49dd21d0c1030bd32b4e6b84611617c412dc8167
[u/mrichter/AliRoot.git] / PWG4 / macros / ConfigGammaConversion.C
1 /** VERSION NUMBER 1.1 */
2
3 /**************************************************************************
4  * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
5  *                                                                        *
6  * Author: Ana Marin, Kathrin Koch, Kenneth Aamodt
7  * Contact: kenneth.aamodt@cern.ch
8  * Version 1.1                                                            *
9  *                                                                        *
10  * Permission to use, copy, modify and distribute this software and its   *
11  * documentation strictly for non-commercial purposes is hereby granted   *
12  * without fee, provided that the above copyright notice appears in all   *
13  * copies and that both the copyright notice and this permission notice   *
14  * appear in the supporting documentation. The authors make no claims     *
15  * about the suitability of this software for any purpose. It is          *
16  * provided "as is" without express or implied warranty.                  *
17  **************************************************************************/
18 const int c_array_size = 26;
19
20 class AliAnalysisDataContainer;
21 class AliGammaConversionHistograms;
22 class AliAnalysisTaskGammaConversion;
23 class AliAnalysisTaskGammaJet;
24
25 // set this to a number if you want to analyze a set number of files
26 // if it is 0 it will analyze the files listed in the data list
27 Int_t kGCnumberOfFilesToAnalyze=0;
28
29 Bool_t kGCrunNeutralMeson = kTRUE;
30 Bool_t kGCrunJet          = kFALSE;
31 Bool_t kGCrunChic         = kFALSE;
32 Bool_t kGCrunDalitz       = kFALSE;
33 Bool_t kGCrunCF           = kFALSE;
34 Bool_t kGCcalculateBackground = kTRUE;
35 Bool_t kGCdoNeutralMesonV0MCCheck =kFALSE;
36 Bool_t kGCrunOmegaMeson = kFALSE;
37 Bool_t kGCrunRES = kFALSE;
38 Bool_t kGCRecalculateV0ForGamma = kFALSE;
39 Bool_t kGCUseTrackMultiplicityForBG = kTRUE;
40 Bool_t kGCMoveParticlesAccordingToVertex = kFALSE;
41 Bool_t kGCLowMemoryConsumption = kFALSE;
42 Bool_t kGCApplyChi2Cut = kFALSE;
43
44 Bool_t kGCUseRotationMethodInBG=kTRUE;
45 Int_t kGCnDegreeRotationPMForBG=15;
46 Int_t kGCnumberOfRotationEventsForBG=15;
47 Bool_t kGCdoBGProbability=kFALSE;
48 //Svein 
49 Bool_t kGCRunGammaJetTask = kFALSE;
50 /** ---------------------------------- define cuts here ------------------------------------*/
51 TString kGCAnalysisCutSelectionId="90035620401003321022000000"; // do not change here, use -set-cut-selection in argument instead
52
53 Int_t kGCNEventsForBGCalculation=20;
54
55 Int_t kGCpidOfNegativeTrack=11;
56 Int_t kGCpidOfPositiveTrack=-11;
57
58 Double_t kGCmaxVertexZ   = 10.;
59 Double_t kGCmaxRCut   = 180.;
60 Double_t kGCminRCut   = 2.8;
61 Double_t kGCetaCut    = 0.9;
62 Double_t kGCptCut     = 0.02;
63 Double_t kGCsingleptCut = 0.02;
64 Double_t kGCmaxZCut     = 240.;
65 Double_t kGCminClsTPCCut= 0.;
66 Double_t kGCminClsTPCCutToF= 0.;
67 Double_t kGCchi2CutConversion   = 30.;
68 Double_t kGCchi2CutMeson   = 50.;
69 Double_t kGCalphaCutMeson   = 0.7;
70 Double_t kGCalphaMinCutMeson   = 0.0;
71 Double_t kGCrapidityCutMeson    = 0.9;
72
73 Double_t kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
74 Double_t kGCLineCutZValue = 7.;
75
76
77 Double_t kGCxVertexCut = 0.;
78 Double_t kGCyVertexCut = 0.;
79 Double_t kGCzVertexCut = 0.;
80
81 Double_t kGCsigmaCutGammaMass=0.0001;
82
83 Bool_t kGCuseImprovedVertex = kTRUE;
84
85 Bool_t kGCUseOnFlyV0Finder = kTRUE;
86
87 // define masses of different particles, this will be used by the KF particle
88 // together with the width to set mass constraints. Units in GeV.
89 Double_t kGCelectronMass = 0.00051099892;
90 Double_t kGCgammaMass    = 0.;
91 Double_t kGCpi0Mass      = 0.1349766;
92 Double_t kGCetaMass      = 0.54751;
93
94 // define the width constraint used by KF particle.
95 Double_t kGCgammaWidth = 0.01;
96 Double_t kGCpi0Width   = 0.01;
97 Double_t kGCetaWidth   = 0.01;
98
99 // define the probability of track being an electron
100 Double_t kGCprobElectron = 0.000;
101
102 Double_t kGCminOpeningAngleGhostCut = 0.005;
103
104 Bool_t kGCRemovePileUp = kFALSE;
105
106 Bool_t kGCSelectV0AND = kFALSE;
107 Bool_t kGCUseMultiplicity = kFALSE;
108 Int_t  kGCUseMultiplicityBin=0;
109
110 Int_t kGCIsHeavyIon = 0;
111 Int_t kGCUseCentrality = 0;
112 Int_t kGCUseCentralityBin = 0;
113 Int_t kGCUseCorrectedTPCClsInfo = 0;
114
115
116 /** ---------------------------------- define pi0 dalitz cuts here ------------------------------------*/
117
118 Bool_t kGCRunStandalone    = kTRUE;
119 Bool_t kGCUseBayesPID      = kFALSE;
120 Bool_t kGCUseTrackIndexCut = kTRUE;
121 Bool_t kGCUsePsiPairCut    = kTRUE;
122 Bool_t kGCUseMassCut       = kFALSE;
123 Bool_t kGCUseGammaCut      = kFALSE;
124 Bool_t kGCReadMagFieldSign = kTRUE;
125 Bool_t kGCUseAliKF         = kFALSE;
126
127 Double_t kGCPsiPairCut                 = 0.45;
128 Double_t kGCDeltaPhiCutMin             = 0.;
129 Double_t kGCDeltaPhiCutMax             = 0.12;
130 Double_t kGCMassCutMin                 = 0.;
131 Double_t kGCMassCutMax                 = 0.1;
132 Double_t kGCNSigmaBelowElecTPCbethe    = -2.;
133 Double_t kGCNSigmaAboveElecTPCbethe    = 3.;
134 Double_t kGCNSigmaAbovePionTPCbethe    = 2.;
135 Double_t kGCNSigmaAboveKaonTPCbethe    = 2.;
136 Double_t kGCNSigmaAboveProtonTPCbethe  = 2.;
137
138 Int_t kGCTrkSelectionCriteria          = 1;     // kITSsaTrack=0, kGlobalTrack=1, kITSsaGlobalTrack=2
139 // NOTE: for details in the track cuts and defined histograms see AddGammaConvDalitz.C
140
141 /** ----------------------------------end define cuts here----------------------------------*/
142
143 /** -------------------------------- Phi/R Mapping ---------------------------------------*/
144 Int_t kGCnPhiIndex = 8;
145 Int_t kGCnRIndex   = 14;
146
147 Double_t kGCminRadius   = 0.;
148 Double_t kGCmaxRadius   = 200.;
149 Double_t kGCminPhi      = -TMath::Pi();
150 Double_t kGCmaxPhi      = TMath::Pi();
151 /** ------------------------------- end Phi/R Mapping ------------------------------------*/
152
153 Bool_t kGCdoOwnXYZCalculation = kFALSE;
154 Bool_t kGCdoConstructGamma = kFALSE;
155
156 /** -------------AOD stuff ---------------------------------------------------------------*/
157 TString kGCDeltaAODFilename = "AliAODGammaConversion.root";  //If empty, writes to standard common aod file.
158 Bool_t kGCWriteAOD =kTRUE;    // Turn on AOD 
159 Bool_t kGCForceAOD = kFALSE;  // Call AliAnalysisManager::SetFillAOD(kTRUE) every ESD event. 
160
161 /** ------------------- define which histograms to plot here --------------------------------*/
162 /**   NB: to change the bin numbers, see below the histogram flags                           */
163
164 Bool_t kGCplotEventQuality              = kTRUE;
165
166
167 // MC GAMMA DECAY PLOTS
168 Bool_t kGCplotMCGammaFromDecay          = kTRUE;
169 // NEUTRAL MESON PLOTS
170 Bool_t kGCplotMCConversionR             = kTRUE;
171 Bool_t kGCplotMCConversionZR            = kTRUE;
172 Bool_t kGCplotMCConversionXY            = kTRUE;
173 Bool_t kGCplotMCConversionOpeningAngle  = kTRUE;
174 Bool_t kGCplotMCConvGammaEAsymmetryP    = kTRUE;
175 Bool_t kGCplotMCConvGammaPAsymmetryP    = kTRUE;
176
177
178 Bool_t kGCplotMCEEnergy  = kFALSE;
179 Bool_t kGCplotMCEPt      = kTRUE;
180 Bool_t kGCplotMCEEta     = kTRUE;
181 Bool_t kGCplotMCEPhi     = kTRUE;
182 Bool_t kGCplotMCENTPCClusters = kTRUE;
183 Bool_t kGCplotMCENITSClusters = kTRUE;
184
185 Bool_t kGCplotMCPEnergy  = kFALSE;
186 Bool_t kGCplotMCPPt      = kTRUE;
187 Bool_t kGCplotMCPEta     = kTRUE;
188 Bool_t kGCplotMCPPhi     = kTRUE;
189 Bool_t kGCplotMCPNTPCClusters = kTRUE;
190 Bool_t kGCplotMCPNITSClusters = kTRUE;
191
192 Bool_t kGCplotMCallGammaEnergy = kFALSE;
193 Bool_t kGCplotMCallGammaPt     = kTRUE;
194 Bool_t kGCplotMCallGammaEta    = kTRUE;
195 Bool_t kGCplotMCallGammaPhi    = kTRUE;
196 Bool_t kGCplotMCallGammaRapid  = kTRUE;
197
198
199 Bool_t kGCplotMCConvGammaEnergy  = kFALSE;
200 Bool_t kGCplotMCConvGammaPt      = kTRUE;
201 Bool_t kGCplotMCConvGammaEta     = kTRUE;
202 Bool_t kGCplotMCConvGammaPhi     = kTRUE;
203 Bool_t kGCplotMCConvGammaRapid   = kTRUE;
204 Bool_t kGCplotMCConvGammaPtvsEta = kTRUE;
205
206 Bool_t kGCplotMCallDirectGammaEnergy  = kFALSE;
207 Bool_t kGCplotMCallDirectGammaPt      = kTRUE;
208 Bool_t kGCplotMCallDirectGammaEta     = kTRUE;
209 Bool_t kGCplotMCallDirectGammaPhi     = kTRUE;
210 Bool_t kGCplotMCallDirectGammaRapid   = kTRUE;
211
212 Bool_t kGCplotMCConvDirectGammaEnergy  = kFALSE;
213 Bool_t kGCplotMCConvDirectGammaPt      = kTRUE;
214 Bool_t kGCplotMCConvDirectGammaEta     = kTRUE;
215 Bool_t kGCplotMCConvDirectGammaPhi     = kTRUE;
216 Bool_t kGCplotMCConvDirectGammaRapid   = kTRUE;
217
218 Bool_t kGCplotMCMotherEta                                       = kTRUE;
219 Bool_t kGCplotMCMotherRapid                                = kTRUE;
220 Bool_t kGCplotMCMotherPhi                                       = kTRUE;
221 Bool_t kGCplotMCMotherPt                                        = kTRUE;
222 Bool_t kGCplotMCMotherEnergy                            = kFALSE;
223 Bool_t kGCplotMCMotherMass                                      = kTRUE;
224 Bool_t kGCplotMCMotherOpeningAngle                              = kTRUE;
225 Bool_t kGCplotMCMotherR                                 = kTRUE;
226 Bool_t kGCplotMCMotherZR                                        = kFALSE;
227 Bool_t kGCplotMCMotherXY                                        = kFALSE;
228 Bool_t kGCplotMCMotherPtvsEtaWithinAcceptance              = kTRUE;
229 Bool_t kGCplotMCMotherPtvsRapidWithinAcceptance            = kTRUE;
230 Bool_t kGCplotMCMotherPtvsEtaConvGammaWithinAcceptance     = kTRUE;
231 Bool_t kGCplotMCMotherPtvsRapidConvGammaWithinAcceptance   = kTRUE;
232 Bool_t kGCplotMCMotherSpectra                           = kTRUE;
233
234 Bool_t kGCplotMCPhysicalPrimaryChargedPt                = kTRUE;
235
236 Bool_t kGCplotMCPi0Eta                                  = kTRUE;
237 Bool_t kGCplotMCPi0Rapid                                   = kTRUE;
238 Bool_t kGCplotMCPi0PtvsRapid                               = kTRUE;
239 Bool_t kGCplotMCPi0Phi                                     = kTRUE;
240 Bool_t kGCplotMCPi0Pt                                      = kTRUE;
241 Bool_t kGCplotMCPi0PtFiducial                              = kTRUE;
242 Bool_t kGCplotMCPi0PtWithinAcceptanceFiducial              = kTRUE;
243 Bool_t kGCplotMCPi0PtConvGammaWithinAcceptanceFiducial     = kTRUE;
244 Bool_t kGCplotMCPi0OpeningPtConvGammaWithinAcceptance      = kTRUE;
245 Bool_t kGCplotMCPi0PtGammaPtConvGammaWithinAcceptance = kTRUE;
246 Bool_t kGCplotMCPi0Energy                                  = kFALSE;
247 Bool_t kGCplotMCPi0Mass                                    = kTRUE;
248 Bool_t kGCplotMCPi0Alpha                                   = kTRUE;
249 Bool_t kGCplotMCEtaAlpha                                   = kTRUE;
250 Bool_t kGCplotMCPi0OpeningAngle                            = kTRUE;
251 Bool_t kGCplotMCPi0R                                       = kTRUE;
252 Bool_t kGCplotMCPi0ZR                                      = kFALSE;
253 Bool_t kGCplotMCPi0XY                                      = kFALSE;
254 Bool_t kGCplotMCPi0PtvsEtaWithinAcceptance                 = kTRUE;
255 Bool_t kGCplotMCPi0PtvsRapidWithinAcceptance               = kTRUE;
256 Bool_t kGCplotMCPi0PtvsEtaConvGammaWithinAcceptance        = kTRUE;
257 Bool_t kGCplotMCPi0PtvsRapidConvGammaWithinAcceptance      = kTRUE;
258 Bool_t kGCplotMCPi0ZRConvGammaWithinAcceptance          = kTRUE;
259
260 Bool_t kGCplotMCPi0SecondaryEta                                = kTRUE;
261 Bool_t kGCplotMCPi0SecondaryRapid                              = kTRUE;
262 Bool_t kGCplotMCPi0SecondaryPhi                                = kTRUE;
263 Bool_t kGCplotMCPi0SecondaryPt                                 = kTRUE;
264 Bool_t kGCplotMCPi0SecondaryEnergy                             = kFALSE;
265 Bool_t kGCplotMCPi0SecondaryMass                               = kTRUE;
266 Bool_t kGCplotMCPi0SecondaryOpeningAngle                       = kTRUE;
267 Bool_t kGCplotMCPi0SecondaryR                                  = kTRUE;
268 Bool_t kGCplotMCPi0SecondaryZR                                 = kFALSE;
269 Bool_t kGCplotMCPi0SecondaryXY                                 = kFALSE;
270 Bool_t kGCplotMCPi0SecondaryPtvsEtaWithinAcceptance            = kTRUE;
271 Bool_t kGCplotMCPi0SecondaryPtvsRapidWithinAcceptance          = kTRUE;
272 Bool_t kGCplotMCPi0SecondaryPtvsEtaConvGammaWithinAcceptance   = kTRUE;
273 Bool_t kGCplotMCPi0SecondaryPtvsRapidConvGammaWithinAcceptance = kTRUE;
274
275 Bool_t kGCplotMCEtaEta                                = kTRUE;
276 Bool_t kGCplotMCEtaRapid                              = kTRUE;
277 Bool_t kGCplotMCEtaPtvsRapid                          = kTRUE;
278 Bool_t kGCplotMCEtaPhi                                = kTRUE;
279 Bool_t kGCplotMCEtaPt                                 = kTRUE;
280 Bool_t kGCplotMCEtaEnergy                             = kFALSE;
281 Bool_t kGCplotMCEtaMass                               = kTRUE;
282 Bool_t kGCplotMCEtaOpeningAngleGamma                  = kTRUE;
283 Bool_t kGCplotMCEtaR                                  = kTRUE;
284 Bool_t kGCplotMCEtaZR                                 = kFALSE;
285 Bool_t kGCplotMCEtaXY                                 = kFALSE;
286 Bool_t kGCplotMCEtaPtvsEtaWithinAcceptance                 = kTRUE;
287 Bool_t kGCplotMCEtaPtvsRapidWithinAcceptance       = kTRUE;
288 Bool_t kGCplotMCEtaPtvsEtaConvGammaWithinAcceptance   = kTRUE;
289 Bool_t kGCplotMCEtaPtvsRapidConvGammaWithinAcceptance = kTRUE;
290 Bool_t kGCplotMCEtaOpeningPtConvGammaWithinAcceptance = kTRUE;
291 Bool_t kGCplotMCEtaPtGammaPtConvGammaWithinAcceptance = kTRUE;
292 Bool_t kGCplotMCEtaZRConvGammaWithinAcceptance = kTRUE;
293
294 // Histograms from esd tracks
295 Bool_t kGCplotESDConversionR                   = kTRUE;
296 Bool_t kGCplotESDConversionZR                  = kTRUE;
297 Bool_t kGCplotESDConversionXY                  = kTRUE;
298 Bool_t kGCplotESDConversionXYBeamPipe          = kTRUE;
299 Bool_t kGCplotESDConversionRPhiBeamPipe        = kTRUE;
300 Bool_t kGCplotESDConversionOpeningAngle        = kTRUE;
301 Bool_t kGCplotESDConvGammaCosPointingAngle     = kTRUE;
302 Bool_t kGCplotESDConvGammaDcaDaugthers         = kTRUE;
303 Bool_t kGCplotESDConvGammaNormDcaDistDaugthers = kTRUE;
304 Bool_t kGCplotESDConvGammaLikelihoodAP         = kTRUE;
305 Bool_t kGCplotESDConvGammaEAsymmetryP         = kTRUE;
306 Bool_t kGCplotESDConvGammaPAsymmetryP         = kTRUE;
307 Bool_t kGCplotESDConvGammaEdEdxP         = kTRUE;
308 Bool_t kGCplotESDConvGammaPdEdxP         = kTRUE;
309 Bool_t kGCplotESDConvGammaEeProbP         = kTRUE;
310 Bool_t kGCplotESDConvGammaPeProbP         = kTRUE;
311 Bool_t kGCplotESDConvGammaEmupiProbP         = kTRUE;
312 Bool_t kGCplotESDConvGammaPmupiProbP         = kTRUE;
313
314 Bool_t kGCplotESDConvGammaQtAlfa         = kTRUE;
315
316
317 Bool_t kGCplotESDEEnergy = kFALSE;
318 Bool_t kGCplotESDEPt     = kTRUE;
319 Bool_t kGCplotESDEEta    = kTRUE;
320 Bool_t kGCplotESDEPhi    = kTRUE;
321 Bool_t kGCplotESDENTPCClusters = kTRUE;
322 Bool_t kGCplotESDENITSClusters = kTRUE;
323 Bool_t kGCplotESDENTPCClustersToFP = kTRUE;
324 Bool_t kGCplotESDENTPCClustersToFR = kTRUE;
325 Bool_t kGCplotESDETPCchi2 = kTRUE;
326
327 Bool_t kGCplotESDPEnergy = kFALSE;
328 Bool_t kGCplotESDPPt     = kTRUE;
329 Bool_t kGCplotESDPEta    = kTRUE;
330 Bool_t kGCplotESDPPhi    = kTRUE;
331 Bool_t kGCplotESDPNTPCClusters = kTRUE; 
332 Bool_t kGCplotESDPNITSClusters = kTRUE;
333 Bool_t kGCplotESDPNTPCClustersToFP = kTRUE;
334 Bool_t kGCplotESDPNTPCClustersToFR = kTRUE;
335 Bool_t kGCplotESDPTPCchi2 = kTRUE;
336
337 Bool_t kGCplotESDConvGammaEnergy = kFALSE;
338 Bool_t kGCplotESDConvGammaPt     = kTRUE;
339 Bool_t kGCplotESDConvGammaEta    = kTRUE;
340 Bool_t kGCplotESDConvGammaPhi    = kTRUE;
341 Bool_t kGCplotESDConvGammaMass   = kTRUE;
342 Bool_t kGCplotESDConvGammaWidth  = kTRUE;
343 Bool_t kGCplotESDConvGammaChi2   = kTRUE;
344 Bool_t kGCplotESDConvGammaNDF    = kTRUE;
345 Bool_t kGCplotESDConvGammaRapid  = kTRUE;
346 Bool_t kGCplotESDConvGammaPtvsEta = kTRUE;
347 Bool_t kGCplotESDConvGammaPtvsChi2 = kTRUE;
348 Bool_t kGCplotESDConvGammaEtavsChi2 = kTRUE;
349
350
351 Bool_t kGCplotESDTrueDalitzContaminationR    = kTRUE;
352 Bool_t kGCplotESDTruePi0DalitzContaminationR = kTRUE;
353 Bool_t kGCplotESDTrueEtaDalitzContaminationR = kTRUE;
354 Bool_t kGCplotESDTrueCombinatorialContaminationR = kTRUE;
355 Bool_t kGCplotESDTrueCombinatorialElecContaminationR = kTRUE;
356 Bool_t kGCplotESDTrueHadronicContaminationR  = kTRUE;
357 Bool_t kGCplotESDTrueCombinatorialContaminationPt = kTRUE;
358 Bool_t kGCplotESDTrueCombinatorialElecContaminationPt = kTRUE;
359 Bool_t kGCplotESDTrueHadronicContaminationPt  = kTRUE;
360
361
362 Bool_t kGCplotESDTrueBackground              = kTRUE;
363 Bool_t kGCplotESDTrueConvGammaEnergy         = kFALSE;
364 Bool_t kGCplotESDTrueConvGammaPt             = kTRUE;
365 Bool_t kGCplotESDTrueConvGammaEta            = kTRUE;
366 Bool_t kGCplotESDTrueConvGammaPhi            = kTRUE;
367 Bool_t kGCplotESDTrueConvGammaMass           = kTRUE;
368 Bool_t kGCplotESDTrueConvGammaWidth          = kTRUE;
369 Bool_t kGCplotESDTrueConvGammaChi2           = kTRUE;
370 Bool_t kGCplotESDTrueConvGammaNDF            = kTRUE;
371 Bool_t kGCplotESDTrueConvGammaRapid          = kTRUE;
372 Bool_t kGCplotESDTrueConvGammaPtvsEta        = kTRUE;
373 Bool_t kGCplotESDTrueConversionR             = kTRUE;
374 Bool_t kGCplotESDTrueConversionZR            = kFALSE;
375 Bool_t kGCplotESDTrueConversionXY            = kFALSE;
376 Bool_t kGCplotESDTrueConversionOpeningAngle  = kTRUE;
377 Bool_t kGCplotESDTrueConvGammaCosPointingAngle     = kTRUE;
378 Bool_t kGCplotESDTrueConvGammaDcaDaugthers         = kTRUE;
379 Bool_t kGCplotESDTrueConvGammaNormDcaDistDaugthers = kTRUE;
380 Bool_t kGCplotESDTrueConvGammaLikelihoodAP         = kTRUE;
381 Bool_t kGCplotESDTrueConvGammaEAsymmetryP         = kTRUE;
382 Bool_t kGCplotESDTrueConvGammaPAsymmetryP         = kTRUE;
383 Bool_t kGCplotESDTrueConvGammaEdEdxP         = kTRUE;
384 Bool_t kGCplotESDTrueConvGammaPdEdxP         = kTRUE;
385 Bool_t kGCplotESDTrueConvGammaQtAlfa         = kTRUE;
386
387 Bool_t kGCplotESDTrueConvGammaPtvsChi2       = kTRUE;
388 Bool_t kGCplotESDTrueConvGammaEtavsChi2      = kTRUE;
389 Bool_t kGCplotESDTrueConvGammaMCPtEta        = kTRUE;
390 Bool_t kGCplotESDTrueConversionMCZR          = kFALSE;
391 Bool_t kGCplotESDTrueConversionMCXY          = kFALSE;
392
393 Bool_t kGCplotESDNoCutAllV0Pt                = kTRUE;
394 Bool_t kGCplotESDNoCutConvGammaEnergy         = kFALSE;
395 Bool_t kGCplotESDNoCutConvGammaPt             = kTRUE;
396 Bool_t kGCplotESDNoCutConvGammaEta            = kTRUE;
397 Bool_t kGCplotESDNoCutConvGammaPhi            = kTRUE;
398 Bool_t kGCplotESDNoCutConvGammaMass           = kTRUE;
399 Bool_t kGCplotESDNoCutConvGammaWidth          = kTRUE;
400 Bool_t kGCplotESDNoCutConvGammaChi2           = kTRUE;
401 Bool_t kGCplotESDNoCutConvGammaNDF            = kTRUE;
402 Bool_t kGCplotESDNoCutConvGammaRapid          = kTRUE;
403 Bool_t kGCplotESDNoCutConvGammaPtvsEta        = kTRUE;
404 Bool_t kGCplotESDNoCutConversionR             = kTRUE;
405 Bool_t kGCplotESDNoCutConversionZR            = kFALSE;
406 Bool_t kGCplotESDNoCutConversionXY            = kFALSE;
407 Bool_t kGCplotESDNoCutConversionOpeningAngle  = kTRUE;
408 Bool_t kGCplotESDNoCutConvGammaCosPointingAngle     = kTRUE;
409 Bool_t kGCplotESDNoCutConvGammaDcaDaugthers         = kTRUE;
410 Bool_t kGCplotESDNoCutConvGammaNormDcaDistDaugthers = kTRUE;
411 Bool_t kGCplotESDNoCutConvGammaLikelihoodAP         = kTRUE;
412
413 Bool_t kGCplotESDNoCutConvGammaEAsymmetryP         = kTRUE;
414 Bool_t kGCplotESDNoCutConvGammaPAsymmetryP         = kTRUE;
415 Bool_t kGCplotESDNoCutConvGammaEdEdxP         = kTRUE;
416 Bool_t kGCplotESDNoCutConvGammaPdEdxP         = kTRUE;
417 Bool_t kGCplotESDNoCutConvGammaPtvsChi2       = kTRUE;
418 Bool_t kGCplotESDNoCutConvGammaEtavsChi2      = kTRUE;
419 Bool_t kGCplotESDNoCutConvGammaMCPtEta        = kTRUE;
420 Bool_t kGCplotESDNoCutConversionMCZR          = kFALSE;
421 Bool_t kGCplotESDNoCutConversionMCXY          = kFALSE;
422
423 Bool_t kGCplotESDMotherChi2 = kTRUE;
424 Bool_t kGCplotESDMotherOpeningAngleGamma = kTRUE;
425 Bool_t kGCplotESDMotherEnergy            = kFALSE;
426 Bool_t kGCplotESDMotherPt                = kFALSE;
427 Bool_t kGCplotESDMotherEta               = kTRUE;
428 Bool_t kGCplotESDMotherPhi               = kFALSE;
429 Bool_t kGCplotESDMotherMass              = kFALSE;
430 Bool_t kGCplotESDMotherR                 = kFALSE;
431 Bool_t kGCplotESDMotherZR                = kFALSE;
432 Bool_t kGCplotESDMotherXY                = kFALSE;
433 Bool_t kGCplotESDMotherRapid             = kTRUE;
434
435 Bool_t kGCplotESDBackgroundOpeningAngleGamma = kTRUE;
436 Bool_t kGCplotESDBackgroundEnergy            = kFALSE;
437 Bool_t kGCplotESDBackgroundPt                = kFALSE;
438 Bool_t kGCplotESDBackgroundEta               = kFALSE;
439 Bool_t kGCplotESDBackgroundPhi               = kFALSE;
440 Bool_t kGCplotESDBackgroundMass              = kFALSE;
441 Bool_t kGCplotESDBackgroundR                 = kFALSE;
442 Bool_t kGCplotESDBackgroundZR                = kFALSE;
443 Bool_t kGCplotESDBackgroundXY                = kFALSE;
444 Bool_t kGCplotESDBackgroundRapid             = kFALSE;
445
446 Bool_t kGCplotMapping = kTRUE;       
447
448 Bool_t kGCplotResolutiondPt = kTRUE;
449 Bool_t kGCplotResolutiondR  = kTRUE;
450 Bool_t kGCplotResolutiondZ  = kTRUE;
451
452 Bool_t kGCplotResolutiondRAbs  = kTRUE;
453 Bool_t kGCplotResolutiondZAbs  = kTRUE;
454 Bool_t kGCplotResolutiondPhiAbs  = kTRUE;
455
456 Bool_t kGCplotResolutiondRdPt = kTRUE;
457
458 Bool_t kGCplotResolutionMCPt = kTRUE;
459 Bool_t kGCplotResolutionMCR  = kTRUE;
460 Bool_t kGCplotResolutionMCZ  = kTRUE;
461
462 Bool_t kGCplotResolutionESDPt = kTRUE;
463 Bool_t kGCplotResolutionESDR  = kTRUE;
464 Bool_t kGCplotResolutionESDZ  = kTRUE;
465
466 Bool_t kGCplotResolutionPtdPt = kTRUE;
467
468 Bool_t kGCplotESDNumberOfV0s          = kTRUE;
469 Bool_t kGCplotESDNumberOfSurvivingV0s = kTRUE;
470 Bool_t kGCplotESDNumberOfContributorsVtx = kTRUE;
471 Bool_t kGCplotESDNumberOfGoodESDTracks = kTRUE;
472
473 //  debug histograms
474 Bool_t kGCplotESDCutGetOnFly      = kTRUE;
475 Bool_t kGCplotESDCutNContributors = kTRUE;
476 Bool_t kGCplotESDCutLikeSign      = kTRUE;
477 Bool_t kGCplotESDCutRefit         = kTRUE;
478 Bool_t kGCplotESDCutKink          = kTRUE;
479 Bool_t kGCplotESDCutPIDProb       = kTRUE;
480 Bool_t kGCplotESDCutdedxSigmaElectronLine=kTRUE;
481 Bool_t kGCplotESDCutdedxSigmaPionLine=kTRUE;
482 Bool_t kGCplotESDCutPionRejectionLowP  =kTRUE;
483 Bool_t kGCplotESDCutProtonRejectionLowP=kTRUE;
484 Bool_t kGCplotESDCutKaonRejectionLowP  =kTRUE;
485 Bool_t kGCplotESDCutQtGammaSelection=kTRUE;
486 Bool_t kGCplotESDCutR             = kTRUE;
487 Bool_t kGCplotESDCutMinR          = kTRUE;
488 Bool_t kGCplotESDCutLine          = kTRUE;
489 Bool_t kGCplotESDCutZ             = kTRUE;
490 Bool_t kGCplotESDCutMinClsTPC     = kTRUE;
491 Bool_t kGCplotESDCutMinClsTPCToF  = kTRUE;
492 Bool_t kGCplotESDGoodV0s          = kTRUE;
493 Bool_t kGCplotESDAllV0s           = kTRUE;
494 Bool_t kGCplotESDAllV0sCurrentFinder = kTRUE;
495 Bool_t kGCplotESDAllV0sCurrentFinderQtAlfa = kTRUE;
496
497 Bool_t kGCplotESDCutNDF           = kTRUE;
498 Bool_t kGCplotESDCutChi2          = kTRUE;
499 Bool_t kGCplotESDCutEta           = kTRUE;
500 Bool_t kGCplotESDCutPt            = kTRUE;
501 Bool_t kGCplotESDCutSinglePt      = kTRUE;
502 Bool_t kGCplotESDTrueConvGammaTrackLength =kFALSE;
503 Bool_t kGCplotESDTrueConvGammaTrackLengthVSInvMass =kFALSE;
504
505 Bool_t kGCplotPi0Spectra = kTRUE;
506 Bool_t kGCplotEtaSpectra = kTRUE;
507 Bool_t kGCplotOmegaSpectra = kTRUE;
508
509 /////////////Chi_c Analysis//////////////////////////
510 Bool_t kGCplotStatsElectrons                                  = kTRUE;
511 Bool_t kGCplotRecENegJPsiPtDiff                               = kTRUE;
512 Bool_t kGCplotRecEPosJPsiPtDiff                               = kTRUE;
513 Bool_t kGCplotRecEPosENegR                                    = kTRUE;
514 Bool_t kGCplotRecEPosENegEta                                  = kTRUE;
515 Bool_t kGCplotESDInvMassePluseMinus                           = kTRUE;
516 Bool_t kGCplotESDInvMassGammaePluseMinusChiC                  = kTRUE;
517 Bool_t kGCplotESDInvMassGammaePluseMinusPi0                   = kTRUE;
518 Bool_t kGCplotESDElectronPosNegPt                             = kTRUE;
519 Bool_t kGCplotESDElectronPosNegEta                            = kTRUE;
520 Bool_t kGCplotESDElectronPosNegAngle                          = kTRUE;
521 Bool_t kGCplotMCElectronPosNegPt                              = kTRUE;
522 Bool_t kGCplotMCElectronPosNegEta                             = kTRUE;
523 Bool_t kGCplotMCElectronPosNegJPsiAngle                       = kTRUE;
524 Bool_t kGCplotESDElectronPosNegPi0Angle                       = kTRUE;
525 Bool_t kGCplotMCElectronPosNegPi0Angle                        = kTRUE;
526 Bool_t kGCplotTableElectrons                                  = kTRUE;
527 Bool_t kGCplotESDEPosBackground                               = kTRUE;
528 Bool_t kGCplotESDENegBackground                               = kTRUE;
529 Bool_t kGCplotESDEPosENegBackground                           = kTRUE;
530 Bool_t kGCplotESDEPosENegBackgroundCut                        = kTRUE;
531 Bool_t kGCplotESDePoseNegAngle                                = kTRUE;
532 Bool_t kGCplotESDEPosENegGammaBackgroundMX                    = kTRUE;
533 Bool_t kGCplotMCLabels                                        = kTRUE;
534 ///////////////////////////////////////////////////////////////////
535
536 //---------------- Gamma Jet analysis ----------------------------
537 Bool_t kGCplotdPhiHdrGam            = kTRUE;
538 Bool_t kGCplotdPhiHdrGamIsolated    = kTRUE;
539 Bool_t kGCplotMinimumIsoDistance    = kTRUE;
540 Bool_t kGCplotFFzHdrGam             = kTRUE;
541 Bool_t kGCplotImbalanceHdrGam       = kTRUE;
542 //----------------------------------------------------------------
543
544
545 /** ----------------- end define which histograms to plot here -------------------------------*/
546
547
548
549 /** ----------- Define the binning for the different plot types here -------------------------*/
550 // Number of V0s-plot
551 Int_t kGCnXBinsNV0        = 1000;
552 Double_t kGCfirstXBinNV0  = -0.5;
553 Double_t kGClastXBinNV0   =  999.5;
554
555
556 // Number of ESD track-Plot
557 Int_t kGCnXBinsESDtrk      = 10000;
558 Double_t kGCfirstXBinESDtrk= -0.5;
559 Double_t kGClastXBinESDtrk = 9999.5;
560
561
562 //EventQuality-plot
563 Int_t kGCnXBinsEvtQ= 9;
564 Double_t kGCfirstXBinEvtQ=-1.5;
565 Double_t kGClastXBinEvtQ=7.5;
566
567 //R-plots
568 Int_t kGCnXBinsR = 400;
569 Double_t kGCfirstXBinR = 0.;
570 Double_t kGClastXBinR = 200.;
571
572 //ZR-plots
573 Int_t kGCnXBinsZR = 1000;
574 Double_t kGCfirstXBinZR = -250.;
575 Double_t kGClastXBinZR = 250.;
576 Int_t kGCnYBinsZR = 400;
577 Double_t kGCfirstYBinZR = 0.;
578 Double_t kGClastYBinZR = 200.;
579
580 //XY-plots
581 Int_t kGCnXBinsXY = 800;
582 Double_t kGCfirstXBinXY = -200.;
583 Double_t kGClastXBinXY = 200.;
584 Int_t kGCnYBinsXY = 800;
585 Double_t kGCfirstYBinXY = -200.;
586 Double_t kGClastYBinXY = 200.;
587
588 //XY-plots-BeamPipe
589 Int_t kGCnXBinsXYBP = 200;
590 Double_t kGCfirstXBinXYBP = -10.;
591 Double_t kGClastXBinXYBP = 10.;
592 Int_t kGCnYBinsXYBP = 200;
593 Double_t kGCfirstYBinXYBP = -10.;
594 Double_t kGClastYBinXYBP = 10.;
595
596 //Rphi-plots-BeamPipe
597 Int_t kGCnXBinsRPhiBP = 200;
598 Double_t kGCfirstXBinRPhiBP = -TMath::Pi();
599 Double_t kGClastXBinRPhiBP = TMath::Pi();
600 Int_t kGCnYBinsRPhiBP = 200;
601 Double_t kGCfirstYBinRPhiBP = 0.;
602 Double_t kGClastYBinRPhiBP = 10.;
603
604
605
606 //OpenAngle-plots
607 Int_t kGCnXBinsOpeningAngle = 400;
608 Double_t kGCfirstXBinOpeningAngle = 0.;
609 Double_t kGClastXBinOpeningAngle = TMath::Pi();
610
611 //CosPointingAngle-plots
612 Int_t kGCnXBinsCosPointingAngle = 400;
613 Double_t kGCfirstXBinCosPointingAngle = 0.99;
614 Double_t kGClastXBinCosPointingAngle = 1.01;
615
616 //DCA Daugthers-plots
617 Int_t kGCnXBinsDcaDaughters = 400;
618 Double_t kGCfirstXBinDcaDaughters= 0.;
619 Double_t kGClastXBinDcaDaughters = 5.;
620
621 //Norm DCA dist Daugthers-plots
622 Int_t kGCnXBinsNormDcaDistDaughters = 400;
623 Double_t kGCfirstXBinNormDcaDistDaughters= 0.;
624 Double_t kGClastXBinNormDcaDistDaughters = 10.;
625
626 //LikelihoodAP Plots
627 Int_t kGCnXBinsLikelihoodAP = 400;
628 Double_t kGCfirstXBinLikelihoodAP= 0.;
629 Double_t kGClastXBinLikelihoodAP = 2.;
630
631
632 //Energy-plots
633 Int_t kGCnXBinsEnergy = 200;
634 Double_t kGCfirstXBinEnergy = 0.;
635 Double_t kGClastXBinEnergy = 50.;
636
637 //P-plots
638 Int_t kGCnXBinsP = 200;
639 Double_t kGCfirstXBinP = 0.05;
640 Double_t kGClastXBinP = 50.;
641
642 //dEdx-plots
643 Int_t kGCnYBinsdEdx = 200;
644 Double_t kGCfirstYBindEdx = 0.;
645 Double_t kGClastYBindEdx = 200.;
646
647 //EProb-plots
648 Int_t kGCnYBinsEProb = 200;
649 Double_t kGCfirstYBinEProb = 0.;
650 Double_t kGClastYBinEProb = 1.;
651
652 //Qt-plots
653 Int_t kGCnYBinsQt = 250;
654 Double_t kGCfirstYBinQt = 0.;
655 Double_t kGClastYBinQt = 0.25;
656
657
658
659 //Asymmetry-plots
660 Int_t kGCnYBinsAsymmetry = 200;
661 Double_t kGCfirstYBinAsymmetry = 0.;
662 Double_t kGClastYBinAsymmetry = 1.;
663
664
665 //Pt-plots
666 Int_t kGCnXBinsPt = 500;
667 Double_t kGCfirstXBinPt = 0.;
668 Double_t kGClastXBinPt = 50.;
669
670 //Eta-plots
671 Int_t kGCnXBinsEta = 40;
672 Double_t kGCfirstXBinEta = -2.;
673 Double_t kGClastXBinEta = 2.;
674
675 //Rapidity
676 Int_t kGCnXBinsRapid = 200;
677 Double_t kGCfirstXBinRapid = -10.;
678 Double_t kGClastXBinRapid = 10.;
679
680 //Phi-plots
681 Int_t kGCnXBinsPhi = 72;
682 Double_t kGCfirstXBinPhi = -TMath::Pi();
683 Double_t kGClastXBinPhi = TMath::Pi();
684
685 //nTPCCluster-plots
686 Int_t kGCnXBinsNTPCClusters = 201;
687 Double_t kGCfirstXBinNTPCClusters = -0.5;
688 Double_t kGClastXBinNTPCClusters = 200.5;
689
690 //nITSCluster-plots
691 Int_t kGCnXBinsNITSClusters = 7;
692 Double_t kGCfirstXBinNITSClusters = -0.5;
693 Double_t kGClastXBinNITSClusters = 6.5;
694
695 //TPCcluster to Findable-plots
696 Int_t kGCnYBinsClsToF = 200;
697 Double_t kGCfirstYBinClsToF = 0.;
698 Double_t kGClastYBinClsToF = 2.0;
699
700 //TPCchi2 -plots
701 Int_t kGCnXBinsTPCchi2 = 100;
702 Double_t kGCfirstXBinTPCchi2 = 0.;
703 Double_t kGClastXBinTPCchi2 = 10;
704
705
706 //Mapping-plots
707 Int_t kGCnXBinsMapping = 800;
708 Double_t kGCfirstXBinMapping = -100.;
709 Double_t kGClastXBinMapping = 100.;
710 Int_t kGCnYBinsMapping = 40;
711 Double_t kGCfirstYBinMapping = -2;
712 Double_t kGClastYBinMapping = 2;
713
714 //ResolutionPlots
715 //RESdPt
716 Int_t kGCnXBinsResdPt=500;
717 Int_t kGCfirstXBinResdPt= 0;
718 Int_t kGClastXBinResdPt=100;
719 Int_t kGCnYBinsResdPt=200;
720 Int_t kGCfirstYBinResdPt= -10;
721 Int_t kGClastYBinResdPt=10;
722
723 //RESdR
724 Int_t kGCnXBinsResdR=400;
725 Int_t kGCfirstXBinResdR= 0;
726 Int_t kGClastXBinResdR=200;
727 Int_t kGCnYBinsResdR=100;
728 Int_t kGCfirstYBinResdR= -25;
729 Int_t kGClastYBinResdR=25;
730
731 //RESdZ
732 Int_t kGCnXBinsResdZ=80;
733 Int_t kGCfirstXBinResdZ= -20;
734 Int_t kGClastXBinResdZ=20;
735 Int_t kGCnYBinsResdZ=80;
736 Int_t kGCfirstYBinResdZ= -20;
737 Int_t kGClastYBinResdZ=20;
738
739 //RESdRdPt
740 Int_t kGCnYBinsResdRdPt=400;
741 Int_t kGCfirstYBinResdRdPt= -10;
742 Int_t kGClastYBinResdRdPt=10;
743
744 //RESMCPt
745 Int_t kGCnXBinsResPt=500;
746 Int_t kGCfirstXBinResPt= 0;
747 Int_t kGClastXBinResPt=100;
748
749 //RESMCR
750 Int_t kGCnXBinsResR=500;
751 Int_t kGCfirstXBinResR= 0;
752 Int_t kGClastXBinResR=250;
753
754 //RESMCZ
755 Int_t kGCnXBinsResZ=500;
756 Int_t kGCfirstXBinResZ= 0;
757 Int_t kGClastXBinResZ=250;
758
759 //GammaMass-plots
760 Int_t kGCnXBinsGammaMass = 4000;
761 Double_t kGCfirstXBinGammaMass = 0.;
762 Double_t kGClastXBinGammaMass = 1.;
763
764 //Pi0Mass-plots
765 Int_t kGCnXBinsPi0Mass = 1000;
766 Double_t kGCfirstXBinPi0Mass = 0.;
767 Double_t kGClastXBinPi0Mass = 1.;
768 Double_t kGCfirstXBinPi0Alpha = 0.;
769 Double_t kGClastXBinPi0Alpha = 1.;
770
771
772 //EtaMass-plots
773 Int_t kGCnXBinsEtaMass = 1000;
774 Double_t kGCfirstXBinEtaMass = 0.;
775 Double_t kGClastXBinEtaMass = 1.;
776
777 //GammaWidth-plots
778 Int_t kGCnXBinsGammaWidth = 100;
779 Double_t kGCfirstXBinGammaWidth = 0.;
780 Double_t kGClastXBinGammaWidth = 1.;
781
782 //GammaChi2-plots
783 Int_t kGCnXBinsMesonChi2 = 200;
784 Int_t kGCnXBinsGammaChi2 = 100;
785 Double_t kGCfirstXBinGammaChi2 = 0;
786 Double_t kGClastXBinGammaChi2 = 200.;
787
788 //GammaNDF-plots
789 Int_t kGCnXBinsGammaNDF = 10;
790 Double_t kGCfirstXBinGammaNDF = 0.;
791 Double_t kGClastXBinGammaNDF = 10.;
792
793 //Spectra-plots
794 Int_t kGCnXBinsSpectra = 500;
795 Double_t kGCfirstXBinSpectra = 0.;
796 Double_t kGClastXBinSpectra = 1.;
797 Int_t kGCnYBinsSpectra = 250;
798 Double_t kGCfirstYBinSpectra = 0.;
799 Double_t kGClastYBinSpectra = 25.;
800
801 Double_t kGCfirstXBinAlphaG = -1.;
802 Double_t kGCfirstXBinAlpha = 0.;
803 Double_t kGClastXBinAlpha = 1.;
804
805 //track length plots
806 Int_t kGCnXBinsTrackLength = 1000;
807 Double_t kGCfirstXBinTrackLength = 0;
808 Double_t kGClastXBinTrackLength = 500;
809
810 /////////Pi0 Dalitz decay AnalysisTask ///////////////////////////////////
811
812 Int_t kGCnXBinsDalitzMass = 4000;
813 Double_t kGCfirstXBinDalitzMass = 0.;
814 Double_t kGClastXBinDalitzMass = 4.;
815
816 Int_t kGCnXBinsPi0DalitzMass = 4000;
817 Double_t kGCfirstXBinPi0DalitzMass = 0.;
818 Double_t kGClastXBinPi0DalitzMass = 4.;
819
820 /////////Chic_Analysis///////////////////////////////////
821 Int_t kGCnXBinsEPt = 1000;
822 Double_t kGCfirstXBinEPt = 0.;
823 Double_t kGClastXBinJPsiPt  = 10;
824
825 Int_t kGCnXBinsJPsiMass = 1000;
826 Double_t kGCfirstXBinJPsiMass = 0.;
827 Double_t kGClastXBinJPsiMass = 10.;
828
829 Int_t kGCnXBinsChicMass = 1000;
830 Double_t kGCfirstXBinChicMass = 0.;
831 Double_t kGClastXBinChicMass  = 10.;
832
833 Int_t kGCnXBinsPi0Mass  = 1000;
834 Double_t kGCfirstXBinPi0Mass = 0.;
835 Double_t kGClastXBinPi0Mass  = 1.;
836
837 Int_t kGCnXBinsEPosNegPt = 1000;
838 Double_t kGCfirstXBinEPosNegPt = 0.;
839 Double_t kGClastXBinEPosNegPt  = 10.;
840
841 Int_t kGCnXBinsEPosNegEta = 200;
842 Double_t kGCfirstXBinEPosNegEta = -1.2;
843 Double_t kGClastXBinEPosNegEta  = 1.2;
844
845 Int_t kGCnXBinsEPosNegAngle = 200;
846 Double_t kGCfirstXBinEPosNegAngle = 0.;
847 Double_t kGClastXBinEPosNegAngle = TMath::Pi();
848
849 Int_t kGCnXBinsEBackground = 1000;
850 Double_t kGCfirstXBinEBackground = 0.;
851 Double_t kGClastXBinEBackground  = 10.;
852
853 Int_t kGCnXBinsEBackgroundCut = 100;
854 Double_t kGCfirstXBinEBackgroundCut = 0.;
855 Double_t kGClastXBinEBackgroundCut  = 0.015.;
856
857 Int_t kGCnXBinsMCLabels = 10;
858 Double_t kGCfirstXBinMCLabels = 0.;
859 Double_t kGClastXBinMCLabels  = 10.;
860
861 Int_t kGCnElementsElectronTable = 19;
862
863 //18 elements
864 const char * kGCelectronTable[] = {
865   "Num. Events",  "MC e+ J/Psi |\\eta|<0.9","MC e- J/Psi |\\eta|<0.9","MC e+ e+ from J/Psi |\\eta|<0.9",
866   "ESDtracks",    "Kink Cut",
867   "Vertex Cut","TRDOut","TRDrefit","TPCrefit",
868   "ITSrefit","TRDout+TPC+TPC+ITS+nsigma>3 Pass","pid!=0","ESDElec","ESD e+ JPsi",
869   "ESD e- JPsi","ESD e+ e- JPSI","MC: gamma < 1.2","e+,e- < 0.9 g <1.2"
870 };
871
872
873 // for Gamma Jet analysis
874 Int_t kGCnXBinsdphiHdrGam = 100;
875 Double_t kGCfirstXBindphiHdrGam = -TMath::PiOver2();
876 Double_t kGClastXBindphiHdrGam = 3*TMath::PiOver2();
877
878 Int_t kGCnXBinsMinimumIsoDistance = 100;
879 Double_t kGCfirstXBinMinimumIsoDistance = 0.;
880 Double_t kGClastXBinMinimumIsoDistance = TMath::PiOver2();
881
882 Int_t kGCnXBinsFFzHdrGam = 100;
883 Double_t kGCfirstXBinFFzHdrGam = 0.;
884 Double_t kGClastXBinFFzHdrGam = 5;
885
886 Int_t kGCnXBinsImbalanceHdrGam = 100;
887 Double_t kGCfirstXBinImbalanceHdrGam = -5.;
888 Double_t kGClastXBinImbalanceHdrGam = 5.;
889 ////////////////////////////////////////////////////////
890
891
892 /** ---------- end Define the binning for the different plot types here ----------------------*/
893
894
895 /************************************************************************************************
896  *                                                                                              *
897  *                                                                                              *
898  *                     EVERYTHING BELOW IS FOR DEVELOPERS ONLY                                  *
899  *                                                                                              *
900  *                                                                                              *
901  ************************************************************************************************/
902 TString kGCoutputFileName = "histogramsGammaConversion";
903 TString kGCoutputFileAppendix = "";
904 TString kGCdataList = "";
905 Bool_t kGCwriteNtuple = kFALSE;
906 // WE DOO NOT NEED TO CHANGE THIS (kGCusePWG4PartCorr) ANYMORE SINCE IT IS TAKEN CARE OF AUTOMATICALLY NOW
907 Bool_t kGCusePWG4PartCorr = kTRUE;
908
909 /** Flag to enable running on train  */
910 Bool_t kGCrunOnTrain = kFALSE;
911 Bool_t kGCrunOnGsiTrain = kFALSE;
912
913 /** ------------------------------ Monte Carlo flag -----------------------------------------*/
914 Bool_t kGCdoMCTruth = kTRUE;
915 /** ---------------------------- end Monte Carlo flag ---------------------------------------*/
916
917 /** ------------------------------ Selecting trigger CINT1B -----------------------------------*/
918 Bool_t kGCtriggerCINT1B = kFALSE;
919 /** ---------------------------- end Monte Carlo flag ---------------------------------------*/
920
921 /** ------------------------- Choose KFParticle OR ESDTrack  --------------------------------*/
922 Bool_t kGCuseKFParticle = kTRUE;
923 Bool_t kGCuseESDTrack   = kFALSE;
924 /** ----------------------- end Choose KFParticle OR ESDTrack  -----------------------------*/
925
926 /**------------------------------Flag to apply dEdx cut base on sigmas to electron line----------*/
927 Bool_t kGCdodEdxSigmaCut= kTRUE;
928 /**------------------------------end Flag to apply NsigmadEdx cut ----------*/
929
930 Double_t kGCPIDnSigmaAboveElectronLine=5;
931 Double_t kGCPIDnSigmaBelowElectronLine=-3;
932 Double_t kGCPIDnSigmaAbovePionLine=0;
933 Double_t kGCPIDMinPnSigmaAbovePionLine=1.;
934 Double_t kGCPIDMaxPnSigmaAbovePionLine=3.;
935
936 /**------- Flag to apply rejection at LowP of Kaons, protons , pions------------*/
937 Bool_t kGCdoPionRejectionLowP=kTRUE;
938 Bool_t kGCdoKaonRejectionLowP=kTRUE;
939 Bool_t kGCdoProtonRejectionLowP=kTRUE;
940 /**---------------------------------------*/
941
942 Double_t kGCPIDnSigmaAtLowPAroundKaonLine=0;
943 Double_t kGCPIDnSigmaAtLowPAroundProtonLine=0;
944 Double_t kGCPIDnSigmaAtLowPAroundPionLine=0;
945
946 Double_t kGCPIDMinPKaonRejectionLowP=1.5;
947 Double_t kGCPIDMinPProtonRejectionLowP=2.;
948 Double_t kGCPIDMinPPionRejectionLowP=0.5;
949
950
951 Bool_t kGCdoQtGammaSelection=kTRUE;
952 Double_t kGCQtMax=100.;
953
954
955
956 Bool_t scanArguments(TString arguments){
957   
958   Bool_t iResult = kTRUE;
959         
960   TString allArgs=arguments;
961   TString argument;
962   int bMissingParam=0;
963
964   cout<<"Arguments received: "<<allArgs.Data()<<endl;
965         
966   TObjArray* pTokens=allArgs.Tokenize(" ");
967   if (pTokens) {
968                 
969     for(int i=0; i<pTokens->GetEntries() && iResult==kTRUE; i++) {
970       argument=((TObjString*)pTokens->At(i))->GetString();
971                         
972       if(argument.IsNull()) continue;
973       // -- deconvolute-time option
974       if(argument.CompareTo("-data-list") == 0){
975         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
976         kGCdataList = ((TObjString*)pTokens->At(i))->GetString();
977         if(kGCdataList.IsNull()){
978           cout<<"-data-list is NULL"<<endl;
979           iResult=kFALSE;
980         }
981         else{
982           cout<<"Data list is set to: "<<kGCdataList<<endl;
983         }
984       }
985       else if(argument.CompareTo("-output-file-name") == 0){
986         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
987         kGCoutputFileName = ((TObjString*)pTokens->At(i))->GetString();
988         if(kGCoutputFileName.IsNull()){
989           cout<<"-output-file-name is NULL"<<endl;
990           iResult=kFALSE;
991         }
992         else{
993           cout<<"Setting output file name to: "<<kGCoutputFileName<<endl;
994         }
995       }
996       else if (argument.CompareTo("-bg-off") == 0){
997         kGCcalculateBackground =kFALSE;
998       }
999       else if (argument.CompareTo("-bg-prob-off") == 0){
1000         kGCdoBGProbability = kFALSE;
1001       }
1002       else if (argument.CompareTo("-bg-prob-on") == 0){
1003         kGCdoBGProbability = kTRUE;
1004       }
1005       else if (argument.CompareTo("-bg-rotation-off") == 0){
1006         kGCUseRotationMethodInBG = kFALSE;
1007       }
1008       else if (argument.CompareTo("-use-v0-multiplicity") == 0){
1009         kGCUseTrackMultiplicityForBG = kFALSE;
1010       }
1011       else if (argument.CompareTo("-apply-chi2-cut") == 0){
1012         kGCApplyChi2Cut = kTRUE;
1013       }
1014       else if(argument.CompareTo("-set-number-of-rotations") == 0){
1015         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
1016         kGCnumberOfRotationEventsForBG = ((TObjString*)pTokens->At(i))->GetString().Atoi();
1017       }
1018       else if(argument.CompareTo("-set-number-of-degrees") == 0){
1019         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
1020         kGCnDegreeRotationPMForBG = ((TObjString*)pTokens->At(i))->GetString().Atoi();
1021       }
1022       else if (argument.CompareTo("-low-memory") == 0){
1023         kGCLowMemoryConsumption = kTRUE;
1024       }
1025       else if (argument.CompareTo("-move-bg-vertex") == 0){
1026         kGCMoveParticlesAccordingToVertex = kTRUE;
1027       }
1028       else if (argument.CompareTo("-check-neutralmeson-pi0s") == 0){
1029         kGCdoNeutralMesonV0MCCheck=kTRUE;
1030       }
1031       else if (argument.CompareTo("-use-offline-finder") == 0){
1032         kGCUseOnFlyV0Finder = kFALSE;
1033       }
1034       else if (argument.CompareTo("-write-ntuple") == 0){
1035         cout<<"Writing ntuple to file."<<endl;
1036         kGCwriteNtuple = kTRUE;
1037       }
1038       else if (argument.CompareTo("-run-on-train") == 0){
1039         cout<<"Running on train"<<endl;
1040         //kGCWriteStandardAOD=kTRUE;
1041         kGCDeltaAODFilename="";
1042         kGCrunOnTrain = kTRUE;
1043       }
1044       else if (argument.CompareTo("-run-on-gsi-train") == 0){
1045         cout<<"Running on gsi train"<<endl;
1046         //kGCWriteStandardAOD=kFALSE;
1047         kGCrunOnTrain = kTRUE;
1048         kGCrunOnGsiTrain = kTRUE;
1049       }
1050       else if (argument.CompareTo("-run-jet") == 0){
1051         cout<<"Running jet analysis"<<endl;
1052         kGCrunJet = kTRUE;
1053       }
1054       else if (argument.CompareTo("-run-gamma-jet-task") == 0){
1055         cout<<"Running gamma jet task"<<endl;
1056         kGCRunGammaJetTask= kTRUE;
1057       }
1058       else if (argument.CompareTo("-run-neutralmeson") == 0){
1059         cout<<"Running neutral meson analysis"<<endl;
1060         kGCrunNeutralMeson = kTRUE;
1061       }
1062       else if (argument.CompareTo("-run-neutral-meson") == 0){
1063         cout<<"Running neutral meson analysis"<<endl;
1064         kGCrunNeutralMeson = kTRUE;
1065       }
1066       else if (argument.CompareTo("-run-omega-meson") == 0){
1067         cout<<"Running omega meson analysis"<<endl;
1068         kGCrunOmegaMeson = kTRUE;
1069       }
1070       else if (argument.CompareTo("-run-chic") == 0){
1071         cout<<"Running Chi_c analysis"<<endl;
1072         kGCrunChic = kTRUE;
1073       }
1074       else if (argument.CompareTo("-run-dalitz") == 0){
1075         cout<<"Running Dalitz analysis"<<endl;
1076         kGCrunDalitz = kTRUE;
1077       }
1078       else if (argument.CompareTo("-run-cf") == 0){
1079         cout<<"Running CF"<<endl;
1080         kGCrunCF = kTRUE;
1081       }
1082       else if (argument.CompareTo("-run-resolution") == 0){
1083         cout<<"Running Resolution"<<endl;
1084         kGCrunRES = kTRUE;
1085       }
1086       else if (argument.CompareTo("-run-recalculateV0") == 0){
1087         cout<<"Running RecalculateV0ForGamma"<<endl;
1088         kGCRecalculateV0ForGamma=kTRUE;
1089       }
1090       else if (argument.CompareTo("-jet-off") == 0){
1091         cout<<"Skipping jet analysis"<<endl;
1092         kGCrunJet = kFALSE;
1093       }
1094       else if (argument.CompareTo("-neutralmeson-off") == 0){
1095         cout<<"Skipping neutral meson analysis"<<endl;
1096         kGCrunNeutralMeson = kFALSE;
1097       }
1098       else if (argument.CompareTo("-neutral-meson-off") == 0){
1099         cout<<"Skipping neutral meson analysis"<<endl;
1100         kGCrunNeutralMeson = kFALSE;
1101       }
1102       else if (argument.CompareTo("-chic-off") == 0){
1103         cout<<"Skipping Chi_c analysis"<<endl;
1104         kGCrunChic = kFALSE;
1105       }
1106       else if (argument.CompareTo("-mc-off") == 0){
1107         cout<<"Switching off kGCdoMCTruth"<<endl;
1108         kGCdoMCTruth = kFALSE;
1109       }
1110       else if (argument.CompareTo("-trigger-CINT1B") == 0){
1111         cout<<"Selecting ONLY kGCtriggerCINT1B"<<endl;
1112         kGCtriggerCINT1B = kTRUE;
1113       }
1114       else if (argument.CompareTo("-use-own-xyz") == 0){
1115         cout<<"Switching on use own xyz calculation"<<endl;
1116         kGCdoOwnXYZCalculation = kTRUE;
1117       }
1118       else if (argument.CompareTo("-use-ConstructGamma") == 0){
1119         cout<<"Switching on use ConstructGamma and OFF own xyz calculation"<<endl;
1120         kGCdoOwnXYZCalculation = kFALSE;
1121         kGCdoConstructGamma = kTRUE;
1122       }
1123       else if (argument.CompareTo("-no-aod") == 0){
1124         cout<<"Turning off AOD"<<endl;
1125         kGCWriteAOD = kFALSE;
1126       }
1127       else if (argument.CompareTo("-force-aod") == 0){
1128         cout<<"Turning on FillAOD = kTRUE every event; If running in common train this should probably not be done!!!"<<endl;
1129         kGCForceAOD = kTRUE;
1130       }
1131       else if (argument.CompareTo("-standard-aod") == 0){
1132         cout<<"Writing to standard AOD, will only work on train"<<endl;
1133         kGCDeltaAODFilename = "";
1134       }
1135       else if(argument.CompareTo("-append-to-output-file") == 0){
1136         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
1137         kGCoutputFileAppendix = TString("_")+((TObjString*)pTokens->At(i))->GetString();
1138         if(kGCoutputFileAppendix.IsNull()){
1139           cout<<"-appending-to-output-file is NULL"<<endl;
1140           iResult=kFALSE;
1141         }
1142         else{
1143           cout<<"Appending to the output file: "<<kGCoutputFileAppendix<<endl;
1144         }
1145       }
1146       else if(argument.CompareTo("-set-cut-selection") == 0){
1147         if((bMissingParam=(++i>=pTokens->GetEntries()))) break;
1148         kGCAnalysisCutSelectionId = ((TObjString*)pTokens->At(i))->GetString();
1149         cout<<"The analysis cut selection is set to: "<<kGCAnalysisCutSelectionId.Data()<<endl;
1150       }
1151     }
1152     delete pTokens;
1153   }
1154   if (bMissingParam) {
1155     cout<<"Missing parameter for argument "<< argument.Data()<<endl;
1156     iResult=kFALSE;
1157   }
1158   return iResult;
1159 }
1160
1161 void SetVersionLibrary(){
1162   // Check if the file $ALICE_ROOT/PWG4/GammaConv/AliAnalysisTaskGammaConversion.cxx exists.
1163   // If yes, we set kGCusePWG4PartCorr to false since we have a newer version
1164   // If no, kGCusePWG4PartCorr is true.
1165         
1166   TString file = gSystem->Getenv("ALICE_ROOT");
1167   file+="/PWG4/PartCorr/AliAnalysisTaskGammaConversion.cxx";
1168         
1169   ifstream stream;
1170   stream.open(file.Data());
1171         
1172   if(!stream){
1173     kGCusePWG4PartCorr=kFALSE;
1174   }
1175   else{
1176     kGCusePWG4PartCorr=kTRUE;
1177   }
1178   stream.close();
1179 }
1180
1181
1182 AliAnalysisTaskGammaConversion* ConfigGammaConversion(TString arguments, AliAnalysisDataContainer *cin_esd=NULL){
1183
1184                                                       
1185         
1186   
1187   if(!scanArguments(arguments)){
1188     break;
1189   }
1190         
1191   SetVersionLibrary(); // checks if PWG4GammaConv or PWG4PartCorr is used
1192         
1193   if(cin_esd == NULL && kGCrunOnTrain == kTRUE){
1194     cout<<"Error: kGCrunOnTrain flag is set to true but the input AliAnalysisDataContainer is NULL"<<endl;
1195     cout<<"       you must also supply the AliAnalysisDataContainer as an argument"<<endl;
1196     return;
1197   }
1198         
1199   if(cin_esd != NULL && kGCrunOnTrain == kFALSE){
1200     cout<<"Error: kGCrunOnTrain flag is set to false but the input AliAnalysisDataContainer is not null"<<endl;
1201     cout<<"       add -run-on-train to the arguments to turn switch kGCrunOnTrain to kTRUE"<<endl;
1202     return;
1203   }
1204   if(kGCrunOnTrain == kFALSE){
1205     if(kGCnumberOfFilesToAnalyze==0){
1206       ifstream dataInStream;
1207       dataInStream.open(kGCdataList.Data());
1208       if ( !dataInStream ){
1209         cout<<"Data list file does not exist: "<<kGCdataList.Data()<<endl;
1210         return 0;
1211       }
1212       string line;
1213       while ( !dataInStream.eof() )
1214         {
1215           getline(dataInStream, line);
1216           if(line.compare("") != 0){//checks if there is an empty line in the data list
1217             kGCnumberOfFilesToAnalyze++;
1218           }
1219         }
1220     }
1221     cout<<"Number Of files to analyze: "<<kGCnumberOfFilesToAnalyze<<endl;
1222                 
1223     build();//build (if necessary) and load the libraries needed
1224     LoadLibraries();
1225     gROOT->LoadMacro("$ALICE_ROOT/PWG0/CreateESDChain.C"); // load the CreateChain macro
1226   }
1227                 
1228   if(!kGCrunOnTrain){
1229     // for the train leave this to the steering macro
1230     AliLog::SetGlobalDebugLevel(0);
1231     AliLog::SetGlobalLogLevel(AliLog::kFatal);
1232   }
1233   // ------------------------------------------------------------------------
1234                 
1235     // for CF
1236                 
1237     //Container def.
1238     const Double_t ptmin = kGCfirstXBinPt;
1239     const Double_t ptmax = kGClastXBinPt;
1240     const Double_t etamin = kGCfirstXBinEta;
1241     const Double_t etamax = kGClastXBinEta;
1242     const Double_t massmin = kGCfirstXBinPi0Mass;
1243     const Double_t massmax = kGClastXBinPi0Mass;
1244                 
1245                 
1246     // sensitive variables
1247     UInt_t ipt = 0;
1248     UInt_t ieta = 1;
1249     UInt_t imass = 2;   
1250                 
1251     //how many selection steps 
1252     UInt_t nstep = 20;
1253     const Int_t nvar = 3;
1254
1255     Int_t kGCnXBinsPtCF=40;
1256     Int_t kGCnXBinsEtaCF=8;
1257     Int_t kGCnXBinsPi0MassCF=10;
1258
1259     if(!kGCrunCF){
1260       nstep=1;
1261       kGCnXBinsPtCF=1;
1262       kGCnXBinsEtaCF=1;
1263       kGCnXBinsPi0MassCF=1;
1264     }
1265     const Int_t nbin0 = kGCnXBinsPtCF;  // do not use same variable for CF than for histogram
1266     const Int_t nbin1 = kGCnXBinsEtaCF; // do not use same variable for CF than for histogram
1267     const Int_t nbin2 = kGCnXBinsPi0MassCF; // do not use same variable for CF than for histogram               
1268                 
1269     //arrays for the number of bins in each dimension
1270     Int_t iBin[nvar];
1271     iBin[0] = nbin0;
1272     iBin[1] = nbin1;
1273     iBin[2] = nbin2;    
1274                 
1275     //arrays for lower bounds
1276     Double_t *binLim0 = new Double_t[nbin0+1];
1277     Double_t *binLim1 = new Double_t[nbin1+1];  
1278     Double_t *binLim2 = new Double_t[nbin2+1];  
1279                 
1280     // values for lower bounds
1281     for(Int_t i = 0; i <= nbin0; i++) binLim0[i] = ptmin + (ptmax - ptmin)/nbin0*i;
1282     for(Int_t i = 0; i <= nbin1; i++) binLim1[i] = etamin + (etamax - etamin)/nbin1*i;
1283     for(Int_t i = 0; i <= nbin2; i++) binLim2[i] = massmin + (massmax - massmin)/nbin2*i;
1284                 
1285     // create container
1286     AliCFContainer *container = new AliCFContainer("container","container for gammaconversion", nstep,nvar,iBin);
1287     container->SetBinLimits(ipt,binLim0);
1288     container->SetBinLimits(ieta,binLim1);
1289     container->SetBinLimits(imass,binLim2);     
1290                 
1291     AliCFManager *man = new AliCFManager();
1292     man->SetParticleContainer(container);
1293     for(int i = 0;i<nstep;i++){
1294       TObjArray *tmp = new TObjArray(0);
1295       man->SetParticleCutsList(i,tmp) ;
1296     }
1297
1298     // end ---------------------------------------------------------------------------
1299                 
1300                 
1301
1302         
1303   AliGammaConversionHistograms* histograms = new AliGammaConversionHistograms();  
1304   AddHistograms(histograms);
1305         
1306   // Create the Analysis manager
1307   AliAnalysisManager *mgr =NULL;
1308   if(kGCrunOnTrain == kFALSE){
1309     mgr  = new AliAnalysisManager("My Manager", "My Analysis");
1310   }
1311   else{
1312     mgr = AliAnalysisManager::GetAnalysisManager();
1313   }
1314         
1315   if (!mgr) {
1316     ::Error("ConfigGammaConversion", "No analysis manager to connect to.");
1317     return NULL;
1318   }
1319   if(kGCrunOnTrain == kTRUE){
1320     if (!mgr->GetInputEventHandler()) {
1321       ::Error("ConfigGammaConversion", "This task requires an input event handler");
1322       return NULL;
1323     }
1324   }
1325   AliESDInputHandler* inpHandler = NULL;
1326         
1327   if(kGCrunOnTrain == kFALSE){
1328     // Define Input Event Handler 
1329     inpHandler = new AliESDInputHandler();
1330   }
1331   // Define MC Truth Event Handler
1332   AliMCEventHandler* mcHandler = NULL;
1333   if(kGCdoMCTruth){
1334     if(kGCrunOnTrain == kFALSE){
1335       mcHandler = new AliMCEventHandler();
1336     }
1337     else{
1338       mcHandler = (AliMCEventHandler*)mgr->GetMCtruthEventHandler();
1339     }
1340     if (!mcHandler) {
1341       ::Error("", "No MC handler connected");
1342       return NULL;
1343     }
1344   }
1345         
1346
1347         
1348   if(kGCrunOnTrain == kFALSE){
1349     mgr->SetInputEventHandler  (inpHandler);
1350     mgr->SetMCtruthEventHandler(mcHandler);
1351   }
1352   // Be sure you are told what you are doing
1353   // mgr->SetDebugLevel(10);
1354         
1355   // Declare Common Input Tchain
1356   AliAnalysisDataContainer *cinput1 = NULL;
1357   
1358   if(kGCusePWG4PartCorr){
1359   
1360     if(kGCrunOnTrain == kFALSE){
1361       cinput1 = mgr->CreateContainer("GammaConvChain",TChain::Class(),AliAnalysisManager::kInputContainer);
1362     
1363     } else{
1364       cinput1 = cin_esd;
1365     
1366     }
1367   }
1368   else{
1369       cinput1 = mgr->GetCommonInputContainer();
1370   }
1371         
1372   // Common Output Tree in common ??????default?????? output file
1373   // CKB kGCusePWG4PartCorr and writestandard are not mutually exclusive?
1374   AliAnalysisDataContainer *coutput1 = NULL;
1375
1376   if(kGCWriteAOD) {
1377     if(kGCrunOnTrain && !(kGCrunOnGsiTrain)) {
1378       coutput1 = mgr->GetCommonOutputContainer();
1379     } else {
1380       coutput1 = mgr->CreateContainer("GammaConvTree",TTree::Class(),AliAnalysisManager::kOutputContainer, "default");  
1381     }
1382   }
1383         
1384   // Private output objects
1385   if(kGCoutputFileName.Contains(".root")){
1386     kGCoutputFileName.ReplaceAll(".root","");
1387   }
1388   if(kGCoutputFileAppendix.Contains(".root")){
1389     kGCoutputFileAppendix.ReplaceAll(".root","");
1390   }
1391   //TString fileOut = kGCoutputFileName + kGCoutputFileAppendix + ".root";
1392
1393   
1394   TString outputfile = AliAnalysisManager::GetCommonFileName();
1395   cout<<"Analyis cut selection ID is: "<<kGCAnalysisCutSelectionId.Data()<<endl;
1396   //  outputfile += Form(":PWG4_GammaConversion_%s",kGCAnalysisCutSelectionId.Data());
1397   outputfile += Form(":PWG4_GammaConversion");
1398
1399 //   if(kGCrunNeutralMeson==kTRUE) outputfile +="1";  else outputfile +="0";
1400
1401 //   if(kGCrunJet==kTRUE) outputfile +="1"; else outputfile +="0";
1402
1403 //   if(kGCrunChic==kTRUE) outputfile +="1"; else outputfile +="0";
1404
1405 //   if(kGCrunCF==kTRUE) outputfile +="1"; else outputfile +="0";
1406
1407 //   if(kGCcalculateBackground==kTRUE) outputfile +="1"; else outputfile +="0";
1408
1409 //   if(kGCdoNeutralMesonV0MCCheck==kTRUE) outputfile +="1"; else outputfile +="0";
1410
1411 //   if(kGCrunOmegaMeson==kTRUE) outputfile +="1"; else outputfile +="0";
1412
1413 //   if(kGCrunRES==kTRUE) outputfile +="1"; else outputfile +="0";
1414
1415   outputfile += Form("_%s",kGCAnalysisCutSelectionId.Data());
1416
1417   cout<<"Ouput file::"<<  outputfile <<endl;
1418   AliAnalysisDataContainer *coutput2 = mgr->CreateContainer(Form("histogramsAliGammaConversion_%s",kGCAnalysisCutSelectionId.Data()), TList::Class(),AliAnalysisManager::kOutputContainer, outputfile);
1419   // for CF
1420   AliAnalysisDataContainer *coutput3 = mgr->CreateContainer(Form("GammaConvccontainer0_%s",kGCAnalysisCutSelectionId.Data()),AliCFContainer::Class(),AliAnalysisManager::kOutputContainer,outputfile);
1421         
1422   //------------------------ END: Define input/output handlers ---------------------------------------------------
1423         
1424   //check for errors in the specified data
1425   if(kGCuseKFParticle == kTRUE && kGCuseESDTrack == kTRUE){
1426     //Print warning, cannot use both
1427     ::Error("ConfigGammaConversion","Both kGCuseKFParticle and kGCuseESDTracks can be true at the same time")
1428       }
1429   if(kGCuseKFParticle == kFALSE && kGCuseESDTrack == kFALSE){
1430     //Print warning, one have to be specified
1431     ::Error("ConfigGammaConversion","Both kGCuseKFParticle and kGCuseESDTracks can be false at the same time")
1432       }
1433         
1434
1435   if(!SetAnalysisCutSelection(kGCAnalysisCutSelectionId)){
1436     cout<<"Error in analysis cut selection"<<endl;
1437     return 0;
1438   }
1439         
1440   //Create the V0Reader
1441   AliV0Reader * v0Reader = new AliV0Reader();
1442   if(kGCuseKFParticle){
1443     v0Reader->UseKFParticle();
1444   }
1445   else if(kGCuseESDTrack){
1446     v0Reader->UseESDTrack();
1447   }
1448
1449   v0Reader->SetMaxVertexZ(kGCmaxVertexZ);
1450   v0Reader->SetNegativeTrackPID(kGCpidOfNegativeTrack);
1451   v0Reader->SetPositiveTrackPID(kGCpidOfPositiveTrack);
1452   v0Reader->SetMaxRCut(kGCmaxRCut);
1453   v0Reader->SetMinRCut(kGCminRCut);
1454   v0Reader->SetEtaCut(kGCetaCut);
1455   v0Reader->SetRapidityMesonCut(kGCrapidityCutMeson);
1456   v0Reader->SetPtCut(kGCptCut);
1457   v0Reader->SetSinglePtCut(kGCsingleptCut);
1458   v0Reader->SetLineCutZRSlope(kGCLineCutZRSlope);
1459   v0Reader->SetLineCutZValue(kGCLineCutZValue); 
1460   v0Reader->SetMaxZCut(kGCmaxZCut);     
1461   v0Reader->SetMinClsTPCCut(kGCminClsTPCCut);   
1462   v0Reader->SetMinClsTPCCutToF(kGCminClsTPCCutToF);     
1463   v0Reader->SetChi2CutConversion(kGCchi2CutConversion);
1464   v0Reader->SetChi2CutMeson(kGCchi2CutMeson);
1465   v0Reader->SetAlphaCutMeson(kGCalphaCutMeson);
1466   v0Reader->SetAlphaMinCutMeson(kGCalphaMinCutMeson);
1467   v0Reader->SetPIDProbability(kGCprobElectron);
1468   v0Reader->SetXVertexCut(kGCxVertexCut);
1469   v0Reader->SetYVertexCut(kGCyVertexCut);
1470   v0Reader->SetZVertexCut(kGCzVertexCut);
1471   v0Reader->SetSigmaMass(kGCsigmaCutGammaMass);
1472   v0Reader->SetUseImprovedVertex(kGCuseImprovedVertex);
1473   v0Reader->SetDoMCTruth(kGCdoMCTruth);
1474   v0Reader->SetUseOwnXYZCalculation(kGCdoOwnXYZCalculation);
1475   v0Reader->SetUseChargedTracksMultiplicityForBG(kGCUseTrackMultiplicityForBG);
1476   // for CF
1477   v0Reader->SetCFManager(man);
1478         
1479   // for dEdx N sigma Cut
1480   v0Reader->SetDodEdxSigmaCut(kGCdodEdxSigmaCut);
1481   v0Reader->SetPIDnSigmaAboveElectronLine(kGCPIDnSigmaAboveElectronLine);
1482   v0Reader->SetPIDnSigmaBelowElectronLine(kGCPIDnSigmaBelowElectronLine);
1483   v0Reader->SetPIDnSigmaAbovePionLine(kGCPIDnSigmaAbovePionLine);
1484   v0Reader->SetPIDMinPnSigmaAbovePionLine(kGCPIDMinPnSigmaAbovePionLine);
1485   v0Reader->SetPIDMaxPnSigmaAbovePionLine(kGCPIDMaxPnSigmaAbovePionLine);
1486   v0Reader->SetOnFlyFlag(kGCUseOnFlyV0Finder);
1487   v0Reader->SetCalculateBackground(kGCcalculateBackground);
1488
1489   // for the rejection at LowP based on Dedx signal
1490
1491   v0Reader->SetDoKaonRejectionLowP(kGCdoKaonRejectionLowP);
1492   v0Reader->SetDoProtonRejectionLowP(kGCdoProtonRejectionLowP);
1493   v0Reader->SetDoPionRejectionLowP(kGCdoPionRejectionLowP);
1494   v0Reader->SetPIDnSigmaAtLowPAroundKaonLine(kGCPIDnSigmaAtLowPAroundKaonLine);
1495   v0Reader->SetPIDnSigmaAtLowPAroundProtonLine(kGCPIDnSigmaAtLowPAroundProtonLine);
1496   v0Reader->SetPIDnSigmaAtLowPAroundPionLine(kGCPIDnSigmaAtLowPAroundPionLine);
1497   v0Reader->SetPIDMinPKaonRejectionLowP(kGCPIDMinPKaonRejectionLowP);
1498   v0Reader->SetPIDMinPProtonRejectionLowP(kGCPIDMinPProtonRejectionLowP);
1499   v0Reader->SetPIDMinPPionRejectionLowP(kGCPIDMinPPionRejectionLowP);
1500   v0Reader->SetDoQtGammaSelection(kGCdoQtGammaSelection);
1501   v0Reader->SetQtMax(kGCQtMax);
1502   kGCNEventsForBGCalculation= kGCnumberOfRotationEventsForBG;
1503   cout<< "number of Events used for mixing::"<<kGCNEventsForBGCalculation<<endl;
1504   v0Reader->SetNEventsForBG(kGCNEventsForBGCalculation);
1505
1506   // Create the GammaConversionTask
1507
1508
1509   AliAnalysisTaskGammaConversion *gammaconversion = 
1510     new AliAnalysisTaskGammaConversion(Form("GammaConversionTask_%s",kGCAnalysisCutSelectionId.Data()));
1511
1512   cout<<"name of Task::"<< Form("GammaConversionTask_%s",kGCAnalysisCutSelectionId.Data())<< " "<<gammaconversion->GetName() <<endl;
1513   gammaconversion->SetDebugLevel(0);
1514         
1515   gammaconversion->SetWriteNtuple(kGCwriteNtuple);
1516         
1517   gammaconversion->SetV0Reader(v0Reader);
1518   gammaconversion->SetCalculateBackground(kGCcalculateBackground);
1519   gammaconversion->Init();
1520         
1521   gammaconversion->SetElectronMass(kGCelectronMass);
1522   gammaconversion->SetGammaMass(kGCgammaMass);
1523   gammaconversion->SetPi0Mass(kGCpi0Mass);
1524   gammaconversion->SetEtaMass(kGCetaMass);
1525         
1526   gammaconversion->SetGammaWidth(kGCgammaWidth);
1527   gammaconversion->SetPi0Width(kGCpi0Width);
1528   gammaconversion->SetEtaWidth(kGCetaWidth);
1529         
1530   gammaconversion->SetMinOpeningAngleGhostCut(kGCminOpeningAngleGhostCut);
1531   
1532         
1533   Double_t lowPtMapping=0.4;
1534   Double_t highPtMapping=1.5;
1535   gammaconversion->SetLowPtMapping(lowPtMapping);
1536   gammaconversion->SetHighPtMapping(highPtMapping);
1537
1538   // define the width constraint used by KF particle.
1539   Double_t gammaWidth = 0.01;
1540   Double_t pi0Width   = 0.01;
1541   Double_t etaWidth   = 0.01;
1542         
1543   gammaconversion->SetHistograms(histograms);
1544   v0Reader->SetHistograms(histograms);// also give the pointer to the v0reader, for debugging cuts
1545
1546   gammaconversion->SetTriggerCINT1B(kGCtriggerCINT1B);
1547   gammaconversion->SetDoMCTruth(kGCdoMCTruth);
1548         
1549   gammaconversion->SetDoNeutralMeson(kGCrunNeutralMeson);
1550   gammaconversion->SetDoNeutralMesonV0MCCheck(kGCdoNeutralMesonV0MCCheck);
1551   gammaconversion->SetDoJet(kGCrunJet);
1552   gammaconversion->SetDoChic(kGCrunChic);
1553   gammaconversion->SetDoOmegaMeson(kGCrunOmegaMeson);
1554   gammaconversion->SetRecalculateV0ForGamma(kGCRecalculateV0ForGamma);
1555   gammaconversion->SetUseChargedTracksMultiplicityForBG(kGCUseTrackMultiplicityForBG);
1556   gammaconversion->SetMoveParticleAccordingToVertex(kGCMoveParticlesAccordingToVertex);
1557   gammaconversion->SetApplyChi2Cut(kGCApplyChi2Cut);
1558   cout<<"NumberOfDegrees in rotatation method set to: "<<kGCnDegreeRotationPMForBG<<endl;
1559   gammaconversion->SetPMDegreesBG(kGCnDegreeRotationPMForBG);
1560   if(kGCUseRotationMethodInBG){
1561     cout<<"Using rotation method for bg."<<endl;
1562   }
1563   else{
1564     cout<<"Using mixed event for bg."<<endl;
1565   }
1566   if(kGCUseTrackMultiplicityForBG){
1567     cout<<"Using track multiplicity for bck"<<endl;
1568   }else{
1569     cout<<"Using V0 multiplicity for bck"<<endl;
1570   }
1571   gammaconversion->SetDoRotation(kGCUseRotationMethodInBG);
1572   cout<<"Using :"<<kGCnumberOfRotationEventsForBG<<" rotations in bg calculation"<<endl;
1573   gammaconversion->SetNumberOfRotationsBG(kGCnumberOfRotationEventsForBG);
1574   gammaconversion->SetCheckBGProbability(kGCdoBGProbability);
1575
1576   gammaconversion->SetRemovePileUp(kGCRemovePileUp);
1577   gammaconversion->SetSelectV0AND(kGCSelectV0AND);
1578   gammaconversion->SetUseMultiplicity(kGCUseMultiplicity);
1579   gammaconversion->SetUseMultiplicityBin(kGCUseMultiplicityBin);
1580
1581   v0Reader->SetIsHeavyIon(kGCIsHeavyIon);
1582   v0Reader->SetUseCorrectedTPCClsInfo(kGCUseCorrectedTPCClsInfo);
1583   gammaconversion->SetUseCentrality(kGCUseCentrality);
1584   if(kGCUseCentrality){
1585     gammaconversion->SetUseCentralityBin(kGCUseCentralityBin);
1586   }
1587
1588
1589
1590
1591   // for CF
1592   gammaconversion->SetCFManager(man);
1593   gammaconversion->SetDoCF(kGCrunCF);
1594   v0Reader->SetDoCF(kGCrunCF);
1595
1596   // Add task to the manager 
1597   mgr->AddTask(gammaconversion);
1598
1599
1600   // Define Output Event Handler and add
1601   if(kGCWriteAOD){
1602     gammaconversion->SetForceAOD(kGCForceAOD);
1603     gammaconversion->SetOutputAODClassName("AliAODConversionParticle");
1604     //gammaconversion->SetOutputAODClassName("AliGammaConversionAODObject");
1605
1606     if( kGCrunOnTrain ) {
1607       
1608       AliAODHandler * aodHandler = dynamic_cast<AliAODHandler*>(mgr->GetOutputEventHandler());
1609       if(!aodHandler) {
1610         ::Error("This task requires an AOD handler");
1611         return NULL;
1612       }
1613       
1614       gammaconversion->SetDeltaAODFileName(kGCDeltaAODFilename);
1615       
1616       if(kGCDeltaAODFilename.Length() > 0) {
1617         mgr->RegisterExtraFile(kGCDeltaAODFilename.Data());
1618       }
1619       
1620     } else {
1621       if(kGCDeltaAODFilename.Length() == 0 ) {
1622         cout << "Error:: Need a file name for the AOD"<<endl;
1623         return NULL;
1624       }
1625       AliAODHandler* aodHandler = new AliAODHandler();
1626       aodHandler->SetOutputFileName(kGCDeltaAODFilename);
1627       aodHandler->SetCreateNonStandardAOD();
1628       mgr->SetOutputEventHandler(aodHandler);   
1629     }
1630   }  else {
1631     gammaconversion->SetCreateAOD(kFALSE);
1632   }
1633
1634   // Connect I/O to the task
1635   mgr->ConnectInput (gammaconversion, 0, cinput1);
1636   if(mgr->GetCommonOutputContainer())
1637     mgr->ConnectOutput(gammaconversion, 0, mgr->GetCommonOutputContainer());
1638   
1639   mgr->ConnectOutput(gammaconversion, 1, coutput2);
1640   mgr->ConnectOutput(gammaconversion, 2, coutput3);
1641   
1642   if(kGCRunGammaJetTask) {
1643     AliAnalysisTaskGammaJet * gammaJetTask = new AliAnalysisTaskGammaJet("GammaJetTask");
1644     if(kGCrunOnTrain) {
1645       gammaJetTask->SetDeltaAODFileName(kGCDeltaAODFileName);
1646     }
1647     
1648     mgr->ConnectInput(gammaJetTask, 0, cinput1);
1649     AliAnalysisDataContainer *coutputgj = mgr->CreateContainer("chistpt", TList::Class(), AliAnalysisManager::kOutputContainer, "AnalysisResultsConvJets.root");
1650     mgr->ConnectOutput(gammaJetTask, 1, coutputgj);
1651   }
1652
1653
1654   if( kGCrunDalitz ){
1655    
1656    gROOT->LoadMacro("$ALICE_ROOT/PWG4/macros/AddTaskGammaConvDalitz.C");
1657    AddTaskGammaConvDalitz( v0Reader, kGCcalculateBackground, kGCRunStandalone );
1658
1659   }
1660
1661   if(kGCrunOnTrain == kFALSE){
1662     if(kGCdataList.IsNull()){
1663       cout<<"Data list is not set, aborting."<<endl;
1664       return;
1665     }
1666     /*
1667       gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
1668       AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection();
1669       if(kGCdoMCTruth)physSelTask->GetPhysicsSelection()->SetAnalyzeMC();
1670       physSelTask->GetPhysicsSelection()->AddBackgroundIdentification(new AliBackgroundSelection());
1671       gammaconversion->SelectCollisionCandidates();     
1672     */
1673
1674     gROOT->LoadMacro("$ALICE_ROOT/ANALYSIS/macros/AddTaskPhysicsSelection.C");
1675     AliPhysicsSelectionTask* physSelTask = AddTaskPhysicsSelection(kGCdoMCTruth,kTRUE);
1676     gammaconversion->SelectCollisionCandidates(); 
1677
1678     //    if(kGCrunOnTrain == kFALSE){
1679       TChain* chain= CreateESDChain(kGCdataList,kGCnumberOfFilesToAnalyze);
1680                         
1681       mgr->InitAnalysis();
1682                         
1683       mgr->PrintStatus();
1684                         
1685       mgr->StartAnalysis("local",chain);
1686       //    }
1687   }
1688   return gammaconversion;
1689 }
1690
1691 void LoadLibraries() {
1692                  
1693   TStopwatch timer;
1694   timer.Start();
1695   gSystem->Load("libTree.so");
1696   gSystem->Load("libGeom");
1697   
1698   gSystem->Load("libSTEERBase.so");
1699   gSystem->Load("libVMC.so");
1700   gSystem->Load("libESD.so");
1701   gSystem->Load("libAOD.so");
1702   gSystem->Load("libANALYSIS.so");
1703   gSystem->Load("libANALYSISalice.so");
1704   gSystem->Load("libCORRFW.so");
1705   gSystem->Load("libPWG4GammaConv.so");
1706   
1707   //  gSystem->ChangeDirectory(pwd.Data());
1708   
1709 }
1710 void build() {
1711         
1712   TStopwatch timer;
1713   timer.Start();
1714   gSystem->Load("libTree.so");
1715   gSystem->Load("libGeom");
1716         
1717   TString pwd = gSystem->WorkingDirectory();
1718         
1719   ////
1720   //Setting up STEERBase.par//
1721   ////
1722   cout<<"compiling STEERBase"<<endl;
1723   setupPar("STEERBase");
1724   gSystem->Load("libSTEERBase.so");
1725
1726
1727    ////
1728   //Setting up ESD.par//
1729   ////
1730   cout<<"compiling ESD"<<endl;
1731   setupPar("ESD");
1732   gSystem->Load("libVMC.so");
1733   gSystem->Load("libESD.so");
1734
1735         
1736   ////
1737   //Setting up AOD.par//
1738   ////
1739   cout<<"compiling AOD"<<endl;
1740   setupPar("AOD");
1741   gSystem->Load("libAOD.so");
1742         
1743   ////
1744   //Setting up ANALYSIS.par//
1745   ////
1746   cout<<"compiling ANALYSIS"<<endl;
1747   setupPar("ANALYSIS");
1748   gSystem->Load("libANALYSIS.so");
1749         
1750   ////
1751   //Setting up ANALYSISalice.par//
1752   ////
1753   cout<<"compiling ANALYSISalice"<<endl;
1754   setupPar("ANALYSISalice");
1755   gSystem->Load("libANALYSISalice.so");
1756         
1757   ////
1758   //Setting up CORRFW.par//
1759   ////
1760   cout<<"compiling CORRFW"<<endl;
1761   setupPar("CORRFW");
1762   gSystem->Load("libCORRFW.so");
1763         
1764   ////
1765   //Setting up PWG4GammaConv.par//
1766   ////
1767   cout<<"compiling PWG4GammaConv"<<endl;
1768   setupPar("PWG4GammaConv");
1769   gSystem->Load("libPWG4GammaConv.so");
1770   
1771   gSystem->ChangeDirectory(pwd.Data());
1772 }
1773
1774 Int_t setupPar(const char* pararchivename) {
1775   ///////////////////
1776   // Setup PAR File//
1777   ///////////////////
1778   if (pararchivename) {
1779     char processline[1024];
1780     sprintf(processline,".! tar xvzf %s.par",pararchivename);
1781     gROOT->ProcessLine(processline);
1782     const char* ocwd = gSystem->WorkingDirectory();
1783     gSystem->ChangeDirectory(pararchivename);
1784                 
1785     // check for BUILD.sh and execute
1786     if (!gSystem->AccessPathName("PROOF-INF/BUILD.sh")) {
1787       printf("*******************************\n");
1788       printf("*** Building PAR archive    ***\n");
1789       printf("*******************************\n");
1790                         
1791       if (gSystem->Exec("PROOF-INF/BUILD.sh")) {
1792         Error("runAnalysis","Cannot Build the PAR Archive! - Abort!");
1793         return -1;
1794       }
1795     }
1796     // check for SETUP.C and execute
1797     if (!gSystem->AccessPathName("PROOF-INF/SETUP.C")) {
1798       printf("*******************************\n");
1799       printf("*** Setup PAR archive       ***\n");
1800       printf("*******************************\n");
1801       gROOT->Macro("PROOF-INF/SETUP.C");
1802     }
1803                 
1804     gSystem->ChangeDirectory("../");
1805   }                                                                                                                                               
1806   return 1;
1807 }
1808
1809
1810
1811 void AddHistograms(AliGammaConversionHistograms *histograms){
1812   //---------------------------------------------- Jets ---------------------------------------------------------
1813   if(kGCrunJet == kTRUE){
1814     if (kGCplotdPhiHdrGam == kTRUE){
1815       histograms->AddHistogram("ESD_dphiHdrGam","ESD_dphiHdrGam", kGCnXBinsdphiHdrGam,kGCfirstXBindphiHdrGam,kGClastXBindphiHdrGam,"dphiHdrGam (rad)","Counts");
1816     }
1817                 
1818     if (kGCplotdPhiHdrGamIsolated == kTRUE){
1819       histograms->AddHistogram("ESD_dphiHdrGamIsolated","ESD_dphiHdrGamIsolated",  kGCnXBinsdphiHdrGam,kGCfirstXBindphiHdrGam,kGClastXBindphiHdrGam,"dphiHdrGamIsolated (rad)","Counts");
1820     }
1821                 
1822     if (kGCplotMinimumIsoDistance == kTRUE){
1823       histograms->AddHistogram("ESD_MinimumIsoDistance","ESD_MinimumIsoDistance", kGCnXBinsMinimumIsoDistance,kGCfirstXBinMinimumIsoDistance,kGClastXBinMinimumIsoDistance,"Minimum Iso Distance (rad)","Counts");
1824     }
1825                 
1826     if (kGCplotFFzHdrGam == kTRUE){
1827       histograms->AddHistogram("ESD_FFzHdrGam","ESD_FFzHdrGam", kGCnXBinsFFzHdrGam, kGCfirstXBinFFzHdrGam,kGClastXBinFFzHdrGam,"FFz Hdr Gam","Counts");
1828     }
1829                 
1830     if (kGCplotImbalanceHdrGam == kTRUE){
1831       histograms->AddHistogram("ESD_ImbalanceHdrGam","ESD_ImbalanceHdrGam", kGCnXBinsImbalanceHdrGam, kGCfirstXBinImbalanceHdrGam,kGClastXBinImbalanceHdrGam,"Imbalance Hdr Gam","Counts");
1832     }
1833   }//end if(kGCrunJet)
1834         
1835   //---------------------------------------------- Chi_c ---------------------------------------------------------
1836   if(kGCrunChic){
1837                 
1838     if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_ePluseMinus","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass, "",
1839                                                                        "");}
1840     if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_ePluseMinusTest","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass,
1841                                                                        "","");}
1842     if(kGCplotESDInvMassePluseMinus == kTRUE){histograms->AddHistogram("ESD_InvMass_xPlusxMinus","",kGCnXBinsJPsiMass, kGCfirstXBinJPsiMass, kGClastXBinJPsiMass, "",
1843                                                                        "");}
1844     if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
1845     if(kGCplotESDElectronPosNegEta == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegEta","",kGCnXBinsEPosNegEta,kGCfirstXBinEPosNegEta,kGClastXBinEPosNegEta,"","
1846                                                                                                                                                   ");}
1847                 
1848     if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronPosPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
1849     if(kGCplotESDElectronPosNegPt == kTRUE){histograms->AddHistogram("ESD_ElectronNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
1850                 
1851     if(kGCplotESDElectronPosNegAngle == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1852
1853     if(kGCplotESDePoseNegAngle == kTRUE){histograms->AddHistogram("ESD_eNegePosAngleBeforeCut","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1854     if(kGCplotESDePoseNegAngle == kTRUE){histograms->AddHistogram("ESD_eNegePosAngleAfterCut","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1855     if(kGCplotESDInvMassGammaePluseMinusChiC == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusChiC","",kGCnXBinsChicMass,kGCfirstXBinChicMass,kGClastXBinChicMass,"","");}
1856     if(kGCplotESDInvMassGammaePluseMinusChiC == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusChiCDiff","",kGCnXBinsChicMass,kGCfirstXBinChicMass,kGClastXBinChicMass,"","");}
1857     if(kGCplotESDInvMassGammaePluseMinusPi0 == kTRUE) {histograms->AddHistogram("ESD_InvMass_GammaePluseMinusPi0","",kGCnXBinsPi0Mass,kGCfirstXBinPi0Mass,kGClastXBinPi0Mass,"","");}
1858     if(kGCplotESDElectronPosNegPi0Angle == kTRUE){histograms->AddHistogram("ESD_ElectronPosNegPi0Angle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1859                 
1860     if(kGCplotESDEPosBackground == kTRUE){histograms->AddHistogram("ESD_EPosBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1861                 
1862     if(kGCplotESDEPosBackground == kTRUE){histograms->AddHistogram("ESD_EPosENegNoJPsiBG","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1863                 
1864                 
1865     if(kGCplotESDENegBackground == kTRUE){histograms->AddHistogram("ESD_ENegBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1866     if(kGCplotESDEPosENegBackground == kTRUE){histograms->AddHistogram("ESD_EPosENegBackground","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1867     if(kGCplotESDEPosENegBackgroundCut == kTRUE){histograms->AddHistogram("ESD_EPosENegBackgroundCut","",kGCnXBinsEBackgroundCut,kGCfirstXBinEBackgroundCut,kGClastXBinEBackgroundCut,"","");}
1868                 
1869     if(kGCplotESDEPosENegGammaBackgroundMX == kTRUE){histograms->AddHistogram("ESD_EPosENegGammaBackgroundMX","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1870     if(kGCplotESDEPosENegGammaBackgroundMX == kTRUE){histograms->AddHistogram("ESD_EPosENegGammaBackgroundMXDiff","",kGCnXBinsEBackground,kGCfirstXBinEBackground,kGClastXBinEBackground,"","");}
1871                 
1872     if(kGCplotTableElectrons == kTRUE){ histograms->AddTable("Table_Electrons","",kGCnElementsElectronTable,kGCelectronTable);}
1873
1874     if(kGCdoMCTruth){
1875       if(kGCplotMCElectronPosNegPt == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPt","",kGCnXBinsEPosNegPt,kGCfirstXBinEPosNegPt,kGClastXBinEPosNegPt,"","");}
1876       if(kGCplotMCElectronPosNegEta == kTRUE){histograms->AddHistogram("MC_ElectronPosNegEta","",kGCnXBinsEPosNegEta,kGCfirstXBinEPosNegEta,kGClastXBinEPosNegEta,"","");}
1877       if(kGCplotMCElectronPosNegJPsiAngle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegJPsiAngle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1878       if(kGCplotMCElectronPosNegPi0Angle == kTRUE){histograms->AddHistogram("MC_ElectronPosNegPi0Angle","",kGCnXBinsEPosNegAngle,kGCfirstXBinEPosNegAngle,kGClastXBinEPosNegAngle,"","");}
1879     }
1880
1881   }// end kGCrunChic
1882         
1883
1884   //---------------------------------------------- Gamma from Decay ----------------------------------------------------
1885   if(kGCplotMCGammaFromDecay == kTRUE && kGCdoMCTruth == kTRUE){
1886      histograms->AddHistogram("MC_DecayPi0Gamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");  
1887      histograms->AddHistogram("MC_DecayRho0Gamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1888      histograms->AddHistogram("MC_DecayEtaGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1889      histograms->AddHistogram("MC_DecayOmegaGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1890      histograms->AddHistogram("MC_DecayK0sGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1891      histograms->AddHistogram("MC_DecayEtapGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1892      histograms->AddHistogram("MC_DecayPhiGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1893      histograms->AddHistogram("MC_DecayAllGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1894   }
1895
1896   //---------------------------------------------- Neutral Meson ---------------------------------------------------------
1897   if(kGCrunNeutralMeson){
1898                 
1899     // Histograms from esd tracks       
1900     if(kGCplotESDEEnergy == kTRUE){ histograms->AddHistogram("ESD_E_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
1901     if(kGCplotESDEPt == kTRUE){ histograms->AddHistogram("ESD_E_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1902     if(kGCplotESDEEta == kTRUE){ histograms->AddHistogram("ESD_E_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
1903     if(kGCplotESDEPhi == kTRUE){ histograms->AddHistogram("ESD_E_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
1904     if(kGCplotESDENTPCClusters == kTRUE){ histograms->AddHistogram("ESD_E_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
1905     if(kGCplotESDENITSClusters == kTRUE){ histograms->AddHistogram("ESD_E_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
1906     if(kGCplotESDENTPCClustersToFP== kTRUE){ histograms->AddHistogram("ESD_E_nTPCClustersToFP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
1907     if(kGCplotESDENTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_E_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
1908     if(kGCplotESDENTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_TrueConversion_E_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
1909     if(kGCplotESDETPCchi2 == kTRUE){ histograms->AddHistogram("ESD_E_TPCchi2" ,"" , kGCnXBinsTPCchi2, kGCfirstXBinTPCchi2, kGClastXBinTPCchi2, "", "");}
1910
1911                 
1912     if(kGCplotESDPEnergy == kTRUE){ histograms->AddHistogram("ESD_P_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
1913     if(kGCplotESDPPt == kTRUE){ histograms->AddHistogram("ESD_P_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1914     if(kGCplotESDPEta == kTRUE){ histograms->AddHistogram("ESD_P_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
1915     if(kGCplotESDPPhi == kTRUE){ histograms->AddHistogram("ESD_P_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
1916     if(kGCplotESDPNTPCClusters == kTRUE){ histograms->AddHistogram("ESD_P_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
1917     if(kGCplotESDPNITSClusters == kTRUE){ histograms->AddHistogram("ESD_P_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
1918     if(kGCplotESDPNTPCClustersToFP== kTRUE){ histograms->AddHistogram("ESD_P_nTPCClustersToFP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}  
1919     if(kGCplotESDPNTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_P_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
1920     if(kGCplotESDPNTPCClustersToFR== kTRUE){ histograms->AddHistogram("ESD_TrueConversion_P_nTPCClustersToFR" ,"" ,kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,kGCnYBinsClsToF, kGCfirstYBinClsToF, kGClastYBinClsToF,"", "",0);}
1921     if(kGCplotESDPTPCchi2 == kTRUE){ histograms->AddHistogram("ESD_P_TPCchi2" ,"" , kGCnXBinsTPCchi2, kGCfirstXBinTPCchi2, kGClastXBinTPCchi2, "", "");}
1922
1923     if(kGCplotESDConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
1924     if(kGCplotESDConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1925     if(kGCplotESDConvGammaEta == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
1926     if(kGCplotESDConvGammaPhi == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
1927     if(kGCplotESDConvGammaMass == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Mass" ,"" ,  kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
1928     if(kGCplotESDConvGammaWidth == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Width" ,"" , kGCnXBinsGammaWidth, kGCfirstXBinGammaWidth, kGClastXBinGammaWidth, "", "");}
1929     if(kGCplotESDConvGammaChi2 == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Chi2" ,"" , kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
1930     if(kGCplotESDConvGammaNDF == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_NDF" ,"" , kGCnXBinsGammaNDF, kGCfirstXBinGammaNDF, kGClastXBinGammaNDF, "", "");}
1931     if(kGCplotESDConvGammaRapid == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
1932     if(kGCplotESDConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt_Eta","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta,"","" );}
1933     if(kGCplotESDConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
1934     if(kGCplotESDConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
1935                 
1936                 
1937                 
1938     if(kGCplotESDConversionR == kTRUE){ histograms->AddHistogram("ESD_Conversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1939     if(kGCplotESDConversionZR == kTRUE){ histograms->AddHistogram("ESD_Conversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
1940     if(kGCplotESDConversionXY == kTRUE){ histograms->AddHistogram("ESD_Conversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
1941     if(kGCplotESDConversionXYBeamPipe == kTRUE && kGCLowMemoryConsumption == kFALSE){ histograms->AddHistogram("ESD_Conversion_XY_BeamPipe" ,"" , kGCnXBinsXYBP, kGCfirstXBinXYBP, kGClastXBinXYBP, kGCnYBinsXYBP, kGCfirstYBinXYBP, kGClastYBinXYBP, "", "");}
1942     if(kGCplotESDConversionRPhiBeamPipe == kTRUE && kGCLowMemoryConsumption == kFALSE){ histograms->AddHistogram("ESD_Conversion_RPhi_BeamPipe" ,"" , kGCnXBinsRPhiBP, kGCfirstXBinRPhiBP, kGClastXBinRPhiBP, kGCnYBinsRPhiBP, kGCfirstYBinRPhiBP, kGClastYBinRPhiBP, "", "");}
1943     if(kGCplotESDConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_Conversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
1944
1945     if(kGCplotESDConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
1946     if(kGCplotESDConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
1947     if(kGCplotESDConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
1948     if(kGCplotESDConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_ConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
1949     if(kGCplotESDConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
1950     if(kGCplotESDConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
1951     if(kGCplotESDConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
1952     if(kGCplotESDConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
1953
1954     if(kGCplotESDConvGammaEeProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_EProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
1955     if(kGCplotESDConvGammaPeProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_EProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
1956     if(kGCplotESDConvGammaEmupiProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_E_mupiProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
1957     if(kGCplotESDConvGammaPmupiProbP== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_P_mupiProbP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsEProb, kGCfirstYBinEProb, kGClastYBinEProb,"", "",0);}
1958
1959     if(kGCplotESDConvGammaQtAlfa== kTRUE){ histograms->AddHistogram("ESD_ConvGamma_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
1960
1961
1962                 
1963     if(kGCplotESDTrueDalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueDalitzContamination_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1964     if(kGCplotESDTruePi0DalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvDalitzPi0_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1965     if(kGCplotESDTrueEtaDalitzContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvDalitzEta_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1966     if(kGCplotESDTrueCombinatorialContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorial_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1967     if(kGCplotESDTrueCombinatorialElecContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorialElec_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1968     if(kGCplotESDTrueHadronicContaminationR == kTRUE){ histograms->AddHistogram("ESD_TrueConvHadronicBck_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
1969     if(kGCplotESDTrueCombinatorialContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorial_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1970     if(kGCplotESDTrueCombinatorialElecContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvCombinatorialElec_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1971     if(kGCplotESDTrueHadronicContaminationPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvHadronicBck_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
1972
1973
1974     if(kGCplotESDTrueBackground){
1975        histograms->AddHistogram("ESD_TrueConvCombinatorialDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
1976        histograms->AddHistogram("ESD_TrueConvHadronicBckDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
1977        histograms->AddHistogram("ESD_TrueConvCombinatorialPiDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
1978        histograms->AddHistogram("ESD_TrueConvCombinatorialPiPDaughter_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");
1979
1980        histograms->AddHistogram("ESD_TrueConvCombinatorialPi_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1981        histograms->AddHistogram("ESD_TrueConvCombinatorialPi_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1982        histograms->AddHistogram("ESD_TrueConvCombinatorialPiP_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1983        histograms->AddHistogram("ESD_TrueConvCombinatorialPiP_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1984        histograms->AddHistogram("ESD_TrueConvCombinatorialElecPi_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1985        histograms->AddHistogram("ESD_TrueConvCombinatorialElecPi_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1986        histograms->AddHistogram("ESD_TrueConvMeson_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1987        histograms->AddHistogram("ESD_TrueConvMeson_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1988        histograms->AddHistogram("ESD_TrueConvLambda_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1989        histograms->AddHistogram("ESD_TrueConvLambda_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1990     }
1991
1992     histograms->AddHistogram("ESD_TrueConvDalitzPi0_SinglePos_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1993     histograms->AddHistogram("ESD_TrueConvDalitzPi0_SingleNeg_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1994     histograms->AddHistogram("ESD_TrueConvDalitzPi0_SinglePos_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1995     histograms->AddHistogram("ESD_TrueConvDalitzPi0_SingleNeg_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");
1996     histograms->AddHistogram("ESD_TrueConversion_SinglePos_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,  kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,"", "");
1997     histograms->AddHistogram("ESD_TrueConversion_SingleNeg_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,  kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1998     histograms->AddHistogram("ESD_TrueConversion_SinglePos_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
1999     histograms->AddHistogram("ESD_TrueConversion_SingleNeg_kFirst_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
2000
2001
2002     if(kGCplotESDTrueConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2003     if(kGCplotESDTrueConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2004     if(kGCplotESDTrueConvGammaEta == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2005     if(kGCplotESDTrueConvGammaPhi == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2006     if(kGCplotESDTrueConvGammaMass == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Mass" ,"" ,  kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
2007     if(kGCplotESDTrueConvGammaWidth == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Width" ,"" , kGCnXBinsGammaWidth, kGCfirstXBinGammaWidth, kGClastXBinGammaWidth, "", "");}
2008     if(kGCplotESDTrueConvGammaChi2 == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Chi2" ,"" , kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2009     if(kGCplotESDTrueConvGammaNDF == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_NDF" ,"" , kGCnXBinsGammaNDF, kGCfirstXBinGammaNDF, kGClastXBinGammaNDF, "", "");}
2010     if(kGCplotESDTrueConvGammaRapid == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2011     if(kGCplotESDTrueConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2012     if(kGCplotESDTrueConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2013     if(kGCplotESDTrueConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2014                 
2015     if(kGCplotESDTrueConversionR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2016     if(kGCplotESDTrueConversionZR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2017     if(kGCplotESDTrueConversionXY == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2018     if(kGCplotESDTrueConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2019
2020     if(kGCplotESDTrueConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
2021     if(kGCplotESDTrueConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
2022     if(kGCplotESDTrueConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
2023     if(kGCplotESDTrueConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
2024     if(kGCplotESDTrueConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2025     if(kGCplotESDTrueConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2026     if(kGCplotESDTrueConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
2027     if(kGCplotESDTrueConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
2028     if(kGCplotESDTrueConvGammaQtAlfa== kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
2029                 
2030     if(kGCplotESDTrueConvGammaMCPtEta == kTRUE){ histograms->AddHistogram("ESD_TrueConvGamma_MC_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2031     if(kGCplotESDTrueConversionMCZR == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_MC_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2032     if(kGCplotESDTrueConversionMCXY == kTRUE){ histograms->AddHistogram("ESD_TrueConversion_MC_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2033                 
2034                 
2035     if(kGCplotESDNoCutAllV0Pt == kTRUE){ histograms->AddHistogram("ESD_NoCutAllV0_Pt" ,"" , kGCnXBinsPt,kGCfirstXBinPt , kGClastXBinPt, "", "");}               
2036     if(kGCplotESDNoCutConvGammaEnergy == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2037     if(kGCplotESDNoCutConvGammaPt == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2038     if(kGCplotESDNoCutConvGammaEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2039     if(kGCplotESDNoCutConvGammaPhi == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2040     if(kGCplotESDNoCutConvGammaMass == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Mass" ,"" ,  kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
2041     if(kGCplotESDNoCutConvGammaWidth == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Width" ,"" , kGCnXBinsGammaWidth, kGCfirstXBinGammaWidth, kGClastXBinGammaWidth, "", "");}
2042     if(kGCplotESDNoCutConvGammaChi2 == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Chi2" ,"" , kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2043     if(kGCplotESDNoCutConvGammaNDF == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_NDF" ,"" , kGCnXBinsGammaNDF, kGCfirstXBinGammaNDF, kGClastXBinGammaNDF, "", "");}
2044     if(kGCplotESDNoCutConvGammaRapid == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2045     if(kGCplotESDNoCutConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2046     if(kGCplotESDNoCutConvGammaPtvsChi2 == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Pt_Chi2" ,"" ,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2047     if(kGCplotESDNoCutConvGammaEtavsChi2 == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_Eta_Chi2" ,"" ,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, kGCnXBinsGammaChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2048                 
2049     if(kGCplotESDNoCutConversionR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2050     if(kGCplotESDNoCutConversionZR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2051     if(kGCplotESDNoCutConversionXY == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2052     if(kGCplotESDNoCutConversionOpeningAngle == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2053
2054     if(kGCplotESDNoCutConvGammaCosPointingAngle == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_CosPointingAngle" ,"" , kGCnXBinsCosPointingAngle, kGCfirstXBinCosPointingAngle, kGClastXBinCosPointingAngle, "", "");}
2055     if(kGCplotESDNoCutConvGammaDcaDaugthers == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_DcaDaughters" ,"" , kGCnXBinsDcaDaughters, kGCfirstXBinDcaDaughters, kGClastXBinDcaDaughters, "", "");}
2056     if(kGCplotESDNoCutConvGammaNormDcaDistDaugthers == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_NormDcaDistDaughters" ,"" , kGCnXBinsNormDcaDistDaughters, kGCfirstXBinNormDcaDistDaughters, kGClastXBinNormDcaDistDaughters, "", "");}
2057     if(kGCplotESDNoCutConvGammaLikelihoodAP == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_LikelihoodAP" ,"" , kGCnXBinsLikelihoodAP, kGCfirstXBinLikelihoodAP, kGClastXBinLikelihoodAP, "", "");}
2058     if(kGCplotESDNoCutConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2059     if(kGCplotESDNoCutConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2060
2061
2062     if(kGCplotESDNoCutConvGammaEdEdxP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_E_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
2063     if(kGCplotESDNoCutConvGammaPdEdxP== kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_P_dEdxP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);}
2064
2065     if(kGCplotESDNoCutConvGammaMCPtEta == kTRUE){ histograms->AddHistogram("ESD_NoCutConvGamma_MC_Pt_Eta" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2066     if(kGCplotESDNoCutConversionMCZR == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2067     if(kGCplotESDNoCutConversionMCXY == kTRUE){ histograms->AddHistogram("ESD_NoCutConversion_MC_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2068                 
2069                 
2070     if(kGCplotESDMotherChi2 == kTRUE){ histograms->AddHistogram("ESD_Mother_Chi2","" , kGCnXBinsMesonChi2, kGCfirstXBinGammaChi2, kGClastXBinGammaChi2, "", "");}
2071     if(kGCplotESDMotherOpeningAngleGamma == kTRUE){ histograms->AddHistogram("ESD_Mother_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2072     if(kGCplotESDMotherEnergy == kTRUE){ histograms->AddHistogram("ESD_Mother_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2073     if(kGCplotESDMotherPt == kTRUE){ histograms->AddHistogram("ESD_Mother_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2074     if(kGCplotESDMotherEta == kTRUE){ histograms->AddHistogram("ESD_Mother_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2075     if(kGCplotESDMotherPhi == kTRUE){ histograms->AddHistogram("ESD_Mother_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2076     if(kGCplotESDMotherMass == kTRUE){ histograms->AddHistogram("ESD_Mother_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
2077     if(kGCplotESDMotherR == kTRUE){ histograms->AddHistogram("ESD_Mother_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2078     if(kGCplotESDMotherZR == kTRUE){ histograms->AddHistogram("ESD_Mother_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2079     if(kGCplotESDMotherXY == kTRUE){ histograms->AddHistogram("ESD_Mother_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2080     if(kGCplotESDMotherRapid == kTRUE){ histograms->AddHistogram("ESD_Mother_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2081                 
2082     for(Int_t z=0;z<8;z++){
2083       for(Int_t m=0;m<6;m++){
2084         if(kGCplotESDBackgroundOpeningAngleGamma == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_GammaDaughter_OpeningAngle",z,m) ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2085         if(kGCplotESDBackgroundEnergy == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Energy",z,m) ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2086         if(kGCplotESDBackgroundPt == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Pt",z,m) ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2087         if(kGCplotESDBackgroundEta == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Eta",z,m) ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2088         if(kGCplotESDBackgroundPhi == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Phi",z,m) ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2089         if(kGCplotESDBackgroundMass == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Mass",z,m) ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
2090         if(kGCplotESDBackgroundR == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_R",z,m) ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2091         if(kGCplotESDBackgroundZR == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_ZR",z,m) ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2092         if(kGCplotESDBackgroundXY == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_XY",z,m) ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2093         if(kGCplotESDBackgroundRapid == kTRUE){ histograms->AddHistogram(Form("%d%dESD_Background_Rapid",z,m) ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2094       }
2095     }
2096
2097     if(kGCplotESDBackgroundOpeningAngleGamma == kTRUE){ histograms->AddHistogram("ESD_Background_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2098     if(kGCplotESDBackgroundEnergy == kTRUE){ histograms->AddHistogram("ESD_Background_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2099     if(kGCplotESDBackgroundPt == kTRUE){ histograms->AddHistogram("ESD_Background_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2100     if(kGCplotESDBackgroundEta == kTRUE){ histograms->AddHistogram("ESD_Background_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2101     if(kGCplotESDBackgroundPhi == kTRUE){ histograms->AddHistogram("ESD_Background_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2102     if(kGCplotESDBackgroundMass == kTRUE){ histograms->AddHistogram("ESD_Background_Mass" ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
2103     if(kGCplotESDBackgroundR == kTRUE){ histograms->AddHistogram("ESD_Background_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2104     if(kGCplotESDBackgroundZR == kTRUE){ histograms->AddHistogram("ESD_Background_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2105     if(kGCplotESDBackgroundXY == kTRUE){ histograms->AddHistogram("ESD_Background_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2106     if(kGCplotESDBackgroundRapid == kTRUE){ histograms->AddHistogram("ESD_Background_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2107                 
2108                 
2109     if(kGCplotMapping == kTRUE){
2110       histograms->InitializeMappingValues(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCminRadius,kGCmaxRadius,kGCnYBinsMapping,kGCminPhi,kGCmaxPhi);
2111       histograms->AddMappingHistograms(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCfirstXBinMapping,kGClastXBinMapping,kGCnYBinsMapping,kGCfirstYBinMapping,kGClastYBinMapping);
2112       //      histograms->AddMappingHistograms(kGCnPhiIndex,kGCnRIndex,kGCnXBinsMapping,kGCminRadius,kGCmaxRadius,kGCnYBinsMapping,kGCminPhi,kGCmaxPhi);
2113     }
2114
2115     //
2116     //************************************* Defining Resolution histograms *******************************************************/
2117     //
2118     // written by Friederike Bock 
2119     // contact: Friederike.Bock@cern.ch
2120     //
2121
2122     if(kGCrunRES == kTRUE){
2123         //------------------------------------------ Absolute Resolutions --------------------------------------------------------
2124     if(kGCplotResolutiondRAbs== kTRUE){
2125                 histograms->AddHistogram("Resolution_dRAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR,kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
2126     if(kGCplotResolutiondZAbs== kTRUE){
2127                 histograms->AddHistogram("Resolution_dZAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR,kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
2128     if(kGCplotResolutiondPhiAbs== kTRUE){
2129                 histograms->AddHistogram("Resolution_dPhiAbs_VS_R","" ,kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR,kGCnYBinsResdR, -TMath::Pi()/30., TMath::Pi()/30., "", "");}
2130
2131         //------------------------------------------ Relative Resolutions --------------------------------------------------------
2132     if(kGCplotResolutiondR == kTRUE){
2133                 histograms->AddHistogram("Resolution_dR" ,"" , kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR, kGCnYBinsResdR, kGCfirstYBinResdR, kGClastYBinResdR, "", "");}
2134     if(kGCplotResolutiondZ == kTRUE){
2135                 histograms->AddHistogram("Resolution_dZ" ,"" , kGCnXBinsResdZ, kGCfirstXBinResdZ, kGClastXBinResdZ, kGCnYBinsResdZ, kGCfirstYBinResdZ, kGClastYBinResdZ, "", "");}
2136
2137         //------------------------------------------- Pt vs R ---------------------------------------------------------------------             
2138     if(kGCplotResolutiondRdPt == kTRUE){
2139                 histograms->AddHistogram("Resolution_R_dPt" ,"" , kGCnXBinsResdR, kGCfirstXBinResdR, kGClastXBinResdR, kGCnYBinsResdRdPt, kGCfirstYBinResdRdPt, kGClastYBinResdRdPt, "", "");}
2140
2141
2142         // ------------------------------------------- Reconstruction Plots for Resolution ----------------------------------------             
2143     if(kGCplotResolutionMCPt == kTRUE){
2144                 histograms->AddHistogram("Resolution_MC_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
2145     if(kGCplotResolutionMCR == kTRUE){
2146                 histograms->AddHistogram("Resolution_MC_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
2147     if(kGCplotResolutionMCZ == kTRUE){
2148                 histograms->AddHistogram("Resolution_MC_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
2149                 
2150     if(kGCplotResolutionESDPt == kTRUE){
2151                 histograms->AddHistogram("Resolution_ESD_Pt" ,"" , kGCnXBinsResPt, kGCfirstXBinResPt, kGClastXBinResPt,"","");}
2152     if(kGCplotResolutionESDR == kTRUE){
2153                 histograms->AddHistogram("Resolution_ESD_R" ,"" , kGCnXBinsResR, kGCfirstXBinResR, kGClastXBinResR,"","");}
2154     if(kGCplotResolutionESDZ == kTRUE){
2155                 histograms->AddHistogram("Resolution_ESD_Z" ,"" , kGCnXBinsResZ, kGCfirstXBinResZ, kGClastXBinResZ,"","");}
2156
2157         // ------------------------------------------- Plots for specific Gamma Trigger Studies -----------------------------------     
2158     if(kGCplotResolutionPtdPt = kTRUE){
2159                 // ::::::::::::::::::::::::::::::::::::::: histograms for gammas ::::::::::::::::::::::::::::::::::::::::::::::::::::::
2160                 histograms->AddHistogram("Resolution_Gamma_dPt_Pt" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2161                 histograms->AddHistogram("Resolution_Gamma_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2162                 
2163                 // ::::::::::::::::::::::::::::::::::::::: histograms for electrons :::::::::::::::::::::::::::::::::::::::::::::::::::
2164                 histograms->AddHistogram("Resolution_E_dPt_Pt" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2165                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS0" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2166                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS1" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2167                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS2" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2168                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS3" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2169                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS4" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2170                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS5" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2171                 histograms->AddHistogram("Resolution_E_dPt_Pt_ITS6" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2172                 histograms->AddHistogram("Resolution_E_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2173                 histograms->AddHistogram("Resolution_E_nTRDtracklets_ESDPt" ,"" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
2174                 histograms->AddHistogram("Resolution_E_nTRDtracklets_MCPt","" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");    
2175                 histograms->AddHistogram("Resolution_E_nTRDclusters_ESDPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
2176                 histograms->AddHistogram("Resolution_E_nTRDclusters_MCPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
2177                 //              histograms->AddHistogram("Resolution_E_TRDsignal_ESDPt","", fV0Reader->GetNegativeTrackPt(), fV0Reader->GetNegativeESDTrack()->GetTRDsignal());
2178                 
2179                 // :::::::::::::::::::::::::::::::::::::::: histograms for positrons :::::::::::::::::::::::::::::::::::::::::::::::::::
2180                 histograms->AddHistogram("Resolution_P_dPt_Pt" ,"" , kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2181                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS0" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2182                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS1" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2183                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS2" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2184                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS3" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2185                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS4" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2186                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS5" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2187                 histograms->AddHistogram("Resolution_P_dPt_Pt_ITS6" ,"" ,kGCnYBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2188                 histograms->AddHistogram("Resolution_P_dPt_Phi" ,"" , kGCnYBinsResdR, -TMath::Pi(), TMath::Pi(), kGCnYBinsResdPt, kGCfirstYBinResdPt, kGClastYBinResdPt, "", "");
2189                 histograms->AddHistogram("Resolution_P_nTRDtracklets_ESDPt" ,"" ,kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");   
2190                 histograms->AddHistogram("Resolution_P_nTRDtracklets_MCPt","", kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 8, -0.5, 7.5,"", "");
2191                 histograms->AddHistogram("Resolution_P_nTRDclusters_ESDPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201, -0.5, 200.5,"", "");
2192                 histograms->AddHistogram("Resolution_P_nTRDclusters_MCPt","",kGCnXBinsResdPt, kGCfirstXBinResdPt, kGClastXBinResdPt, 201,-0.5, 200.5,"", "");
2193                 //              histograms->AddHistogram("Resolution_P_TRDsignal_ESDPt", "",fV0Reader->GetPositiveTrackPt(), fV0Reader->GetPositiveESDTrack()->GetTRDsignal());
2194     } //end of specific trigger study resolution plots
2195     } //end if(kGCrunRES=true)
2196     
2197     // ___________________________________________________________________________________________________________________________________________________
2198
2199     if(kGCplotEventQuality == kTRUE){histograms->AddHistogram("ESD_EventQuality","ESD_EventQuality",kGCnXBinsEvtQ,kGCfirstXBinEvtQ,kGClastXBinEvtQ,"","");}
2200     if(kGCplotESDNumberOfV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfV0s","Number of v0s",kGCnXBinsNV0,kGCfirstXBinNV0 ,kGClastXBinNV0 ,"","");}
2201     if(kGCplotESDNumberOfSurvivingV0s == kTRUE){histograms->AddHistogram("ESD_NumberOfSurvivingV0s","Number of surviving v0s",kGCnXBinsNV0, kGCfirstXBinNV0 , kGClastXBinNV0,"","");}
2202     if(kGCplotESDNumberOfContributorsVtx == kTRUE){histograms->AddHistogram("ESD_NumberOfContributorsVtx","Number of contributors to vertex",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}
2203     if(kGCplotESDNumberOfGoodESDTracks == kTRUE){histograms->AddHistogram("ESD_NumberOfGoodESDTracks","Number of Good ESD tracks",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}
2204     if(kGCplotESDNumberOfGoodESDTracks == kTRUE){histograms->AddHistogram("ESD_NumberOfGoodESDTracksVtx","Number of Good ESD tracks",kGCnXBinsESDtrk, kGCfirstXBinESDtrk, kGClastXBinESDtrk,"","");}    
2205         
2206     //  debug histograms
2207     if(kGCplotESDCutGetOnFly == kTRUE){histograms->AddHistogram("ESD_CutGetOnFly_InvMass" ,"Not GetOnFly" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2208     if(kGCplotESDCutNContributors == kTRUE){histograms->AddHistogram("ESD_CutNContributors_InvMass" ,"NContributors <= 0" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2209     if(kGCplotESDCutLikeSign == kTRUE){histograms->AddHistogram("ESD_CutLikeSign_InvMass" ,"LikeSign" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2210     if(kGCplotESDCutRefit == kTRUE){histograms->AddHistogram("ESD_CutRefit_InvMass" ,"No TPC refit" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2211     if(kGCplotESDCutKink == kTRUE){histograms->AddHistogram("ESD_CutKink_InvMass" ,"Kinks" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2212     if(kGCplotESDCutPIDProb == kTRUE){histograms->AddHistogram("ESD_CutPIDProb_InvMass" ,"wrong TPC PID" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2213
2214     if(kGCplotESDCutdedxSigmaElectronLine == kTRUE){histograms->AddHistogram("ESD_CutdEdxSigmaElectronLine_InvMass" ,"dedx ElectronLine" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2215     if(kGCplotESDCutdedxSigmaPionLine == kTRUE){histograms->AddHistogram("ESD_CutdEdxSigmaPionLine_InvMass" ,"dedx PionLine" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2216     if(kGCplotESDCutPionRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutPionRejectionLowP_InvMass" ,"dedx PionRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2217     if(kGCplotESDCutKaonRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutKaonRejectionLowP_InvMass" ,"dedx KaonRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2218     if(kGCplotESDCutQtGammaSelection==kTRUE){histograms->AddHistogram("ESD_CutQt_InvMass","ESD_CutQt_InvMass",kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2219
2220     if(kGCplotESDCutProtonRejectionLowP==kTRUE){histograms->AddHistogram("ESD_CutProtonRejectionLowP_InvMass" ,"dedx ProtonRejection LowP" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2221     if(kGCplotESDCutR == kTRUE){histograms->AddHistogram("ESD_CutR_InvMass" ,"Above RMax" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2222     if(kGCplotESDCutMinR == kTRUE){histograms->AddHistogram("ESD_CutMinR_InvMass" ,"Above RMax" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2223     if(kGCplotESDCutNDF == kTRUE){histograms->AddHistogram("ESD_CutNDF_InvMass" ,"NDF <= 0" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2224     if(kGCplotESDCutChi2 == kTRUE){histograms->AddHistogram("ESD_CutChi2_InvMass" ,"#chi^{2} > Max" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2225     if(kGCplotESDCutEta == kTRUE){histograms->AddHistogram("ESD_CutEta_InvMass" ,"Above #eta max" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2226     if(kGCplotESDCutSinglePt == kTRUE){histograms->AddHistogram("ESD_CutSinglePt_InvMass" ,"Below p_{t} min" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2227     if(kGCplotESDCutPt == kTRUE){histograms->AddHistogram("ESD_CutPt_InvMass" ,"Below p_{t} min" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2228     if(kGCplotESDCutLine == kTRUE){histograms->AddHistogram("ESD_CutLine_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2229     if(kGCplotESDCutZ == kTRUE){histograms->AddHistogram("ESD_CutZ_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2230     if(kGCplotESDCutMinClsTPC == kTRUE){histograms->AddHistogram("ESD_CutMinNClsTPC_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2231     if(kGCplotESDCutMinClsTPCToF == kTRUE){histograms->AddHistogram("ESD_CutMinNClsTPCToF_InvMass" ,"Out of reconstruction area" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2232
2233     if(kGCplotESDGoodV0s == kTRUE){histograms->AddHistogram("ESD_GoodV0s_InvMass" ,"Good V0s" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2234     if(kGCplotESDAllV0s == kTRUE){histograms->AddHistogram("ESD_AllV0s_InvMass" ,"All V0s" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2235     if(kGCplotESDAllV0sCurrentFinder == kTRUE){histograms->AddHistogram("ESD_AllV0sCurrentFinder_InvMass" ,"All V0s Current Finder" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");}
2236
2237     if(kGCplotESDAllV0sCurrentFinderQtAlfa== kTRUE){ histograms->AddHistogram("ESD_AllV0sCurrentFinder_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
2238     if(kGCplotESDAllV0sCurrentFinderQtAlfa== kTRUE){ histograms->AddHistogram("ESD_AllV0sCurrentFinder_goodtracks_alfa_qt" ,"" ,kGCnXBinsP, kGCfirstXBinAlphaG, kGClastXBinAlpha,kGCnYBinsQt, kGCfirstYBinQt, kGClastYBinQt,"", "");}
2239
2240     if(kGCplotESDTrueConvGammaTrackLength == kTRUE){histograms->AddHistogram("ESD_TrueConvGamma_TrackLength","Track length of TrueConvGamma",kGCnXBinsTrackLength,kGCfirstXBinTrackLength,kGClastXBinTrackLength,"","");}
2241     if(kGCplotESDTrueConvGammaTrackLengthVSInvMass == kTRUE){histograms->AddHistogram("ESD_TrueConvGamma_TrackLengthVSInvMass","Track length of TrueConvGamma vs Inv mass",kGCnXBinsTrackLength,kGCfirstXBinTrackLength,kGClastXBinTrackLength,kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,"","");}
2242                 
2243     if(kGCplotOmegaSpectra == kTRUE){
2244       histograms->AddHistogram("ESD_Omega_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2245       histograms->AddHistogram("ESD_Omega_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2246
2247       histograms->AddHistogram("ESD_Omega_Bck_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2248       histograms->AddHistogram("ESD_Omega_Bck_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2249       histograms->AddHistogram("ESD_OmegaPipPinPi0_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2250       histograms->AddHistogram("ESD_OmegaPipPinPi0_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2251
2252     }
2253
2254     if(kGCplotPi0Spectra == kTRUE){
2255       histograms->AddHistogram("ESD_Mother_alfa","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
2256       histograms->AddHistogram("ESD_Mother_alfa_Pi0","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
2257       histograms->AddHistogram("ESD_Mother_alfa_Eta","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
2258       histograms->AddHistogram("ESD_Background_alfa_Pi0","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
2259       histograms->AddHistogram("ESD_Background_alfa_Eta","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinAlpha, kGClastXBinAlpha,"#alpha","Counts");
2260       //      histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2261       histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2262       histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_alpha" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2263       histograms->AddHistogram("ESD_Mother_InvMass_vs_E_alpha" ,"Invariant Mass vs E" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","E [GeV]");
2264       histograms->AddHistogram("ESD_Mother_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2265       histograms->AddHistogram("ESD_Mother_InvMass_1212","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2266       histograms->AddHistogram("ESD_Mother_InvMass_0912","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2267       histograms->AddHistogram("ESD_Mother_InvMass_0909","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2268       histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt1212" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2269       histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt0912" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2270       histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt0909" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2271
2272       if(kGCLowMemoryConsumption == kFALSE){
2273         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2274         histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvPHOS" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2275         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS_OpanLow","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2276         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvPHOS_OpanHigh","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2277
2278         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2279         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_Bck","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2280         
2281         histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvEMCAL" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2282         histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_GammaConvEMCAL_Bck" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2283         
2284         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_OpanLow","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2285         histograms->AddHistogram("ESD_Mother_InvMass_GammaConvEMCAL_OpanHigh","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2286       }
2287
2288       //      if(kGCdoNeutralMesonV0MCCheck == kTRUE){
2289       histograms->AddHistogram("ESD_TrueBckGG_InvMass_vs_Pt","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
2290       histograms->AddHistogram("ESD_TrueBckCont_InvMass_vs_Pt","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
2291       histograms->AddHistogram("ESD_TruePi0Sec_InvMass_vs_Pt","Invariant mass vs Pt",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
2292       histograms->AddHistogram("ESD_TruePi0DalitzCont_InvMass_vs_Pt","Invariant mass vs Pt",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Counts");
2293         histograms->AddHistogram("ESD_TruePi0_InvMass","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2294         histograms->AddHistogram("ESD_TruePi0_InvMass_1212","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2295         histograms->AddHistogram("ESD_TruePi0_InvMass_0912","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2296         histograms->AddHistogram("ESD_TruePi0_InvMass_0909","Invariant mass",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2297         histograms->AddHistogram("ESD_TruePi0_OpeningAngle_1212" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
2298         histograms->AddHistogram("ESD_TruePi0_OpeningAngle_0912" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
2299         histograms->AddHistogram("ESD_TruePi0_OpeningAngle_0909" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");
2300         histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2301 histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt_alpha" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2302
2303  if(kGCLowMemoryConsumption == kFALSE){
2304    histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt1212" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2305    histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt0912" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2306    histograms->AddHistogram("ESD_TruePi0_InvMass_vs_Pt0909" ,"Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2307
2308         //}
2309
2310    histograms->AddHistogram("ESD_Mother_InvMass_vs_Pt_Fiducial" ,"Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2311  }
2312       histograms->AddHistogram("ESD_Mother_InvMass_Fiducial","Invariant mass |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2313
2314
2315     }
2316
2317     if(kGCplotPi0Spectra == kTRUE && kGCcalculateBackground == kTRUE){
2318       for(Int_t m=0;m<6;m++){
2319         histograms->AddHistogram(Form("%dESD_Mother_InvMass_vs_Pt",m) ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2320       }
2321       for(Int_t z=0;z<8;z++){
2322         for(Int_t m=0;m<6;m++){
2323           histograms->AddHistogram(Form("%d%dESD_Mother_InvMass_vs_Pt",z,m) ,"ESD Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2324
2325           histograms->AddHistogram(Form("%d%dESD_Background_InvMass_vs_Pt",z,m) ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2326
2327           
2328           histograms->AddHistogram(Form("%d%dESD_Background_InvMass",z,m),"Invariant mass background",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
2329           histograms->AddHistogram(Form("%d%dESD_Mother_InvMass",z,m),"Invariant mass in z and m bins",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
2330
2331
2332           histograms->AddHistogram(Form("%d%dESD_Background_InvMassvsPtFid",z,m) ,"Background Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2333
2334          
2335           histograms->AddHistogram(Form("%d%dESD_Background_InvMass_Fiducial",z,m),"Invariant mass background |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
2336         }
2337       }
2338     
2339       histograms->AddHistogram("ESD_Background_InvMass_vs_Pt" ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2340       histograms->AddHistogram("ESD_Background_InvMass_vs_Pt_alpha" ,"Background Invariant Mass vs Pt" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2341
2342      histograms->AddHistogram("ESD_Background_InvMass_vs_E_alpha" ,"Background Invariant Mass vs E" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","E [GeV]");
2343
2344   histograms->AddHistogram("ESD_Background_InvMass","Invariant mass background",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
2345
2346       histograms->AddHistogram("ESD_Background_InvMass_vs_Pt_Fiducial" ,"Background Invariant Mass vs Pt |eta|<0.9" , kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");
2347       histograms->AddHistogram("ESD_Background_InvMass_Fiducial","Invariant mass background |eta|<0.9",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass BG [GeV]","Counts");
2348     
2349     }
2350     
2351     if(kGCdoMCTruth){
2352       if(kGCplotMCConversionR == kTRUE){ histograms->AddHistogram("MC_Conversion_R","Radius of gamma conversion points",kGCnXBinsR, kGCfirstXBinR, kGClastXBinR,"counts","cm");}
2353       if(kGCplotMCConversionZR == kTRUE){ histograms->AddHistogram("MC_Conversion_ZR","Radius of gamma conversion points vs Z",kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "cm", "cm");}
2354       if(kGCplotMCConversionXY == kTRUE){ histograms->AddHistogram("MC_Conversion_XY","Gamma XY converison point.",kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "cm", "cm");}
2355       if(kGCplotMCConversionOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Conversion_OpeningAngle","Opening angle of e+e- pairs from gamma conversion",kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "counts", "cm");}
2356       if(kGCplotMCConvGammaEAsymmetryP== kTRUE){ histograms->AddHistogram("MC_ConvGamma_E_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2357       if(kGCplotMCConvGammaPAsymmetryP== kTRUE){ histograms->AddHistogram("MC_ConvGamma_P_AsymmetryP" ,"" ,kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsAsymmetry, kGCfirstYBinAsymmetry, kGClastYBinAsymmetry,"", "");}
2358                 
2359
2360       if(kGCplotMCEEnergy == kTRUE){ histograms->AddHistogram("MC_E_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2361       if(kGCplotMCEPt == kTRUE){ histograms->AddHistogram("MC_E_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2362       if(kGCplotMCEEta == kTRUE){ histograms->AddHistogram("MC_E_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2363       if(kGCplotMCEPhi == kTRUE){ histograms->AddHistogram("MC_E_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2364       if(kGCplotMCENTPCClusters == kTRUE){ histograms->AddHistogram("MC_E_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
2365       if(kGCplotMCENITSClusters == kTRUE){ histograms->AddHistogram("MC_E_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
2366                 
2367       if(kGCplotMCPEnergy == kTRUE){ histograms->AddHistogram("MC_P_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2368       if(kGCplotMCPPt == kTRUE){ histograms->AddHistogram("MC_P_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2369       if(kGCplotMCPEta == kTRUE){ histograms->AddHistogram("MC_P_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2370       if(kGCplotMCPPhi == kTRUE){ histograms->AddHistogram("MC_P_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2371       if(kGCplotMCPNTPCClusters == kTRUE){ histograms->AddHistogram("MC_P_nTPCClusters" ,"" , kGCnXBinsNTPCClusters, kGCfirstXBinNTPCClusters, kGClastXBinNTPCClusters, "", "");}
2372       if(kGCplotMCPNITSClusters == kTRUE){ histograms->AddHistogram("MC_P_nITSClusters" ,"" , kGCnXBinsNITSClusters, kGCfirstXBinNITSClusters, kGClastXBinNITSClusters, "", "");}
2373                 
2374       if(kGCplotMCallGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2375       if(kGCplotMCallGammaPt == kTRUE){ histograms->AddHistogram("MC_allGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2376       if(kGCplotMCallGammaEta == kTRUE){ histograms->AddHistogram("MC_allGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2377       if(kGCplotMCallGammaPhi == kTRUE){ histograms->AddHistogram("MC_allGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2378       if(kGCplotMCallGammaRapid == kTRUE){ histograms->AddHistogram("MC_allGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2379                 
2380       if(kGCplotMCConvGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2381       if(kGCplotMCConvGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2382       if(kGCplotMCConvGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2383       if(kGCplotMCConvGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2384       if(kGCplotMCConvGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2385       if(kGCplotMCConvGammaPtvsEta == kTRUE){ histograms->AddHistogram("MC_ConvGamma_Pt_Eta","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt,kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta,"","");}
2386                 
2387       if(kGCplotMCallDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2388       if(kGCplotMCallDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2389       if(kGCplotMCallDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2390       if(kGCplotMCallDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2391       if(kGCplotMCallDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_allDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2392                 
2393       if(kGCplotMCConvDirectGammaEnergy == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2394       if(kGCplotMCConvDirectGammaPt == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2395       if(kGCplotMCConvDirectGammaEta == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2396       if(kGCplotMCConvDirectGammaPhi == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2397       if(kGCplotMCConvDirectGammaRapid == kTRUE){ histograms->AddHistogram("MC_ConvDirectGamma_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2398                 
2399       if(kGCplotMCMotherEta == kTRUE){ histograms->AddHistogram("MC_Mother_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2400       if(kGCplotMCMotherPhi == kTRUE){ histograms->AddHistogram("MC_Mother_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2401       if(kGCplotMCMotherRapid == kTRUE){ histograms->AddHistogram("MC_Mother_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2402       if(kGCplotMCMotherPt == kTRUE){ histograms->AddHistogram("MC_Mother_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2403       if(kGCplotMCMotherEnergy == kTRUE){ histograms->AddHistogram("MC_Mother_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2404       if(kGCplotMCMotherMass == kTRUE){ histograms->AddHistogram("MC_Mother_Mass" ,"" , kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass, "", "");}
2405       if(kGCplotMCMotherOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Mother_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2406       if(kGCplotMCMotherR == kTRUE){ histograms->AddHistogram("MC_Mother_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2407       if(kGCplotMCMotherZR == kTRUE){ histograms->AddHistogram("MC_Mother_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2408       if(kGCplotMCMotherXY == kTRUE){ histograms->AddHistogram("MC_Mother_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2409       if(kGCplotMCMotherPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2410       if(kGCplotMCMotherPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2411       if(kGCplotMCMotherPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2412       if(kGCplotMCMotherPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Mother_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2413                 
2414       if(kGCplotMCMotherSpectra == kTRUE){ 
2415         histograms->AddHistogram("MC_Mother_InvMass_vs_Pt" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
2416         histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
2417         histograms->AddHistogram("MC_Mother_InvMass_vs_Pt_ConvGamma_withinAcceptance" ,"" ,kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra, kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra, "", "");
2418       }
2419                 
2420       if(kGCplotMCPhysicalPrimaryChargedPt == kTRUE){ histograms->AddHistogram("MC_PhysicalPrimaryCharged_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2421       if(kGCplotMCPi0Eta == kTRUE){ histograms->AddHistogram("MC_Pi0_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}        
2422       if(kGCplotMCPi0Rapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}      
2423       if(kGCplotMCPi0PtvsRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_vs_Rapid" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2424         if(kGCplotMCPi0PtvsRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_vs_Rapid_allDaughters" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");} // OWN primary Pi0 debug
2425       if(kGCplotMCPi0Phi == kTRUE){ histograms->AddHistogram("MC_Pi0_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2426       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2427
2428       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2429       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2430       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2431       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2432       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_SD_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2433
2434       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2435       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2436       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2437       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2438       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_DD_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2439
2440
2441       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ1_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2442       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ2_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2443       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ3_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2444       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ4_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2445       if(kGCplotMCPi0Pt == kTRUE){ histograms->AddHistogram("MC_ND_EvtQ5_Pi0_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2446
2447       if(kGCplotMCPi0PtFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Fiducial" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2448       if(kGCplotMCPi0PtWithinAcceptanceFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_withinAcceptance_Fiducial" ,"" , kGCnXBinsPt,kGCfirstXBinPt, kGClastXBinPt, "", "");}
2449       if(kGCplotMCPi0PtConvGammaWithinAcceptanceFiducial == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_ConvGamma_withinAcceptance_Fiducial","" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2450       if(kGCplotMCPi0OpeningPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ConvGamma_OpeningAngle_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2451       if(kGCplotMCPi0PtGammaPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ConvGamma_PtGamma_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2452       if(kGCplotMCPi0Energy == kTRUE){ histograms->AddHistogram("MC_Pi0_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2453       if(kGCplotMCPi0Mass == kTRUE){ histograms->AddHistogram("MC_Pi0_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
2454       if(kGCplotMCPi0Alpha == kTRUE){ histograms->AddHistogram("MC_Pi0_alpha" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Alpha, kGClastXBinPi0Alpha, "", "");}
2455       if(kGCplotMCEtaAlpha == kTRUE){ histograms->AddHistogram("MC_Eta_alpha" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Alpha, kGClastXBinPi0Alpha, "", "");}
2456        if(kGCplotMCPi0OpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2457       if(kGCplotMCPi0R == kTRUE){ histograms->AddHistogram("MC_Pi0_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2458       if(kGCplotMCPi0ZR == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2459       if(kGCplotMCPi0XY == kTRUE){ histograms->AddHistogram("MC_Pi0_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2460       if(kGCplotMCPi0PtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2461       if(kGCplotMCPi0PtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2462       if(kGCplotMCPi0PtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2463       if(kGCplotMCPi0PtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2464       if(kGCplotMCPi0ZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2465                 
2466                 
2467       if(kGCplotMCPi0SecondaryEta == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2468       if(kGCplotMCPi0SecondaryRapid == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2469       if(kGCplotMCPi0SecondaryPhi == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2470       if(kGCplotMCPi0SecondaryPt == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2471       if(kGCplotMCPi0SecondaryEnergy == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2472       if(kGCplotMCPi0SecondaryMass == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Mass" ,"" , kGCnXBinsPi0Mass, kGCfirstXBinPi0Mass, kGClastXBinPi0Mass, "", "");}
2473       if(kGCplotMCPi0SecondaryOpeningAngle == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2474       if(kGCplotMCPi0SecondaryR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2475       if(kGCplotMCPi0SecondaryZR == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2476       if(kGCplotMCPi0SecondaryXY == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2477       if(kGCplotMCPi0SecondaryPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2478       if(kGCplotMCPi0SecondaryPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2479       if(kGCplotMCPi0SecondaryPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2480       if(kGCplotMCPi0SecondaryPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Pi0_Secondaries_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2481                 
2482                 
2483                 
2484       if(kGCplotMCEtaEta == kTRUE){ histograms->AddHistogram("MC_Eta_Eta" ,"" , kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2485       if(kGCplotMCEtaRapid == kTRUE){ histograms->AddHistogram("MC_Eta_Rapid" ,"" , kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2486       if(kGCplotMCEtaPtvsRapid == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_vs_Rapid" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2487       if(kGCplotMCEtaPhi == kTRUE){ histograms->AddHistogram("MC_Eta_Phi" ,"" , kGCnXBinsPhi, kGCfirstXBinPhi, kGClastXBinPhi, "", "");}
2488       if(kGCplotMCEtaPt == kTRUE){ histograms->AddHistogram("MC_Eta_Pt" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2489       if(kGCplotMCEtaEnergy == kTRUE){ histograms->AddHistogram("MC_Eta_Energy" ,"" , kGCnXBinsEnergy, kGCfirstXBinEnergy, kGClastXBinEnergy, "", "");}
2490       if(kGCplotMCEtaMass == kTRUE){ histograms->AddHistogram("MC_Eta_Mass" ,"" , kGCnXBinsEtaMass, kGCfirstXBinEtaMass, kGClastXBinEtaMass, "", "");}
2491       if(kGCplotMCEtaOpeningAngleGamma == kTRUE){ histograms->AddHistogram("MC_Eta_GammaDaughter_OpeningAngle" ,"" , kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2492       if(kGCplotMCEtaR == kTRUE){ histograms->AddHistogram("MC_Eta_R" ,"" , kGCnXBinsR, kGCfirstXBinR, kGClastXBinR, "", "");}
2493       if(kGCplotMCEtaZR == kTRUE){ histograms->AddHistogram("MC_Eta_ZR" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");}
2494       if(kGCplotMCEtaXY == kTRUE){ histograms->AddHistogram("MC_Eta_XY" ,"" , kGCnXBinsXY, kGCfirstXBinXY, kGClastXBinXY, kGCnYBinsXY, kGCfirstYBinXY, kGClastYBinXY, "", "");}
2495       if(kGCplotMCEtaPtvsEtaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2496       if(kGCplotMCEtaPtvsRapidWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2497       if(kGCplotMCEtaPtvsEtaConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Eta_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsEta, kGCfirstXBinEta, kGClastXBinEta, "", "");}
2498       if(kGCplotMCEtaPtvsRapidConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_Pt_Rapid_ConvGamma_withinAcceptance" ,"" , kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsRapid, kGCfirstXBinRapid, kGClastXBinRapid, "", "");}
2499       if(kGCplotMCEtaZRConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ZR_ConvGamma_withinAcceptance" ,"" , kGCnXBinsZR, kGCfirstXBinZR, kGClastXBinZR, kGCnYBinsZR, kGCfirstYBinZR, kGClastYBinZR, "", "");} 
2500     }
2501     if(kGCplotMCEtaOpeningPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ConvGamma_OpeningAngle_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsOpeningAngle, kGCfirstXBinOpeningAngle, kGClastXBinOpeningAngle, "", "");}
2502     if(kGCplotMCEtaPtGammaPtConvGammaWithinAcceptance == kTRUE){ histograms->AddHistogram("MC_Eta_ConvGamma_PtGamma_Pt","", kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");}
2503   }// end kGCrunNeutralMeson
2504
2505   
2506   //---------------------------------------------------  2 gamma Background -------------------------------------------------------
2507
2508   if(kGCcalculateBackground==kTRUE){
2509     histograms->AddHistogram("ESD_GlobalPrimaryVtxZ","Z primary vertex Global",300, -15., 15.,"Z[cm]","counts");
2510     histograms->AddHistogram("ESD_SPDPrimaryVtxZ","Z primary vertex SPD",300, -15., 15.,"Z[cm]","counts");
2511     histograms->AddHistogram("ESD_Z_distribution" ,"Z primary vertex" , 2000, -30, 30,"Z[cm]","counts");
2512     histograms->AddHistogram("ESD_multiplicity_distribution" ,"multiplicity distribution" , 200, 0, 200,"counts","Multiplicity");
2513     histograms->AddHistogram("ESD_ZvsMultiplicity" ,"Z vs Multiplicity" , 1000, -10, 10,200,0,200,"Z[cm]","Multiplicity");
2514   }
2515   
2516   if(kGCRecalculateV0ForGamma==kTRUE){
2517     histograms->AddHistogram("ESD_RecalculateV0_InvMass","", kGCnXBinsGammaMass, kGCfirstXBinGammaMass, kGClastXBinGammaMass,"","");
2518     histograms->AddHistogram("ESD_RecalculateV0_Pt","",kGCnXBinsPt, kGCfirstXBinPt, kGClastXBinPt, "", "");
2519     histograms->AddHistogram("ESD_RecalculateV0_E_dEdxP","",kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);
2520     histograms->AddHistogram("ESD_RecalculateV0_P_dEdxP","",kGCnXBinsP, kGCfirstXBinP, kGClastXBinP,kGCnYBinsdEdx, kGCfirstYBindEdx, kGClastYBindEdx,"", "",0);
2521     histograms->AddHistogram("ESD_RecalculateV0_cpa","",1000,-1.,1.,"","");
2522     histograms->AddHistogram("ESD_RecalculateV0_dca","",100,0.,10.,"","");
2523     histograms->AddHistogram("ESD_RecalculateV0_Rr","",250,0.,250.,"","");
2524     histograms->AddHistogram("ESD_RecalculateV0_normdistP","",250,0.,250.,"","");
2525     histograms->AddHistogram("ESD_RecalculateV0_normdistN","",250,0.,250.,"","");
2526
2527     histograms->AddHistogram("ESD_RecalculateGG_InvMass","",kGCnXBinsSpectra,kGCfirstXBinSpectra, kGClastXBinSpectra,"InvMass [GeV]","Counts");
2528     histograms->AddHistogram("ESD_RecalculateGG_InvMass_vs_Pt","", kGCnXBinsSpectra, kGCfirstXBinSpectra, kGClastXBinSpectra,kGCnYBinsSpectra, kGCfirstYBinSpectra, kGClastYBinSpectra,"InvMass [GeV]","Pt [GeV]");             
2529
2530   }
2531   
2532
2533 }
2534
2535
2536
2537 Int_t SetAnalysisCutSelection(TString analysisCutSelection){
2538   Int_t iResult=0;
2539   
2540   // set the cuts depending on the Cut Selection Id
2541   // first number is dummy always set to 9 
2542   //  const char* cutSelection = analysisCutSelection.Data(); 
2543   if(analysisCutSelection.Length()!=c_array_size){
2544     cout<<"Cut selection has the wrong length!"<<endl;
2545     return 0;
2546   }
2547
2548   char cutSelection[] = analysisCutSelection.Data();
2549   int array[c_array_size];
2550   const int N = sizeof(array) / sizeof(int);
2551   string2array( cutSelection, array );
2552
2553
2554
2555   Int_t goodId=array[0];
2556   Int_t v0FinderType=array[1];
2557   Int_t eProbCut=array[2];
2558   Int_t ededxSigmaCut=array[3];
2559   Int_t pidedxSigmaCut=array[4];
2560   Int_t piMomdedxSigmaCut=array[5];
2561   Int_t chi2GammaCut=array[6];
2562   Int_t singlePtCut=array[7];
2563   Int_t clsTPCCut=array[8];
2564   Int_t etaCut=array[9];
2565   Int_t chi2MesonCut=array[10];
2566   Int_t LowPRejectionSigmaCut=array[11];
2567   Int_t QtMaxCut=array[12];
2568   Int_t piMaxMomdedxSigmaCut=array[13];
2569   Int_t alphaMesonCut=array[14];
2570   Int_t minRCut=array[15];
2571   Int_t RapidityMesonCut=array[16];
2572   Int_t BackgroundScheme=array[17];
2573   Int_t DegreesForRotationMethod=array[18];
2574   Int_t NumberOfRotations=array[19];
2575   Int_t removePileUp=array[20];
2576   Int_t selectV0AND=array[21];
2577   Int_t multiplicityBin=array[22];
2578   Int_t isHeavyIon=array[23];
2579   Int_t useCentrality=array[24];
2580   Int_t centralityBin=array[25];
2581
2582   cout<<"CentralityBin::"<< centralityBin <<endl;
2583   cout<<"Use Centrality::"<< useCentrality <<endl;
2584   cout<<"Heavy Ion::"<< isHeavyIon<<endl;
2585   cout<<"Multiplicity Bin::"<< multiplicityBin<<endl;
2586   cout<<"Select V0AND::"<< selectV0AND<<endl;
2587   cout<<"Remove PileUp::"<< removePileUp<<endl;
2588   cout<<"NumberOfRotations::"<<NumberOfRotations<<endl;
2589   cout<<"DegreesForRotationMethod::"<<DegreesForRotationMethod<<endl;
2590   cout<<"BackgroundScheme::"<<BackgroundScheme<<endl;
2591   cout<<"RapidityMesonCut::"<<RapidityMesonCut<<endl;   
2592   cout<<"minRCut::"<<minRCut<<endl;
2593   cout<<"alphaMesonCut::"<<alphaMesonCut<<endl; 
2594   cout<<"piMaxMomdedxSigmaCut::"<<piMaxMomdedxSigmaCut<<endl;
2595   cout<<"QtMaxCut:"<<QtMaxCut<<endl;
2596   cout<<"LowPRejectionSigmaCut:"<<LowPRejectionSigmaCut<<endl;
2597   cout<<"chi2MesonCut: "<< chi2MesonCut<<endl;
2598   cout<<"etaCut: "<<etaCut<<endl;
2599   cout<<"clsTPCCut: "<<clsTPCCut<<endl;
2600   cout<<"singlePtCut: "<<singlePtCut<<endl;
2601   cout<<"chi2GammaCut: "<<chi2GammaCut<<endl;
2602   cout<<"piMomdedxSigmaCut: "<<piMomdedxSigmaCut<<endl;
2603   cout<<"pidedxSigmaCut: "<<pidedxSigmaCut <<endl;
2604   cout<<"ededxSigmaCut: "<<ededxSigmaCut <<endl;
2605   cout<<"eProbCut: "<< eProbCut<<endl;
2606   cout<<"v0FinderType: "<<v0FinderType <<endl;
2607   cout<<"goodId: "<<goodId <<endl;
2608
2609   if(goodId !=9){
2610     cout<<"Analysis Cut Selection too short or does not start with 9"<<endl;
2611     return iResult;
2612   }
2613
2614   switch (v0FinderType){
2615   case 0:  // on fly V0 finder
2616     kGCUseOnFlyV0Finder=kTRUE;
2617     break;
2618   case 1:  // offline V0 finder
2619     kGCUseOnFlyV0Finder=kFALSE;
2620     break;
2621   default:
2622     return iResult;
2623   }
2624
2625   switch(eProbCut){
2626   case 0:
2627     kGCprobElectron=0;
2628     break;
2629   case 1:
2630     kGCprobElectron=0.1;
2631     break;
2632   case 2:
2633     kGCprobElectron=0.5;
2634     break;
2635   case 3:
2636     kGCprobElectron=0.7;
2637     break;
2638   default:
2639     return iResult;
2640   }
2641
2642   switch(ededxSigmaCut){
2643   case 0: // -10,10
2644     kGCPIDnSigmaBelowElectronLine=-10;
2645     kGCPIDnSigmaAboveElectronLine=10;
2646     break;
2647   case 1: // -5,5 
2648     kGCPIDnSigmaBelowElectronLine=-5;
2649     kGCPIDnSigmaAboveElectronLine=5;
2650     break;
2651   case 2: // -3,5
2652     kGCPIDnSigmaBelowElectronLine=-3;
2653     kGCPIDnSigmaAboveElectronLine=5;
2654     break;
2655   case 3: // -4,5
2656     kGCPIDnSigmaBelowElectronLine=-4;
2657     kGCPIDnSigmaAboveElectronLine=5;
2658     break;
2659   default:
2660     return iResult;
2661   }
2662   
2663   switch(pidedxSigmaCut){
2664   case 0:  // -10
2665     kGCPIDnSigmaAbovePionLine=-10;
2666     break;
2667   case 1:   // 0
2668     kGCPIDnSigmaAbovePionLine=0;
2669     break;
2670   case 2:  // 1
2671     kGCPIDnSigmaAbovePionLine=1;
2672     break;
2673   case 3:  // 1
2674     kGCPIDnSigmaAbovePionLine=-1;
2675     break;
2676   case 4:  // 1
2677     kGCPIDnSigmaAbovePionLine=-1.5;
2678     break;
2679   case 5:  // 1
2680     kGCPIDnSigmaAbovePionLine=2.;
2681     break;
2682
2683   default:
2684     return iResult;
2685   }
2686   
2687   switch(piMomdedxSigmaCut){
2688   case 0:  // 0.5 GeV
2689     kGCPIDMinPnSigmaAbovePionLine=0.5;
2690     break;
2691   case 1:  // 1. GeV
2692     kGCPIDMinPnSigmaAbovePionLine=1.;
2693     break;
2694   case 2:  // 1.5 GeV
2695     kGCPIDMinPnSigmaAbovePionLine=1.5;
2696     break;
2697   case 3:  // 20.0 GeV
2698     kGCPIDMinPnSigmaAbovePionLine=20.;
2699     break;
2700   case 4:  // 50.0 GeV
2701     kGCPIDMinPnSigmaAbovePionLine=50.;
2702     break;
2703   case 5:  // 0.3 GeV
2704     kGCPIDMinPnSigmaAbovePionLine=0.3;
2705     break;
2706   case 6:  // 0.3 GeV
2707     kGCPIDMinPnSigmaAbovePionLine=0.25;
2708     break;
2709   case 7:  // 0.4 GeV
2710     kGCPIDMinPnSigmaAbovePionLine=0.4;
2711     break;
2712   default:
2713     return iResult;
2714   }
2715   
2716   switch(chi2GammaCut){
2717   case 0: // 100
2718     kGCchi2CutConversion = 100.;
2719     break;
2720   case 1:  // 50
2721     kGCchi2CutConversion = 50.;
2722     break;
2723   case 2:  // 30
2724     kGCchi2CutConversion = 30.;
2725     break;
2726   case 3:
2727     kGCchi2CutConversion = 200.;
2728     break;
2729   case 4:
2730     kGCchi2CutConversion = 500.;
2731     break;
2732   case 5:
2733     kGCchi2CutConversion = 1000.;
2734     break;
2735   case 6:
2736     kGCchi2CutConversion = 5.;
2737     break;
2738   case 7:
2739     kGCchi2CutConversion = 10.;
2740     break;
2741   case 8:
2742     kGCchi2CutConversion = 20.;
2743     break;
2744   case 9:
2745     kGCchi2CutConversion = 15.;
2746     break;
2747   default:
2748     return iResult;
2749   }
2750
2751   switch(singlePtCut){
2752   case 0: // 0.050 GeV
2753     kGCsingleptCut = 0.050;
2754     break;
2755   case 1:  // 0.100 GeV
2756     kGCsingleptCut = 0.100;
2757     break;
2758   case 2:  // 0.150 GeV
2759     kGCsingleptCut = 0.150;
2760     break;
2761   case 3:  // 0.200 GeV
2762     kGCsingleptCut = 0.200;
2763     break;
2764   case 4:  // 0.075 GeV
2765     kGCsingleptCut = 0.075;
2766     break;
2767   case 5:  // 0.125 GeV
2768     kGCsingleptCut = 0.125;
2769     break;
2770   default:
2771     return iResult;
2772  }
2773
2774   switch(clsTPCCut){
2775   case 0: // 0 
2776     kGCminClsTPCCut= 0.;
2777     break;
2778   case 1:  // 70 
2779     kGCminClsTPCCut= 70.;
2780     break;
2781   case 2:  // 80 
2782     kGCminClsTPCCut= 80.;
2783     break;
2784   case 3:  // 100 
2785     kGCminClsTPCCut= 100.;
2786     break;
2787   case 4:  // 60% of findable clusters
2788     kGCminClsTPCCutToF= 0.6;
2789     kGCUseCorrectedTPCClsInfo=0;
2790     break;
2791   case 5:  // 0% of findable clusters
2792     kGCminClsTPCCutToF= 0.0;
2793     kGCUseCorrectedTPCClsInfo=0;
2794     break;
2795   case 6:  // 0% of findable clusters
2796     kGCminClsTPCCutToF= 0.7;
2797     kGCUseCorrectedTPCClsInfo=0;
2798     break;
2799   case 7:  // 0% of findable clusters
2800     kGCminClsTPCCutToF= 0.35;
2801     kGCUseCorrectedTPCClsInfo=0;
2802     break;
2803   case 8:
2804     kGCminClsTPCCutToF= 0.35;
2805     kGCUseCorrectedTPCClsInfo=1;
2806     break;
2807   default:
2808     return iResult;
2809   }
2810
2811   switch(etaCut){
2812   case 0: // 0.9 
2813     kGCetaCut    = 0.9;
2814     kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
2815     break;
2816   case 1:  // 1.2
2817     kGCetaCut    = 1.2;
2818     kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
2819     break;
2820   case 2:  // 1.4
2821     kGCetaCut    = 1.4;
2822     kGCLineCutZRSlope = tan(2*atan(exp(-kGCetaCut)));
2823     break;
2824   default:
2825     return iResult;
2826   }
2827
2828   switch(chi2MesonCut){
2829   case 0:  // 100.
2830     kGCchi2CutMeson = 100.;
2831     break;
2832   case 1:  // 50.
2833     kGCchi2CutMeson = 50.;
2834     break;
2835   case 2:  // 30.
2836     kGCchi2CutMeson = 30.;
2837     break;
2838   case 3:
2839     kGCchi2CutMeson = 200.;
2840     break;
2841   case 4:
2842     kGCchi2CutMeson = 500.;
2843     break;
2844   case 5:
2845     kGCchi2CutMeson = 1000.;
2846     break;
2847   default:
2848     return iResult;
2849   }
2850
2851
2852   switch(LowPRejectionSigmaCut){
2853   case 0:  // 
2854     kGCPIDnSigmaAtLowPAroundKaonLine=0;
2855     kGCPIDnSigmaAtLowPAroundProtonLine=0;
2856     kGCPIDnSigmaAtLowPAroundPionLine=0;
2857     break;
2858   case 1:  // 
2859     kGCPIDnSigmaAtLowPAroundKaonLine=0.5;
2860     kGCPIDnSigmaAtLowPAroundProtonLine=0.5;
2861     kGCPIDnSigmaAtLowPAroundPionLine=0.5;
2862     break;
2863   case 2:  // 
2864     kGCPIDnSigmaAtLowPAroundKaonLine=1;
2865     kGCPIDnSigmaAtLowPAroundProtonLine=1;
2866     kGCPIDnSigmaAtLowPAroundPionLine=1;
2867     break;
2868   case 3:  // 
2869     kGCPIDnSigmaAtLowPAroundKaonLine=2.;
2870     kGCPIDnSigmaAtLowPAroundProtonLine=2.;
2871     kGCPIDnSigmaAtLowPAroundPionLine=2.;
2872     break;
2873   case 4:  // 
2874     kGCPIDnSigmaAtLowPAroundKaonLine=0.;
2875     kGCPIDnSigmaAtLowPAroundProtonLine=0.;
2876     kGCPIDnSigmaAtLowPAroundPionLine=1;
2877     break;
2878   case 5:  // 
2879     kGCPIDnSigmaAtLowPAroundKaonLine=0.;
2880     kGCPIDnSigmaAtLowPAroundProtonLine=0.;
2881     kGCPIDnSigmaAtLowPAroundPionLine=1.5;
2882     break;
2883   case 6:  // 
2884     kGCPIDnSigmaAtLowPAroundKaonLine=0.;
2885     kGCPIDnSigmaAtLowPAroundProtonLine=0.;
2886     kGCPIDnSigmaAtLowPAroundPionLine=2.;
2887     break;
2888
2889   default:
2890     return iResult;
2891   }
2892   switch(QtMaxCut){
2893   case 0: //
2894     kGCQtMax=1.;
2895     break;
2896   case 1:
2897     kGCQtMax=0.1;
2898     break;
2899   case 2:
2900     kGCQtMax=0.07;
2901     break;
2902   case 3:
2903     kGCQtMax=0.05;
2904     break;
2905   case 4:
2906     kGCQtMax=0.03;
2907     break;
2908   case 5: // OWN try to improve (get rid of) low InvMass peak in PbPb
2909     kGCQtMax=0.02;
2910     break; // end OWN ///////////////////////////////////////////////
2911   default:
2912     return iResult;
2913   }
2914
2915   switch(piMaxMomdedxSigmaCut){
2916   case 0:  // 100. GeV
2917     kGCPIDMaxPnSigmaAbovePionLine=100.;
2918     break;
2919   case 1:  // 5. GeV
2920     kGCPIDMaxPnSigmaAbovePionLine=5.;
2921     break;
2922   case 2:  // 4. GeV
2923     kGCPIDMaxPnSigmaAbovePionLine=4.;
2924     break;
2925   case 3:  // 3.5 GeV
2926     kGCPIDMaxPnSigmaAbovePionLine=3.5;
2927     break;
2928   case 4:  // 3. GeV
2929     kGCPIDMaxPnSigmaAbovePionLine=3.;
2930     break;
2931   default:
2932     return iResult;
2933   }
2934
2935         
2936   switch(alphaMesonCut){
2937   case 0:  // 0- 0.7
2938     kGCalphaMinCutMeson   = 0.0;
2939     kGCalphaCutMeson   = 0.7;
2940     break;
2941   case 1:  // 0-0.5
2942     kGCalphaMinCutMeson   = 0.0;
2943     kGCalphaCutMeson   = 0.5;
2944     break;
2945   case 2:  // 0.5-1 
2946     kGCalphaMinCutMeson   = 0.5;
2947     kGCalphaCutMeson   = 1.;
2948     break;
2949   case 3:  // 0.0-1 
2950     kGCalphaMinCutMeson   = 0.0;
2951     kGCalphaCutMeson   = 1.;
2952     break;
2953   default:
2954     return iResult;
2955   }
2956   
2957   switch(minRCut){
2958   case 0:
2959     kGCminRCut=0;
2960     kGCmaxRCut = 180.;
2961     break;
2962   case 1:
2963     kGCminRCut=2.8;
2964     kGCmaxRCut = 180.;
2965     break;
2966   case 2:
2967     kGCminRCut=5.;
2968     kGCmaxRCut = 180.;
2969     break;
2970   case 3:
2971     kGCmaxRCut = 70.;
2972     kGCminRCut = 10.;
2973     break;
2974   case 4:
2975     kGCmaxRCut = 70.;
2976     kGCminRCut = 5.;
2977     break;
2978   case 5:
2979     kGCmaxRCut = 180.;
2980     kGCminRCut = 10.;
2981     break;
2982     
2983   default:
2984     return iResult;
2985   }
2986
2987   switch(RapidityMesonCut){
2988   case 0:  //
2989     kGCrapidityCutMeson   = 0.9;
2990     break;
2991   case 1:  // 
2992     kGCrapidityCutMeson   = 0.8;
2993     break;
2994   case 2:  // 
2995     kGCrapidityCutMeson   = 0.7;
2996     break;
2997     
2998   default:
2999     return iResult;
3000   }
3001
3002   switch(BackgroundScheme){
3003   case 0: //Rotation
3004     kGCUseRotationMethodInBG=kTRUE;
3005     kGCdoBGProbability=kFALSE;
3006     break;
3007   case 1: // mixed event with track multiplicity
3008     kGCUseRotationMethodInBG=kFALSE;
3009     kGCUseTrackMultiplicityForBG=kFALSE;
3010     kGCdoBGProbability=kFALSE;
3011     break;
3012   case 2: // mixed event with V0 multiplicity
3013     kGCUseRotationMethodInBG=kFALSE;
3014     kGCUseTrackMultiplicityForBG=kTRUE;
3015     kGCdoBGProbability=kFALSE;
3016     break;
3017   case 3: //Rotation
3018     kGCUseRotationMethodInBG=kTRUE;
3019     kGCdoBGProbability=kTRUE;
3020     break;
3021   default:
3022     return iResult;
3023   }
3024   
3025   switch(DegreesForRotationMethod){
3026   case 0:
3027     kGCnDegreeRotationPMForBG = 5;
3028     break;
3029   case 1:
3030     kGCnDegreeRotationPMForBG = 10;
3031     break;
3032   case 2:
3033     kGCnDegreeRotationPMForBG = 15;
3034     break;
3035   case 3:
3036     kGCnDegreeRotationPMForBG = 20;
3037     break;
3038
3039   default:
3040     return iResult;
3041   }
3042
3043   switch(NumberOfRotations){
3044   case 0:
3045     kGCnumberOfRotationEventsForBG = 5;
3046     break;
3047   case 1:
3048     kGCnumberOfRotationEventsForBG = 10;
3049     break;
3050   case 2:
3051     kGCnumberOfRotationEventsForBG = 15;
3052     break;
3053   case 3:
3054     kGCnumberOfRotationEventsForBG = 20;
3055     break;
3056   case 4:
3057     kGCnumberOfRotationEventsForBG = 2;
3058     break;
3059   case 5:
3060     kGCnumberOfRotationEventsForBG = 50;
3061     break;
3062   case 6:
3063     kGCnumberOfRotationEventsForBG = 80;
3064     break;
3065   case 7:
3066     kGCnumberOfRotationEventsForBG = 100;
3067     break;
3068   default:
3069     return iResult;
3070   }
3071
3072   switch(removePileUp){
3073   case 0:
3074     kGCRemovePileUp=kFALSE;
3075     break;
3076   case 1:
3077     kGCRemovePileUp=kTRUE;
3078     break;
3079   default:
3080     return iResult;
3081