDEtaNLocMaxNPos%s",pname[i].Data()), | |
4586 | Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), | |
4587 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4588 | fhTrackMatchedDEtaNLocMaxNPos[i]->SetYTitle("d#eta"); | |
25330263 | 4589 | fhTrackMatchedDEtaNLocMaxNPos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4590 | |
4591 | fhTrackMatchedDPhiNLocMaxNPos[i] = new TH2F | |
4592 | (Form("hTrackMatchedDPhiNLocMaxNPos%s",pname[i].Data()), | |
4593 | Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), | |
4594 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4595 | fhTrackMatchedDPhiNLocMaxNPos[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4596 | fhTrackMatchedDPhiNLocMaxNPos[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4597 | |
4598 | outputContainer->Add(fhTrackMatchedDEtaNLocMaxNPos[i]) ; | |
4599 | outputContainer->Add(fhTrackMatchedDPhiNLocMaxNPos[i]) ; | |
4600 | ||
4601 | fhTrackMatchedDEtaNLocMax1Neg[i] = new TH2F | |
4602 | (Form("hTrackMatchedDEtaNLocMax1Neg%s",pname[i].Data()), | |
4603 | Form("d#eta of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), | |
4604 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4605 | fhTrackMatchedDEtaNLocMax1Neg[i]->SetYTitle("d#eta"); | |
25330263 | 4606 | fhTrackMatchedDEtaNLocMax1Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4607 | |
4608 | fhTrackMatchedDPhiNLocMax1Neg[i] = new TH2F | |
4609 | (Form("hTrackMatchedDPhiNLocMax1Neg%s",pname[i].Data()), | |
4610 | Form("d#phi of cluster-track vs cluster energy, 1 Local Maxima, %s",ptype[i].Data()), | |
4611 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4612 | fhTrackMatchedDPhiNLocMax1Neg[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4613 | fhTrackMatchedDPhiNLocMax1Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4614 | |
4615 | outputContainer->Add(fhTrackMatchedDEtaNLocMax1Neg[i]) ; | |
4616 | outputContainer->Add(fhTrackMatchedDPhiNLocMax1Neg[i]) ; | |
4617 | ||
4618 | fhTrackMatchedDEtaNLocMax2Neg[i] = new TH2F | |
4619 | (Form("hTrackMatchedDEtaNLocMax2Neg%s",pname[i].Data()), | |
4620 | Form("d#eta of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), | |
4621 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4622 | fhTrackMatchedDEtaNLocMax2Neg[i]->SetYTitle("d#eta"); | |
25330263 | 4623 | fhTrackMatchedDEtaNLocMax2Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4624 | |
4625 | fhTrackMatchedDPhiNLocMax2Neg[i] = new TH2F | |
4626 | (Form("hTrackMatchedDPhiNLocMax2Neg%s",pname[i].Data()), | |
4627 | Form("d#phi of cluster-track vs cluster energy, 2 Local Maxima, %s",ptype[i].Data()), | |
4628 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4629 | fhTrackMatchedDPhiNLocMax2Neg[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4630 | fhTrackMatchedDPhiNLocMax2Neg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4631 | |
4632 | outputContainer->Add(fhTrackMatchedDEtaNLocMax2Neg[i]) ; | |
4633 | outputContainer->Add(fhTrackMatchedDPhiNLocMax2Neg[i]) ; | |
4634 | ||
4635 | fhTrackMatchedDEtaNLocMaxNNeg[i] = new TH2F | |
4636 | (Form("hTrackMatchedDEtaNLocMaxNNeg%s",pname[i].Data()), | |
4637 | Form("d#eta of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), | |
4638 | nptbins,ptmin,ptmax,nresetabins,resetamin,resetamax); | |
4639 | fhTrackMatchedDEtaNLocMaxNNeg[i]->SetYTitle("d#eta"); | |
25330263 | 4640 | fhTrackMatchedDEtaNLocMaxNNeg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4641 | |
4642 | fhTrackMatchedDPhiNLocMaxNNeg[i] = new TH2F | |
4643 | (Form("hTrackMatchedDPhiNLocMaxNNeg%s",pname[i].Data()), | |
4644 | Form("d#phi of cluster-track vs cluster energy, N>2 Local Maxima, %s",ptype[i].Data()), | |
4645 | nptbins,ptmin,ptmax,nresphibins,resphimin,resphimax); | |
4646 | fhTrackMatchedDPhiNLocMaxNNeg[i]->SetYTitle("d#phi (rad)"); | |
25330263 | 4647 | fhTrackMatchedDPhiNLocMaxNNeg[i]->SetXTitle("#it{E}_{cluster} (GeV)"); |
b2e375c7 | 4648 | |
4649 | outputContainer->Add(fhTrackMatchedDEtaNLocMaxNNeg[i]) ; | |
4650 | outputContainer->Add(fhTrackMatchedDPhiNLocMaxNNeg[i]) ; | |
4651 | ||
4652 | } | |
4653 | } | |
4654 | ||
4655 | if(fFillAngleHisto) | |
4656 | { | |
0186b6a2 | 4657 | for(Int_t i = 0; i < n; i++) |
4658 | { | |
4659 | for(Int_t j = 0; j < nMatched; j++) | |
4660 | { | |
4661 | ||
0186b6a2 | 4662 | fhAnglePairNLocMax1[i][j] = new TH2F(Form("hAnglePairNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 4663 | Form("Opening angle split sub-clusters of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
0186b6a2 | 4664 | nptbins,ptmin,ptmax,200,0,0.2); |
4665 | fhAnglePairNLocMax1[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4666 | fhAnglePairNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4667 | outputContainer->Add(fhAnglePairNLocMax1[i][j]) ; |
4668 | ||
4669 | fhAnglePairNLocMax2[i][j] = new TH2F(Form("hAnglePairNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4670 | Form("Opening angle split sub-clusters of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
0186b6a2 | 4671 | nptbins,ptmin,ptmax,200,0,0.2); |
4672 | fhAnglePairNLocMax2[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4673 | fhAnglePairNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4674 | outputContainer->Add(fhAnglePairNLocMax2[i][j]) ; |
4675 | ||
4676 | fhAnglePairNLocMaxN[i][j] = new TH2F(Form("hAnglePairNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4677 | Form("Opening angle split sub-clusters of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4678 | nptbins,ptmin,ptmax,200,0,0.2); | |
4679 | fhAnglePairNLocMaxN[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4680 | fhAnglePairNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4681 | outputContainer->Add(fhAnglePairNLocMaxN[i][j]) ; |
4682 | ||
c7e9a4e9 | 4683 | if(asyOn || m02On) |
29555e96 | 4684 | { |
4685 | fhAnglePairAfterCutsNLocMax1[i][j] = new TH2F(Form("hAnglePairAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4686 | Form("Opening angle split sub-clusters of cluster #it{NLM}=1, after cuts, vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4687 | nptbins,ptmin,ptmax,200,0,0.2); |
4688 | fhAnglePairAfterCutsNLocMax1[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4689 | fhAnglePairAfterCutsNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4690 | outputContainer->Add(fhAnglePairAfterCutsNLocMax1[i][j]) ; |
4691 | ||
4692 | fhAnglePairAfterCutsNLocMax2[i][j] = new TH2F(Form("hAnglePairAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4693 | Form("Opening angle split sub-clusters of cluster, after cuts, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4694 | nptbins,ptmin,ptmax,200,0,0.2); |
4695 | fhAnglePairAfterCutsNLocMax2[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4696 | fhAnglePairAfterCutsNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4697 | outputContainer->Add(fhAnglePairAfterCutsNLocMax2[i][j]) ; |
4698 | ||
4699 | fhAnglePairAfterCutsNLocMaxN[i][j] = new TH2F(Form("hAnglePairAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4700 | Form("Opening angle split sub-clusters of cluster, after cuts, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4701 | nptbins,ptmin,ptmax,200,0,0.2); | |
4702 | fhAnglePairAfterCutsNLocMaxN[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4703 | fhAnglePairAfterCutsNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4704 | outputContainer->Add(fhAnglePairAfterCutsNLocMaxN[i][j]) ; |
4705 | ||
4706 | } | |
4707 | ||
4708 | fhAnglePairPi0NLocMax1[i][j] = new TH2F(Form("hAnglePairPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4709 | Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4710 | nptbins,ptmin,ptmax,200,0,0.2); |
4711 | fhAnglePairPi0NLocMax1[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4712 | fhAnglePairPi0NLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4713 | outputContainer->Add(fhAnglePairPi0NLocMax1[i][j]) ; |
4714 | ||
4715 | fhAnglePairPi0NLocMax2[i][j] = new TH2F(Form("hAnglePairPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4716 | Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4717 | nptbins,ptmin,ptmax,200,0,0.2); |
4718 | fhAnglePairPi0NLocMax2[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4719 | fhAnglePairPi0NLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4720 | outputContainer->Add(fhAnglePairPi0NLocMax2[i][j]) ; |
4721 | ||
4722 | fhAnglePairPi0NLocMaxN[i][j] = new TH2F(Form("hAnglePairPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4723 | Form("Opening angle split sub-clusters of cluster, Pi0 ID, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4724 | nptbins,ptmin,ptmax,200,0,0.2); | |
4725 | fhAnglePairPi0NLocMaxN[i][j]->SetYTitle("#alpha (rad)"); | |
25330263 | 4726 | fhAnglePairPi0NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4727 | outputContainer->Add(fhAnglePairPi0NLocMaxN[i][j]) ; |
4728 | ||
0186b6a2 | 4729 | fhAnglePairMassNLocMax1[i][j] = new TH2F(Form("hAnglePairMassNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 4730 | Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
0186b6a2 | 4731 | mbins,mmin,mmax,200,0,0.2); |
25330263 | 4732 | fhAnglePairMassNLocMax1[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})"); |
0186b6a2 | 4733 | fhAnglePairMassNLocMax1[i][j]->SetYTitle("#alpha (rad)"); |
4734 | outputContainer->Add(fhAnglePairMassNLocMax1[i][j]) ; | |
4735 | ||
29555e96 | 4736 | |
0186b6a2 | 4737 | fhAnglePairMassNLocMax2[i][j] = new TH2F(Form("hAnglePairMassNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 4738 | Form("Opening angle split sub-clusters of cluster #it{NLM}=2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
0186b6a2 | 4739 | mbins,mmin,mmax,200,0,0.2); |
25330263 | 4740 | fhAnglePairMassNLocMax2[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})"); |
0186b6a2 | 4741 | fhAnglePairMassNLocMax2[i][j]->SetYTitle("#alpha (rad)"); |
4742 | outputContainer->Add(fhAnglePairMassNLocMax2[i][j]) ; | |
4743 | ||
4744 | fhAnglePairMassNLocMaxN[i][j] = new TH2F(Form("hAnglePairMassNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4745 | Form("Opening angle split sub-clusters of cluster NLM>2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4746 | mbins,mmin,mmax,200,0,0.2); | |
25330263 | 4747 | fhAnglePairMassNLocMaxN[i][j]->SetXTitle("#it{M} (GeV/#it{c}^{2})"); |
0186b6a2 | 4748 | fhAnglePairMassNLocMaxN[i][j]->SetYTitle("#alpha (rad)"); |
4749 | outputContainer->Add(fhAnglePairMassNLocMaxN[i][j]) ; | |
d261ae67 | 4750 | |
4751 | ||
4752 | fhAnglePairM02NLocMax1[i][j] = new TH2F(Form("hAnglePairM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4753 | Form("Opening angle split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs Mass for E > 15 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
d261ae67 | 4754 | ssbins,ssmin,ssmax,200,0,0.2); |
4755 | fhAnglePairM02NLocMax1[i][j]->SetXTitle("#lambda_{0}^{2}"); | |
4756 | fhAnglePairM02NLocMax1[i][j]->SetYTitle("#alpha (rad)"); | |
4757 | outputContainer->Add(fhAnglePairM02NLocMax1[i][j]) ; | |
4758 | ||
0186b6a2 | 4759 | |
d261ae67 | 4760 | fhAnglePairM02NLocMax2[i][j] = new TH2F(Form("hAnglePairM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 4761 | Form("Opening angle split sub-clusters of cluster #it{NLM}=2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
d261ae67 | 4762 | ssbins,ssmin,ssmax,200,0,0.2); |
4763 | fhAnglePairM02NLocMax2[i][j]->SetXTitle("#lambda_{0}^{2}"); | |
4764 | fhAnglePairM02NLocMax2[i][j]->SetYTitle("#alpha (rad)"); | |
4765 | outputContainer->Add(fhAnglePairM02NLocMax2[i][j]) ; | |
4766 | ||
4767 | fhAnglePairM02NLocMaxN[i][j] = new TH2F(Form("hAnglePairM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4768 | Form("Opening angle split sub-clusters of cluster NLM>2 vs Mass for E > 12 GeV, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4769 | ssbins,ssmin,ssmax,200,0,0.2); | |
4770 | fhAnglePairM02NLocMaxN[i][j]->SetXTitle("#lambda_{0}^{2}"); | |
4771 | fhAnglePairM02NLocMaxN[i][j]->SetYTitle("#alpha (rad)"); | |
4772 | outputContainer->Add(fhAnglePairM02NLocMaxN[i][j]) ; | |
4773 | ||
4e5a94c5 | 4774 | fhAnglePairOverM02NLocMax1[i][j] = new TH2F(Form("hAnglePairOverM02NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), |
25330263 | 4775 | Form("Opening angle split sub-clusters / M02 of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
4e5a94c5 | 4776 | nptbins,ptmin,ptmax,200,0,0.2); |
4777 | fhAnglePairOverM02NLocMax1[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4778 | fhAnglePairOverM02NLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4779 | outputContainer->Add(fhAnglePairOverM02NLocMax1[i][j]) ; |
4780 | ||
4781 | fhAnglePairOverM02NLocMax2[i][j] = new TH2F(Form("hAnglePairOverM02NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4782 | Form("Opening angle split sub-clusters / M02 of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
4e5a94c5 | 4783 | nptbins,ptmin,ptmax,200,0,0.2); |
4784 | fhAnglePairOverM02NLocMax2[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4785 | fhAnglePairOverM02NLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4786 | outputContainer->Add(fhAnglePairOverM02NLocMax2[i][j]) ; |
4787 | ||
4788 | fhAnglePairOverM02NLocMaxN[i][j] = new TH2F(Form("hAnglePairOverM02NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4789 | Form("Opening angle split sub-clusters / M02 of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4790 | nptbins,ptmin,ptmax,200,0,0.2); | |
4791 | fhAnglePairOverM02NLocMaxN[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4792 | fhAnglePairOverM02NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4793 | outputContainer->Add(fhAnglePairOverM02NLocMaxN[i][j]) ; |
4794 | ||
4795 | ||
4796 | fhAnglePairOverM02NLocMax1Overlap0[i][j] = new TH2F(Form("hAnglePairOverM02NLocMax1Overlap0%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4797 | Form("Opening angle split sub-clusters / M02 of cluster #it{NLM}=1 vs pair Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
4e5a94c5 | 4798 | nptbins,ptmin,ptmax,200,0,0.2); |
4799 | fhAnglePairOverM02NLocMax1Overlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4800 | fhAnglePairOverM02NLocMax1Overlap0[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4801 | outputContainer->Add(fhAnglePairOverM02NLocMax1Overlap0[i][j]) ; |
4802 | ||
4803 | fhAnglePairOverM02NLocMax2Overlap0[i][j] = new TH2F(Form("hAnglePairOverM02NLocMax2Overlap0%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4804 | Form("Opening angle split sub-clusters / M02 of cluster #it{NLM}=2 cells vs Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
4e5a94c5 | 4805 | nptbins,ptmin,ptmax,200,0,0.2); |
4806 | fhAnglePairOverM02NLocMax2Overlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4807 | fhAnglePairOverM02NLocMax2Overlap0[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4808 | outputContainer->Add(fhAnglePairOverM02NLocMax2Overlap0[i][j]) ; |
4809 | ||
4810 | fhAnglePairOverM02NLocMaxNOverlap0[i][j] = new TH2F(Form("hAnglePairOverM02NLocMaxNOverlap0%s%s",pname[i].Data(),sMatched[j].Data()), | |
4811 | Form("Opening angle split sub-clusters / M02 of cluster NLM>2 vs Energy, no overlap, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4812 | nptbins,ptmin,ptmax,200,0,0.2); | |
4813 | fhAnglePairOverM02NLocMaxNOverlap0[i][j]->SetYTitle("#alpha / #lambda_{0}^{2}"); | |
25330263 | 4814 | fhAnglePairOverM02NLocMaxNOverlap0[i][j]->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4815 | outputContainer->Add(fhAnglePairOverM02NLocMaxNOverlap0[i][j]) ; |
4816 | ||
4817 | ||
0186b6a2 | 4818 | } |
4819 | } | |
4820 | ||
4821 | if(IsDataMC()) | |
4822 | { | |
4823 | fhAnglePairPrimPi0RecoNLocMax1 = new TH2F("fhAnglePairPrimPi0RecoNLocMax1", | |
25330263 | 4824 | "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, #it{NLM}=1", |
0186b6a2 | 4825 | nptbins,ptmin,ptmax,300,0,3); |
4826 | fhAnglePairPrimPi0RecoNLocMax1->SetYTitle("#alpha_{reco} / #alpha_{gen}"); | |
25330263 | 4827 | fhAnglePairPrimPi0RecoNLocMax1->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4828 | outputContainer->Add(fhAnglePairPrimPi0RecoNLocMax1) ; |
4829 | ||
4830 | fhAnglePairPrimPi0RecoNLocMax2 = new TH2F("fhAnglePairPrimPi0RecoNLocMax2", | |
25330263 | 4831 | "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, #it{NLM}=2", |
0186b6a2 | 4832 | nptbins,ptmin,ptmax,300,0,3); |
4833 | fhAnglePairPrimPi0RecoNLocMax2->SetYTitle("#alpha_{reco} / #alpha_{gen}"); | |
25330263 | 4834 | fhAnglePairPrimPi0RecoNLocMax2->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4835 | outputContainer->Add(fhAnglePairPrimPi0RecoNLocMax2) ; |
4836 | ||
4837 | fhAnglePairPrimPi0RecoNLocMaxN = new TH2F("fhAnglePairPrimPi0RecoNLocMaxN", | |
4838 | "Opening angle split neutral sub-clusters reconstructed / generated #pi^{0} vs pair Energy, NLM>2", | |
4839 | nptbins,ptmin,ptmax,300,0,3); | |
4840 | fhAnglePairPrimPi0RecoNLocMaxN->SetYTitle("#alpha_{reco} / #alpha_{gen}"); | |
25330263 | 4841 | fhAnglePairPrimPi0RecoNLocMaxN->SetXTitle("#it{E} (GeV)"); |
0186b6a2 | 4842 | outputContainer->Add(fhAnglePairPrimPi0RecoNLocMaxN) ; |
4843 | ||
b2e375c7 | 4844 | |
0186b6a2 | 4845 | fhAnglePairPrimPi0vsRecoNLocMax1 = new TH2F("fhAnglePairPrimPi0vsRecoNLocMax1", |
25330263 | 4846 | "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 15 GeV, #it{NLM}=1", |
0186b6a2 | 4847 | 200,0,0.2,200,0,0.2); |
29555e96 | 4848 | fhAnglePairPrimPi0vsRecoNLocMax1->SetYTitle("#alpha_{reco} (rad)"); |
4849 | fhAnglePairPrimPi0vsRecoNLocMax1->SetXTitle("#alpha_{gen} (rad)"); | |
0186b6a2 | 4850 | outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMax1) ; |
4851 | ||
4852 | fhAnglePairPrimPi0vsRecoNLocMax2 = new TH2F("fhAnglePairPrimPi0vsRecoNLocMax2", | |
25330263 | 4853 | "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 10 GeV, #it{NLM}=2", |
0186b6a2 | 4854 | 200,0,0.2,200,0,0.2); |
29555e96 | 4855 | fhAnglePairPrimPi0vsRecoNLocMax2->SetYTitle("#alpha_{reco} (rad)"); |
4856 | fhAnglePairPrimPi0vsRecoNLocMax2->SetXTitle("#alpha_{gen} (rad)"); | |
0186b6a2 | 4857 | outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMax2) ; |
4858 | ||
4859 | fhAnglePairPrimPi0vsRecoNLocMaxN = new TH2F("fhAnglePairPrimPi0vsRecoNLocMaxN", | |
25330263 | 4860 | "Opening angle split neutral sub-clusters reconstructed vs generated #pi^{0} for E > 10 GeV, #it{NLM}=2", |
0186b6a2 | 4861 | 200,0,0.2,200,0,0.2); |
29555e96 | 4862 | fhAnglePairPrimPi0vsRecoNLocMaxN->SetYTitle("#alpha_{reco} (rad)"); |
4863 | fhAnglePairPrimPi0vsRecoNLocMaxN->SetXTitle("#alpha_{gen} (rad)"); | |
0186b6a2 | 4864 | outputContainer->Add(fhAnglePairPrimPi0vsRecoNLocMaxN) ; |
883411b2 | 4865 | |
4e5a94c5 | 4866 | |
4867 | fhAnglePairPrimPi0OverM02NLocMax1 = new TH2F("fhAnglePairPrimPi0OverM02NLocMax1", | |
25330263 | 4868 | "Primary Opening angle split neutral sub-clusters reconstructed / Over vs cluster Energy, #it{NLM}=1", |
4e5a94c5 | 4869 | nptbins,ptmin,ptmax,200,0,0.2); |
4870 | fhAnglePairPrimPi0OverM02NLocMax1->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}"); | |
25330263 | 4871 | fhAnglePairPrimPi0OverM02NLocMax1->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4872 | outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMax1) ; |
4873 | ||
4874 | fhAnglePairPrimPi0OverM02NLocMax2 = new TH2F("fhAnglePairPrimPi0OverM02NLocMax2", | |
25330263 | 4875 | "Primary Opening angle split neutral sub-clusters reconstructed / Over vs cluster Energy, #it{NLM}=2", |
4e5a94c5 | 4876 | nptbins,ptmin,ptmax,200,0,0.2); |
4877 | fhAnglePairPrimPi0OverM02NLocMax2->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}"); | |
25330263 | 4878 | fhAnglePairPrimPi0OverM02NLocMax2->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4879 | outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMax2) ; |
4880 | ||
4881 | fhAnglePairPrimPi0OverM02NLocMaxN = new TH2F("fhAnglePairPrimPi0OverM02NLocMaxN", | |
4882 | "Primary Opening angle split neutral sub-clusters reconstructed / M02 vs cluster Energy, NLM>2", | |
4883 | nptbins,ptmin,ptmax,200,0,0.2); | |
4884 | fhAnglePairPrimPi0OverM02NLocMaxN->SetYTitle("#alpha_{gen} / #lambda_{0}^{2}"); | |
25330263 | 4885 | fhAnglePairPrimPi0OverM02NLocMaxN->SetXTitle("#it{E} (GeV)"); |
4e5a94c5 | 4886 | outputContainer->Add(fhAnglePairPrimPi0OverM02NLocMaxN) ; |
4887 | ||
883411b2 | 4888 | } |
992b14a7 | 4889 | } |
29555e96 | 4890 | |
4891 | // Same as asymmetry ... | |
4892 | if(fFillThetaStarHisto) | |
4893 | { | |
4894 | for(Int_t i = 0; i < n; i++) | |
4895 | { | |
4896 | for(Int_t j = 0; j < nMatched; j++) | |
4897 | { | |
4898 | ||
4899 | fhCosThStarNLocMax1[i][j] = new TH2F(Form("hCosThStarNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4900 | Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4901 | nptbins,ptmin,ptmax,200,-1,1); |
4902 | fhCosThStarNLocMax1[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4903 | fhCosThStarNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4904 | outputContainer->Add(fhCosThStarNLocMax1[i][j]) ; |
4905 | ||
4906 | fhCosThStarNLocMax2[i][j] = new TH2F(Form("hCosThStarNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4907 | Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4908 | nptbins,ptmin,ptmax,200,-1,1); |
4909 | fhCosThStarNLocMax2[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4910 | fhCosThStarNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4911 | outputContainer->Add(fhCosThStarNLocMax2[i][j]) ; |
4912 | ||
4913 | fhCosThStarNLocMaxN[i][j] = new TH2F(Form("hCosThStarNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4914 | Form("cos(#theta^{*}) split sub-clusters of cluster NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4915 | nptbins,ptmin,ptmax,200,-1,1); | |
4916 | fhCosThStarNLocMaxN[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4917 | fhCosThStarNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4918 | outputContainer->Add(fhCosThStarNLocMaxN[i][j]) ; |
4919 | ||
c7e9a4e9 | 4920 | if(asyOn || m02On) |
29555e96 | 4921 | { |
4922 | fhCosThStarAfterCutsNLocMax1[i][j] = new TH2F(Form("hCosThStarAfterCutsNLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4923 | Form("cos(#theta^{*}) split sub-clusters of cluster #it{NLM}=1, after cuts, vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4924 | nptbins,ptmin,ptmax,200,-1,1); |
4925 | fhCosThStarAfterCutsNLocMax1[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4926 | fhCosThStarAfterCutsNLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4927 | outputContainer->Add(fhCosThStarAfterCutsNLocMax1[i][j]) ; |
4928 | ||
4929 | fhCosThStarAfterCutsNLocMax2[i][j] = new TH2F(Form("hCosThStarAfterCutsNLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4930 | Form("cos(#theta^{*}) split sub-clusters of cluster, after cuts, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4931 | nptbins,ptmin,ptmax,200,-1,1); |
4932 | fhCosThStarAfterCutsNLocMax2[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4933 | fhCosThStarAfterCutsNLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4934 | outputContainer->Add(fhCosThStarAfterCutsNLocMax2[i][j]) ; |
4935 | ||
4936 | fhCosThStarAfterCutsNLocMaxN[i][j] = new TH2F(Form("hCosThStarAfterCutsNLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4937 | Form("cos(#theta^{*}) split sub-clusters of cluster, after cuts, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4938 | nptbins,ptmin,ptmax,200,-1,1); | |
4939 | fhCosThStarAfterCutsNLocMaxN[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4940 | fhCosThStarAfterCutsNLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4941 | outputContainer->Add(fhCosThStarAfterCutsNLocMaxN[i][j]) ; |
4942 | ||
4943 | } | |
4944 | ||
4945 | fhCosThStarPi0NLocMax1[i][j] = new TH2F(Form("hCosThStarPi0NLocMax1%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4946 | Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, #it{NLM}=1 vs pair Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4947 | nptbins,ptmin,ptmax,200,-1,1); |
4948 | fhCosThStarPi0NLocMax1[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4949 | fhCosThStarPi0NLocMax1[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4950 | outputContainer->Add(fhCosThStarPi0NLocMax1[i][j]) ; |
4951 | ||
4952 | fhCosThStarPi0NLocMax2[i][j] = new TH2F(Form("hCosThStarPi0NLocMax2%s%s",pname[i].Data(),sMatched[j].Data()), | |
25330263 | 4953 | Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, #it{NLM}=2 cells vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), |
29555e96 | 4954 | nptbins,ptmin,ptmax,200,-1,1); |
4955 | fhCosThStarPi0NLocMax2[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4956 | fhCosThStarPi0NLocMax2[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4957 | outputContainer->Add(fhCosThStarPi0NLocMax2[i][j]) ; |
4958 | ||
4959 | fhCosThStarPi0NLocMaxN[i][j] = new TH2F(Form("hCosThStarPi0NLocMaxN%s%s",pname[i].Data(),sMatched[j].Data()), | |
4960 | Form("cos(#theta^{*}) split sub-clusters of cluster, Pi0 ID, NLM>2 vs Energy, %s, %s",ptype[i].Data(),sMatched[j].Data()), | |
4961 | nptbins,ptmin,ptmax,200,-1,1); | |
4962 | fhCosThStarPi0NLocMaxN[i][j]->SetYTitle("cos(#theta^{*})"); | |
25330263 | 4963 | fhCosThStarPi0NLocMaxN[i][j]->SetXTitle("#it{E} (GeV)"); |
29555e96 | 4964 | outputContainer->Add(fhCosThStarPi0NLocMaxN[i][j]) ; |
4965 | ||
4966 | } | |
4967 | } | |
4968 | } | |
4969 | ||
992b14a7 | 4970 | |
8edbd100 | 4971 | for(Int_t j = 0; j < nMatched; j++) |
17f5b4b6 | 4972 | { |
4973 | fhSplitEFractionvsAsyNLocMax1[j] = new TH2F(Form("hSplitEFractionvsAsyNLocMax1%s",sMatched[j].Data()), | |
25330263 | 4974 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max = 1, E>12, %s",sMatched[j].Data()), |
17f5b4b6 | 4975 | 100,-1,1,120,0,1.2); |
25330263 | 4976 | fhSplitEFractionvsAsyNLocMax1[j] ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})"); |
4977 | fhSplitEFractionvsAsyNLocMax1[j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
17f5b4b6 | 4978 | outputContainer->Add(fhSplitEFractionvsAsyNLocMax1[j]) ; |
4979 | ||
4980 | fhSplitEFractionvsAsyNLocMax2[j] = new TH2F(Form("hSplitEFractionvsAsyNLocMax2%s",sMatched[j].Data()), | |
25330263 | 4981 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max = 2,E>12, %s",sMatched[j].Data()), |
17f5b4b6 | 4982 | 100,-1,1,120,0,1.2); |
25330263 | 4983 | fhSplitEFractionvsAsyNLocMax2[j] ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})"); |
4984 | fhSplitEFractionvsAsyNLocMax2[j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
17f5b4b6 | 4985 | outputContainer->Add(fhSplitEFractionvsAsyNLocMax2[j]) ; |
4986 | ||
4987 | fhSplitEFractionvsAsyNLocMaxN[j] = new TH2F(Form("hSplitEFractionvsAsyNLocMaxN%s",sMatched[j].Data()), | |
25330263 | 4988 | Form("(#it{E}_{1}+#it{E}_{2})/#it{E}_{cluster} vs (#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2}) for N max > 2, E>12, %s",sMatched[j].Data()), |
17f5b4b6 | 4989 | 100,-1,1,120,0,1.2); |
25330263 | 4990 | fhSplitEFractionvsAsyNLocMaxN[j] ->SetXTitle("(#it{E}_{split1}-#it{E}_{split2})/(#it{E}_{split1}+#it{E}_{split2})"); |
4991 | fhSplitEFractionvsAsyNLocMaxN[j] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); | |
17f5b4b6 | 4992 | outputContainer->Add(fhSplitEFractionvsAsyNLocMaxN[j]) ; |
e671adc2 | 4993 | } |
9554fc65 | 4994 | |
1253480f | 4995 | |
9554fc65 | 4996 | fhClusterEtaPhiNLocMax1 = new TH2F |
4997 | ("hClusterEtaPhiNLocMax1","Neutral Clusters with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
4998 | fhClusterEtaPhiNLocMax1->SetYTitle("#phi (rad)"); | |
4999 | fhClusterEtaPhiNLocMax1->SetXTitle("#eta"); | |
5000 | outputContainer->Add(fhClusterEtaPhiNLocMax1) ; | |
1253480f | 5001 | |
9554fc65 | 5002 | fhClusterEtaPhiNLocMax2 = new TH2F |
5003 | ("hClusterEtaPhiNLocMax2","Neutral Clusters with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5004 | fhClusterEtaPhiNLocMax2->SetYTitle("#phi (rad)"); | |
5005 | fhClusterEtaPhiNLocMax2->SetXTitle("#eta"); | |
5006 | outputContainer->Add(fhClusterEtaPhiNLocMax2) ; | |
5007 | ||
5008 | fhClusterEtaPhiNLocMaxN = new TH2F | |
5009 | ("hClusterEtaPhiNLocMaxN","Neutral Clusters with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5010 | fhClusterEtaPhiNLocMaxN->SetYTitle("#phi (rad)"); | |
5011 | fhClusterEtaPhiNLocMaxN->SetXTitle("#eta"); | |
5012 | outputContainer->Add(fhClusterEtaPhiNLocMaxN) ; | |
5013 | ||
5014 | fhPi0EtaPhiNLocMax1 = new TH2F | |
5015 | ("hPi0EtaPhiNLocMax1","Selected #pi^{0}'s with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5016 | fhPi0EtaPhiNLocMax1->SetYTitle("#phi (rad)"); | |
5017 | fhPi0EtaPhiNLocMax1->SetXTitle("#eta"); | |
5018 | outputContainer->Add(fhPi0EtaPhiNLocMax1) ; | |
5019 | ||
5020 | fhPi0EtaPhiNLocMax2 = new TH2F | |
5021 | ("hPi0EtaPhiNLocMax2","Selected #pi^{0}'s with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5022 | fhPi0EtaPhiNLocMax2->SetYTitle("#phi (rad)"); | |
5023 | fhPi0EtaPhiNLocMax2->SetXTitle("#eta"); | |
5024 | outputContainer->Add(fhPi0EtaPhiNLocMax2) ; | |
5025 | ||
5026 | fhPi0EtaPhiNLocMaxN = new TH2F | |
5027 | ("hPi0EtaPhiNLocMaxN","Selected #pi^{0}'s with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5028 | fhPi0EtaPhiNLocMaxN->SetYTitle("#phi (rad)"); | |
5029 | fhPi0EtaPhiNLocMaxN->SetXTitle("#eta"); | |
5030 | outputContainer->Add(fhPi0EtaPhiNLocMaxN) ; | |
1253480f | 5031 | |
5032 | if(fFillIdEtaHisto) | |
5033 | { | |
5034 | fhEtaEtaPhiNLocMax1 = new TH2F | |
5035 | ("hEtaEtaPhiNLocMax1","Selected #eta's with E > 8 GeV, NLM = 1: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5036 | fhEtaEtaPhiNLocMax1->SetYTitle("#phi (rad)"); | |
5037 | fhEtaEtaPhiNLocMax1->SetXTitle("#eta"); | |
5038 | outputContainer->Add(fhEtaEtaPhiNLocMax1) ; | |
5039 | ||
5040 | fhEtaEtaPhiNLocMax2 = new TH2F | |
5041 | ("hEtaEtaPhiNLocMax2","Selected #eta's with E > 8 GeV, NLM = 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5042 | fhEtaEtaPhiNLocMax2->SetYTitle("#phi (rad)"); | |
5043 | fhEtaEtaPhiNLocMax2->SetXTitle("#eta"); | |
5044 | outputContainer->Add(fhEtaEtaPhiNLocMax2) ; | |
5045 | ||
5046 | fhEtaEtaPhiNLocMaxN = new TH2F | |
5047 | ("hEtaEtaPhiNLocMaxN","Selected #eta's with E > 8 GeV, NLM > 2: #eta vs #phi",netabins,etamin,etamax, nphibins,phimin,phimax); | |
5048 | fhEtaEtaPhiNLocMaxN->SetYTitle("#phi (rad)"); | |
5049 | fhEtaEtaPhiNLocMaxN->SetXTitle("#eta"); | |
5050 | outputContainer->Add(fhEtaEtaPhiNLocMaxN) ; | |
5051 | } | |
e671adc2 | 5052 | |
ff6aa4ce | 5053 | |
dbe09c26 | 5054 | if(fFillSSWeightHisto) |
5055 | { | |
dbe09c26 | 5056 | for(Int_t nlm = 0; nlm < 3; nlm++) |
5057 | { | |
5058 | fhPi0CellE[nlm] = new TH2F(Form("hPi0CellENLocMax%s",snlm[nlm].Data()), | |
5059 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs cell E",snlm[nlm].Data()), | |
5060 | nptbins,ptmin,ptmax, nptbins,ptmin,ptmax); | |
25330263 | 5061 | fhPi0CellE[nlm]->SetYTitle("#it{E}_{cell}"); |
5062 | fhPi0CellE[nlm]->SetXTitle("#it{E}_{cluster}"); | |
dbe09c26 | 5063 | outputContainer->Add(fhPi0CellE[nlm]) ; |
5064 | ||
5065 | fhPi0CellEFrac[nlm] = new TH2F(Form("hPi0CellEFracNLocMax%s",snlm[nlm].Data()), | |
5066 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs cell E / cluster E",snlm[nlm].Data()), | |
5067 | nptbins,ptmin,ptmax, 100,0,1); | |
25330263 | 5068 | fhPi0CellEFrac[nlm]->SetYTitle("#it{E}_{cell} / #it{E}_{cluster}"); |
5069 | fhPi0CellEFrac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
dbe09c26 | 5070 | outputContainer->Add(fhPi0CellEFrac[nlm]) ; |
5071 | ||
5072 | fhPi0CellLogEFrac[nlm] = new TH2F(Form("hPi0CellLogEFracNLocMax%s",snlm[nlm].Data()), | |
1253480f | 5073 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs Log(cell E / cluster E)",snlm[nlm].Data()), |
5074 | nptbins,ptmin,ptmax, 100,-10,0); | |
25330263 | 5075 | fhPi0CellLogEFrac[nlm]->SetYTitle("Log(#it{E}_{cell} / #it{E}_{cluster})"); |
5076 | fhPi0CellLogEFrac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
dbe09c26 | 5077 | outputContainer->Add(fhPi0CellLogEFrac[nlm]) ; |
1253480f | 5078 | |
dbe09c26 | 5079 | |
19391b8c | 5080 | fhPi0CellEMaxEMax2Frac[nlm] = new TH2F(Form("hPi0CellEMaxEMax2FracNLocMax%s",snlm[nlm].Data()), |
1253480f | 5081 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / 1st loc. max. E",snlm[nlm].Data()), |
5082 | nptbins,ptmin,ptmax, 100,0,1); | |
25330263 | 5083 | fhPi0CellEMaxEMax2Frac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{Loc Max 1}"); |
5084 | fhPi0CellEMaxEMax2Frac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
19391b8c | 5085 | outputContainer->Add(fhPi0CellEMaxEMax2Frac[nlm]) ; |
5086 | ||
5087 | fhPi0CellEMaxClusterFrac[nlm] = new TH2F(Form("hPi0CellEMaxClusterFracNLocMax%s",snlm[nlm].Data()), | |
1253480f | 5088 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 1st loc. max. E / E cluster",snlm[nlm].Data()), |
5089 | nptbins,ptmin,ptmax, 100,0,1); | |
25330263 | 5090 | fhPi0CellEMaxClusterFrac[nlm]->SetYTitle("#it{E}_{Loc Max 1} / #it{E}_{cluster}"); |
5091 | fhPi0CellEMaxClusterFrac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
19391b8c | 5092 | outputContainer->Add(fhPi0CellEMaxClusterFrac[nlm]) ; |
1253480f | 5093 | |
19391b8c | 5094 | fhPi0CellEMax2ClusterFrac[nlm] = new TH2F(Form("hPi0CellEMax2ClusterFracNLocMax%s",snlm[nlm].Data()), |
1253480f | 5095 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / E cluster",snlm[nlm].Data()), |
5096 | nptbins,ptmin,ptmax, 100,0,1); | |
25330263 | 5097 | fhPi0CellEMax2ClusterFrac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{cluster}"); |
5098 | fhPi0CellEMax2ClusterFrac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
19391b8c | 5099 | outputContainer->Add(fhPi0CellEMax2ClusterFrac[nlm]) ; |
5100 | ||
5101 | fhPi0CellEMaxFrac[nlm] = new TH2F(Form("hPi0CellEMaxFracNLocMax%s",snlm[nlm].Data()), | |
1253480f | 5102 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 1st loc. max. E / E cell i",snlm[nlm].Data()), |
5103 | nptbins,ptmin,ptmax, 100,0,1); | |
25330263 | 5104 | fhPi0CellEMaxFrac[nlm]->SetYTitle("#it{E}_{Loc Max 1} / #it{E}_{cell i}"); |
5105 | fhPi0CellEMaxFrac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
19391b8c | 5106 | outputContainer->Add(fhPi0CellEMaxFrac[nlm]) ; |
5107 | ||
5108 | fhPi0CellEMax2Frac[nlm] = new TH2F(Form("hPi0CellEMax2FracNLocMax%s",snlm[nlm].Data()), | |
1253480f | 5109 | Form("Selected #pi^{0}'s, NLM = %s: cluster E vs 2nd loc. max. E / E cell i",snlm[nlm].Data()), |
5110 | nptbins,ptmin,ptmax, 200,0,2); | |
25330263 | 5111 | fhPi0CellEMax2Frac[nlm]->SetYTitle("#it{E}_{Loc Max 2} / #it{E}_{cell i}"); |
5112 | fhPi0CellEMax2Frac[nlm]->SetXTitle("#it{E}_{cluster}"); | |
19391b8c | 5113 | outputContainer->Add(fhPi0CellEMax2Frac[nlm]) ; |
1253480f | 5114 | |
19391b8c | 5115 | |
dbe09c26 | 5116 | for(Int_t i = 0; i < fSSWeightN; i++) |
5117 | { | |
5118 | fhM02WeightPi0[nlm][i] = new TH2F(Form("hM02Pi0NLocMax%s_W%d",snlm[nlm].Data(),i), | |
1253480f | 5119 | Form("#lambda_{0}^{2} vs E, with W0 = %2.2f, for NLM = %s", fSSWeight[i], snlm[nlm].Data()), |
dbe09c26 | 5120 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5121 | fhM02WeightPi0[nlm][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5122 | fhM02WeightPi0[nlm][i] ->SetXTitle("#it{E} (GeV)"); |
dbe09c26 | 5123 | outputContainer->Add(fhM02WeightPi0[nlm][i]) ; |
5124 | } | |
19391b8c | 5125 | |
5126 | for(Int_t i = 0; i < fSSECellCutN; i++) | |
5127 | { | |
5128 | fhM02ECellCutPi0[nlm][i] = new TH2F(Form("hM02Pi0NLocMax%s_Ecell%d",snlm[nlm].Data(),i), | |
1253480f | 5129 | Form("#lambda_{0}^{2} vs E, with Ecell > %2.2f, for NLM = %s", fSSECellCut[i], snlm[nlm].Data()), |
5130 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); | |
19391b8c | 5131 | fhM02ECellCutPi0[nlm][i] ->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 5132 | fhM02ECellCutPi0[nlm][i] ->SetXTitle("#it{E} (GeV)"); |
19391b8c | 5133 | outputContainer->Add(fhM02ECellCutPi0[nlm][i]) ; |
5134 | } | |
1253480f | 5135 | |
dbe09c26 | 5136 | } |
5137 | } | |
5138 | ||
a1fd1b69 | 5139 | Int_t tdbins = GetHistogramRanges()->GetHistoDiffTimeBins() ; Float_t tdmax = GetHistogramRanges()->GetHistoDiffTimeMax(); Float_t tdmin = GetHistogramRanges()->GetHistoDiffTimeMin(); |
1253480f | 5140 | |
25330263 | 5141 | fhPi0EPairDiffTimeNLM1 = new TH2F("hPi0EPairDiffTimeNLocMax1","cluster pair time difference vs E, selected #pi, #it{NLM}=1",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); |
5142 | fhPi0EPairDiffTimeNLM1->SetXTitle("#it{E}_{pair} (GeV)"); | |
5143 | fhPi0EPairDiffTimeNLM1->SetYTitle("#Delta #it{t} (ns)"); | |
a1fd1b69 | 5144 | outputContainer->Add(fhPi0EPairDiffTimeNLM1); |
1253480f | 5145 | |
25330263 | 5146 | fhPi0EPairDiffTimeNLM2 = new TH2F("hPi0EPairDiffTimeNLocMax2","cluster pair time difference vs E, selected #pi, #it{NLM}=2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); |
5147 | fhPi0EPairDiffTimeNLM2->SetXTitle("#it{E}_{pair} (GeV)"); | |
5148 | fhPi0EPairDiffTimeNLM2->SetYTitle("#Delta #it{t} (ns)"); | |
a1fd1b69 | 5149 | outputContainer->Add(fhPi0EPairDiffTimeNLM2); |
1253480f | 5150 | |
a1fd1b69 | 5151 | fhPi0EPairDiffTimeNLMN = new TH2F("hPi0EPairDiffTimeNLocMaxN","cluster pair time difference vs E, selected #pi, NLM>2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); |
25330263 | 5152 | fhPi0EPairDiffTimeNLMN->SetXTitle("#it{E}_{pair} (GeV)"); |
5153 | fhPi0EPairDiffTimeNLMN->SetYTitle("#Delta #it{t} (ns)"); | |
a1fd1b69 | 5154 | outputContainer->Add(fhPi0EPairDiffTimeNLMN); |
a1fd1b69 | 5155 | |
1253480f | 5156 | if(fFillIdEtaHisto) |
5157 | { | |
25330263 | 5158 | fhEtaEPairDiffTimeNLM1 = new TH2F("hEtaEPairDiffTimeNLocMax1","cluster pair time difference vs E, selected #eta, #it{NLM}=1",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); |
5159 | fhEtaEPairDiffTimeNLM1->SetXTitle("#it{E}_{pair} (GeV)"); | |
5160 | fhEtaEPairDiffTimeNLM1->SetYTitle("#Delta #it{t} (ns)"); | |
1253480f | 5161 | outputContainer->Add(fhEtaEPairDiffTimeNLM1); |
5162 | ||
25330263 | 5163 | fhEtaEPairDiffTimeNLM2 = new TH2F("hEtaEPairDiffTimeNLocMax2","cluster pair time difference vs E, selected #eta, #it{NLM}=2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); |
5164 | fhEtaEPairDiffTimeNLM2->SetXTitle("#it{E}_{pair} (GeV)"); | |
5165 | fhEtaEPairDiffTimeNLM2->SetYTitle("#Delta #it{t} (ns)"); | |
1253480f | 5166 | outputContainer->Add(fhEtaEPairDiffTimeNLM2); |
5167 | ||
5168 | fhEtaEPairDiffTimeNLMN = new TH2F("hEtaEPairDiffTimeNLocMaxN","cluster pair time difference vs E, selected #eta, NLM>2",nptbins,ptmin,ptmax, tdbins,tdmin,tdmax); | |
25330263 | 5169 | fhEtaEPairDiffTimeNLMN->SetXTitle("#it{E}_{pair} (GeV)"); |
5170 | fhEtaEPairDiffTimeNLMN->SetYTitle("#Delta #it{t} (ns)"); | |
1253480f | 5171 | outputContainer->Add(fhEtaEPairDiffTimeNLMN); |
5172 | } | |
a1fd1b69 | 5173 | |
4914e781 | 5174 | if(fFillNCellHisto && IsDataMC()) |
5175 | { | |
1253480f | 5176 | |
25330263 | 5177 | fhNCellMassEHighNLocMax1MCPi0 = new TH2F("hNCellMassEHighNLocMax1MCPi0","n cells vs mass for MC pi0, high energy, #it{NLM}=1",ncbins,ncmin,ncmax,mbins,mmin,mmax); |
5178 | fhNCellMassEHighNLocMax1MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); | |
5179 | fhNCellMassEHighNLocMax1MCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5180 | outputContainer->Add(fhNCellMassEHighNLocMax1MCPi0) ; |
5181 | ||
25330263 | 5182 | fhNCellMassELowNLocMax1MCPi0 = new TH2F("hNCellMassELowNLocMax1MCPi0","n cells vs mass for MC pi0, low energy, #it{NLM}=1",ncbins,ncmin,ncmax,mbins,mmin,mmax); |
5183 | fhNCellMassELowNLocMax1MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); | |
5184 | fhNCellMassELowNLocMax1MCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5185 | outputContainer->Add(fhNCellMassELowNLocMax1MCPi0) ; |
1253480f | 5186 | |
25330263 | 5187 | fhNCellM02EHighNLocMax1MCPi0 = new TH2F("hNCellM02EHighNLocMax1MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, #it{NLM}=1",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); |
4914e781 | 5188 | fhNCellM02EHighNLocMax1MCPi0->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 5189 | fhNCellM02EHighNLocMax1MCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5190 | outputContainer->Add(fhNCellM02EHighNLocMax1MCPi0) ; |
5191 | ||
25330263 | 5192 | fhNCellM02ELowNLocMax1MCPi0 = new TH2F("hNCellM02ELowNLocMax1MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, #it{NLM}=1",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); |
4914e781 | 5193 | fhNCellM02ELowNLocMax1MCPi0->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 5194 | fhNCellM02ELowNLocMax1MCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5195 | outputContainer->Add(fhNCellM02ELowNLocMax1MCPi0) ; |
1253480f | 5196 | |
25330263 | 5197 | fhNCellMassEHighNLocMax2MCPi0 = new TH2F("hNCellMassEHighNLocMax2MCPi0","n cells vs mass for MC pi0, high energy, #it{NLM}=2",ncbins,ncmin,ncmax,mbins,mmin,mmax); |
5198 | fhNCellMassEHighNLocMax2MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); | |
5199 | fhNCellMassEHighNLocMax2MCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5200 | outputContainer->Add(fhNCellMassEHighNLocMax2MCPi0) ; |
5201 | ||
25330263 | 5202 | fhNCellMassELowNLocMax2MCPi0 = new TH2F("hNCellMassELowNLocMax2MCPi0","n cells vs mass for MC pi0, low energy, #it{NLM}=2",ncbins,ncmin,ncmax,mbins,mmin,mmax); |
5203 | fhNCellMassELowNLocMax2MCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); | |
5204 | fhNCellMassELowNLocMax2MCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5205 | outputContainer->Add(fhNCellMassELowNLocMax2MCPi0) ; |
5206 | ||
25330263 | 5207 | fhNCellM02EHighNLocMax2MCPi0 = new TH2F("hNCellM02EHighNLocMax2MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, #it{NLM}=2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); |
4914e781 | 5208 | fhNCellM02EHighNLocMax2MCPi0->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 5209 | fhNCellM02EHighNLocMax2MCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5210 | outputContainer->Add(fhNCellM02EHighNLocMax2MCPi0) ; |
5211 | ||
25330263 | 5212 | fhNCellM02ELowNLocMax2MCPi0 = new TH2F("hNCellM02ELowNLocMax2MCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, #it{NLM}=2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); |
4914e781 | 5213 | fhNCellM02ELowNLocMax2MCPi0->SetYTitle("#lambda_{0}^{2}"); |
25330263 | 5214 | fhNCellM02ELowNLocMax2MCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5215 | outputContainer->Add(fhNCellM02ELowNLocMax2MCPi0) ; |
1253480f | 5216 | |
4914e781 | 5217 | fhNCellMassEHighNLocMaxNMCPi0 = new TH2F("hNCellMassEHighNLocMaxNMCPi0","n cells vs mass for MC pi0, high energy, NLM>2",ncbins,ncmin,ncmax,mbins,mmin,mmax); |
25330263 | 5218 | fhNCellMassEHighNLocMaxNMCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5219 | fhNCellMassEHighNLocMaxNMCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5220 | outputContainer->Add(fhNCellMassEHighNLocMaxNMCPi0) ; |
5221 | ||
5222 | fhNCellMassELowNLocMaxNMCPi0 = new TH2F("hNCellMassELowNLocMaxNMCPi0","n cells vs mass for MC pi0, low energy, NLM>2",ncbins,ncmin,ncmax,mbins,mmin,mmax); | |
25330263 | 5223 | fhNCellMassELowNLocMaxNMCPi0->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5224 | fhNCellMassELowNLocMaxNMCPi0->SetXTitle("#it{N} cells"); | |
4914e781 | 5225 | outputContainer->Add(fhNCellMassELowNLocMaxNMCPi0) ; |
5226 | ||
5227 | fhNCellM02EHighNLocMaxNMCPi0 = new TH2F("hNCellM02EHighNLocMaxNMCPi0","n cells vs #lambda_{0}^{2} for MC pi0, high energy, NLM>2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); | |
5228 | fhNCellM02EHighNLocMaxNMCPi0->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5229 | fhNCellM02EHighNLocMaxNMCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5230 | outputContainer->Add(fhNCellM02EHighNLocMaxNMCPi0) ; |
5231 | ||
5232 | fhNCellM02ELowNLocMaxNMCPi0 = new TH2F("hNCellM02ELowNLocMaxNMCPi0","n cells vs #lambda_{0}^{2} for MC pi0, low energy, NLM>2",ncbins,ncmin,ncmax,ssbins,ssmin,ssmax); | |
5233 | fhNCellM02ELowNLocMaxNMCPi0->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5234 | fhNCellM02ELowNLocMaxNMCPi0->SetXTitle("#it{N} cells"); |
4914e781 | 5235 | outputContainer->Add(fhNCellM02ELowNLocMaxNMCPi0) ; |
5236 | ||
5237 | } | |
b2e375c7 | 5238 | |
5239 | if(IsDataMC() && fFillMCOverlapHisto) | |
5240 | { | |
5241 | for(Int_t i = 1; i < n; i++) | |
5242 | { | |
5243 | for(Int_t j = 0; j < 3; j++) | |
5244 | { | |
5245 | fhMCENOverlaps[j][i] = new TH2F(Form("hMCENOverlapsNLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5246 | Form("# overlaps vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5247 | nptbins,ptmin,ptmax,10,0,10); |
5248 | fhMCENOverlaps[j][i] ->SetYTitle("# overlaps"); | |
25330263 | 5249 | fhMCENOverlaps[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5250 | outputContainer->Add(fhMCENOverlaps[j][i]) ; |
5251 | ||
5252 | fhMCEM02Overlap0[j][i] = new TH2F(Form("hMCEM02Overlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5253 | Form("Overlap 0, #lambda_{0}^{2} vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5254 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5255 | fhMCEM02Overlap0[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5256 | fhMCEM02Overlap0[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5257 | outputContainer->Add(fhMCEM02Overlap0[j][i]) ; |
5258 | ||
5259 | fhMCEM02Overlap1[j][i] = new TH2F(Form("hMCEM02Overlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5260 | Form("Overlap 1, #lambda_{0}^{2} vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5261 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5262 | fhMCEM02Overlap1[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5263 | fhMCEM02Overlap1[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5264 | outputContainer->Add(fhMCEM02Overlap1[j][i]) ; |
5265 | ||
5266 | fhMCEM02OverlapN[j][i] = new TH2F(Form("hMCEM02OverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5267 | Form("Overlap N, #lambda_{0}^{2} vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5268 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5269 | fhMCEM02OverlapN[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5270 | fhMCEM02OverlapN[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5271 | outputContainer->Add(fhMCEM02OverlapN[j][i]) ; |
5272 | ||
5273 | fhMCEMassOverlap0[j][i] = new TH2F(Form("hMCEMassOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5274 | Form("Overlap 0, Mass vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5275 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5276 | fhMCEMassOverlap0[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2}"); |
5277 | fhMCEMassOverlap0[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5278 | outputContainer->Add(fhMCEMassOverlap0[j][i]) ; |
5279 | ||
5280 | fhMCEMassOverlap1[j][i] = new TH2F(Form("hMCEMassOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5281 | Form("Overalap 1, Mass vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5282 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5283 | fhMCEMassOverlap1[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2}"); |
5284 | fhMCEMassOverlap1[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5285 | outputContainer->Add(fhMCEMassOverlap1[j][i]) ; |
5286 | ||
5287 | fhMCEMassOverlapN[j][i] = new TH2F(Form("hMCEMassOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5288 | Form("Overlap N, Mass vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5289 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5290 | fhMCEMassOverlapN[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5291 | fhMCEMassOverlapN[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5292 | outputContainer->Add(fhMCEMassOverlapN[j][i]) ; |
4914e781 | 5293 | |
5294 | fhMCEAsymOverlap0[j][i] = new TH2F(Form("hMCEAsymOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5295 | Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5296 | nptbins,ptmin,ptmax,100,0,1); |
5297 | fhMCEAsymOverlap0[j][i] ->SetYTitle("|A|"); | |
25330263 | 5298 | fhMCEAsymOverlap0[j][i] ->SetXTitle("#it{E} (GeV)"); |
4914e781 | 5299 | outputContainer->Add(fhMCEAsymOverlap0[j][i]) ; |
5300 | ||
5301 | fhMCEAsymOverlap1[j][i] = new TH2F(Form("hMCEAsymOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5302 | Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5303 | nptbins,ptmin,ptmax,100,0,1); |
5304 | fhMCEAsymOverlap1[j][i] ->SetYTitle("|A|"); | |
25330263 | 5305 | fhMCEAsymOverlap1[j][i] ->SetXTitle("#it{E} (GeV)"); |
4914e781 | 5306 | outputContainer->Add(fhMCEAsymOverlap1[j][i]) ; |
5307 | ||
5308 | fhMCEAsymOverlapN[j][i] = new TH2F(Form("hMCEAsymOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5309 | Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5310 | nptbins,ptmin,ptmax,100,0,1); |
5311 | fhMCEAsymOverlapN[j][i] ->SetYTitle("|A|"); | |
25330263 | 5312 | fhMCEAsymOverlapN[j][i] ->SetXTitle("#it{E} (GeV)"); |
4914e781 | 5313 | outputContainer->Add(fhMCEAsymOverlapN[j][i]) ; |
74e3eb22 | 5314 | |
5315 | ||
cb99fa55 | 5316 | if(fFillNCellHisto) |
5317 | { | |
5318 | fhMCENCellOverlap0[j][i] = new TH2F(Form("hMCENCellOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5319 | Form("Overlap 0, n cells vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
cb99fa55 | 5320 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5321 | fhMCENCellOverlap0[j][i] ->SetYTitle("#it{N} cells"); |
5322 | fhMCENCellOverlap0[j][i] ->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 5323 | outputContainer->Add(fhMCENCellOverlap0[j][i]) ; |
5324 | ||
5325 | fhMCENCellOverlap1[j][i] = new TH2F(Form("hMCENCellOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5326 | Form("Overalap 1, n cells vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
cb99fa55 | 5327 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5328 | fhMCENCellOverlap1[j][i] ->SetYTitle("#it{N} cells"); |
5329 | fhMCENCellOverlap1[j][i] ->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 5330 | outputContainer->Add(fhMCENCellOverlap1[j][i]) ; |
5331 | ||
5332 | fhMCENCellOverlapN[j][i] = new TH2F(Form("hMCENCellOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5333 | Form("Overlap N, n cells vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
cb99fa55 | 5334 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5335 | fhMCENCellOverlapN[j][i] ->SetYTitle("#it{N} cells"); |
5336 | fhMCENCellOverlapN[j][i] ->SetXTitle("#it{E} (GeV)"); | |
cb99fa55 | 5337 | outputContainer->Add(fhMCENCellOverlapN[j][i]) ; |
5338 | } | |
4914e781 | 5339 | |
5340 | fhMCEEpriOverlap0[j][i] = new TH2F(Form("hMCEEpriOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5341 | Form("Overlap 0, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5342 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5343 | fhMCEEpriOverlap0[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5344 | fhMCEEpriOverlap0[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5345 | outputContainer->Add(fhMCEEpriOverlap0[j][i]) ; |
5346 | ||
5347 | fhMCEEpriOverlap1[j][i] = new TH2F(Form("hMCEEpriOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5348 | Form("Overalap 1, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5349 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5350 | fhMCEEpriOverlap1[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5351 | fhMCEEpriOverlap1[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5352 | outputContainer->Add(fhMCEEpriOverlap1[j][i]) ; |
5353 | ||
5354 | fhMCEEpriOverlapN[j][i] = new TH2F(Form("hMCEEpriOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5355 | Form("Overlap N, E reco vs E prim for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5356 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5357 | fhMCEEpriOverlapN[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5358 | fhMCEEpriOverlapN[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5359 | outputContainer->Add(fhMCEEpriOverlapN[j][i]) ; |
1253480f | 5360 | |
4914e781 | 5361 | |
cc909e6f | 5362 | fhMCEEpriOverlap0IdPi0[j][i] = new TH2F(Form("hMCEEpriOverlap0IdPi0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), |
25330263 | 5363 | Form("Overlap 0, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
cc909e6f | 5364 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5365 | fhMCEEpriOverlap0IdPi0[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5366 | fhMCEEpriOverlap0IdPi0[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
cc909e6f | 5367 | outputContainer->Add(fhMCEEpriOverlap0IdPi0[j][i]) ; |
5368 | ||
5369 | fhMCEEpriOverlap1IdPi0[j][i] = new TH2F(Form("hMCEEpriOverlap1IdPi0NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5370 | Form("Overlap 1, E reco vs E prim for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
cc909e6f | 5371 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5372 | fhMCEEpriOverlap1IdPi0[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5373 | fhMCEEpriOverlap1IdPi0[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
cc909e6f | 5374 | outputContainer->Add(fhMCEEpriOverlap1IdPi0[j][i]) ; |
5375 | ||
5376 | fhMCEEpriOverlapNIdPi0[j][i] = new TH2F(Form("hMCEEpriOverlapNIdPi0NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5377 | Form("Overlap N, E reco vs E prim for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
cc909e6f | 5378 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5379 | fhMCEEpriOverlapNIdPi0[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5380 | fhMCEEpriOverlapNIdPi0[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
cc909e6f | 5381 | outputContainer->Add(fhMCEEpriOverlapNIdPi0[j][i]) ; |
5382 | ||
5383 | ||
83351853 | 5384 | fhMCESplitEFracOverlap0[j][i] = new TH2F(Form("hMCESplitEFracOverlap0NLocMax%s%s",snlm[j].Data(),pname[i].Data()), |
25330263 | 5385 | Form("Overlap 0, SplitEFrac vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5386 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5387 | fhMCESplitEFracOverlap0[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5388 | fhMCESplitEFracOverlap0[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5389 | outputContainer->Add(fhMCESplitEFracOverlap0[j][i]) ; |
5390 | ||
5391 | fhMCESplitEFracOverlap1[j][i] = new TH2F(Form("hMCESplitEFracOverlap1NLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5392 | Form("Overalap 1, SplitEFrac vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5393 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5394 | fhMCESplitEFracOverlap1[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5395 | fhMCESplitEFracOverlap1[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5396 | outputContainer->Add(fhMCESplitEFracOverlap1[j][i]) ; |
5397 | ||
5398 | fhMCESplitEFracOverlapN[j][i] = new TH2F(Form("hMCESplitEFracOverlapNNLocMax%s%s",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5399 | Form("Overlap N, SplitEFrac vs E for #it{NLM}=%s %s",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5400 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5401 | fhMCESplitEFracOverlapN[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5402 | fhMCESplitEFracOverlapN[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5403 | outputContainer->Add(fhMCESplitEFracOverlapN[j][i]) ; |
b2e375c7 | 5404 | |
5405 | if(i < 5) | |
5406 | { | |
5407 | fhMCPi0MassM02Overlap0[j][i-1] = new TH2F(Form("hMCPi0MassM02Overlap0NLocMax%sEbin%d",snlm[j].Data(),i-1), | |
25330263 | 5408 | Form("Overlap 0, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5409 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5410 | fhMCPi0MassM02Overlap0[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5411 | fhMCPi0MassM02Overlap0[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5412 | outputContainer->Add(fhMCPi0MassM02Overlap0[j][i-1]) ; | |
5413 | ||
5414 | fhMCPi0MassM02Overlap1[j][i-1] = new TH2F(Form("hMCPi0MassM02Overlap1NLocMax%sEbin%d",snlm[j].Data(),i-1), | |
25330263 | 5415 | Form("Overlap 1, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5416 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5417 | fhMCPi0MassM02Overlap1[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5418 | fhMCPi0MassM02Overlap1[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5419 | outputContainer->Add(fhMCPi0MassM02Overlap1[j][i-1]) ; | |
5420 | ||
5421 | fhMCPi0MassM02OverlapN[j][i-1] = new TH2F(Form("hMCPi0MassM02OverlapNNLocMax%sEbin%d",snlm[j].Data(),i-1), | |
25330263 | 5422 | Form("Overlap N, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5423 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5424 | fhMCPi0MassM02OverlapN[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5425 | fhMCPi0MassM02OverlapN[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5426 | outputContainer->Add(fhMCPi0MassM02OverlapN[j][i-1]) ; | |
5427 | } | |
5428 | ||
5429 | if(fFillTMHisto) | |
5430 | { | |
5431 | fhMCENOverlapsMatch[j][i] = new TH2F(Form("hMCENOverlapsNLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5432 | Form("# overlaps vs E for #it{NLM}=%s, %s",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5433 | nptbins,ptmin,ptmax,10,0,10); |
5434 | fhMCENOverlapsMatch[j][i] ->SetYTitle("# overlaps"); | |
25330263 | 5435 | fhMCENOverlapsMatch[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5436 | outputContainer->Add(fhMCENOverlapsMatch[j][i]) ; |
5437 | ||
5438 | fhMCEM02Overlap0Match[j][i] = new TH2F(Form("hMCEM02Overlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5439 | Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5440 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5441 | fhMCEM02Overlap0Match[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5442 | fhMCEM02Overlap0Match[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5443 | outputContainer->Add(fhMCEM02Overlap0Match[j][i]) ; |
5444 | ||
5445 | fhMCEM02Overlap1Match[j][i] = new TH2F(Form("hMCEM02Overlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5446 | Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5447 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5448 | fhMCEM02Overlap1Match[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5449 | fhMCEM02Overlap1Match[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5450 | outputContainer->Add(fhMCEM02Overlap1Match[j][i]) ; |
5451 | ||
5452 | fhMCEM02OverlapNMatch[j][i] = new TH2F(Form("hMCEM02OverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5453 | Form("#lambda_{0}^{2} vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5454 | nptbins,ptmin,ptmax,ssbins,ssmin,ssmax); |
5455 | fhMCEM02OverlapNMatch[j][i] ->SetYTitle("#lambda_{0}^{2}"); | |
25330263 | 5456 | fhMCEM02OverlapNMatch[j][i] ->SetXTitle("#it{E} (GeV)"); |
b2e375c7 | 5457 | outputContainer->Add(fhMCEM02OverlapNMatch[j][i]) ; |
5458 | ||
5459 | fhMCEMassOverlap0Match[j][i] = new TH2F(Form("hMCEMassOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5460 | Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5461 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5462 | fhMCEMassOverlap0Match[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2}"); |
5463 | fhMCEMassOverlap0Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5464 | outputContainer->Add(fhMCEMassOverlap0Match[j][i]) ; |
5465 | ||
5466 | fhMCEMassOverlap1Match[j][i] = new TH2F(Form("hMCEMassOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5467 | Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5468 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5469 | fhMCEMassOverlap1Match[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2}"); |
5470 | fhMCEMassOverlap1Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5471 | outputContainer->Add(fhMCEMassOverlap1Match[j][i]) ; |
5472 | ||
5473 | fhMCEMassOverlapNMatch[j][i] = new TH2F(Form("hMCEMassOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5474 | Form("Mass vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
b2e375c7 | 5475 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5476 | fhMCEMassOverlapNMatch[j][i] ->SetYTitle("#it{M} (GeV/#it{c}^{2}"); |
5477 | fhMCEMassOverlapNMatch[j][i] ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5478 | outputContainer->Add(fhMCEMassOverlapNMatch[j][i]) ; |
5479 | ||
4914e781 | 5480 | |
5481 | fhMCEAsymOverlap0Match[j][i] = new TH2F(Form("hMCEAsymOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5482 | Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5483 | nptbins,ptmin,ptmax,100,0,1); |
25330263 | 5484 | fhMCEAsymOverlap0Match[j][i] ->SetYTitle("|#it{A}|"); |
5485 | fhMCEAsymOverlap0Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 5486 | outputContainer->Add(fhMCEAsymOverlap0Match[j][i]) ; |
5487 | ||
5488 | fhMCEAsymOverlap1Match[j][i] = new TH2F(Form("hMCEAsymOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5489 | Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5490 | nptbins,ptmin,ptmax,100,0,1); |
25330263 | 5491 | fhMCEAsymOverlap1Match[j][i] ->SetYTitle("|#it{A}|"); |
5492 | fhMCEAsymOverlap1Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 5493 | outputContainer->Add(fhMCEAsymOverlap1Match[j][i]) ; |
5494 | ||
5495 | fhMCEAsymOverlapNMatch[j][i] = new TH2F(Form("hMCEAsymOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5496 | Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5497 | nptbins,ptmin,ptmax,100,0,1); |
25330263 | 5498 | fhMCEAsymOverlapNMatch[j][i] ->SetYTitle("|#it{A}|"); |
5499 | fhMCEAsymOverlapNMatch[j][i] ->SetXTitle("#it{E} (GeV)"); | |
4914e781 | 5500 | outputContainer->Add(fhMCEAsymOverlapNMatch[j][i]) ; |
74e3eb22 | 5501 | |
5502 | ||
5503 | fhMCENCellOverlap0Match[j][i] = new TH2F(Form("hMCENCellOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), | |
25330263 | 5504 | Form("Overlap 0, n cells vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
74e3eb22 | 5505 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5506 | fhMCENCellOverlap0Match[j][i] ->SetYTitle("#it{N} cells"); |
5507 | fhMCENCellOverlap0Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
74e3eb22 | 5508 | outputContainer->Add(fhMCENCellOverlap0Match[j][i]) ; |
1253480f | 5509 | |
74e3eb22 | 5510 | fhMCENCellOverlap1Match[j][i] = new TH2F(Form("hMCENCellOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), |
25330263 | 5511 | Form("Overalap 1, n cell vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
74e3eb22 | 5512 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5513 | fhMCENCellOverlap1Match[j][i] ->SetYTitle("#it{N} cells"); |
5514 | fhMCENCellOverlap1Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
74e3eb22 | 5515 | outputContainer->Add(fhMCENCellOverlap1Match[j][i]) ; |
4914e781 | 5516 | |
74e3eb22 | 5517 | fhMCENCellOverlapNMatch[j][i] = new TH2F(Form("hMCENCellOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), |
25330263 | 5518 | Form("Overlap N, n cell vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
74e3eb22 | 5519 | nptbins,ptmin,ptmax,ncbins,ncmin,ncmax); |
25330263 | 5520 | fhMCENCellOverlapNMatch[j][i] ->SetYTitle("#it{N} cells"); |
5521 | fhMCENCellOverlapNMatch[j][i] ->SetXTitle("#it{E} (GeV)"); | |
74e3eb22 | 5522 | outputContainer->Add(fhMCENCellOverlapNMatch[j][i]) ; |
5523 | ||
4914e781 | 5524 | fhMCEEpriOverlap0Match[j][i] = new TH2F(Form("hMCEEpriOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), |
25330263 | 5525 | Form("Overlap 0, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5526 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5527 | fhMCEEpriOverlap0Match[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5528 | fhMCEEpriOverlap0Match[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5529 | outputContainer->Add(fhMCEEpriOverlap0Match[j][i]) ; |
5530 | ||
5531 | fhMCEEpriOverlap1Match[j][i] = new TH2F(Form("hMCEEpriOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5532 | Form("Overalap 1, Asymmetry vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5533 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5534 | fhMCEEpriOverlap1Match[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5535 | fhMCEEpriOverlap1Match[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5536 | outputContainer->Add(fhMCEEpriOverlap1Match[j][i]) ; |
5537 | ||
cc909e6f | 5538 | fhMCEEpriOverlapNMatch[j][i] = new TH2F(Form("hMCEEpriOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), |
25330263 | 5539 | Form("Overlap N, Asymmetry vs E for #it{NLM}=%s %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
4914e781 | 5540 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); |
25330263 | 5541 | fhMCEEpriOverlapNMatch[j][i] ->SetYTitle("#it{E}_{gen} (GeV)"); |
5542 | fhMCEEpriOverlapNMatch[j][i] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
4914e781 | 5543 | outputContainer->Add(fhMCEEpriOverlapNMatch[j][i]) ; |
1253480f | 5544 | |
4914e781 | 5545 | |
83351853 | 5546 | fhMCESplitEFracOverlap0Match[j][i] = new TH2F(Form("hMCESplitEFracOverlap0NLocMax%s%sMatched",snlm[j].Data(),pname[i].Data()), |
25330263 | 5547 | Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5548 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5549 | fhMCESplitEFracOverlap0Match[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5550 | fhMCESplitEFracOverlap0Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5551 | outputContainer->Add(fhMCESplitEFracOverlap0Match[j][i]) ; |
5552 | ||
5553 | fhMCESplitEFracOverlap1Match[j][i] = new TH2F(Form("hMCESplitEFracOverlap1NLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5554 | Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5555 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5556 | fhMCESplitEFracOverlap1Match[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5557 | fhMCESplitEFracOverlap1Match[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5558 | outputContainer->Add(fhMCESplitEFracOverlap1Match[j][i]) ; |
5559 | ||
5560 | fhMCESplitEFracOverlapNMatch[j][i] = new TH2F(Form("hMCESplitEFracOverlapNNLocMax%s%sMatched",snlm[j].Data(), pname[i].Data()), | |
25330263 | 5561 | Form("SplitEFrac vs E for #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),ptype[i].Data()), |
1253480f | 5562 | nptbins,ptmin,ptmax,120,0,1.2); |
25330263 | 5563 | fhMCESplitEFracOverlapNMatch[j][i] ->SetYTitle("(#it{E}_{split1}+#it{E}_{split2})/#it{E}_{cluster}"); |
5564 | fhMCESplitEFracOverlapNMatch[j][i] ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5565 | outputContainer->Add(fhMCESplitEFracOverlapNMatch[j][i]) ; |
1253480f | 5566 | |
83351853 | 5567 | |
b2e375c7 | 5568 | if(i < 5) |
5569 | { | |
5570 | fhMCPi0MassM02Overlap0Match[j][i-1] = new TH2F(Form("hMCPi0MassM02Overlap0NLocMax%sEbin%dMatched",snlm[j].Data(),i-1), | |
25330263 | 5571 | Form("Overlap 0, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5572 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5573 | fhMCPi0MassM02Overlap0Match[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5574 | fhMCPi0MassM02Overlap0Match[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5575 | outputContainer->Add(fhMCPi0MassM02Overlap0Match[j][i-1]) ; | |
5576 | ||
5577 | fhMCPi0MassM02Overlap1Match[j][i-1] = new TH2F(Form("hMCPi0MassM02Overlap1NLocMax%sEbin%dMatched",snlm[j].Data(),i-1), | |
25330263 | 5578 | Form("Overlap 1, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5579 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5580 | fhMCPi0MassM02Overlap1Match[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5581 | fhMCPi0MassM02Overlap1Match[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5582 | outputContainer->Add(fhMCPi0MassM02Overlap1Match[j][i-1]) ; | |
5583 | ||
5584 | fhMCPi0MassM02OverlapNMatch[j][i-1] = new TH2F(Form("hMCPi0MassM02OverlapNNLocMax%sEbin%dMatched",snlm[j].Data(),i-1), | |
25330263 | 5585 | Form("Overlap N, Mass vs #lambda_{0}^{2}, #it{NLM}=%s, %s, Track Matched",snlm[j].Data(),sEBin[i-1].Data()), |
1253480f | 5586 | ssbins,ssmin,ssmax,mbins,mmin,mmax); |
25330263 | 5587 | fhMCPi0MassM02OverlapNMatch[j][i-1]->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
b2e375c7 | 5588 | fhMCPi0MassM02OverlapNMatch[j][i-1]->SetXTitle("#lambda_{0}^{2}"); |
5589 | outputContainer->Add(fhMCPi0MassM02OverlapNMatch[j][i-1]) ; | |
5590 | ||
5591 | } | |
5592 | ||
5593 | } | |
5594 | } | |
5595 | } | |
5596 | ||
5597 | fhMCPi0HighNLMPair = new TH2F("hMCPi0HighNLMPair","NLM vs E for merged pi0 cluster, high energy NLM pair are decays", | |
5598 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5599 | fhMCPi0HighNLMPair ->SetYTitle("#it{N} maxima"); |
5600 | fhMCPi0HighNLMPair ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5601 | outputContainer->Add(fhMCPi0HighNLMPair) ; |
5602 | ||
5603 | fhMCPi0LowNLMPair = new TH2F("hMCPi0LowNLMPair","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays", | |
5604 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5605 | fhMCPi0LowNLMPair ->SetYTitle("#it{N} maxima"); |
5606 | fhMCPi0LowNLMPair ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5607 | outputContainer->Add(fhMCPi0LowNLMPair) ; |
5608 | ||
5609 | fhMCPi0AnyNLMPair = new TH2F("hMCPi0AnyNLMPair","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays", | |
5610 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5611 | fhMCPi0AnyNLMPair ->SetYTitle("#it{N} maxima"); |
5612 | fhMCPi0AnyNLMPair ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5613 | outputContainer->Add(fhMCPi0AnyNLMPair) ; |
5614 | ||
5615 | fhMCPi0NoneNLMPair = new TH2F("hMCPi0NoneNLMPair","NLM vs E for merged pi0 cluster, no NLM pair are decays", | |
5616 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5617 | fhMCPi0NoneNLMPair ->SetYTitle("#it{N} maxima"); |
5618 | fhMCPi0NoneNLMPair ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5619 | outputContainer->Add(fhMCPi0NoneNLMPair) ; |
1253480f | 5620 | |
b2e375c7 | 5621 | |
5622 | fhMCPi0HighNLMPairNoMCMatch = new TH2F("hMCPi0HighNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, high energy NLM pair are decays", | |
1253480f | 5623 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5624 | fhMCPi0HighNLMPairNoMCMatch ->SetYTitle("#it{N} maxima"); |
5625 | fhMCPi0HighNLMPairNoMCMatch ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5626 | outputContainer->Add(fhMCPi0HighNLMPairNoMCMatch) ; |
5627 | ||
5628 | fhMCPi0LowNLMPairNoMCMatch = new TH2F("hMCPi0LowNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays", | |
1253480f | 5629 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5630 | fhMCPi0LowNLMPairNoMCMatch ->SetYTitle("#it{N} maxima"); |
5631 | fhMCPi0LowNLMPairNoMCMatch ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5632 | outputContainer->Add(fhMCPi0LowNLMPairNoMCMatch) ; |
5633 | ||
5634 | fhMCPi0AnyNLMPairNoMCMatch = new TH2F("hMCPi0AnyNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays", | |
1253480f | 5635 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5636 | fhMCPi0AnyNLMPairNoMCMatch ->SetYTitle("#it{N} maxima"); |
5637 | fhMCPi0AnyNLMPairNoMCMatch ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5638 | outputContainer->Add(fhMCPi0AnyNLMPairNoMCMatch) ; |
5639 | ||
5640 | fhMCPi0NoneNLMPairNoMCMatch = new TH2F("hMCPi0NoneNLMPairNoMCMatch","NLM vs E for merged pi0 cluster, no NLM pair are decays", | |
1253480f | 5641 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5642 | fhMCPi0NoneNLMPairNoMCMatch ->SetYTitle("#it{N} maxima"); |
5643 | fhMCPi0NoneNLMPairNoMCMatch ->SetXTitle("#it{E} (GeV)"); | |
b2e375c7 | 5644 | outputContainer->Add(fhMCPi0NoneNLMPairNoMCMatch) ; |
1253480f | 5645 | |
b2e375c7 | 5646 | |
36769d30 | 5647 | fhMCPi0HighNLMPairOverlap = new TH2F("hMCPi0HighNLMPairOverlap","NLM vs E for merged pi0 cluster, high energy NLM pair are decays", |
5648 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5649 | fhMCPi0HighNLMPairOverlap ->SetYTitle("#it{N} maxima"); |
5650 | fhMCPi0HighNLMPairOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5651 | outputContainer->Add(fhMCPi0HighNLMPairOverlap) ; |
5652 | ||
5653 | fhMCPi0LowNLMPairOverlap = new TH2F("hMCPi0LowNLMPairOverlap","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays", | |
5654 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5655 | fhMCPi0LowNLMPairOverlap ->SetYTitle("#it{N} maxima"); |
5656 | fhMCPi0LowNLMPairOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5657 | outputContainer->Add(fhMCPi0LowNLMPairOverlap) ; |
5658 | ||
5659 | fhMCPi0AnyNLMPairOverlap = new TH2F("hMCPi0AnyNLMPairOverlap","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays", | |
5660 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5661 | fhMCPi0AnyNLMPairOverlap ->SetYTitle("#it{N} maxima"); |
5662 | fhMCPi0AnyNLMPairOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5663 | outputContainer->Add(fhMCPi0AnyNLMPairOverlap) ; |
5664 | ||
5665 | fhMCPi0NoneNLMPairOverlap = new TH2F("hMCPi0NoneNLMPairOverlap","NLM vs E for merged pi0 cluster, no NLM pair are decays", | |
5666 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5667 | fhMCPi0NoneNLMPairOverlap ->SetYTitle("#it{N} maxima"); |
5668 | fhMCPi0NoneNLMPairOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5669 | outputContainer->Add(fhMCPi0NoneNLMPairOverlap) ; |
5670 | ||
5671 | fhMCPi0HighNLMPairNoMCMatchOverlap = new TH2F("hMCPi0HighNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, high energy NLM pair are decays", | |
5672 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5673 | fhMCPi0HighNLMPairNoMCMatchOverlap ->SetYTitle("#it{N} maxima"); |
5674 | fhMCPi0HighNLMPairNoMCMatchOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5675 | outputContainer->Add(fhMCPi0HighNLMPairNoMCMatchOverlap) ; |
5676 | ||
5677 | fhMCPi0LowNLMPairNoMCMatchOverlap = new TH2F("hMCPi0LowNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, lower energy NLM pair are decays", | |
5678 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5679 | fhMCPi0LowNLMPairNoMCMatchOverlap ->SetYTitle("#it{N} maxima"); |
5680 | fhMCPi0LowNLMPairNoMCMatchOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5681 | outputContainer->Add(fhMCPi0LowNLMPairNoMCMatchOverlap) ; |
5682 | ||
5683 | fhMCPi0AnyNLMPairNoMCMatchOverlap = new TH2F("hMCPi0AnyNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, both high and other energy NLM pair are decays", | |
5684 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5685 | fhMCPi0AnyNLMPairNoMCMatchOverlap ->SetYTitle("#it{N} maxima"); |
5686 | fhMCPi0AnyNLMPairNoMCMatchOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5687 | outputContainer->Add(fhMCPi0AnyNLMPairNoMCMatchOverlap) ; |
5688 | ||
5689 | fhMCPi0NoneNLMPairNoMCMatchOverlap = new TH2F("hMCPi0NoneNLMPairNoMCMatchOverlap","NLM vs E for merged pi0 cluster, no NLM pair are decays", | |
5690 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5691 | fhMCPi0NoneNLMPairNoMCMatchOverlap ->SetYTitle("#it{N} maxima"); |
5692 | fhMCPi0NoneNLMPairNoMCMatchOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5693 | outputContainer->Add(fhMCPi0NoneNLMPairNoMCMatchOverlap) ; |
b583134f | 5694 | |
1253480f | 5695 | |
36769d30 | 5696 | fhMCPi0DecayPhotonHitHighLM = new TH2F("hMCPi0DecayPhotonHitHighLM","NLM vs E for merged pi0 cluster, decay photon hit High Local Maxima", |
83351853 | 5697 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5698 | fhMCPi0DecayPhotonHitHighLM ->SetYTitle("#it{N} maxima"); |
5699 | fhMCPi0DecayPhotonHitHighLM ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5700 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLM ) ; |
5701 | ||
36769d30 | 5702 | fhMCPi0DecayPhotonAdjHighLM = new TH2F("hMCPi0DecayPhotonAdjHighLM","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to High Local Maxima", |
1253480f | 5703 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5704 | fhMCPi0DecayPhotonAdjHighLM ->SetYTitle("#it{N} maxima"); |
5705 | fhMCPi0DecayPhotonAdjHighLM ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5706 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLM ) ; |
1253480f | 5707 | |
36769d30 | 5708 | fhMCPi0DecayPhotonHitOtherLM = new TH2F("hMCPi0DecayPhotonHitOtherLM","NLM vs E for merged pi0 cluster, decay photon hit Other Local Maxima", |
1253480f | 5709 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5710 | fhMCPi0DecayPhotonHitOtherLM ->SetYTitle("#it{N} maxima"); |
5711 | fhMCPi0DecayPhotonHitOtherLM ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5712 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLM ) ; |
5713 | ||
36769d30 | 5714 | fhMCPi0DecayPhotonAdjOtherLM = new TH2F("hMCPi0DecayPhotonAdjOtherLM","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to Other Local Maxima", |
1253480f | 5715 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); |
25330263 | 5716 | fhMCPi0DecayPhotonAdjOtherLM ->SetYTitle("#it{N} maxima"); |
5717 | fhMCPi0DecayPhotonAdjOtherLM ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5718 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLM ) ; |
1253480f | 5719 | |
36769d30 | 5720 | fhMCPi0DecayPhotonAdjacent = new TH2F("hMCPi0DecayPhotonAdjacent","NLM vs E for merged pi0 cluster, decay photon hit adjacent cells", |
5721 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5722 | fhMCPi0DecayPhotonAdjacent ->SetYTitle("#it{N} maxima"); |
5723 | fhMCPi0DecayPhotonAdjacent ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5724 | outputContainer->Add(fhMCPi0DecayPhotonAdjacent ) ; |
5725 | ||
5726 | fhMCPi0DecayPhotonHitNoLM = new TH2F("hMCPi0DecayPhotonHitNoLM","NLM vs E for merged pi0 cluster, decay photon do not hit Local Maxima", | |
5727 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5728 | fhMCPi0DecayPhotonHitNoLM ->SetYTitle("#it{N} maxima"); |
5729 | fhMCPi0DecayPhotonHitNoLM ->SetXTitle("#it{E} (GeV)"); | |
83351853 | 5730 | outputContainer->Add(fhMCPi0DecayPhotonHitNoLM ) ; |
5731 | ||
36769d30 | 5732 | |
5733 | fhMCPi0DecayPhotonHitHighLMOverlap = new TH2F("hMCPi0DecayPhotonHitHighLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit High Local Maxima, there was an overlap", | |
5734 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5735 | fhMCPi0DecayPhotonHitHighLMOverlap ->SetYTitle("#it{N} maxima"); |
5736 | fhMCPi0DecayPhotonHitHighLMOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5737 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlap ) ; |
5738 | ||
5739 | fhMCPi0DecayPhotonAdjHighLMOverlap = new TH2F("hMCPi0DecayPhotonAdjHighLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to High Local Maxima, there was an overlap", | |
5740 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5741 | fhMCPi0DecayPhotonAdjHighLMOverlap ->SetYTitle("#it{N} maxima"); |
5742 | fhMCPi0DecayPhotonAdjHighLMOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5743 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlap ) ; |
5744 | ||
5745 | fhMCPi0DecayPhotonHitOtherLMOverlap = new TH2F("hMCPi0DecayPhotonHitOtherLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit Other Local Maxima, there was an overlap", | |
5746 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5747 | fhMCPi0DecayPhotonHitOtherLMOverlap ->SetYTitle("#it{N} maxima"); |
5748 | fhMCPi0DecayPhotonHitOtherLMOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5749 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlap ) ; |
5750 | ||
5751 | fhMCPi0DecayPhotonAdjOtherLMOverlap = new TH2F("hMCPi0DecayPhotonAdjOtherLMOverlap","NLM vs E for merged pi0 cluster, decay photon hit cells adjacent to Other Local Maxima, there was an overlap", | |
5752 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5753 | fhMCPi0DecayPhotonAdjOtherLMOverlap ->SetYTitle("#it{N} maxima"); |
5754 | fhMCPi0DecayPhotonAdjOtherLMOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5755 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlap ) ; |
5756 | ||
5757 | fhMCPi0DecayPhotonAdjacentOverlap = new TH2F("hMCPi0DecayPhotonAdjacentOverlap","NLM vs E for merged pi0 cluster, decay photon hit adjacent cells, there was an overlap", | |
5758 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5759 | fhMCPi0DecayPhotonAdjacentOverlap ->SetYTitle("#it{N} maxima"); |
5760 | fhMCPi0DecayPhotonAdjacentOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5761 | outputContainer->Add(fhMCPi0DecayPhotonAdjacentOverlap ) ; |
5762 | ||
5763 | fhMCPi0DecayPhotonHitNoLMOverlap = new TH2F("hMCPi0DecayPhotonHitNoLMOverlap","NLM vs E for merged pi0 cluster, decay photon do not hit Local Maxima, there was an overlap", | |
5764 | nptbins,ptmin,ptmax,nMaxBins,0,nMaxBins); | |
25330263 | 5765 | fhMCPi0DecayPhotonHitNoLMOverlap ->SetYTitle("#it{N} maxima"); |
5766 | fhMCPi0DecayPhotonHitNoLMOverlap ->SetXTitle("#it{E} (GeV)"); | |
36769d30 | 5767 | outputContainer->Add(fhMCPi0DecayPhotonHitNoLMOverlap ) ; |
5768 | ||
1253480f | 5769 | |
b583134f | 5770 | for(Int_t nlm = 0; nlm < 3; nlm++) |
5771 | { | |
5772 | fhMCPi0DecayPhotonHitHighLMMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sMass",snlm[nlm].Data()), | |
25330263 | 5773 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()), |
29555e96 | 5774 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5775 | fhMCPi0DecayPhotonHitHighLMMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5776 | fhMCPi0DecayPhotonHitHighLMMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5777 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMMass[nlm] ) ; |
5778 | ||
5779 | fhMCPi0DecayPhotonAdjHighLMMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sMass",snlm[nlm].Data()), | |
25330263 | 5780 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()), |
29555e96 | 5781 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5782 | fhMCPi0DecayPhotonAdjHighLMMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5783 | fhMCPi0DecayPhotonAdjHighLMMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5784 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMMass[nlm] ) ; |
5785 | ||
5786 | fhMCPi0DecayPhotonHitOtherLMMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sMass",snlm[nlm].Data()), | |
25330263 | 5787 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5788 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5789 | fhMCPi0DecayPhotonHitOtherLMMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5790 | fhMCPi0DecayPhotonHitOtherLMMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5791 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMMass[nlm] ) ; |
5792 | ||
5793 | fhMCPi0DecayPhotonAdjOtherLMMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sMass",snlm[nlm].Data()), | |
25330263 | 5794 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5795 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5796 | fhMCPi0DecayPhotonAdjOtherLMMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5797 | fhMCPi0DecayPhotonAdjOtherLMMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5798 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMMass[nlm] ) ; |
5799 | ||
5800 | fhMCPi0DecayPhotonAdjacentMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjacentLM%sMass",snlm[nlm].Data()), | |
25330263 | 5801 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit adjacent cells",snlm[nlm].Data()), |
29555e96 | 5802 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5803 | fhMCPi0DecayPhotonAdjacentMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5804 | fhMCPi0DecayPhotonAdjacentMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5805 | outputContainer->Add(fhMCPi0DecayPhotonAdjacentMass[nlm] ) ; |
5806 | ||
5807 | fhMCPi0DecayPhotonHitNoLMMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitNoLM%sMass",snlm[nlm].Data()), | |
25330263 | 5808 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon do not hit Local Maxima",snlm[nlm].Data()), |
29555e96 | 5809 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5810 | fhMCPi0DecayPhotonHitNoLMMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5811 | fhMCPi0DecayPhotonHitNoLMMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5812 | outputContainer->Add(fhMCPi0DecayPhotonHitNoLMMass[nlm] ) ; |
5813 | ||
5814 | ||
5815 | fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5816 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5817 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5818 | fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5819 | fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5820 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapMass[nlm]) ; |
5821 | ||
5822 | fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5823 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5824 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5825 | fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5826 | fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5827 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapMass[nlm]) ; |
5828 | ||
5829 | fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5830 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5831 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5832 | fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5833 | fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5834 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapMass[nlm]) ; |
5835 | ||
5836 | fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5837 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5838 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5839 | fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5840 | fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5841 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapMass[nlm]) ; |
5842 | ||
5843 | fhMCPi0DecayPhotonAdjacentOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjacentLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5844 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit adjacent cells, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5845 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5846 | fhMCPi0DecayPhotonAdjacentOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5847 | fhMCPi0DecayPhotonAdjacentOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5848 | outputContainer->Add(fhMCPi0DecayPhotonAdjacentOverlapMass[nlm]) ; |
5849 | ||
5850 | fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitNoLM%sOverlapMass",snlm[nlm].Data()), | |
25330263 | 5851 | Form("Mass vs E for merged pi0 cluster, #it{NLM}=%s, decay photon do not hit Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5852 | nptbins,ptmin,ptmax,mbins,mmin,mmax); |
25330263 | 5853 | fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm] ->SetYTitle("#it{M} (GeV/#it{c}^{2})"); |
5854 | fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm] ->SetXTitle("#it{E} (GeV)"); | |
b583134f | 5855 | outputContainer->Add(fhMCPi0DecayPhotonHitNoLMOverlapMass[nlm]) ; |
29555e96 | 5856 | |
b583134f | 5857 | fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM1",snlm[nlm].Data()), |
25330263 | 5858 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs E pi0 for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()), |
cb99fa55 | 5859 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5860 | fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5861 | fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5862 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM1[nlm] ) ; |
5863 | ||
5864 | fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM1",snlm[nlm].Data()), | |
25330263 | 5865 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()), |
29555e96 | 5866 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5867 | fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
29555e96 | 5868 | fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm] ->SetXTitle("E pi0 (GeV)"); |
b583134f | 5869 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM1[nlm] ) ; |
5870 | ||
5871 | fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM1",snlm[nlm].Data()), | |
25330263 | 5872 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5873 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5874 | fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5875 | fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
b583134f | 5876 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM1[nlm] ) ; |
5877 | ||
5878 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM1",snlm[nlm].Data()), | |
25330263 | 5879 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5880 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5881 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5882 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5883 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM1[nlm] ) ; |
5884 | ||
5885 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM1",snlm[nlm].Data()), | |
25330263 | 5886 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5887 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5888 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5889 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5890 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1[nlm]) ; |
5891 | ||
5892 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM1",snlm[nlm].Data()), | |
25330263 | 5893 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5894 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5895 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5896 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5897 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1[nlm]) ; |
5898 | ||
5899 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM1",snlm[nlm].Data()), | |
25330263 | 5900 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5901 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5902 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5903 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5904 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1[nlm]) ; |
5905 | ||
5906 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM1",snlm[nlm].Data()), | |
25330263 | 5907 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 5908 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5909 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5910 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5911 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1[nlm]) ; |
5912 | ||
5913 | fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM2",snlm[nlm].Data()), | |
25330263 | 5914 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()), |
cb99fa55 | 5915 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5916 | fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5917 | fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5918 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM2[nlm] ) ; |
5919 | ||
5920 | fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM2",snlm[nlm].Data()), | |
25330263 | 5921 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()), |
cb99fa55 | 5922 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5923 | fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5924 | fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5925 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM2[nlm] ) ; |
5926 | ||
5927 | fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM2",snlm[nlm].Data()), | |
25330263 | 5928 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()), |
cb99fa55 | 5929 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5930 | fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5931 | fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5932 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM2[nlm] ) ; |
5933 | ||
5934 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM2",snlm[nlm].Data()), | |
25330263 | 5935 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()), |
cb99fa55 | 5936 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5937 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5938 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5939 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM2[nlm] ) ; |
5940 | ||
5941 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM2",snlm[nlm].Data()), | |
25330263 | 5942 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()), |
cb99fa55 | 5943 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5944 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5945 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5946 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2[nlm]) ; |
5947 | ||
5948 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM2",snlm[nlm].Data()), | |
25330263 | 5949 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()), |
cb99fa55 | 5950 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5951 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5952 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5953 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2[nlm]) ; |
5954 | ||
5955 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM2",snlm[nlm].Data()), | |
25330263 | 5956 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
cb99fa55 | 5957 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5958 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5959 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5960 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2[nlm]) ; |
5961 | ||
5962 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM2",snlm[nlm].Data()), | |
25330263 | 5963 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{pi0 reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
cb99fa55 | 5964 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5965 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5966 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm] ->SetXTitle("#it{E}_{pi0 reco} (GeV)"); | |
b583134f | 5967 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2[nlm]) ; |
29555e96 | 5968 | |
5969 | ||
5970 | fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 5971 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs E for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()), |
29555e96 | 5972 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5973 | fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5974 | fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 5975 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM1vsELM1[nlm] ) ; |
5976 | ||
5977 | fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 5978 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()), |
29555e96 | 5979 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5980 | fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5981 | fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm] ->SetXTitle("#it{E} (GeV)"); | |
29555e96 | 5982 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM1vsELM1[nlm] ) ; |
5983 | ||
5984 | fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 5985 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5986 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5987 | fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5988 | fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 5989 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM1vsELM1[nlm] ) ; |
5990 | ||
5991 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 5992 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 5993 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 5994 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
5995 | fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 5996 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM1vsELM1[nlm] ) ; |
5997 | ||
5998 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 5999 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6000 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6001 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6002 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6003 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM1vsELM1[nlm]) ; |
6004 | ||
6005 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 6006 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6007 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6008 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6009 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6010 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM1vsELM1[nlm]) ; |
6011 | ||
6012 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 6013 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6014 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6015 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6016 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6017 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM1vsELM1[nlm]) ; |
6018 | ||
6019 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM1vsELM1",snlm[nlm].Data()), | |
25330263 | 6020 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6021 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6022 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6023 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6024 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM1vsELM1[nlm]) ; |
6025 | ||
6026 | fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6027 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima",snlm[nlm].Data()), |
29555e96 | 6028 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6029 | fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6030 | fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6031 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMDiffELM2vsELM2[nlm] ) ; |
6032 | ||
6033 | fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6034 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima",snlm[nlm].Data()), |
29555e96 | 6035 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6036 | fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6037 | fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6038 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMDiffELM2vsELM2[nlm] ) ; |
6039 | ||
6040 | fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6041 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 6042 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6043 | fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6044 | fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6045 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMDiffELM2vsELM2[nlm] ) ; |
6046 | ||
6047 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6048 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima",snlm[nlm].Data()), |
29555e96 | 6049 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6050 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6051 | fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6052 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMDiffELM2vsELM2[nlm] ) ; |
6053 | ||
6054 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitHighLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6055 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6056 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6057 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6058 | fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6059 | outputContainer->Add(fhMCPi0DecayPhotonHitHighLMOverlapDiffELM2vsELM2[nlm]) ; |
6060 | ||
6061 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjHighLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6062 | Form("#it{E}_{reco}-#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to High Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6063 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6064 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6065 | fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6066 | outputContainer->Add(fhMCPi0DecayPhotonAdjHighLMOverlapDiffELM2vsELM2[nlm]) ; |
6067 | ||
6068 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonHitOtherLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6069 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6070 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6071 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6072 | fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6073 | outputContainer->Add(fhMCPi0DecayPhotonHitOtherLMOverlapDiffELM2vsELM2[nlm]) ; |
6074 | ||
6075 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm] = new TH2F(Form("hMCPi0DecayPhotonAdjOtherLM%sOverlapDiffELM2vsELM2",snlm[nlm].Data()), | |
25330263 | 6076 | Form("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen} vs #it{E}_{reco} for merged pi0 cluster, #it{NLM}=%s, decay photon hit cells adjacent to Other Local Maxima, there was an overlap",snlm[nlm].Data()), |
29555e96 | 6077 | nptbins,ptmin,ptmax,200,-2,2);//nptbins,-ptmax/4,ptmax/4); |
25330263 | 6078 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm] ->SetYTitle("(#it{E}_{reco}-#it{E}_{gen})/#it{E}_{gen}"); |
6079 | fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm] ->SetXTitle("#it{E}_{reco} (GeV)"); | |
29555e96 | 6080 | outputContainer->Add(fhMCPi0DecayPhotonAdjOtherLMOverlapDiffELM2vsELM2[nlm]) ; |
6081 | ||
b583134f | 6082 | } |
6083 | ||
b2e375c7 | 6084 | fhMCEOverlapType = new TH2F("hMCEOverlapType","Kind of overlap particle, neutral clusters", |
6085 | nptbins,ptmin,ptmax,5,0,5); | |
6086 | //fhMCEOverlapType ->SetYTitle("Overlap Type"); | |
6087 | fhMCEOverlapType->GetYaxis()->SetBinLabel(1 ,"#gamma"); | |
6088 | fhMCEOverlapType->GetYaxis()->SetBinLabel(2 ,"e^{#pm}"); | |
6089 | fhMCEOverlapType->GetYaxis()->SetBinLabel(3 ,"hadron^{#pm}"); | |
6090 | fhMCEOverlapType->GetYaxis()->SetBinLabel(4 ,"hadron^{0}"); | |
6091 | fhMCEOverlapType->GetYaxis()->SetBinLabel(5 ,"??"); | |
25330263 | 6092 | fhMCEOverlapType->SetXTitle("Cluster #it{E} (GeV)"); |
b2e375c7 | 6093 | outputContainer->Add(fhMCEOverlapType) ; |
1253480f | 6094 | |
b2e375c7 | 6095 | fhMCEOverlapTypeMatch = new TH2F("hMCEOverlapTypeMatched","Kind of overlap particle, charged clusters", |
1253480f | 6096 | nptbins,ptmin,ptmax,5,0,5); |
b2e375c7 | 6097 | //fhMCEOverlapTypeMatch ->SetYTitle("Overlap Type"); |
6098 | fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(1 ,"#gamma"); | |
6099 | fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(2 ,"e^{#pm}"); | |
6100 | fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(3 ,"hadron^{#pm}"); | |
6101 | fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(4 ,"hadron^{0}"); | |
6102 | fhMCEOverlapTypeMatch->GetYaxis()->SetBinLabel(5 ,"??"); | |
25330263 | 6103 | fhMCEOverlapTypeMatch->SetXTitle("Cluster #it{E} (GeV)"); |
b2e375c7 | 6104 | outputContainer->Add(fhMCEOverlapTypeMatch) ; |
1253480f | 6105 | |
b2e375c7 | 6106 | }// MC analysis, check overlaps |
6107 | ||
ce49dd72 | 6108 | |
b583134f | 6109 | if(IsDataMC()) |
6110 | { | |
6111 | for(Int_t inlm = 0; inlm < 3; inlm++) | |
6112 | { | |
6113 | fhAsyMCGenRecoDiffMCPi0[inlm] = new TH2F(Form("hAsyMCGenRecoFracNLocMax%sMCPi0",snlm[inlm].Data()), | |
25330263 | 6114 | Form("Reconstructed - Generated asymmetry with #it{NLM}=%d vs E, MC Pi0",inlm), |
b583134f | 6115 | nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 6116 | fhAsyMCGenRecoDiffMCPi0[inlm]->SetYTitle("#it{A}_{reco} - #it{A}_{gen}"); |
6117 | fhAsyMCGenRecoDiffMCPi0[inlm]->SetXTitle("#it{E} (GeV)"); | |
b583134f | 6118 | outputContainer->Add(fhAsyMCGenRecoDiffMCPi0[inlm]) ; |
6119 | ||
6120 | fhAsyMCGenRecoDiffMCPi0Conv[inlm] = new TH2F(Form("hAsyMCGenRecoFracNLocMax%sMCPi0Conv",snlm[inlm].Data()), | |
25330263 | 6121 | Form("Reconstructed - Generated asymmetry with #it{NLM}=%d vs E, MC Pi0Conv",inlm), |
b583134f | 6122 | nptbins,ptmin,ptmax,200,-1,1); |
25330263 | 6123 | fhAsyMCGenRecoDiffMCPi0Conv[inlm]->SetYTitle("#it{A}_{reco} - #it{A}_{gen}"); |
6124 | fhAsyMCGenRecoDiffMCPi0Conv[inlm]->SetXTitle("#it{E} (GeV)"); | |
b583134f | 6125 | outputContainer->Add(fhAsyMCGenRecoDiffMCPi0Conv[inlm]) ; |
6126 | } | |
6127 | } | |
6128 | ||
cb99fa55 | 6129 | if(fFillArmenterosHisto) |
6130 | { | |
be894c1d | 6131 | Int_t narmbins = 400; |
6132 | Float_t armmin = 0; | |
6133 | Float_t armmax = 0.4; | |
6134 | ||
ed10b649 | 6135 | for(Int_t i = 0; i < 7; i++) // MC bin |
cb99fa55 | 6136 | { |
6137 | for(Int_t j = 0; j < 4; j++) // E bin | |
6138 | { | |
6139 | fhArmNLocMax1[i][j] = new TH2F(Form("hArmNLocMax1EBin%d%s",j,pname[i].Data()), | |
25330263 | 6140 | Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6141 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6142 | fhArmNLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6143 | fhArmNLocMax1[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6144 | outputContainer->Add(fhArmNLocMax1[i][j]) ; |
6145 | ||
6146 | fhArmNLocMax2[i][j] = new TH2F(Form("hArmNLocMax2EBin%d%s",j,pname[i].Data()), | |
25330263 | 6147 | Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6148 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6149 | fhArmNLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6150 | fhArmNLocMax2[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6151 | outputContainer->Add(fhArmNLocMax2[i][j]) ; |
6152 | ||
6153 | fhArmNLocMaxN[i][j] = new TH2F(Form("hArmNLocMaxNEBin%d%s",j,pname[i].Data()), | |
be894c1d | 6154 | Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
6155 | 200, -1, 1, narmbins,armmin,armmax); | |
25330263 | 6156 | fhArmNLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6157 | fhArmNLocMaxN[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6158 | outputContainer->Add(fhArmNLocMaxN[i][j]) ; |
6159 | ||
c7e9a4e9 | 6160 | if(asyOn || m02On) |
cb99fa55 | 6161 | { |
6162 | fhArmAfterCutsNLocMax1[i][j] = new TH2F(Form("hArmAfterCutsNLocMax1EBin%d%s",j,pname[i].Data()), | |
25330263 | 6163 | Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6164 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6165 | fhArmAfterCutsNLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6166 | fhArmAfterCutsNLocMax1[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6167 | outputContainer->Add(fhArmAfterCutsNLocMax1[i][j]) ; |
6168 | ||
6169 | fhArmAfterCutsNLocMax2[i][j] = new TH2F(Form("hArmAfterCutsNLocMax2EBin%d%s",j,pname[i].Data()), | |
25330263 | 6170 | Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6171 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6172 | fhArmAfterCutsNLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6173 | fhArmAfterCutsNLocMax2[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6174 | outputContainer->Add(fhArmAfterCutsNLocMax2[i][j]) ; |
6175 | ||
6176 | fhArmAfterCutsNLocMaxN[i][j] = new TH2F(Form("hArmAfterCutsNLocMaxNEBin%d%s",j,pname[i].Data()), | |
be894c1d | 6177 | Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
6178 | 200, -1, 1, narmbins,armmin,armmax); | |
25330263 | 6179 | fhArmAfterCutsNLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6180 | fhArmAfterCutsNLocMaxN[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6181 | outputContainer->Add(fhArmAfterCutsNLocMaxN[i][j]) ; |
6182 | } | |
6183 | ||
6184 | fhArmPi0NLocMax1[i][j] = new TH2F(Form("hArmPi0NLocMax1EBin%d%s",j,pname[i].Data()), | |
25330263 | 6185 | Form("Armenteros of splitted cluster with #it{NLM}=1, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6186 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6187 | fhArmPi0NLocMax1[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6188 | fhArmPi0NLocMax1[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6189 | outputContainer->Add(fhArmPi0NLocMax1[i][j]) ; |
6190 | ||
6191 | fhArmPi0NLocMax2[i][j] = new TH2F(Form("hArmPi0NLocMax2EBin%d%s",j,pname[i].Data()), | |
25330263 | 6192 | Form("Armenteros of splitted cluster with #it{NLM}=2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
be894c1d | 6193 | 200, -1, 1, narmbins,armmin,armmax); |
25330263 | 6194 | fhArmPi0NLocMax2[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6195 | fhArmPi0NLocMax2[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6196 | outputContainer->Add(fhArmPi0NLocMax2[i][j]) ; |
6197 | ||
6198 | fhArmPi0NLocMaxN[i][j] = new TH2F(Form("hArmPi0NLocMaxNEBin%d%s",j,pname[i].Data()), | |
be894c1d | 6199 | Form("Armenteros of splitted cluster with NLM>2, %s, %s",sEBin[j].Data(),ptype[i].Data()), |
6200 | 200, -1, 1, narmbins,armmin,armmax); | |
25330263 | 6201 | fhArmPi0NLocMaxN[i][j]->SetYTitle("#it{p}_{T}^{Arm}"); |
be894c1d | 6202 | fhArmPi0NLocMaxN[i][j]->SetXTitle("#alpha^{Arm}"); |
cb99fa55 | 6203 | outputContainer->Add(fhArmPi0NLocMaxN[i][j]) ; |
6204 | ||
6205 | } | |
6206 | } | |
6207 | } | |
6208 | ||
992b14a7 | 6209 | return outputContainer ; |
6210 | ||
6211 | } | |
6212 | ||
b2e375c7 | 6213 | //_____________________________________________________________________________ |
4914e781 | 6214 | void AliAnaInsideClusterInvariantMass::GetMCIndex(AliVCluster* cluster, |
6215 | Int_t & mcindex, Int_t & tag) | |
b2e375c7 | 6216 | { |
6217 | ||
6218 | // Assign mc index depending on MC bit set, to be used in histograms arrays | |
1253480f | 6219 | |
4914e781 | 6220 | tag = GetMCAnalysisUtils()->CheckOrigin(cluster->GetLabels(),cluster->GetNLabels(), GetReader()); |
b2e375c7 | 6221 | |
6222 | if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPi0) && | |
6223 | !GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcPi0; | |
6224 | else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPi0) ) mcindex = kmcPi0Conv; | |
6225 | else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCEta) ) mcindex = kmcEta; | |
6226 | else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPhoton) && | |
6227 | !GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcPhoton; | |
6228 | else if ( GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCPhoton) && | |
6229 | GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCConversion)) mcindex = kmcConversion; | |
cb99fa55 | 6230 | else if (!GetMCAnalysisUtils()->CheckTagBit(tag,AliMCAnalysisUtils::kMCElectron) ) mcindex = kmcHadron; |
6231 | ||
6232 | //printf("MC index %d\n",mcindex); | |
b2e375c7 | 6233 | |
6234 | } | |
6235 | ||
b94e038e | 6236 | //____________________________________________________________________________________________ |
6237 | void AliAnaInsideClusterInvariantMass::GetMCPrimaryKine(AliVCluster* cluster, Int_t mcindex, | |
6238 | Int_t mctag, Bool_t matched, | |
6239 | Float_t & eprim, Float_t & asymGen, | |
6240 | Float_t & angleGen, Int_t & noverlaps ) | |
b2e375c7 | 6241 | { |
6242 | // Check origin of the candidates, get primary kinematics if overlapped meson decay | |
6243 | ||
b2e375c7 | 6244 | Bool_t ok = kFALSE; |
6245 | Int_t mcLabel = cluster->GetLabel(); | |
6246 | ||
6247 | TLorentzVector primary = GetMCAnalysisUtils()->GetMother(mcLabel,GetReader(),ok); | |
6248 | eprim = primary.E(); | |
6249 | ||
36769d30 | 6250 | Int_t mesonLabel = -1; |
6251 | ||
b2e375c7 | 6252 | if(mcindex == kmcPi0 || mcindex == kmcEta || mcindex == kmcPi0Conv) |
6253 | { | |
6254 | if(mcindex == kmcPi0 || mcindex == kmcPi0Conv) | |
6255 | { | |
0186b6a2 | 6256 | GetMCAnalysisUtils()->GetMCDecayAsymmetryAngleForPDG(mcLabel,111,GetReader(),asymGen,angleGen,ok); |
6257 | asymGen = TMath::Abs(asymGen); | |
36769d30 | 6258 | TLorentzVector grandmom = GetMCAnalysisUtils()->GetMotherWithPDG(mcLabel,111,GetReader(),ok,mesonLabel); |
b2e375c7 | 6259 | if(grandmom.E() > 0 && ok) eprim = grandmom.E(); |
6260 | } | |
6261 | else | |
6262 | { | |
0186b6a2 | 6263 | GetMCAnalysisUtils()->GetMCDecayAsymmetryAngleForPDG(mcLabel,221,GetReader(),asymGen,angleGen,ok); |
6264 | asymGen = TMath::Abs(asymGen); | |
36769d30 | 6265 | TLorentzVector grandmom = GetMCAnalysisUtils()->GetMotherWithPDG(mcLabel,221,GetReader(),ok,mesonLabel); |
b2e375c7 | 6266 | if(grandmom.E() > 0 && ok) eprim = grandmom.E(); |
6267 | } | |
6268 | } | |
6269 | ||
6270 | if(!fFillMCOverlapHisto) return; | |
36769d30 | 6271 | |
4914e781 | 6272 | const UInt_t nlabels = cluster->GetNLabels(); |
6273 | Int_t overpdg[nlabels]; | |
6274 | noverlaps = GetMCAnalysisUtils()->GetNOverlaps(cluster->GetLabels(), nlabels,mctag,mesonLabel,GetReader(),overpdg); | |
6275 | ||
6276 | for(Int_t iover = 0; iover < noverlaps; iover++) | |
6277 | { | |
36769d30 | 6278 | Float_t histobin = -1; |
4914e781 | 6279 | Int_t mpdg = overpdg[iover]; |
6280 | ||
36769d30 | 6281 | if (mpdg==22) histobin = 0.5; |
6282 | else if(TMath::Abs(mpdg)==11) histobin = 1.5; | |
6283 | else if(mpdg==-999999) histobin = 4.5; | |
6284 | else | |
6285 | { | |
6286 | Double_t charge = TDatabasePDG::Instance()->GetParticle(mpdg)->Charge(); | |
6287 | if(TMath::Abs(charge) > 0 ) histobin = 2.5; | |
6288 | else histobin = 3.5; | |
6289 | //printf("charge %f\n",charge); | |
6290 | } | |
6291 | ||
6292 | //printf("\t pdg = %d, histobin %2.1f\n",mpdg,histobin); | |
6293 | if(histobin > 0) | |
6294 | { | |
6295 | if(matched)fhMCEOverlapType ->Fill(cluster->E(),histobin); | |
6296 | else fhMCEOverlapTypeMatch->Fill(cluster->E(),histobin); | |
6297 | } | |
b2e375c7 | 6298 | } |
b2e375c7 | 6299 | } |
6300 | ||
992b14a7 | 6301 | //___________________________________________ |
6302 | void AliAnaInsideClusterInvariantMass::Init() | |
b2e375c7 | 6303 | { |
992b14a7 | 6304 | //Init |
6305 | //Do some checks | |
a6d3b0a8 | 6306 | |
3c1d9afb | 6307 | if(fCalorimeter == "PHOS" && !GetReader()->IsPHOSSwitchedOn() && NewOutputAOD()) |
6308 | { | |
a6d3b0a8 | 6309 | AliFatal("!!STOP: You want to use PHOS in analysis but it is not read!! \n!!Check the configuration file!!\n"); |
992b14a7 | 6310 | } |
3c1d9afb | 6311 | else if(fCalorimeter == "EMCAL" && !GetReader()->IsEMCALSwitchedOn() && NewOutputAOD()) |
6312 | { | |
a6d3b0a8 | 6313 | AliFatal("!!STOP: You want to use EMCAL in analysis but it is not read!! \n!!Check the configuration file!!\n"); |
992b14a7 | 6314 | } |
6315 | ||
3c1d9afb | 6316 | if( GetReader()->GetDataType() == AliCaloTrackReader::kMC ) |
6317 | { | |
a6d3b0a8 | 6318 | AliFatal("!!STOP: You want to use pure MC data!!\n"); |
992b14a7 | 6319 | } |
6320 | ||
6321 | } | |
6322 | ||
6323 | //_____________________________________________________ | |
6324 | void AliAnaInsideClusterInvariantMass::InitParameters() | |
6325 | { | |
6326 | //Initialize the parameters of the analysis. | |
6327 | AddToHistogramsName("AnaPi0InsideClusterInvariantMass_"); | |
6328 | ||
6329 | fCalorimeter = "EMCAL" ; | |
29ca9cad | 6330 | |
992b14a7 | 6331 | fMinNCells = 4 ; |
2cb134fb | 6332 | fMinBadDist = 2 ; |
dbe09c26 | 6333 | |
b2e375c7 | 6334 | fHistoECut = 8 ; |
6335 | ||
5cd814a9 | 6336 | fSSWeightN = 10; |
6337 | fSSWeight [0] = 4.00; fSSWeight [1] = 4.10; fSSWeight [2] = 4.20; fSSWeight [3] = 4.30; fSSWeight [4] = 4.35; | |
6338 | fSSWeight [5] = 4.40; fSSWeight [6] = 4.45; fSSWeight [7] = 4.50; fSSWeight [8] = 4.55; fSSWeight [9] = 4.60; | |
6339 | fSSWeight[10] = 4.70; fSSWeight[11] = 4.80; fSSWeight[12] = 4.90; fSSWeight[13] = 5.00; fSSWeight[14] = 5.10; | |
6340 | fSSWeight[15] = 5.20; fSSWeight[16] = 5.50; fSSWeight[17] = 5.75; fSSWeight[18] = 6.00; fSSWeight[19] = 7.00; | |
19391b8c | 6341 | |
5cd814a9 | 6342 | fSSECellCutN = 10; |
6343 | fSSECellCut [0] = 0.05; fSSECellCut [1] = 0.06; fSSECellCut [2] = 0.07; fSSECellCut [3] = 0.08; fSSECellCut [4] = 0.09; | |
6344 | fSSECellCut [5] = 0.10; fSSECellCut [6] = 0.11; fSSECellCut [7] = 0.12; fSSECellCut [8] = 0.13; fSSECellCut [9] = 0.14; | |
6345 | fSSECellCut[10] = 0.15; fSSECellCut[11] = 0.16; fSSECellCut[12] = 0.17; fSSECellCut[13] = 0.18; fSSECellCut[14] = 0.19; | |
6346 | fSSECellCut[15] = 0.20; fSSECellCut[16] = 0.21; fSSECellCut[17] = 0.22; fSSECellCut[18] = 0.23; fSSECellCut[19] = 0.24; | |
19391b8c | 6347 | |
ff6aa4ce | 6348 | fNLMSettingN = 5; |
6349 | fNLMMinE [0] = 0.10; fNLMMinE [1] = 0.20; fNLMMinE [2] = 0.35; fNLMMinE [3] = 0.50; fNLMMinE [4] = 1.00; | |
6350 | fNLMMinDiff[0] = 0.03; fNLMMinDiff[1] = 0.05; fNLMMinDiff[2] = 0.10; fNLMMinDiff[3] = 0.15; fNLMMinDiff[4] = 0.20; | |
6351 | ||
09a5b22d | 6352 | fWSimu[0] = 1; // Default, do not correct, change to 1.05-1.1 |
6353 | fWSimu[1] = 0; // Default, do not correct, change to 0.07 | |
6354 | ||
992b14a7 | 6355 | } |
6356 | ||
6357 | ||
6358 | //__________________________________________________________________ | |
6359 | void AliAnaInsideClusterInvariantMass::MakeAnalysisFillHistograms() | |
6360 | { | |
6361 | //Search for pi0 in fCalorimeter with shower shape analysis | |
6362 | ||
6363 | TObjArray * pl = 0x0; | |
6364 | AliVCaloCells* cells = 0x0; | |
6365 | ||
6366 | //Select the Calorimeter of the photon | |
2cb134fb | 6367 | if(fCalorimeter == "PHOS") |
6368 | { | |
992b14a7 | 6369 | pl = GetPHOSClusters(); |
6370 | cells = GetPHOSCells(); | |
6371 | } | |
2cb134fb | 6372 | else if (fCalorimeter == "EMCAL") |
6373 | { | |
992b14a7 | 6374 | pl = GetEMCALClusters(); |
6375 | cells = GetEMCALCells(); | |
6376 | } | |
6377 | ||
3c1d9afb | 6378 | if(!pl || !cells) |
6379 | { | |
992b14a7 | 6380 | Info("MakeAnalysisFillHistograms","TObjArray with %s clusters is NULL!\n",fCalorimeter.Data()); |
6381 | return; | |
6382 | } | |
6383 | ||
6384 | if(fCalorimeter == "PHOS") return; // Not implemented for PHOS yet | |
6385 | ||
2cb134fb | 6386 | for(Int_t icluster = 0; icluster < pl->GetEntriesFast(); icluster++) |
6387 | { | |
992b14a7 | 6388 | AliVCluster * cluster = (AliVCluster*) (pl->At(icluster)); |
6389 | ||
b2e375c7 | 6390 | //------------------------------------------- |
6391 | // Get cluster parameters, do some rejection | |
6392 | //------------------------------------------- | |
8edbd100 | 6393 | |
992b14a7 | 6394 | Float_t en = cluster->E(); |
6395 | Float_t l0 = cluster->GetM02(); | |
6396 | Int_t nc = cluster->GetNCells(); | |
2cb134fb | 6397 | Float_t bd = cluster->GetDistanceToBadChannel() ; |
d2655d46 | 6398 | |
2cb134fb | 6399 | //If too small or big E or low number of cells, or close to a bad channel skip it |
b2e375c7 | 6400 | |
8edbd100 | 6401 | if( en < GetMinEnergy() || en > GetMaxEnergy() || nc < fMinNCells || bd < fMinBadDist) continue ; |
2cb134fb | 6402 | |
83351853 | 6403 | //printf("en %2.3f GetMinEnergy() %2.3f, GetMaxEnergy() %2.3f , nc %d fMinNCells %d\n",en, GetMinEnergy(),GetMaxEnergy(),nc ,fMinNCells); |
6404 | ||
b2e375c7 | 6405 | // Track-cluster matching |
6406 | ||
6407 | Bool_t matched = IsTrackMatched(cluster,GetReader()->GetInputEvent()); | |
6408 | if(!fFillTMHisto && matched) continue ; | |
6409 | ||
6410 | // Get cluster angles | |
6411 | ||
9554fc65 | 6412 | TLorentzVector lv; |
6413 | cluster->GetMomentum(lv, GetVertex(0)); | |
6414 | Float_t eta = lv.Eta(); | |
6415 | Float_t phi = lv.Phi(); | |
6416 | if(phi<0) phi=+TMath::TwoPi(); | |
6417 | ||
2cb134fb | 6418 | //printf("en %2.2f, GetMinEnergy() %2.2f, GetMaxEnergy() %2.2f, nc %d, fMinNCells %d, bd %2.2f, fMinBadDist %2.2f\n", |
6419 | // en,GetMinEnergy(), GetMaxEnergy(), nc, fMinNCells, bd, fMinBadDist); | |
6420 | ||
ff6aa4ce | 6421 | if(fFillNLMDiffCutHisto) |
6422 | { | |
6423 | FillNLMDiffCutHistograms(cluster,cells,matched); | |
58a18c5d | 6424 | return; |
ff6aa4ce | 6425 | } |
6426 | ||
b2e375c7 | 6427 | // Get PID, N local maximum, *** split cluster *** |
d2655d46 | 6428 | |
3c1d9afb | 6429 | Int_t nMax = 0; |
bfdcf7fb | 6430 | Double_t mass = 0., angle = 0.; |
cb99fa55 | 6431 | TLorentzVector lv1, lv2; |
4914e781 | 6432 | Int_t absId1 =-1; Int_t absId2 =-1; |
6433 | Float_t distbad1 =-1; Float_t distbad2 =-1; | |
6434 | Bool_t fidcut1 = 0; Bool_t fidcut2 = 0; | |
b2e375c7 | 6435 | |
3c1d9afb | 6436 | Int_t pidTag = GetCaloPID()->GetIdentifiedParticleTypeFromClusterSplitting(cluster,cells,GetCaloUtils(), |
19391b8c | 6437 | GetVertex(0), nMax, mass, angle, |
cb99fa55 | 6438 | lv1,lv2,absId1,absId2, |
4914e781 | 6439 | distbad1,distbad2,fidcut1,fidcut2); |
5c46c992 | 6440 | if (nMax <= 0) |
6441 | { | |
de454976 | 6442 | if(GetDebug() > 0 ) |
a6d3b0a8 | 6443 | Info("MakeAnalysisFillHistograms","No local maximum found! It did not pass CaloPID selection criteria \n"); |
5c46c992 | 6444 | |
4914e781 | 6445 | continue; |
992b14a7 | 6446 | } |
6447 | ||
ce49dd72 | 6448 | // Set some index for array histograms |
6449 | ||
6450 | Int_t inlm = -1; | |
6451 | if (nMax == 1) inlm = 0; | |
6452 | else if(nMax == 2) inlm = 1; | |
6453 | else if(nMax > 2) inlm = 2; | |
a6d3b0a8 | 6454 | else Info("MakeAnalysisFillHistograms","Wrong N local maximum -> %d, n cells in cluster %d \n",nMax,nc); |
ce49dd72 | 6455 | |
4914e781 | 6456 | // Skip events where one of the new clusters (lowest energy) is close to an EMCal border or a bad channel |
1253480f | 6457 | if( (fCheckSplitDistToBad) && |
6458 | (!fidcut2 || !fidcut1 || distbad1 < fMinBadDist || distbad2 < fMinBadDist)) | |
4914e781 | 6459 | { |
6460 | if(GetDebug() > 1) | |
a6d3b0a8 | 6461 | Info("MakeAnalysisFillHistograms","Dist to bad channel cl1 %f, cl2 %f; fid cl1 %d, cl2 %d \n", |
4914e781 | 6462 | distbad1,distbad2, fidcut1,fidcut2); |
ce49dd72 | 6463 | |
6464 | if(distbad1 < fMinBadDist || distbad2 < fMinBadDist) | |
6465 | { | |
6466 | fhMassBadDistClose[inlm]->Fill(en,mass); | |
6467 | fhM02BadDistClose [inlm]->Fill(en,l0 ); | |
6468 | } | |
6469 | ||
6470 | if(!fidcut1 || !fidcut2) | |
6471 | { | |
6472 | fhMassOnBorder[inlm]->Fill(en,mass); | |
6473 | fhM02OnBorder [inlm]->Fill(en,l0 ); | |
6474 | } | |
6475 | ||
4914e781 | 6476 | continue ; |
6477 | } | |
6478 | ||
b2e375c7 | 6479 | // Get sub-cluster parameters |
6480 | ||
cb99fa55 | 6481 | Float_t e1 = lv1.Energy(); |
6482 | Float_t e2 = lv2.Energy(); | |
cfdf2b91 | 6483 | |
a1fd1b69 | 6484 | Double_t tof1 = cells->GetCellTime(absId1); |
6485 | GetCaloUtils()->RecalibrateCellTime(tof1, fCalorimeter, absId1,GetReader()->GetInputEvent()->GetBunchCrossNumber()); | |
6486 | tof1*=1.e9; | |
6487 | ||
6488 | Double_t tof2 = cells->GetCellTime(absId2); | |
6489 | GetCaloUtils()->RecalibrateCellTime(tof2, fCalorimeter, absId2,GetReader()->GetInputEvent()->GetBunchCrossNumber()); | |
6490 | tof2*=1.e9; | |
6491 | ||
6492 | Double_t t12diff = tof1-tof2; | |
6493 | ||
fc01318e | 6494 | Float_t splitFrac = (e1+e2)/en; |
cfdf2b91 | 6495 | |
e671adc2 | 6496 | Float_t asym = -10; |
6497 | if(e1+e2>0) asym = (e1-e2)/(e1+e2); | |
29ca9cad | 6498 | |
b2e375c7 | 6499 | // |
6500 | ||
6501 | Int_t ebin = -1; | |
6502 | if(en > 8 && en <= 12) ebin = 0; | |
6503 | if(en > 12 && en <= 16) ebin = 1; | |
6504 | if(en > 16 && en <= 20) ebin = 2; | |
6505 | if(en > 20) ebin = 3; | |
6506 | ||
1253480f | 6507 | // MC data histograms and some related calculations |
6508 | // mc tag, n overlaps, asym of generated mesons | |
b2e375c7 | 6509 | |
0186b6a2 | 6510 | Int_t mcindex = -1; |
6511 | Int_t mctag = -1; | |
6512 | Float_t eprim = -1; | |
6513 | Float_t asymGen = -2; | |
6514 | Float_t angleGen = 2000; | |
6515 | Int_t noverlaps = 0; | |
b2e375c7 | 6516 | |
b2e375c7 | 6517 | if(IsDataMC()) |
1253480f | 6518 | { |
6519 | // MC indexes | |
b2e375c7 | 6520 | |
1253480f | 6521 | GetMCIndex(cluster,mcindex,mctag); |
6522 | ||
6523 | // MC primary kine, generation fractions | |
b2e375c7 | 6524 | |
0186b6a2 | 6525 | GetMCPrimaryKine(cluster,mcindex,mctag,matched,eprim,asymGen,angleGen,noverlaps); |
1253480f | 6526 | |
6527 | // For cluster with MC pi0 and more than 1 maxima | |
b2e375c7 | 6528 | |
cb99fa55 | 6529 | } |
5c46c992 | 6530 | |
b2e375c7 | 6531 | // |
2a77f6f4 | 6532 | |
1253480f | 6533 | FillHistograms1(en, e1, e2, nMax, mass, l0, eta, phi, matched, mcindex); |
4914e781 | 6534 | |
6535 | // | |
6536 | ||
1253480f | 6537 | if(fFillNCellHisto) |
6538 | FillNCellHistograms(nc,en, nMax,matched, mcindex,mass,l0); | |
d2655d46 | 6539 | |
b2e375c7 | 6540 | // |
bb2d339b | 6541 | |
1253480f | 6542 | if(fFillSSExtraHisto) |
cb99fa55 | 6543 | FillSSExtraHistograms(cluster, nMax, matched,mcindex,mass,ebin) ; |
d2655d46 | 6544 | |
b2e375c7 | 6545 | // |
1253480f | 6546 | |
cb99fa55 | 6547 | if(!matched && ebin >= 0 && fFillEbinHisto) |
1253480f | 6548 | FillEBinHistograms(ebin,nMax,mcindex,splitFrac,mass,asym,l0); |
fc01318e | 6549 | |
b2e375c7 | 6550 | // |
6551 | ||
1253480f | 6552 | if(fFillAngleHisto) |
a6d3b0a8 | 6553 | FillAngleHistograms(nMax,matched,mcindex,en,e1,e2,angle,mass,angleGen,l0, asym,pidTag,noverlaps); |
1253480f | 6554 | |
cb99fa55 | 6555 | if(fFillArmenterosHisto && ebin >= 0) |
29555e96 | 6556 | FillArmenterosHistograms(nMax, ebin, mcindex, en, lv1, lv2, l0, pidTag); |
6557 | ||
6558 | if(fFillThetaStarHisto) | |
6559 | FillThetaStarHistograms(nMax,matched,mcindex, en, lv1, lv2, l0, pidTag); | |
6560 | ||
cb99fa55 | 6561 | |
26680f06 | 6562 | //--------------------------------------------------------------------- |
1253480f | 6563 | // From here start applying some cuts |
26680f06 | 6564 | //--------------------------------------------------------------------- |
cb99fa55 | 6565 | |
6566 | // If set, check just on MC clusters when SS cut is applied | |
6567 | if( IsDataMC() && mcindex > 0 && mcindex < 7 && GetCaloPID()->IsInM02Range(l0) ) | |
6568 | { | |
6569 | // For cluster with MC pi0 and more than 1 maxima | |
6570 | ||
6571 | if(fFillMCOverlapHisto) | |
6572 | CheckLocalMaximaMCOrigin(cluster, mcindex,noverlaps,e1,e2,mass); | |
6573 | //l0, l1, l2); | |
6574 | ||
6575 | // | |
6576 | ||
6577 | if(fFillMCHisto) | |
6578 | FillMCHistograms(en,e1,e2,ebin,mcindex,noverlaps,l0,mass, | |
6579 | nMax,matched,splitFrac, asym, eprim,asymGen); | |
6580 | ||
6581 | // | |
6582 | ||
6583 | if(fFillMCOverlapHisto) | |
6584 | FillMCOverlapHistograms(en,eprim,nc,mass,l0,asym,splitFrac,inlm,ebin,matched,mcindex,noverlaps); | |
6585 | ||
6586 | } | |
6587 | ||
6588 | // Fill few histograms, some still without cuts | |
1253480f | 6589 | FillHistograms2(en, eprim, e1, e2, nMax, mass, l0, matched, mcindex); |
26680f06 | 6590 | |
1253480f | 6591 | if(pidTag==AliCaloPID::kPi0) |
b2e375c7 | 6592 | { |
1253480f | 6593 | FillIdPi0Histograms(en, e1, e2, nc, nMax, t12diff, mass, l0, eta, phi, matched, mcindex); |
17f5b4b6 | 6594 | |
5cd814a9 | 6595 | if(fFillSSWeightHisto && !matched) |
1253480f | 6596 | FillSSWeightHistograms(cluster, inlm, absId1, absId2); |
cc909e6f | 6597 | |
6598 | if(fFillTMHisto && fFillTMResidualHisto) | |
6599 | FillTrackMatchingHistograms(cluster,nMax,mcindex); | |
6600 | ||
cb99fa55 | 6601 | if(fFillMCOverlapHisto && IsDataMC() && mcindex > 0 && mcindex < 7 && !matched) |
cc909e6f | 6602 | { |
6603 | if (noverlaps == 0) fhMCEEpriOverlap0IdPi0 [inlm][mcindex]->Fill(en, eprim); | |
6604 | else if(noverlaps == 1) fhMCEEpriOverlap1IdPi0 [inlm][mcindex]->Fill(en, eprim); | |
6605 | else if(noverlaps > 1) fhMCEEpriOverlapNIdPi0 [inlm][mcindex]->Fill(en, eprim); | |
6606 | } | |
167f2534 | 6607 | } |
1253480f | 6608 | else if(fFillIdEtaHisto && pidTag==AliCaloPID::kEta) |
5c46c992 | 6609 | { |
1253480f | 6610 | FillIdEtaHistograms(en, e1, e2, nc, nMax, t12diff, mass, l0, eta, phi, matched, mcindex); |
243c2909 | 6611 | } |
1253480f | 6612 | else if(fFillIdConvHisto && pidTag==AliCaloPID::kPhoton) |
5c46c992 | 6613 | { |
1253480f | 6614 | FillIdConvHistograms(en, nMax, asym, mass, l0, matched, mcindex); |
243c2909 | 6615 | } |
6616 | ||
992b14a7 | 6617 | }//loop |
6618 | ||
a6d3b0a8 | 6619 | if(GetDebug() > 1) Info("MakeAnalysisFillHistograms","END \n"); |
e23a0471 | 6620 | |
992b14a7 | 6621 | } |
6622 | ||
6623 | //______________________________________________________________________ | |
6624 | void AliAnaInsideClusterInvariantMass::Print(const Option_t * opt) const | |
6625 | { | |
6626 | //Print some relevant parameters set for the analysis | |
6627 | if(! opt) | |
6628 | return; | |
6629 | ||
6630 | printf("**** Print %s %s ****\n", GetName(), GetTitle() ) ; | |
745913ae | 6631 | AliAnaCaloTrackCorrBaseClass::Print(""); |
243c2909 | 6632 | printf("Calorimeter = %s\n", fCalorimeter.Data()) ; |
19391b8c | 6633 | if(GetCaloUtils()) printf("Loc. Max. E > %2.2f\n", GetCaloUtils()->GetLocalMaximaCutE()); |
6634 | if(GetCaloUtils()) printf("Loc. Max. E Diff > %2.2f\n", GetCaloUtils()->GetLocalMaximaCutEDiff()); | |
cfc19369 | 6635 | printf("Min. N Cells =%d \n", fMinNCells) ; |
6636 | printf("Min. Dist. to Bad =%1.1f \n", fMinBadDist) ; | |
19391b8c | 6637 | if(fFillSSWeightHisto) printf(" N w %d - N e cut %d \n",fSSWeightN,fSSECellCutN); |
6638 | ||
992b14a7 | 6639 | printf(" \n") ; |
6640 | ||
6641 | } | |
6642 | ||
19391b8c | 6643 | //___________________________________________________________________________________________________________________ |
6644 | void AliAnaInsideClusterInvariantMass::RecalculateClusterShowerShapeParametersWithCellCut(const AliEMCALGeometry * geom, | |
6645 | AliVCaloCells* cells, | |
6646 | AliVCluster * cluster, | |
6647 | Float_t & l0, Float_t & l1, | |
6648 | Float_t & disp, Float_t & dEta, Float_t & dPhi, | |
6649 | Float_t & sEta, Float_t & sPhi, Float_t & sEtaPhi, | |
6650 | Float_t eCellMin) | |
6651 | { | |
6652 | // Calculates new center of gravity in the local EMCAL-module coordinates | |
6653 | // and tranfers into global ALICE coordinates | |
6654 | // Calculates Dispersion and main axis | |
6655 | ||
6656 | if(!cluster) | |
6657 | { | |
6658 | AliInfo("Cluster pointer null!"); | |
6659 | return; | |
6660 | } | |
6661 | ||
6662 | Double_t eCell = 0.; | |
6663 | Float_t fraction = 1.; | |
6664 | Float_t recalFactor = 1.; | |
6665 | ||
6666 | Int_t iSupMod = -1; | |
6667 | Int_t iTower = -1; | |
6668 | Int_t iIphi = -1; | |
6669 | Int_t iIeta = -1; | |
6670 | Int_t iphi = -1; | |
6671 | Int_t ieta = -1; | |
6672 | Double_t etai = -1.; | |
6673 | Double_t phii = -1.; | |
6674 | ||
6675 | Int_t nstat = 0 ; | |
6676 | Float_t wtot = 0.; | |
6677 | Double_t w = 0.; | |
6678 | Double_t etaMean = 0.; | |
6679 | Double_t phiMean = 0.; | |
3ae72bd8 | 6680 | |
09a5b22d | 6681 | Bool_t shared = GetCaloUtils()-> IsClusterSharedByTwoSuperModules(geom,cluster); |
3ae72bd8 | 6682 | |
09a5b22d | 6683 | Float_t energy = GetCaloUtils()->RecalibrateClusterEnergy(cluster, cells); |
6684 | ||
6685 | Float_t simuTotWeight = 0; | |
6686 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) | |
19391b8c | 6687 | { |
09a5b22d | 6688 | simuTotWeight = GetCaloUtils()->RecalibrateClusterEnergyWeightCell(cluster, cells,energy); |
6689 | simuTotWeight/= energy; | |
6690 | } | |
19391b8c | 6691 | |
6692 | //Loop on cells, get weighted parameters | |
6693 | for(Int_t iDigit=0; iDigit < cluster->GetNCells(); iDigit++) | |
6694 | { | |
6695 | //Get from the absid the supermodule, tower and eta/phi numbers | |
6696 | geom->GetCellIndex(cluster->GetCellAbsId(iDigit),iSupMod,iTower,iIphi,iIeta); | |
6697 | geom->GetCellPhiEtaIndexInSModule(iSupMod,iTower,iIphi,iIeta, iphi,ieta); | |
6698 | ||
6699 | //Get the cell energy, if recalibration is on, apply factors | |
6700 | fraction = cluster->GetCellAmplitudeFraction(iDigit); | |
6701 | if(fraction < 1e-4) fraction = 1.; // in case unfolding is off | |
6702 | ||
3ae72bd8 | 6703 | if(GetCaloUtils()->GetEMCALRecoUtils()->IsRecalibrationOn()) |
6704 | { | |
6705 | recalFactor = GetCaloUtils()->GetEMCALRecoUtils()->GetEMCALChannelRecalibrationFactor(iSupMod,ieta,iphi); | |
6706 | } | |
19391b8c | 6707 | |
6708 | eCell = cells->GetCellAmplitude(cluster->GetCellAbsId(iDigit))*fraction*recalFactor; | |
6709 | ||
3ae72bd8 | 6710 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2 |
6711 | // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0 | |
6712 | if(shared && iSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols; | |
6713 | ||
9ae170de | 6714 | if(energy > 0 && eCell > eCellMin) |
19391b8c | 6715 | { |
09a5b22d | 6716 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) |
6717 | eCell*=GetCaloUtils()->GetMCECellClusFracCorrection(eCell,energy)/simuTotWeight; | |
6718 | ||
19391b8c | 6719 | w = GetCaloUtils()->GetEMCALRecoUtils()->GetCellWeight(eCell,energy); |
8edbd100 | 6720 | |
6721 | //correct weight, ONLY in simulation | |
09a5b22d | 6722 | w *= (fWSimu[0] - fWSimu[1] * w ); |
aa12888f | 6723 | |
19391b8c | 6724 | etai=(Double_t)ieta; |
6725 | phii=(Double_t)iphi; | |
6726 | ||
6727 | if(w > 0.0) | |
6728 | { | |
6729 | wtot += w ; | |
6730 | nstat++; | |
6731 | //Shower shape | |
6732 | sEta += w * etai * etai ; | |
6733 | etaMean += w * etai ; | |
6734 | sPhi += w * phii * phii ; | |
6735 | phiMean += w * phii ; | |
6736 | sEtaPhi += w * etai * phii ; | |
6737 | } | |
6738 | } | |
9ae170de | 6739 | else if(energy == 0 || (eCellMin <0.01 && eCell == 0)) AliError(Form("Wrong energy %f and/or amplitude %f\n", eCell, energy)); |
19391b8c | 6740 | |
6741 | }//cell loop | |
6742 | ||
6743 | //Normalize to the weight | |
6744 | if (wtot > 0) | |
6745 | { | |
6746 | etaMean /= wtot ; | |
6747 | phiMean /= wtot ; | |
6748 | } | |
6749 | else | |
6750 | AliError(Form("Wrong weight %f\n", wtot)); | |
6751 | ||
6752 | //Calculate dispersion | |
6753 | for(Int_t iDigit=0; iDigit < cluster->GetNCells(); iDigit++) | |
6754 | { | |
6755 | //Get from the absid the supermodule, tower and eta/phi numbers | |
6756 | geom->GetCellIndex(cluster->GetCellAbsId(iDigit),iSupMod,iTower,iIphi,iIeta); | |
6757 | geom->GetCellPhiEtaIndexInSModule(iSupMod,iTower,iIphi,iIeta, iphi,ieta); | |
6758 | ||
6759 | //Get the cell energy, if recalibration is on, apply factors | |
6760 | fraction = cluster->GetCellAmplitudeFraction(iDigit); | |
6761 | if(fraction < 1e-4) fraction = 1.; // in case unfolding is off | |
6762 | if (GetCaloUtils()->GetEMCALRecoUtils()->IsRecalibrationOn()) | |
6763 | { | |
6764 | recalFactor = GetCaloUtils()->GetEMCALRecoUtils()->GetEMCALChannelRecalibrationFactor(iSupMod,ieta,iphi); | |
6765 | } | |
3ae72bd8 | 6766 | |
19391b8c | 6767 | eCell = cells->GetCellAmplitude(cluster->GetCellAbsId(iDigit))*fraction*recalFactor; |
6768 | ||
3ae72bd8 | 6769 | // In case of a shared cluster, index of SM in C side, columns start at 48 and ends at 48*2 |
6770 | // C Side impair SM, nSupMod%2=1; A side pair SM, nSupMod%2=0 | |
6771 | if(shared && iSupMod%2) ieta+=AliEMCALGeoParams::fgkEMCALCols; | |
6772 | ||
9ae170de | 6773 | if(energy > 0 && eCell > eCellMin) |
19391b8c | 6774 | { |
09a5b22d | 6775 | if(GetCaloUtils()->IsMCECellClusFracCorrectionOn()) |
6776 | eCell*=GetCaloUtils()->GetMCECellClusFracCorrection(eCell,energy)/simuTotWeight; | |
6777 | ||
19391b8c | 6778 | w = GetCaloUtils()->GetEMCALRecoUtils()->GetCellWeight(eCell,energy); |
6779 | ||
8edbd100 | 6780 | //correct weight, ONLY in simulation |
09a5b22d | 6781 | w *= (fWSimu[0] - fWSimu[1] * w ); |
8edbd100 | 6782 | |
19391b8c | 6783 | etai=(Double_t)ieta; |
6784 | phii=(Double_t)iphi; | |
6785 | if(w > 0.0) | |
6786 | { | |
6787 | disp += w *((etai-etaMean)*(etai-etaMean)+(phii-phiMean)*(phii-phiMean)); | |
6788 | dEta += w * (etai-etaMean)*(etai-etaMean) ; | |
6789 | dPhi += w * (phii-phiMean)*(phii-phiMean) ; | |
6790 | } | |
6791 | } | |
9ae170de | 6792 | else if(energy == 0 || (eCellMin <0.01 && eCell == 0)) AliError(Form("Wrong energy %f and/or amplitude %f\n", eCell, energy)); |
19391b8c | 6793 | }// cell loop |
6794 | ||
6795 | //Normalize to the weigth and set shower shape parameters | |
6796 | if (wtot > 0 && nstat > 1) | |
6797 | { | |
6798 | disp /= wtot ; | |
6799 | dEta /= wtot ; | |
6800 | dPhi /= wtot ; | |
6801 | sEta /= wtot ; | |
6802 | sPhi /= wtot ; | |
6803 | sEtaPhi /= wtot ; | |
6804 | ||
6805 | sEta -= etaMean * etaMean ; | |
6806 | sPhi -= phiMean * phiMean ; | |
6807 | sEtaPhi -= etaMean * phiMean ; | |
6808 | ||
6809 | l0 = (0.5 * (sEta + sPhi) + TMath::Sqrt( 0.25 * (sEta - sPhi) * (sEta - sPhi) + sEtaPhi * sEtaPhi )); | |
6810 | l1 = (0.5 * (sEta + sPhi) - TMath::Sqrt( 0.25 * (sEta - sPhi) * (sEta - sPhi) + sEtaPhi * sEtaPhi )); | |
6811 | } | |
6812 | else | |
6813 | { | |
6814 | l0 = 0. ; | |
6815 | l1 = 0. ; | |
6816 | dEta = 0. ; dPhi = 0. ; disp = 0. ; | |
6817 | sEta = 0. ; sPhi = 0. ; sEtaPhi = 0. ; | |
6818 | } | |
6819 | ||
6820 | } | |
6821 | ||
992b14a7 | 6822 |