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e09cf5ef | 1 | /************************************************************************** |
2 | * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * | |
3 | * * | |
4 | * Author: The ALICE Off-line Project. * | |
5 | * Contributors are mentioned in the code where appropriate. * | |
6 | * * | |
7 | * Permission to use, copy, modify and distribute this software and its * | |
8 | * documentation strictly for non-commercial purposes is hereby granted * | |
9 | * without fee, provided that the above copyright notice appears in all * | |
10 | * copies and that both the copyright notice and this permission notice * | |
11 | * appear in the supporting documentation. The authors make no claims * | |
12 | * about the suitability of this software for any purpose. It is * | |
13 | * provided "as is" without express or implied warranty. * | |
14 | **************************************************************************/ | |
e09cf5ef | 15 | |
16 | //_________________________________________________________________________ | |
17 | // Class for the analysis of particle - hadron correlations | |
55c20a99 | 18 | // Particle (for example direct gamma) must be found |
19 | // in a previous analysis | |
20 | // | |
21 | //-- Author: Gustavo Conesa (LNF-INFN) (LPSC-IN2P3-CNRS) | |
b6afb6b1 | 22 | // Yaxian Mao (LPSC-IN2P3-CNRS) and (CNWU) first usable implementation. |
23 | // Xiangrong Zhu (CNWU), implementtion of own mixing. | |
e09cf5ef | 24 | ////////////////////////////////////////////////////////////////////////////// |
25 | ||
26 | ||
27 | // --- ROOT system --- | |
28 | //#include "TClonesArray.h" | |
907b38cd | 29 | #include <TClass.h> |
30 | #include <TMath.h> | |
31 | #include <TH2F.h> | |
32 | #include <TDatabasePDG.h> | |
e09cf5ef | 33 | |
34 | //---- ANALYSIS system ---- | |
35 | #include "AliNeutralMesonSelection.h" | |
36 | #include "AliAnaParticleHadronCorrelation.h" | |
37 | #include "AliCaloTrackReader.h" | |
e09cf5ef | 38 | #include "AliAODPWG4ParticleCorrelation.h" |
39 | #include "AliFiducialCut.h" | |
40 | #include "AliVTrack.h" | |
41 | #include "AliVCluster.h" | |
42 | #include "AliMCAnalysisUtils.h" | |
43 | #include "TParticle.h" | |
44 | #include "AliStack.h" | |
45 | #include "AliAODMCParticle.h" | |
46 | #include "AliMixedEvent.h" | |
029dea5a | 47 | #include "AliAnalysisManager.h" |
48 | #include "AliInputEventHandler.h" | |
2e876d85 | 49 | #include "AliEventplane.h" |
e09cf5ef | 50 | |
51 | ClassImp(AliAnaParticleHadronCorrelation) | |
52 | ||
53 | ||
05d0d05d | 54 | //___________________________________________________________________ |
e09cf5ef | 55 | AliAnaParticleHadronCorrelation::AliAnaParticleHadronCorrelation(): |
745913ae | 56 | AliAnaCaloTrackCorrBaseClass(), |
f3c47a7f | 57 | fFillAODWithReferences(0), fCheckLeadingWithNeutralClusters(0), |
1f8591af | 58 | fMaxAssocPt(1000.), fMinAssocPt(0.), |
05d0d05d | 59 | fDeltaPhiMaxCut(0.), fDeltaPhiMinCut(0.), |
60 | fSelectIsolated(0), fMakeSeveralUE(0), | |
61 | fUeDeltaPhiMaxCut(0.), fUeDeltaPhiMinCut(0.), | |
62 | fPi0AODBranchName(""), fNeutralCorr(0), | |
907b38cd | 63 | fPi0Trigger(0), fDecayTrigger(0), |
e7d2373d | 64 | fNDecayBits(0), fDecayBits(), |
3f150b4b | 65 | fMakeAbsoluteLeading(0), fMakeNearSideLeading(0), |
907b38cd | 66 | fLeadingTriggerIndex(-1), fHMPIDCorrelation(0), fFillBradHisto(0), |
05d0d05d | 67 | fNAssocPtBins(0), fAssocPtBinLimit(), |
7d306daf | 68 | fCorrelVzBin(0), |
2bb7ac98 | 69 | fListMixTrackEvents(), fListMixCaloEvents(), |
70 | fUseMixStoredInReader(0), fFillNeutralEventMixPool(0), | |
b1f720a7 | 71 | fM02MaxCut(0), fM02MinCut(0), |
98604e3a | 72 | fSelectLeadingHadronAngle(0), fFillLeadHadOppositeHisto(0), |
f7408d50 | 73 | fMinLeadHadPhi(0), fMaxLeadHadPhi(0), |
74 | fMinLeadHadPt(0), fMaxLeadHadPt(0), | |
a22f3f34 | 75 | fFillEtaGapsHisto(1), fFillMomImbalancePtAssocBinsHisto(0), |
be2df971 | 76 | fMCGenTypeMin(0), fMCGenTypeMax(0), |
349eb23d | 77 | fTrackVector(), fMomentum(), |
78 | fDecayMom1(), fDecayMom2(), | |
05d0d05d | 79 | //Histograms |
bef61a43 | 80 | fhPtTriggerInput(0), fhPtTriggerSSCut(0), |
81 | fhPtTriggerIsoCut(0), fhPtTriggerFidCut(0), | |
55c20a99 | 82 | fhPtTrigger(0), fhPtTriggerVtxBC0(0), |
83 | fhPtTriggerVzBin(0), fhPtTriggerBin(0), | |
84 | fhPhiTrigger(0), fhEtaTrigger(0), | |
85 | fhPtTriggerMC(), | |
48c5da66 | 86 | fhPtDecayTrigger(), fhPtDecayTriggerMC(), |
55c20a99 | 87 | fhPtTriggerCentrality(0), fhPtTriggerEventPlane(0), |
88 | fhTriggerEventPlaneCentrality(0), | |
89 | fhPtTriggerMixed(0), fhPtTriggerMixedVzBin(0), fhPtTriggerMixedBin(0), | |
90 | fhPhiTriggerMixed(0), fhEtaTriggerMixed(0), | |
91 | fhPtLeadingOppositeHadron(0), fhPtDiffPhiLeadingOppositeHadron(0), fhPtDiffEtaLeadingOppositeHadron(0), | |
98604e3a | 92 | fhPtNoLeadingOppositeHadron(0), fhEtaPhiNoLeadingOppositeHadron(0), |
d0b625bc | 93 | fhDeltaPhiDeltaEtaCharged(0), |
05d0d05d | 94 | fhPhiCharged(0), fhEtaCharged(0), |
95 | fhDeltaPhiCharged(0), fhDeltaEtaCharged(0), | |
96 | fhDeltaPhiChargedPt(0), fhDeltaPhiUeChargedPt(0), | |
9623bf34 | 97 | fhUePart(0), |
f7408d50 | 98 | fhXECharged(0), fhXECharged_Cone2(0), fhXEUeCharged(0), |
3f150b4b | 99 | fhXEPosCharged(0), fhXENegCharged(0), |
f7408d50 | 100 | fhPtHbpXECharged(0), fhPtHbpXECharged_Cone2(0), fhPtHbpXEUeCharged(0), |
3f150b4b | 101 | fhZTCharged(0), fhZTUeCharged(0), |
102 | fhZTPosCharged(0), fhZTNegCharged(0), | |
103 | fhPtHbpZTCharged(0), fhPtHbpZTUeCharged(0), | |
b1f720a7 | 104 | fhXEChargedMC(), fhDeltaPhiChargedMC(), |
105 | fhDeltaPhiDeltaEtaChargedPtA3GeV(0), | |
106 | fhDeltaPhiChargedPtA3GeV(0), fhDeltaEtaChargedPtA3GeV(0), | |
107 | //Pile-Up | |
17af6e24 | 108 | fhDeltaPhiChargedPileUp(), fhDeltaEtaChargedPileUp(), |
fedea415 | 109 | fhDeltaPhiChargedPtA3GeVPileUp(), fhDeltaEtaChargedPtA3GeVPileUp(), |
110 | fhXEChargedPileUp(), fhXEUeChargedPileUp(), | |
17af6e24 | 111 | fhZTChargedPileUp(), fhZTUeChargedPileUp(), |
112 | fhPtTrigChargedPileUp(), | |
fedea415 | 113 | fhDeltaPhiChargedOtherBC(), fhDeltaPhiChargedPtA3GeVOtherBC(), |
114 | fhXEChargedOtherBC(), fhXEUeChargedOtherBC(), | |
115 | fhZTChargedOtherBC(), fhZTUeChargedOtherBC(), | |
116 | fhPtTrigChargedOtherBC(), | |
2a9171b5 | 117 | fhDeltaPhiChargedBC0(), fhDeltaPhiChargedPtA3GeVBC0(), |
118 | fhXEChargedBC0(), fhXEUeChargedBC0(), | |
119 | fhZTChargedBC0(), fhZTUeChargedBC0(), | |
120 | fhPtTrigChargedBC0(), | |
cc944149 | 121 | fhDeltaPhiChargedVtxBC0(), fhDeltaPhiChargedPtA3GeVVtxBC0(), |
122 | fhXEChargedVtxBC0(), fhXEUeChargedVtxBC0(), | |
123 | fhZTChargedVtxBC0(), fhZTUeChargedVtxBC0(), | |
124 | fhPtTrigChargedVtxBC0(), | |
6ed1ad3e | 125 | fhDeltaPhiUeLeftCharged(0), |
8cc41381 | 126 | fhDeltaPhiUeLeftUpCharged(0), fhDeltaPhiUeRightUpCharged(0), |
127 | fhDeltaPhiUeLeftDownCharged(0), fhDeltaPhiUeRightDownCharged(0), | |
6ed1ad3e | 128 | fhXEUeLeftCharged(0), |
8cc41381 | 129 | fhXEUeLeftUpCharged(0), fhXEUeRightUpCharged(0), |
130 | fhXEUeLeftDownCharged(0), fhXEUeRightDownCharged(0), | |
6ed1ad3e | 131 | fhPtHbpXEUeLeftCharged(0), fhZTUeLeftCharged(0), |
132 | fhPtHbpZTUeLeftCharged(0), | |
05d0d05d | 133 | fhPtTrigPout(0), fhPtTrigCharged(0), |
d4a8ff9a | 134 | fhDeltaPhiChargedMult(0x0), fhDeltaEtaChargedMult(0x0), |
135 | fhXEMult(0x0), fhXEUeMult(0x0), | |
136 | fhZTMult(0x0), fhZTUeMult(0x0), | |
8cc41381 | 137 | fhAssocPtBkg(0), fhDeltaPhiDeltaEtaAssocPtBin(0), |
138 | fhDeltaPhiAssocPtBin(0), | |
139 | fhDeltaPhiAssocPtBinDEta08(0), fhDeltaPhiAssocPtBinDEta0(0), | |
2013f378 | 140 | fhDeltaPhiAssocPtBinHMPID(0), fhDeltaPhiAssocPtBinHMPIDAcc(0), |
66e64043 | 141 | fhDeltaPhiBradAssocPtBin(0), fhDeltaPhiBrad(0), |
a22f3f34 | 142 | fhXEAssocPtBin(0), fhZTAssocPtBin(0), |
143 | fhXEVZ(0), fhZTVZ(0), | |
144 | fhDeltaPhiDeltaEtaNeutral(0), | |
05d0d05d | 145 | fhPhiNeutral(0), fhEtaNeutral(0), |
146 | fhDeltaPhiNeutral(0), fhDeltaEtaNeutral(0), | |
147 | fhDeltaPhiNeutralPt(0), fhDeltaPhiUeNeutralPt(0), | |
3f150b4b | 148 | fhXENeutral(0), fhXEUeNeutral(0), |
149 | fhPtHbpXENeutral(0), fhPtHbpXEUeNeutral(0), | |
150 | fhZTNeutral(0), fhZTUeNeutral(0), | |
151 | fhPtHbpZTNeutral(0), fhPtHbpZTUeNeutral(0), | |
6ed1ad3e | 152 | fhDeltaPhiUeLeftNeutral(0), fhXEUeLeftNeutral(0), |
153 | fhPtHbpXEUeLeftNeutral(0), fhZTUeLeftNeutral(0), | |
154 | fhPtHbpZTUeLeftNeutral(0), fhPtPi0DecayRatio(0), | |
e7d2373d | 155 | fhDeltaPhiPi0DecayCharged(0), fhXEPi0DecayCharged(0), fhZTPi0DecayCharged(0), |
156 | fhDeltaPhiPi0DecayNeutral(0), fhXEPi0DecayNeutral(0), fhZTPi0DecayNeutral(0), | |
157 | fhDeltaPhiDecayCharged(), fhXEDecayCharged(), fhZTDecayCharged(), | |
158 | fhDeltaPhiDecayChargedAssocPtBin(), | |
be2df971 | 159 | fhMCPtTrigger(), fhMCPhiTrigger(), fhMCEtaTrigger(), |
160 | fhMCPtTriggerNotLeading(), fhMCPhiTriggerNotLeading(), fhMCEtaTriggerNotLeading(), | |
161 | fhMCEtaCharged(), fhMCPhiCharged(), | |
162 | fhMCDeltaEtaCharged(), fhMCDeltaPhiCharged(), | |
163 | fhMCDeltaPhiDeltaEtaCharged(), fhMCDeltaPhiChargedPt(), | |
164 | fhMCPtXECharged(), fhMCPtXEUeCharged(), | |
165 | fhMCPtXEUeLeftCharged(), | |
166 | fhMCPtHbpXECharged(), fhMCPtHbpXEUeCharged(), | |
167 | fhMCPtHbpXEUeLeftCharged(), | |
168 | fhMCUePart(), | |
169 | fhMCPtZTCharged(), fhMCPtZTUeCharged(), | |
170 | fhMCPtZTUeLeftCharged(), | |
171 | fhMCPtHbpZTCharged(), fhMCPtHbpZTUeCharged(), | |
172 | fhMCPtHbpZTUeLeftCharged(), | |
173 | fhMCPtTrigPout(), fhMCPtAssocDeltaPhi(), | |
029dea5a | 174 | //Mixing |
31864468 | 175 | fhNEventsTrigger(0), fhNtracksMB(0), fhNclustersMB(0), |
029dea5a | 176 | fhMixDeltaPhiCharged(0), fhMixDeltaPhiDeltaEtaCharged(0), |
18838011 | 177 | fhMixXECharged(0), fhMixXEUeCharged(0), fhMixHbpXECharged(0), |
2013f378 | 178 | fhMixDeltaPhiChargedAssocPtBin(), |
179 | fhMixDeltaPhiChargedAssocPtBinDEta08(), | |
8cc41381 | 180 | fhMixDeltaPhiChargedAssocPtBinDEta0(), |
2013f378 | 181 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin(), |
efb540af | 182 | fhEventBin(0), fhEventMixBin(0), fhEventMBBin(0) |
029dea5a | 183 | { |
8cc41381 | 184 | //Default Ctor |
029dea5a | 185 | |
e09cf5ef | 186 | //Initialize parameters |
187 | InitParameters(); | |
764ab1f4 | 188 | |
0ff0cd12 | 189 | for(Int_t i = 0; i < fgkNmcTypes; i++) |
764ab1f4 | 190 | { |
55c20a99 | 191 | fhPtTriggerMC[i] = 0; |
764ab1f4 | 192 | fhXEChargedMC[i] = 0; |
b1f720a7 | 193 | fhDeltaPhiChargedMC[i] = 0; |
48c5da66 | 194 | for(Int_t ib = 0; ib < 4; ib++) fhPtDecayTriggerMC[ib][i] = 0; |
764ab1f4 | 195 | } |
48c5da66 | 196 | |
197 | for(Int_t ib = 0; ib < 4; ib++) fhPtDecayTrigger[ib] = 0; | |
198 | ||
17af6e24 | 199 | for(Int_t i = 0; i < 7; i++) |
200 | { | |
55c20a99 | 201 | fhPtTriggerPileUp [i] = 0 ; |
17af6e24 | 202 | fhDeltaPhiChargedPileUp [i] = 0 ; fhDeltaEtaChargedPileUp [i] = 0 ; |
203 | fhXEChargedPileUp [i] = 0 ; fhXEUeChargedPileUp [i] = 0 ; | |
204 | fhZTChargedPileUp [i] = 0 ; fhZTUeChargedPileUp [i] = 0 ; | |
205 | fhPtTrigChargedPileUp [i] = 0 ; | |
206 | fhDeltaPhiChargedPtA3GeVPileUp[i] = 0 ; fhDeltaEtaChargedPtA3GeVPileUp[i] = 0 ; | |
17af6e24 | 207 | } |
208 | ||
e09cf5ef | 209 | } |
210 | ||
029dea5a | 211 | //_________________________________________________________________ |
2bb7ac98 | 212 | AliAnaParticleHadronCorrelation::~AliAnaParticleHadronCorrelation() |
029dea5a | 213 | { |
214 | // Remove event containers | |
215 | ||
d07ffd54 | 216 | if(DoOwnMix()) |
217 | { | |
218 | if(fListMixTrackEvents) | |
219 | { | |
220 | for(Int_t iz=0; iz < GetNZvertBin(); iz++) | |
029dea5a | 221 | { |
d07ffd54 | 222 | for(Int_t ic=0; ic < GetNCentrBin(); ic++) |
223 | { | |
224 | for(Int_t irp=0; irp<GetNRPBin(); irp++) | |
225 | { | |
226 | Int_t bin = GetEventMixBin(ic, iz, irp); | |
227 | fListMixTrackEvents[bin]->Delete() ; | |
228 | delete fListMixTrackEvents[bin] ; | |
229 | } | |
230 | } | |
029dea5a | 231 | } |
232 | } | |
d07ffd54 | 233 | |
234 | delete[] fListMixTrackEvents; | |
235 | ||
236 | if(fListMixCaloEvents) | |
237 | { | |
238 | for(Int_t iz=0; iz < GetNZvertBin(); iz++) | |
239 | { | |
240 | for(Int_t ic=0; ic < GetNCentrBin(); ic++) | |
241 | { | |
242 | for(Int_t irp=0; irp<GetNRPBin(); irp++) | |
243 | { | |
244 | Int_t bin = GetEventMixBin(ic, iz, irp); | |
245 | fListMixCaloEvents[bin]->Delete() ; | |
246 | delete fListMixCaloEvents[bin] ; | |
247 | } | |
248 | } | |
249 | } | |
250 | } | |
251 | ||
252 | delete[] fListMixCaloEvents; | |
029dea5a | 253 | |
254 | } | |
255 | } | |
256 | ||
b6afb6b1 | 257 | //__________________________________________________________________________________________________________________________________________ |
22ad7981 | 258 | void AliAnaParticleHadronCorrelation::FillChargedAngularCorrelationHistograms(Float_t ptAssoc, Float_t ptTrig, Int_t bin, |
6ed1ad3e | 259 | Float_t phiAssoc, Float_t phiTrig, Float_t deltaPhi, |
22ad7981 | 260 | Float_t etaAssoc, Float_t etaTrig, |
e7d2373d | 261 | Int_t decayTag, Float_t hmpidSignal, Int_t outTOF, |
d4a8ff9a | 262 | Int_t cen, Int_t mcTag) |
907b38cd | 263 | { |
264 | // Fill angular correlation related histograms | |
265 | ||
266 | Float_t deltaEta = etaTrig-etaAssoc; | |
6ed1ad3e | 267 | Float_t deltaPhiOrg = phiTrig-phiAssoc; |
907b38cd | 268 | |
b1f720a7 | 269 | fhEtaCharged ->Fill(ptAssoc,etaAssoc); |
270 | fhPhiCharged ->Fill(ptAssoc,phiAssoc); | |
271 | fhDeltaEtaCharged ->Fill(ptTrig ,deltaEta); | |
272 | fhDeltaPhiCharged ->Fill(ptTrig ,deltaPhi); | |
273 | fhDeltaPhiChargedPt->Fill(ptAssoc, deltaPhi); | |
274 | fhDeltaPhiDeltaEtaCharged->Fill(deltaPhi, deltaEta); | |
275 | ||
276 | if(ptAssoc > 3 ) | |
277 | { | |
278 | fhDeltaEtaChargedPtA3GeV ->Fill(ptTrig ,deltaEta); | |
279 | fhDeltaPhiChargedPtA3GeV ->Fill(ptTrig ,deltaPhi); | |
280 | fhDeltaPhiDeltaEtaChargedPtA3GeV->Fill(deltaPhi, deltaEta); | |
281 | } | |
907b38cd | 282 | |
b1f720a7 | 283 | // Pile up studies |
17af6e24 | 284 | |
0cea6003 | 285 | if(IsPileUpAnalysisOn()) |
b1f720a7 | 286 | { |
2a9171b5 | 287 | if (outTOF==1) |
fedea415 | 288 | { |
560498d1 | 289 | fhDeltaPhiChargedOtherBC->Fill(ptTrig ,deltaPhi) ; |
fedea415 | 290 | if(ptAssoc > 3 ) fhDeltaPhiChargedPtA3GeVOtherBC->Fill(ptTrig ,deltaPhi) ; |
291 | } | |
2a9171b5 | 292 | else if(outTOF==0) |
293 | { | |
294 | fhDeltaPhiChargedBC0->Fill(ptTrig ,deltaPhi) ; | |
295 | if(ptAssoc > 3 ) fhDeltaPhiChargedPtA3GeVBC0->Fill(ptTrig ,deltaPhi) ; | |
296 | } | |
fedea415 | 297 | |
cc944149 | 298 | Int_t vtxBC = GetReader()->GetVertexBC(); |
299 | if(vtxBC == 0 || vtxBC==AliVTrack::kTOFBCNA) | |
300 | { | |
301 | fhDeltaPhiChargedVtxBC0->Fill(ptTrig ,deltaPhi) ; | |
302 | if(ptAssoc > 3 ) fhDeltaPhiChargedPtA3GeVVtxBC0->Fill(ptTrig ,deltaPhi) ; | |
303 | } | |
304 | ||
17af6e24 | 305 | if(GetReader()->IsPileUpFromSPD()) { fhDeltaEtaChargedPileUp[0]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[0]->Fill(ptTrig ,deltaPhi) ; } |
306 | if(GetReader()->IsPileUpFromEMCal()) { fhDeltaEtaChargedPileUp[1]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[1]->Fill(ptTrig ,deltaPhi) ; } | |
307 | if(GetReader()->IsPileUpFromSPDOrEMCal()) { fhDeltaEtaChargedPileUp[2]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[2]->Fill(ptTrig ,deltaPhi) ; } | |
308 | if(GetReader()->IsPileUpFromSPDAndEMCal()) { fhDeltaEtaChargedPileUp[3]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[3]->Fill(ptTrig ,deltaPhi) ; } | |
309 | if(GetReader()->IsPileUpFromSPDAndNotEMCal()) { fhDeltaEtaChargedPileUp[4]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[4]->Fill(ptTrig ,deltaPhi) ; } | |
310 | if(GetReader()->IsPileUpFromEMCalAndNotSPD()) { fhDeltaEtaChargedPileUp[5]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[5]->Fill(ptTrig ,deltaPhi) ; } | |
311 | if(GetReader()->IsPileUpFromNotSPDAndNotEMCal()) { fhDeltaEtaChargedPileUp[6]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPileUp[6]->Fill(ptTrig ,deltaPhi) ; } | |
312 | ||
b1f720a7 | 313 | if(ptAssoc > 3 ) |
314 | { | |
17af6e24 | 315 | if(GetReader()->IsPileUpFromSPD()) { fhDeltaEtaChargedPtA3GeVPileUp[0]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[0]->Fill(ptTrig ,deltaPhi) ; } |
316 | if(GetReader()->IsPileUpFromEMCal()) { fhDeltaEtaChargedPtA3GeVPileUp[1]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[1]->Fill(ptTrig ,deltaPhi) ; } | |
317 | if(GetReader()->IsPileUpFromSPDOrEMCal()) { fhDeltaEtaChargedPtA3GeVPileUp[2]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[2]->Fill(ptTrig ,deltaPhi) ; } | |
318 | if(GetReader()->IsPileUpFromSPDAndEMCal()) { fhDeltaEtaChargedPtA3GeVPileUp[3]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[3]->Fill(ptTrig ,deltaPhi) ; } | |
319 | if(GetReader()->IsPileUpFromSPDAndNotEMCal()) { fhDeltaEtaChargedPtA3GeVPileUp[4]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[4]->Fill(ptTrig ,deltaPhi) ; } | |
320 | if(GetReader()->IsPileUpFromEMCalAndNotSPD()) { fhDeltaEtaChargedPtA3GeVPileUp[5]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[5]->Fill(ptTrig ,deltaPhi) ; } | |
321 | if(GetReader()->IsPileUpFromNotSPDAndNotEMCal()) { fhDeltaEtaChargedPtA3GeVPileUp[6]->Fill(ptTrig ,deltaEta) ; fhDeltaPhiChargedPtA3GeVPileUp[6]->Fill(ptTrig ,deltaPhi) ; } | |
b1f720a7 | 322 | } |
323 | } | |
324 | ||
325 | if(IsDataMC()) | |
326 | { | |
327 | Int_t mcIndex = GetMCTagHistogramIndex(mcTag); | |
328 | fhDeltaPhiChargedMC[mcIndex]->Fill(ptTrig , deltaPhi); | |
e23c7107 | 329 | if(GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCDecayPairLost) && mcIndex==2 ) |
4a296f4a | 330 | fhDeltaPhiChargedMC[7]->Fill(ptTrig , deltaPhi); |
331 | } | |
907b38cd | 332 | |
e7d2373d | 333 | if(fDecayTrigger && decayTag > 0) |
334 | { | |
335 | for(Int_t ibit = 0; ibit<fNDecayBits; ibit++) | |
336 | { | |
337 | if(GetNeutralMesonSelection()->CheckDecayBit(decayTag,fDecayBits[ibit])) fhDeltaPhiDecayCharged[ibit]->Fill(ptTrig,deltaPhi); | |
338 | } | |
339 | } | |
907b38cd | 340 | |
341 | Double_t dphiBrad = -100; | |
342 | if(fFillBradHisto) | |
343 | { | |
344 | dphiBrad = atan2(sin(deltaPhiOrg), cos(deltaPhiOrg))/TMath::Pi();//-1 to 1 | |
2af40966 | 345 | if( TMath::Abs(dphiBrad) > 0.325 && TMath::Abs(dphiBrad) < 0.475 ) //Hardcoded values, BAD, FIXME |
907b38cd | 346 | { |
347 | fhAssocPtBkg->Fill(ptTrig, ptAssoc); | |
348 | } | |
349 | ||
2af40966 | 350 | if( dphiBrad < -1./3 ) dphiBrad += 2; |
907b38cd | 351 | fhDeltaPhiBrad->Fill(ptTrig, dphiBrad); |
352 | } | |
353 | ||
354 | // Fill histograms in bins of associated particle pT | |
8cc41381 | 355 | if(bin>=0) |
907b38cd | 356 | { |
8cc41381 | 357 | fhDeltaPhiDeltaEtaAssocPtBin [bin]->Fill(deltaPhi,deltaEta); |
358 | ||
359 | fhDeltaPhiAssocPtBin [bin]->Fill(ptTrig, deltaPhi); | |
2013f378 | 360 | |
a22f3f34 | 361 | if(fFillEtaGapsHisto) |
362 | { | |
363 | if(TMath::Abs(deltaEta)> 0.8) | |
364 | fhDeltaPhiAssocPtBinDEta08 [bin]->Fill(ptTrig, deltaPhi); | |
365 | ||
366 | if(TMath::Abs(deltaEta)< 0.01) | |
367 | fhDeltaPhiAssocPtBinDEta0 [bin]->Fill(ptTrig, deltaPhi); | |
368 | } | |
2013f378 | 369 | |
370 | if (fFillBradHisto) | |
8cc41381 | 371 | fhDeltaPhiBradAssocPtBin [bin]->Fill(ptTrig, dphiBrad); |
2013f378 | 372 | |
e7d2373d | 373 | if(fDecayTrigger && decayTag > 0 && fNDecayBits > 0 && |
374 | GetNeutralMesonSelection()->CheckDecayBit(decayTag,fDecayBits[0])) | |
8cc41381 | 375 | fhDeltaPhiDecayChargedAssocPtBin[bin]->Fill(ptTrig, deltaPhi); |
907b38cd | 376 | |
377 | if(fHMPIDCorrelation) | |
378 | { | |
379 | if( hmpidSignal > 0 ) | |
380 | { | |
381 | //printf("Track pt %f with HMPID signal %f \n",pt,hmpidSignal); | |
8cc41381 | 382 | fhDeltaPhiAssocPtBinHMPID[bin]->Fill(ptTrig, deltaPhi); |
907b38cd | 383 | } |
384 | ||
385 | if(phiAssoc > 5*TMath::DegToRad() && phiAssoc < 20*TMath::DegToRad()) | |
386 | { | |
387 | //printf("Track pt %f in HMPID acceptance phi %f \n ",pt,phi*TMath::RadToDeg() ); | |
8cc41381 | 388 | fhDeltaPhiAssocPtBinHMPIDAcc[bin]->Fill(ptTrig, deltaPhi); |
907b38cd | 389 | } |
390 | } | |
391 | } | |
392 | ||
d4a8ff9a | 393 | //fill different multiplicity/centrality histogram |
0cea6003 | 394 | if(IsHighMultiplicityAnalysisOn() && cen >= 0 && cen < GetNCentrBin()) |
907b38cd | 395 | { |
d4a8ff9a | 396 | fhDeltaPhiChargedMult[cen]->Fill(ptTrig,deltaPhi); |
397 | fhDeltaEtaChargedMult[cen]->Fill(ptTrig,deltaEta); | |
907b38cd | 398 | } |
399 | } | |
400 | ||
55c20a99 | 401 | //___________________________________________________________________________________________________________________________________ |
402 | Bool_t AliAnaParticleHadronCorrelation::FillChargedMCCorrelationHistograms(Float_t mcAssocPt, Float_t mcAssocPhi, Float_t mcAssocEta, | |
be2df971 | 403 | Float_t mcTrigPt, Float_t mcTrigPhi, Float_t mcTrigEta, |
4a296f4a | 404 | Int_t histoIndex, Bool_t lostDecayPair) |
907b38cd | 405 | { |
406 | // Fill MC histograms independently of AOD or ESD | |
407 | ||
63ac03db | 408 | Bool_t lead = kTRUE; |
907b38cd | 409 | |
63ac03db | 410 | // In case we requested the trigger to be a leading particle, |
411 | // check if this is true at the MC level. | |
412 | // Not sure if it is correct to skip or not skip this. | |
413 | // Absolute leading? | |
414 | if( fMakeAbsoluteLeading && mcAssocPt > mcTrigPt ) lead = kFALSE; // skip event | |
415 | ||
416 | // Skip this event if near side associated particle pt larger than trigger | |
98604e3a | 417 | if( mcAssocPhi < 0 ) mcAssocPhi+=TMath::TwoPi(); |
418 | ||
419 | Float_t mcdeltaPhi= mcTrigPhi-mcAssocPhi; | |
420 | if(mcdeltaPhi <= -TMath::PiOver2()) mcdeltaPhi+=TMath::TwoPi(); | |
421 | if(mcdeltaPhi > 3*TMath::PiOver2()) mcdeltaPhi-=TMath::TwoPi(); | |
422 | ||
423 | if( fMakeNearSideLeading) | |
424 | { | |
425 | if( mcAssocPt > mcTrigPt && mcdeltaPhi < TMath::PiOver2() ) lead = kFALSE; // skip event | |
426 | } | |
be2df971 | 427 | |
63ac03db | 428 | // |
429 | // Select only hadrons in pt range | |
430 | if ( mcAssocPt < fMinAssocPt || mcAssocPt > fMaxAssocPt ) return lead ; // exclude but continue | |
431 | if ( mcAssocPt < GetReader()->GetCTSPtMin()) return lead ; | |
432 | ||
907b38cd | 433 | |
63ac03db | 434 | // |
435 | // Remove trigger itself for correlation when use charged triggers | |
907b38cd | 436 | if(TMath::Abs(mcAssocPt -mcTrigPt ) < 1e-6 && |
98604e3a | 437 | mcdeltaPhi < 1e-6 && |
63ac03db | 438 | TMath::Abs(mcAssocEta-mcTrigEta) < 1e-6) return lead ; // exclude but continue |
907b38cd | 439 | |
907b38cd | 440 | Float_t mcxE =-mcAssocPt/mcTrigPt*TMath::Cos(mcdeltaPhi);// -(mcAssocPx*pxprim+mcAssocPy*pyprim)/(mcTrigPt*mcTrigPt); |
441 | Float_t mchbpXE =-100 ; | |
f16872ec | 442 | if(mcxE > 0 ) mchbpXE = TMath::Log(1./mcxE); |
907b38cd | 443 | |
444 | Float_t mczT = mcAssocPt/mcTrigPt ; | |
445 | Float_t mchbpZT =-100 ; | |
f16872ec | 446 | if(mczT > 0 ) mchbpZT = TMath::Log(1./mczT); |
907b38cd | 447 | |
907b38cd | 448 | Double_t mcpout = mcAssocPt*TMath::Sin(mcdeltaPhi) ; |
449 | ||
2db10729 | 450 | AliDebug(1,Form("Charged hadron: track Pt %f, track Phi %f, phi trigger %f. Cuts: delta phi %2.2f < %2.2f < %2.2f", |
451 | mcAssocPt,mcAssocPhi, mcTrigPhi,fDeltaPhiMinCut, mcdeltaPhi, fDeltaPhiMaxCut)); | |
452 | ||
907b38cd | 453 | |
454 | // Fill Histograms | |
be2df971 | 455 | fhMCEtaCharged [histoIndex]->Fill(mcAssocPt, mcAssocEta); |
456 | fhMCPhiCharged [histoIndex]->Fill(mcAssocPt, mcAssocPhi); | |
457 | fhMCDeltaEtaCharged[histoIndex]->Fill(mcTrigPt , mcTrigEta-mcAssocEta); | |
458 | fhMCDeltaPhiCharged[histoIndex]->Fill(mcTrigPt , mcdeltaPhi); | |
459 | fhMCPtAssocDeltaPhi[histoIndex]->Fill(mcAssocPt, mcdeltaPhi); | |
907b38cd | 460 | |
be2df971 | 461 | fhMCDeltaPhiDeltaEtaCharged[histoIndex]->Fill(mcdeltaPhi,mcTrigEta-mcAssocEta); |
907b38cd | 462 | |
463 | //delta phi cut for correlation | |
464 | if( (mcdeltaPhi > fDeltaPhiMinCut) && (mcdeltaPhi < fDeltaPhiMaxCut) ) | |
465 | { | |
be2df971 | 466 | fhMCDeltaPhiChargedPt[histoIndex]->Fill(mcAssocPt,mcdeltaPhi); |
467 | fhMCPtXECharged [histoIndex]->Fill(mcTrigPt, mcxE); | |
468 | fhMCPtHbpXECharged [histoIndex]->Fill(mcTrigPt, mchbpXE); | |
469 | fhMCPtZTCharged [histoIndex]->Fill(mcTrigPt, mczT); | |
470 | fhMCPtHbpZTCharged [histoIndex]->Fill(mcTrigPt, mchbpZT); | |
471 | fhMCPtTrigPout [histoIndex]->Fill(mcTrigPt, mcpout) ; | |
907b38cd | 472 | } |
9623bf34 | 473 | |
4a296f4a | 474 | if(histoIndex==2 && lostDecayPair && 7 >= fMCGenTypeMin && 7 <= fMCGenTypeMax ) |
475 | { | |
476 | fhMCEtaCharged [7]->Fill(mcAssocPt, mcAssocEta); | |
477 | fhMCPhiCharged [7]->Fill(mcAssocPt, mcAssocPhi); | |
478 | fhMCDeltaEtaCharged[7]->Fill(mcTrigPt , mcTrigEta-mcAssocEta); | |
479 | fhMCDeltaPhiCharged[7]->Fill(mcTrigPt , mcdeltaPhi); | |
480 | fhMCPtAssocDeltaPhi[7]->Fill(mcAssocPt, mcdeltaPhi); | |
481 | ||
482 | fhMCDeltaPhiDeltaEtaCharged[7]->Fill(mcdeltaPhi,mcTrigEta-mcAssocEta); | |
483 | ||
484 | //delta phi cut for correlation | |
485 | if( (mcdeltaPhi > fDeltaPhiMinCut) && (mcdeltaPhi < fDeltaPhiMaxCut) ) | |
486 | { | |
487 | fhMCDeltaPhiChargedPt[7]->Fill(mcAssocPt,mcdeltaPhi); | |
488 | fhMCPtXECharged [7]->Fill(mcTrigPt, mcxE); | |
489 | fhMCPtHbpXECharged [7]->Fill(mcTrigPt, mchbpXE); | |
490 | fhMCPtZTCharged [7]->Fill(mcTrigPt, mczT); | |
491 | fhMCPtHbpZTCharged [7]->Fill(mcTrigPt, mchbpZT); | |
492 | fhMCPtTrigPout [7]->Fill(mcTrigPt, mcpout) ; | |
493 | } | |
494 | } | |
495 | ||
6ed1ad3e | 496 | // Underlying event |
9623bf34 | 497 | |
6ed1ad3e | 498 | // Right |
c78eef61 | 499 | if ( (mcdeltaPhi > fUeDeltaPhiMinCut) && (mcdeltaPhi < fUeDeltaPhiMaxCut) ) |
500 | { | |
501 | //Double_t randomphi = gRandom->Uniform(TMath::Pi()/2,3*TMath::Pi()/2); | |
502 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); | |
503 | Double_t mcUexE = -(mcAssocPt/mcTrigPt)*TMath::Cos(randomphi); | |
504 | Double_t mcUezT = mcAssocPt/mcTrigPt; | |
6ed1ad3e | 505 | |
2af40966 | 506 | if(mcUexE < 0.) |
2db10729 | 507 | AliWarning(Form("Careful!!, negative xE %2.2f for right UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
508 | mcUexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
2af40966 | 509 | |
be2df971 | 510 | fhMCPtXEUeCharged[histoIndex]->Fill(mcTrigPt,mcUexE); |
511 | if(mcUexE > 0) fhMCPtHbpXEUeCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUexE)); | |
6ed1ad3e | 512 | |
be2df971 | 513 | fhMCPtZTUeCharged[histoIndex]->Fill(mcTrigPt,mcUezT); |
514 | if(mcUezT > 0) fhMCPtHbpZTUeCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUezT)); | |
c78eef61 | 515 | |
be2df971 | 516 | fhMCUePart[histoIndex]->Fill(mcTrigPt); |
4a296f4a | 517 | |
518 | if(histoIndex==2 && lostDecayPair && 7 >= fMCGenTypeMin && 7 <= fMCGenTypeMax ) | |
519 | { | |
520 | fhMCPtXEUeCharged[7]->Fill(mcTrigPt,mcUexE); | |
521 | if(mcUexE > 0) fhMCPtHbpXEUeCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUexE)); | |
522 | ||
523 | fhMCPtZTUeCharged[7]->Fill(mcTrigPt,mcUezT); | |
524 | if(mcUezT > 0) fhMCPtHbpZTUeCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUezT)); | |
525 | ||
526 | fhMCUePart[7]->Fill(mcTrigPt); | |
527 | } | |
c78eef61 | 528 | } |
6ed1ad3e | 529 | |
530 | if(fMakeSeveralUE) | |
c78eef61 | 531 | { |
6ed1ad3e | 532 | // Left |
533 | if((mcdeltaPhi<-fUeDeltaPhiMinCut) || (mcdeltaPhi >2*fUeDeltaPhiMaxCut)) | |
534 | { | |
535 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); | |
536 | Double_t mcUexE = -(mcAssocPt/mcTrigPt)*TMath::Cos(randomphi); | |
537 | Double_t mcUezT = mcAssocPt/mcTrigPt; | |
538 | ||
2af40966 | 539 | if(mcUexE < 0.) |
2db10729 | 540 | AliWarning(Form("Careful!!, negative xE %2.2f for left UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
541 | mcUexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
6ed1ad3e | 542 | |
be2df971 | 543 | fhMCPtXEUeLeftCharged[histoIndex]->Fill(mcTrigPt,mcUexE); |
544 | if(mcUexE > 0) fhMCPtHbpXEUeLeftCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUexE)); | |
6ed1ad3e | 545 | |
be2df971 | 546 | fhMCPtZTUeLeftCharged[histoIndex]->Fill(mcTrigPt,mcUezT); |
f3c4fca3 | 547 | if(mcUezT > 0) fhMCPtHbpZTUeLeftCharged[histoIndex]->Fill(mcTrigPt,TMath::Log(1/mcUezT)); |
4a296f4a | 548 | |
549 | if(histoIndex==2 && lostDecayPair && 7 >= fMCGenTypeMin && 7 <= fMCGenTypeMax ) | |
550 | { | |
551 | fhMCPtXEUeLeftCharged[7]->Fill(mcTrigPt,mcUexE); | |
552 | if(mcUexE > 0) fhMCPtHbpXEUeLeftCharged[7]->Fill(mcTrigPt,TMath::Log(1/mcUexE)); | |
553 | ||
554 | fhMCPtZTUeLeftCharged[7]->Fill(mcTrigPt,mcUezT); | |
555 | if(mcUezT > 0) fhMCPtHbpZTUeLeftCharged[7]->Fill(mcTrigPt,TMath::Log(1/mcUezT)); | |
556 | } | |
6ed1ad3e | 557 | } |
c78eef61 | 558 | } |
907b38cd | 559 | |
63ac03db | 560 | return lead; |
6ed1ad3e | 561 | } |
907b38cd | 562 | |
563 | //___________________________________________________________________________________________________________________ | |
22ad7981 | 564 | void AliAnaParticleHadronCorrelation::FillChargedMomentumImbalanceHistograms(Float_t ptTrig, Float_t ptAssoc, |
b6afb6b1 | 565 | Float_t deltaPhi, |
d4a8ff9a | 566 | Int_t cen, Int_t charge, |
e7d2373d | 567 | Int_t bin, Int_t decayTag, |
22ad7981 | 568 | Int_t outTOF, Int_t mcTag) |
907b38cd | 569 | |
570 | { | |
571 | // Fill mostly momentum imbalance related histograms | |
572 | ||
f3c4fca3 | 573 | Float_t zT = ptAssoc/ptTrig ; |
574 | Float_t xE =-ptAssoc/ptTrig*TMath::Cos(deltaPhi); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); | |
575 | Float_t pout = ptAssoc*TMath::Sin(deltaPhi) ; | |
2af40966 | 576 | |
577 | if(xE < 0.) | |
2db10729 | 578 | AliWarning(Form("Careful!!, negative xE %2.2f for right UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
579 | xE,deltaPhi*TMath::RadToDeg(),TMath::Cos(deltaPhi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
2af40966 | 580 | |
f3c4fca3 | 581 | Float_t hbpXE = -100; |
582 | Float_t hbpZT = -100; | |
583 | ||
b6afb6b1 | 584 | if(xE > 0 ) hbpXE = TMath::Log(1./xE); |
f3c4fca3 | 585 | if(zT > 0 ) hbpZT = TMath::Log(1./zT); |
b6afb6b1 | 586 | |
727a309a | 587 | fhXECharged ->Fill(ptTrig , xE); |
907b38cd | 588 | fhPtHbpXECharged ->Fill(ptTrig , hbpXE); |
589 | fhZTCharged ->Fill(ptTrig , zT); | |
590 | fhPtHbpZTCharged ->Fill(ptTrig , hbpZT); | |
591 | fhPtTrigPout ->Fill(ptTrig , pout) ; | |
592 | fhPtTrigCharged ->Fill(ptTrig , ptAssoc) ; | |
b6afb6b1 | 593 | if((deltaPhi > 5*TMath::Pi()/6.) && (deltaPhi < 7*TMath::Pi()/6.)) |
594 | { | |
727a309a | 595 | fhXECharged_Cone2 ->Fill(ptTrig , xE); |
596 | fhPtHbpXECharged_Cone2 ->Fill(ptTrig , hbpXE); | |
597 | } | |
907b38cd | 598 | |
f3c4fca3 | 599 | // MC |
600 | if(IsDataMC()) | |
601 | { | |
602 | Int_t mcIndex = GetMCTagHistogramIndex(mcTag); | |
603 | fhXEChargedMC[mcIndex]->Fill(ptTrig , xE); | |
e23c7107 | 604 | if(GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCDecayPairLost) && mcIndex==2 ) |
4a296f4a | 605 | fhXEChargedMC[7]->Fill(ptTrig , xE); |
f3c4fca3 | 606 | } |
607 | ||
b1f720a7 | 608 | // Pile up studies |
0cea6003 | 609 | if(IsPileUpAnalysisOn()) |
b1f720a7 | 610 | { |
2a9171b5 | 611 | if (outTOF==1) |
fedea415 | 612 | { |
613 | fhXEChargedOtherBC ->Fill(ptTrig,xE); | |
614 | fhZTChargedOtherBC ->Fill(ptTrig,zT); | |
615 | fhPtTrigChargedOtherBC->Fill(ptTrig,ptAssoc); | |
616 | } | |
2a9171b5 | 617 | else if(outTOF==0) |
618 | { | |
619 | fhXEChargedBC0 ->Fill(ptTrig,xE); | |
620 | fhZTChargedBC0 ->Fill(ptTrig,zT); | |
621 | fhPtTrigChargedBC0->Fill(ptTrig,ptAssoc); | |
622 | } | |
623 | ||
cc944149 | 624 | Int_t vtxBC = GetReader()->GetVertexBC(); |
625 | if(vtxBC == 0 || vtxBC==AliVTrack::kTOFBCNA) | |
626 | { | |
627 | fhXEChargedVtxBC0 ->Fill(ptTrig,xE); | |
628 | fhZTChargedVtxBC0 ->Fill(ptTrig,zT); | |
629 | fhPtTrigChargedVtxBC0->Fill(ptTrig,ptAssoc); | |
630 | } | |
631 | ||
fedea415 | 632 | if(GetReader()->IsPileUpFromSPD()) { fhXEChargedPileUp[0]->Fill(ptTrig,xE); fhZTChargedPileUp[0]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[0]->Fill(ptTrig,ptAssoc); } |
633 | if(GetReader()->IsPileUpFromEMCal()) { fhXEChargedPileUp[1]->Fill(ptTrig,xE); fhZTChargedPileUp[1]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[1]->Fill(ptTrig,ptAssoc); } | |
634 | if(GetReader()->IsPileUpFromSPDOrEMCal()) { fhXEChargedPileUp[2]->Fill(ptTrig,xE); fhZTChargedPileUp[2]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[2]->Fill(ptTrig,ptAssoc); } | |
635 | if(GetReader()->IsPileUpFromSPDAndEMCal()) { fhXEChargedPileUp[3]->Fill(ptTrig,xE); fhZTChargedPileUp[3]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[3]->Fill(ptTrig,ptAssoc); } | |
636 | if(GetReader()->IsPileUpFromSPDAndNotEMCal()) { fhXEChargedPileUp[4]->Fill(ptTrig,xE); fhZTChargedPileUp[4]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[4]->Fill(ptTrig,ptAssoc); } | |
637 | if(GetReader()->IsPileUpFromEMCalAndNotSPD()) { fhXEChargedPileUp[5]->Fill(ptTrig,xE); fhZTChargedPileUp[5]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[5]->Fill(ptTrig,ptAssoc); } | |
638 | if(GetReader()->IsPileUpFromNotSPDAndNotEMCal()) { fhXEChargedPileUp[6]->Fill(ptTrig,xE); fhZTChargedPileUp[6]->Fill(ptTrig,zT); fhPtTrigChargedPileUp[6]->Fill(ptTrig,ptAssoc); } | |
b1f720a7 | 639 | } |
640 | ||
e7d2373d | 641 | if(fDecayTrigger && decayTag > 0) |
642 | { | |
643 | for(Int_t ibit = 0; ibit<fNDecayBits; ibit++) | |
644 | { | |
645 | if(GetNeutralMesonSelection()->CheckDecayBit(decayTag,fDecayBits[ibit])) | |
646 | { | |
647 | fhXEDecayCharged[ibit]->Fill(ptTrig,xE); | |
648 | fhZTDecayCharged[ibit]->Fill(ptTrig,zT); | |
649 | } | |
650 | } | |
651 | } // photon decay pi0/eta trigger | |
907b38cd | 652 | |
a22f3f34 | 653 | if(bin >= 0 && fFillMomImbalancePtAssocBinsHisto)//away side |
907b38cd | 654 | { |
8cc41381 | 655 | fhXEAssocPtBin[bin]->Fill(ptTrig, xE) ; |
656 | fhZTAssocPtBin[bin]->Fill(ptTrig, zT) ; | |
907b38cd | 657 | } |
658 | ||
a22f3f34 | 659 | if(fCorrelVzBin) |
660 | { | |
661 | Int_t vz = GetEventVzBin(); | |
662 | fhXEVZ[vz]->Fill(ptTrig, xE) ; | |
663 | fhZTVZ[vz]->Fill(ptTrig, zT) ; | |
664 | } | |
665 | ||
907b38cd | 666 | if(charge > 0) |
667 | { | |
668 | fhXEPosCharged->Fill(ptTrig,xE) ; | |
669 | fhZTPosCharged->Fill(ptTrig,zT) ; | |
670 | } | |
671 | else | |
672 | { | |
673 | fhXENegCharged->Fill(ptTrig,xE) ; | |
674 | fhZTNegCharged->Fill(ptTrig,zT) ; | |
675 | } | |
676 | ||
d4a8ff9a | 677 | //fill different multiplicity/centrality histogram |
0cea6003 | 678 | if(IsHighMultiplicityAnalysisOn() && cen >= 0 && cen < GetNCentrBin()) |
907b38cd | 679 | { |
d4a8ff9a | 680 | fhXEMult[cen]->Fill(ptTrig,xE); |
681 | fhZTMult[cen]->Fill(ptTrig,zT); | |
682 | } //multiplicity/centrality events selection | |
907b38cd | 683 | } |
684 | ||
685 | //_______________________________________________________________________________________________________________________ | |
22ad7981 | 686 | void AliAnaParticleHadronCorrelation::FillChargedUnderlyingEventHistograms(Float_t ptTrig, Float_t ptAssoc, |
d4a8ff9a | 687 | Float_t deltaPhi, Int_t cen, Int_t outTOF) |
907b38cd | 688 | { |
689 | // Fill underlying event histograms | |
690 | ||
6ed1ad3e | 691 | fhUePart->Fill(ptTrig); |
692 | ||
907b38cd | 693 | fhDeltaPhiUeChargedPt->Fill(ptAssoc,deltaPhi); |
694 | ||
08f220c8 | 695 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
907b38cd | 696 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); |
697 | Double_t uezT = ptAssoc/ptTrig; | |
698 | ||
2af40966 | 699 | if(uexE < 0.) |
2db10729 | 700 | AliWarning(Form("Careful!!, negative xE %2.2f for right UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
701 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
6ed1ad3e | 702 | |
907b38cd | 703 | fhXEUeCharged->Fill(ptTrig,uexE); |
f16872ec | 704 | if(uexE > 0) fhPtHbpXEUeCharged->Fill(ptTrig,TMath::Log(1/uexE)); |
907b38cd | 705 | |
706 | fhZTUeCharged->Fill(ptTrig,uezT); | |
76fc98bb | 707 | if(uezT > 0) fhPtHbpZTUeCharged->Fill(ptTrig,TMath::Log(1/uezT)); |
907b38cd | 708 | |
b1f720a7 | 709 | // Pile up studies |
17af6e24 | 710 | |
0cea6003 | 711 | if(IsPileUpAnalysisOn()) |
b1f720a7 | 712 | { |
2a9171b5 | 713 | if (outTOF==1) |
fedea415 | 714 | { |
715 | fhXEUeChargedOtherBC->Fill(ptTrig,uexE); | |
716 | fhZTUeChargedOtherBC->Fill(ptTrig,uezT); | |
717 | } | |
2a9171b5 | 718 | else if(outTOF==0) |
719 | { | |
720 | fhXEUeChargedBC0->Fill(ptTrig,uexE); | |
721 | fhZTUeChargedBC0->Fill(ptTrig,uezT); | |
722 | } | |
fedea415 | 723 | |
cc944149 | 724 | Int_t vtxBC = GetReader()->GetVertexBC(); |
725 | if(vtxBC == 0 || vtxBC==AliVTrack::kTOFBCNA) | |
726 | { | |
727 | fhXEUeChargedVtxBC0->Fill(ptTrig,uexE); | |
728 | fhZTUeChargedVtxBC0->Fill(ptTrig,uezT); | |
729 | } | |
730 | ||
17af6e24 | 731 | if(GetReader()->IsPileUpFromSPD()) { fhXEUeChargedPileUp[0]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[0]->Fill(ptTrig,uezT);} |
732 | if(GetReader()->IsPileUpFromEMCal()) { fhXEUeChargedPileUp[1]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[1]->Fill(ptTrig,uezT);} | |
733 | if(GetReader()->IsPileUpFromSPDOrEMCal()) { fhXEUeChargedPileUp[2]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[2]->Fill(ptTrig,uezT);} | |
734 | if(GetReader()->IsPileUpFromSPDAndEMCal()) { fhXEUeChargedPileUp[3]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[3]->Fill(ptTrig,uezT);} | |
735 | if(GetReader()->IsPileUpFromSPDAndNotEMCal()) { fhXEUeChargedPileUp[4]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[4]->Fill(ptTrig,uezT);} | |
736 | if(GetReader()->IsPileUpFromEMCalAndNotSPD()) { fhXEUeChargedPileUp[5]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[5]->Fill(ptTrig,uezT);} | |
737 | if(GetReader()->IsPileUpFromNotSPDAndNotEMCal()) { fhXEUeChargedPileUp[6]->Fill(ptTrig,uexE); fhZTUeChargedPileUp[6]->Fill(ptTrig,uezT);} | |
738 | } | |
b1f720a7 | 739 | |
d4a8ff9a | 740 | //fill different multiplicity/centrality histogram |
0cea6003 | 741 | if(IsHighMultiplicityAnalysisOn() && cen >= 0 && cen < GetNCentrBin()) |
907b38cd | 742 | { |
d4a8ff9a | 743 | fhXEUeMult[cen]->Fill(ptTrig,uexE); |
744 | fhZTUeMult[cen]->Fill(ptTrig,uezT); | |
745 | } | |
907b38cd | 746 | } |
747 | ||
8cc41381 | 748 | //_____________________________________________________________________________________________________ |
22ad7981 | 749 | void AliAnaParticleHadronCorrelation::FillChargedUnderlyingEventSidesHistograms(Float_t ptTrig, |
750 | Float_t ptAssoc, | |
751 | Float_t deltaPhi) | |
907b38cd | 752 | { |
6ed1ad3e | 753 | // Fill underlying event histograms to the left and right of trigger |
754 | // Right cone is the default UE. | |
755 | ||
08f220c8 | 756 | if((deltaPhi<-fUeDeltaPhiMinCut) || (deltaPhi >2*fUeDeltaPhiMaxCut)) |
6ed1ad3e | 757 | { |
758 | fhDeltaPhiUeLeftCharged->Fill(ptAssoc,deltaPhi); | |
08f220c8 | 759 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
760 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
761 | Double_t uezT = ptAssoc/ptTrig; | |
6ed1ad3e | 762 | |
2af40966 | 763 | if(uexE < 0.) |
2db10729 | 764 | AliWarning(Form("Careful!!, negative xE %2.2f for left UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
765 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
08f220c8 | 766 | |
767 | fhXEUeLeftCharged->Fill(ptTrig,uexE); | |
768 | if(uexE > 0) fhPtHbpXEUeLeftCharged->Fill(ptTrig,TMath::Log(1/uexE)); | |
6ed1ad3e | 769 | |
08f220c8 | 770 | fhZTUeLeftCharged->Fill(ptTrig,uezT); |
f3c4fca3 | 771 | if(uezT > 0) fhPtHbpZTUeLeftCharged->Fill(ptTrig,TMath::Log(1/uezT)); |
772 | ||
907b38cd | 773 | fhDeltaPhiUeLeftCharged->Fill(ptAssoc, deltaPhi); |
907b38cd | 774 | } |
775 | ||
8cc41381 | 776 | if((deltaPhi<-fUeDeltaPhiMinCut) && (deltaPhi >-TMath::Pi()/2)) |
6ed1ad3e | 777 | { |
778 | fhDeltaPhiUeLeftDownCharged->Fill(ptAssoc,deltaPhi); | |
8cc41381 | 779 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
780 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
781 | ||
2af40966 | 782 | if(uexE < 0.) |
2db10729 | 783 | AliWarning(Form("Careful!!, negative xE %2.2f for left-down UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
784 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
8cc41381 | 785 | |
786 | fhXEUeLeftDownCharged->Fill(ptTrig,uexE); | |
787 | } | |
788 | ||
789 | if((deltaPhi>2*fUeDeltaPhiMaxCut) && (deltaPhi <3*TMath::Pi()/2)) | |
6ed1ad3e | 790 | { |
791 | fhDeltaPhiUeLeftUpCharged->Fill(ptAssoc,deltaPhi); | |
8cc41381 | 792 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
793 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
794 | ||
2af40966 | 795 | if(uexE < 0.) |
2db10729 | 796 | AliWarning(Form("Careful!!, negative xE %2.2f for left-up UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
797 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
8cc41381 | 798 | |
799 | fhXEUeLeftUpCharged->Fill(ptTrig,uexE); | |
800 | } | |
801 | ||
802 | if((deltaPhi > TMath::Pi()/2) && (deltaPhi < fUeDeltaPhiMaxCut)) | |
6ed1ad3e | 803 | { |
804 | fhDeltaPhiUeRightUpCharged->Fill(ptAssoc,deltaPhi); | |
8cc41381 | 805 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
806 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
807 | ||
2af40966 | 808 | if(uexE < 0.) |
2db10729 | 809 | AliWarning(Form("Careful!!, negative xE %2.2f for right-up UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
810 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
8cc41381 | 811 | |
812 | fhXEUeRightUpCharged->Fill(ptTrig,uexE); | |
813 | } | |
814 | ||
815 | if((deltaPhi > fUeDeltaPhiMinCut) && (deltaPhi < TMath::Pi()/2)) | |
6ed1ad3e | 816 | { |
817 | fhDeltaPhiUeRightDownCharged->Fill(ptAssoc,deltaPhi); | |
8cc41381 | 818 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
819 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
820 | ||
2af40966 | 821 | if(uexE < 0.) |
2db10729 | 822 | AliWarning(Form("Careful!!, negative xE %2.2f for right-down UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
823 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
8cc41381 | 824 | |
825 | fhXEUeRightDownCharged->Fill(ptTrig,uexE); | |
6ed1ad3e | 826 | } |
907b38cd | 827 | } |
828 | ||
349eb23d | 829 | //_____________________________________________________________________________________________________________________________________ |
830 | void AliAnaParticleHadronCorrelation::FillDecayPhotonCorrelationHistograms(Float_t ptAssoc, Float_t phiAssoc, Bool_t bChargedOrNeutral) | |
907b38cd | 831 | { |
832 | // Do correlation with decay photons of triggered pi0 or eta | |
833 | ||
834 | // Calculate the correlation parameters | |
349eb23d | 835 | Float_t ptDecay1 = fDecayMom1.Pt(); |
836 | Float_t ptDecay2 = fDecayMom2.Pt(); | |
907b38cd | 837 | |
838 | Float_t zTDecay1 = -100, zTDecay2 = -100; | |
5a04739d | 839 | if(ptDecay1 > 0) zTDecay1 = ptAssoc/ptDecay1 ; |
840 | if(ptDecay2 > 0) zTDecay2 = ptAssoc/ptDecay2 ; | |
907b38cd | 841 | |
349eb23d | 842 | Float_t deltaPhiDecay1 = fDecayMom1.Phi()-phiAssoc; |
907b38cd | 843 | if(deltaPhiDecay1< -TMath::PiOver2()) deltaPhiDecay1+=TMath::TwoPi(); |
844 | if(deltaPhiDecay1>3*TMath::PiOver2()) deltaPhiDecay1-=TMath::TwoPi(); | |
845 | ||
349eb23d | 846 | Float_t deltaPhiDecay2 = fDecayMom2.Phi()-phiAssoc; |
907b38cd | 847 | if(deltaPhiDecay2< -TMath::PiOver2()) deltaPhiDecay2+=TMath::TwoPi(); |
848 | if(deltaPhiDecay2>3*TMath::PiOver2()) deltaPhiDecay2-=TMath::TwoPi(); | |
849 | ||
850 | Float_t xEDecay1 =-zTDecay1*TMath::Cos(deltaPhiDecay1); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); | |
851 | Float_t xEDecay2 =-zTDecay2*TMath::Cos(deltaPhiDecay2); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); | |
852 | ||
853 | if(bChargedOrNeutral) // correlate with charges | |
854 | { | |
e7d2373d | 855 | fhDeltaPhiPi0DecayCharged->Fill(ptDecay1, deltaPhiDecay1); |
856 | fhDeltaPhiPi0DecayCharged->Fill(ptDecay2, deltaPhiDecay2); | |
907b38cd | 857 | |
2db10729 | 858 | AliDebug(2,Form("deltaPhoton1 = %f, deltaPhoton2 = %f", deltaPhiDecay1, deltaPhiDecay2)); |
907b38cd | 859 | |
860 | if( (deltaPhiDecay1 > fDeltaPhiMinCut) && ( deltaPhiDecay1 < fDeltaPhiMaxCut) ) | |
861 | { | |
e7d2373d | 862 | fhZTPi0DecayCharged->Fill(ptDecay1,zTDecay1); |
863 | fhXEPi0DecayCharged->Fill(ptDecay1,xEDecay1); | |
907b38cd | 864 | } |
865 | if( (deltaPhiDecay2 > fDeltaPhiMinCut) && ( deltaPhiDecay2 < fDeltaPhiMaxCut) ) | |
866 | { | |
e7d2373d | 867 | fhZTPi0DecayCharged->Fill(ptDecay2,zTDecay2); |
868 | fhXEPi0DecayCharged->Fill(ptDecay2,xEDecay2); | |
907b38cd | 869 | } |
870 | } | |
871 | else // correlate with neutrals | |
872 | { | |
e7d2373d | 873 | fhDeltaPhiPi0DecayNeutral->Fill(ptDecay1, deltaPhiDecay1); |
874 | fhDeltaPhiPi0DecayNeutral->Fill(ptDecay2, deltaPhiDecay2); | |
907b38cd | 875 | |
2db10729 | 876 | AliDebug(2,Form("deltaPhoton1 = %f, deltaPhoton2 = %f", deltaPhiDecay1, deltaPhiDecay2)); |
907b38cd | 877 | |
878 | if( (deltaPhiDecay1 > fDeltaPhiMinCut) && ( deltaPhiDecay1 < fDeltaPhiMaxCut) ) | |
879 | { | |
e7d2373d | 880 | fhZTPi0DecayNeutral->Fill(ptDecay1,zTDecay1); |
881 | fhXEPi0DecayNeutral->Fill(ptDecay1,xEDecay1); | |
907b38cd | 882 | } |
883 | if( (deltaPhiDecay2 > fDeltaPhiMinCut) && ( deltaPhiDecay2 < fDeltaPhiMaxCut) ) | |
884 | { | |
e7d2373d | 885 | fhZTPi0DecayNeutral->Fill(ptDecay2,zTDecay2); |
886 | fhXEPi0DecayNeutral->Fill(ptDecay2,xEDecay2); | |
907b38cd | 887 | } |
888 | } | |
889 | } | |
890 | ||
907b38cd | 891 | //_____________________________________________________________________________________________________________________________ |
22ad7981 | 892 | void AliAnaParticleHadronCorrelation::FillNeutralUnderlyingEventSidesHistograms(Float_t ptTrig, Float_t ptAssoc, |
fe69395f | 893 | Float_t zT, Float_t hbpZT, |
22ad7981 | 894 | Float_t deltaPhi) |
907b38cd | 895 | { |
6ed1ad3e | 896 | // Fill underlying event histograms to the left of trigger |
897 | // Right is the default case | |
907b38cd | 898 | |
fe69395f | 899 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); |
900 | ||
901 | Float_t xE =-ptAssoc/ptTrig*TMath::Cos(randomphi); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); | |
902 | Float_t hbpXE = -100; | |
903 | if(xE > 0 ) hbpXE = TMath::Log(1./xE); | |
904 | ||
907b38cd | 905 | if((deltaPhi<-fUeDeltaPhiMinCut) && (deltaPhi >-fUeDeltaPhiMaxCut)) |
fe69395f | 906 | { |
907b38cd | 907 | fhDeltaPhiUeLeftNeutral->Fill(ptAssoc, deltaPhi); |
908 | fhXEUeLeftNeutral ->Fill(ptTrig , xE); | |
909 | fhPtHbpXEUeLeftNeutral ->Fill(ptTrig , hbpXE); | |
910 | fhZTUeLeftNeutral ->Fill(ptTrig , zT); | |
911 | fhPtHbpZTUeLeftNeutral ->Fill(ptTrig , hbpZT); | |
912 | } | |
907b38cd | 913 | } |
914 | ||
31864468 | 915 | //______________________________________________________ |
916 | void AliAnaParticleHadronCorrelation::FillEventMixPool() | |
917 | { | |
225ad4bd | 918 | // Fill the pool with tracks or clusters if requested |
31864468 | 919 | |
225ad4bd | 920 | if ( !DoOwnMix() ) return; |
921 | ||
922 | FillChargedEventMixPool(); | |
923 | ||
924 | // Do the cluster pool filling only if requested | |
925 | // or in case of isolation cut using clusters in the cone. | |
926 | Bool_t isoCase = OnlyIsolated() && (GetIsolationCut()->GetParticleTypeInCone() != AliIsolationCut::kOnlyCharged); | |
927 | ||
928 | if( !fFillNeutralEventMixPool && !isoCase) return; | |
31864468 | 929 | |
225ad4bd | 930 | FillNeutralEventMixPool(); |
31864468 | 931 | } |
932 | ||
029dea5a | 933 | //_____________________________________________________________ |
934 | void AliAnaParticleHadronCorrelation::FillChargedEventMixPool() | |
935 | { | |
d07ffd54 | 936 | // Mixed event pool filling for tracks |
31864468 | 937 | |
7ed3a248 | 938 | if(fUseMixStoredInReader && GetReader()->GetLastTracksMixedEvent() == GetEventNumber()) |
939 | { | |
940 | //printf("%s : Pool already filled for this event !!!\n",GetInputAODName().Data()); | |
941 | return ; // pool filled previously for another trigger | |
942 | } | |
943 | ||
029dea5a | 944 | AliAnalysisManager * manager = AliAnalysisManager::GetAnalysisManager(); |
945 | AliInputEventHandler * inputHandler = dynamic_cast<AliInputEventHandler*>(manager->GetInputEventHandler()); | |
946 | ||
c6b4facc | 947 | if(!inputHandler) return ; |
31864468 | 948 | |
d07ffd54 | 949 | // Do mixing only with MB event (or the chosen mask), if not skip |
950 | if( !(inputHandler->IsEventSelected( ) & GetReader()->GetMixEventTriggerMask()) ) return ; | |
951 | ||
d07ffd54 | 952 | Int_t eventBin = GetEventMixBin(); |
953 | ||
954 | //Check that the bin exists, if not (bad determination of RP, centrality or vz bin) do nothing | |
955 | if(eventBin < 0) return; | |
956 | ||
efb540af | 957 | fhEventMBBin->Fill(eventBin); |
958 | ||
d07ffd54 | 959 | TObjArray * mixEventTracks = new TObjArray; |
960 | ||
961 | if(fUseMixStoredInReader) | |
029dea5a | 962 | { |
d07ffd54 | 963 | fListMixTrackEvents[eventBin] = GetReader()->GetListWithMixedEventsForTracks(eventBin); |
964 | } | |
965 | ||
966 | if(!fListMixTrackEvents[eventBin]) fListMixTrackEvents[eventBin] = new TList(); | |
967 | ||
968 | //printf("%s ***** Pool Event bin : %d - nTracks %d\n",GetInputAODName().Data(),eventBin, GetCTSTracks()->GetEntriesFast()); | |
969 | ||
970 | TList * pool = fListMixTrackEvents[eventBin]; | |
971 | ||
d07ffd54 | 972 | for(Int_t ipr = 0;ipr < GetCTSTracks()->GetEntriesFast() ; ipr ++ ) |
973 | { | |
974 | AliVTrack * track = (AliVTrack *) (GetCTSTracks()->At(ipr)) ; | |
029dea5a | 975 | |
349eb23d | 976 | fTrackVector.SetXYZ(track->Px(),track->Py(),track->Pz()); |
977 | Float_t pt = fTrackVector.Pt(); | |
2e876d85 | 978 | |
d07ffd54 | 979 | //Select only hadrons in pt range |
980 | if(pt < fMinAssocPt || pt > fMaxAssocPt) continue ; | |
029dea5a | 981 | |
349eb23d | 982 | AliAODPWG4Particle * mixedTrack = new AliAODPWG4Particle(track->Px(),track->Py(),track->Pz(),0); |
cb67d5f1 | 983 | mixedTrack->SetDetectorTag(kCTS); |
d07ffd54 | 984 | mixedTrack->SetChargedBit(track->Charge()>0); |
985 | mixEventTracks->Add(mixedTrack); | |
986 | } | |
987 | ||
7aaa6c97 | 988 | fhNtracksMB->Fill(mixEventTracks->GetEntriesFast(),eventBin); |
989 | ||
d07ffd54 | 990 | //Set the event number where the last event was added, to avoid double pool filling |
991 | GetReader()->SetLastTracksMixedEvent(GetEventNumber()); | |
992 | ||
993 | //printf("Add event to pool with %d tracks \n ",mixEventTracks->GetEntries()); | |
994 | pool->AddFirst(mixEventTracks); | |
995 | mixEventTracks = 0; | |
996 | ||
997 | //printf("Pool size %d, max %d\n",pool->GetSize(), GetNMaxEvMix()); | |
998 | ||
999 | if(pool->GetSize() > GetNMaxEvMix()) | |
1000 | {//Remove last event | |
1001 | TClonesArray * tmp = static_cast<TClonesArray*>(pool->Last()) ; | |
1002 | pool->RemoveLast() ; | |
1003 | delete tmp ; | |
1004 | } | |
1005 | } | |
1006 | ||
1007 | //_____________________________________________________________ | |
1008 | void AliAnaParticleHadronCorrelation::FillNeutralEventMixPool() | |
1009 | { | |
1010 | // Mixed event pool filling for neutral clusters | |
1011 | // Right now only for EMCAL and in isolation case | |
1012 | ||
1013 | //printf("FillNeutralEventMixPool for %s\n",GetInputAODName().Data()); | |
1014 | ||
1015 | if(fUseMixStoredInReader && GetReader()->GetLastCaloMixedEvent() == GetEventNumber()) | |
1016 | { | |
1017 | //printf("%s : Pool already filled for this event !!!\n",GetInputAODName().Data()); | |
1018 | return ; // pool filled previously for another trigger | |
1019 | } | |
1020 | ||
6bae06a4 | 1021 | TObjArray * pl = GetEMCALClusters(); |
1022 | //if (GetAODObjArrayName.Contains("PHOS") )pl = GetPHOSClusters(); | |
1023 | //else pl = GetEMCALClusters(); | |
1024 | ||
d07ffd54 | 1025 | AliAnalysisManager * manager = AliAnalysisManager::GetAnalysisManager(); |
1026 | AliInputEventHandler * inputHandler = dynamic_cast<AliInputEventHandler*>(manager->GetInputEventHandler()); | |
1027 | ||
1028 | if(!inputHandler) return ; | |
31864468 | 1029 | |
d07ffd54 | 1030 | // Do mixing only with MB event (or the chosen mask), if not skip |
1031 | if( !(inputHandler->IsEventSelected( ) & GetReader()->GetMixEventTriggerMask()) ) return ; | |
1032 | ||
d07ffd54 | 1033 | Int_t eventBin = GetEventMixBin(); |
1034 | ||
1035 | //Check that the bin exists, if not (bad determination of RP, centrality or vz bin) do nothing | |
1036 | if(eventBin < 0) return; | |
1037 | ||
1038 | TObjArray * mixEventCalo = new TObjArray; | |
1039 | ||
1040 | if(fUseMixStoredInReader) | |
1041 | { | |
1042 | fListMixCaloEvents[eventBin] = GetReader()->GetListWithMixedEventsForCalo(eventBin); | |
1043 | } | |
1044 | ||
1045 | if(!fListMixCaloEvents[eventBin]) fListMixCaloEvents[eventBin] = new TList(); | |
1046 | ||
1047 | TList * poolCalo = fListMixCaloEvents[eventBin]; | |
1048 | ||
7aaa6c97 | 1049 | for(Int_t ipr = 0;ipr < pl->GetEntriesFast() ; ipr ++ ) |
d07ffd54 | 1050 | { |
1051 | AliVCluster * calo = (AliVCluster *) (pl->At(ipr)) ; | |
1052 | ||
1053 | // remove matched clusters | |
1054 | if( IsTrackMatched( calo, GetReader()->GetInputEvent() ) ) continue ; | |
283f989c | 1055 | |
2bb7ac98 | 1056 | //Cluster momentum calculation |
d07ffd54 | 1057 | if(GetReader()->GetDataType() != AliCaloTrackReader::kMC) |
283f989c | 1058 | { |
349eb23d | 1059 | calo->GetMomentum(fMomentum,GetVertex(0)) ; |
d07ffd54 | 1060 | }//Assume that come from vertex in straight line |
1061 | else | |
029dea5a | 1062 | { |
d07ffd54 | 1063 | Double_t vertex[]={0,0,0}; |
349eb23d | 1064 | calo->GetMomentum(fMomentum,vertex) ; |
029dea5a | 1065 | } |
1066 | ||
349eb23d | 1067 | Float_t pt = fMomentum.Pt(); |
d07ffd54 | 1068 | //Select only clusters in pt range |
1069 | if(pt < fMinAssocPt || pt > fMaxAssocPt) continue ; | |
2e876d85 | 1070 | |
349eb23d | 1071 | AliAODPWG4Particle * mixedCalo = new AliAODPWG4Particle(fMomentum); |
cb67d5f1 | 1072 | mixedCalo->SetDetectorTag(kEMCAL); |
d07ffd54 | 1073 | mixEventCalo->Add(mixedCalo); |
1074 | } | |
1075 | ||
7aaa6c97 | 1076 | fhNclustersMB->Fill(mixEventCalo->GetEntriesFast(),eventBin); |
1077 | ||
d07ffd54 | 1078 | //Set the event number where the last event was added, to avoid double pool filling |
1079 | GetReader()->SetLastCaloMixedEvent(GetEventNumber()); | |
1080 | ||
1081 | //printf("Add event to pool with %d clusters \n ",mixEventCalo->GetEntries()); | |
1082 | poolCalo->AddFirst(mixEventCalo); | |
1083 | mixEventCalo = 0; | |
1084 | ||
1085 | //printf("Pool size %d, max %d\n",poolCalo->GetSize(), GetNMaxEvMix()); | |
029dea5a | 1086 | |
d07ffd54 | 1087 | if(poolCalo->GetSize() > GetNMaxEvMix()) |
1088 | {//Remove last event | |
1089 | TClonesArray * tmp = static_cast<TClonesArray*>(poolCalo->Last()) ; | |
1090 | poolCalo->RemoveLast() ; | |
1091 | delete tmp ; | |
1092 | } | |
029dea5a | 1093 | } |
1094 | ||
6b013448 | 1095 | //_________________________________________________________________________________________________________________ |
1096 | Bool_t AliAnaParticleHadronCorrelation::FindLeadingOppositeHadronInWindow(AliAODPWG4ParticleCorrelation * particle) | |
1097 | { | |
1098 | // Select events where the leading charged particle in the opposite hemisphere | |
1099 | // to the trigger particle is in a window centered at 180 from the trigger | |
1100 | ||
6b013448 | 1101 | Float_t etaTrig = particle->Eta(); |
1102 | Float_t ptTrig = particle->Pt(); | |
98604e3a | 1103 | Float_t phiTrig = particle->Phi(); |
1104 | if(phiTrig < 0 ) phiTrig+= TMath::TwoPi(); | |
1105 | ||
1106 | Float_t ptLeadHad = 0 ; | |
1107 | Float_t dphiLeadHad= -100 ; | |
6b013448 | 1108 | Float_t phiLeadHad = -100 ; |
1109 | Float_t etaLeadHad = -100 ; | |
98604e3a | 1110 | Int_t nTrack = 0; |
98604e3a | 1111 | |
6b013448 | 1112 | for(Int_t ipr = 0;ipr < GetCTSTracks()->GetEntriesFast() ; ipr ++ ) |
1113 | { | |
1114 | AliVTrack * track = (AliVTrack *) (GetCTSTracks()->At(ipr)) ; | |
1115 | ||
349eb23d | 1116 | fTrackVector.SetXYZ(track->Px(),track->Py(),track->Pz()); |
6b013448 | 1117 | |
349eb23d | 1118 | Float_t pt = fTrackVector.Pt(); |
1119 | Float_t phi = fTrackVector.Phi() ; | |
6b013448 | 1120 | if(phi < 0 ) phi+= TMath::TwoPi(); |
1121 | ||
98604e3a | 1122 | Float_t deltaPhi = phiTrig-phi; |
1123 | // | |
1124 | // Calculate deltaPhi shift so that for the particles on the opposite side | |
1125 | // it is defined between 90 and 270 degrees | |
1126 | // Shift [-360,-90] to [0, 270] | |
1127 | // and [270,360] to [-90,0] | |
1128 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
1129 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
1130 | ||
1131 | if(pt > ptLeadHad && deltaPhi > TMath::PiOver2()) // in opposite hemisphere | |
6b013448 | 1132 | { |
1133 | ptLeadHad = pt ; | |
1134 | phiLeadHad = phi; | |
98604e3a | 1135 | dphiLeadHad= deltaPhi; |
349eb23d | 1136 | etaLeadHad = fTrackVector.Eta(); |
98604e3a | 1137 | nTrack++; |
6b013448 | 1138 | } |
1139 | }// track loop | |
1140 | ||
98604e3a | 1141 | if(fFillLeadHadOppositeHisto) |
1142 | { | |
1143 | if(nTrack == 0) | |
1144 | { | |
1145 | fhPtNoLeadingOppositeHadron ->Fill(ptTrig); | |
1146 | fhEtaPhiNoLeadingOppositeHadron->Fill(etaTrig,phiTrig); | |
1147 | } | |
1148 | else | |
1149 | { | |
1150 | fhPtLeadingOppositeHadron ->Fill(ptTrig, ptLeadHad); | |
1151 | fhPtDiffPhiLeadingOppositeHadron->Fill(ptTrig,dphiLeadHad); | |
1152 | fhPtDiffEtaLeadingOppositeHadron->Fill(ptTrig, etaLeadHad-etaTrig); | |
1153 | } | |
1154 | } | |
6b013448 | 1155 | |
2db10729 | 1156 | |
1157 | AliDebug(1,Form("pT %2.2f, phi %2.2f, eta %2.2f, nTracks away %d, total tracks %d", | |
1158 | ptLeadHad,phiLeadHad*TMath::RadToDeg(),etaLeadHad,nTrack, GetTrackMultiplicity())); | |
1159 | AliDebug(1,Form("\t pT trig %2.2f, Dphi (trigger-hadron) %2.2f, Deta (trigger-hadron) %2.2f", | |
1160 | ptTrig, dphiLeadHad*TMath::RadToDeg(), etaLeadHad-etaTrig)); | |
1161 | AliDebug(1,Form("\t cuts pT: min %2.2f, max %2.2f; DPhi: min %2.2f, max %2.2f", | |
1162 | fMinLeadHadPt,fMaxLeadHadPt,fMinLeadHadPhi*TMath::RadToDeg(),fMaxLeadHadPhi*TMath::RadToDeg())); | |
1163 | ||
6b013448 | 1164 | |
98604e3a | 1165 | // reject the trigger if the leading hadron is not in the requested pt or phi window and |
1166 | ||
1167 | if( nTrack == 0 ) return kFALSE; // No track found in opposite hemisphere | |
1168 | ||
1169 | if( ptLeadHad < fMinLeadHadPt || ptLeadHad > fMaxLeadHadPt ) return kFALSE; | |
6b013448 | 1170 | |
1171 | //printf("Accept leading hadron pT \n"); | |
1172 | ||
98604e3a | 1173 | if( dphiLeadHad < fMinLeadHadPhi || dphiLeadHad > fMaxLeadHadPhi ) return kFALSE; |
6b013448 | 1174 | |
1175 | //printf("Accept leading hadron phi \n"); | |
1176 | ||
98604e3a | 1177 | |
6b013448 | 1178 | return kTRUE ; |
1179 | } | |
1180 | ||
05d0d05d | 1181 | //____________________________________________________________ |
1182 | TObjString* AliAnaParticleHadronCorrelation::GetAnalysisCuts() | |
1183 | { | |
1184 | //Save parameters used for analysis | |
1185 | TString parList ; //this will be list of parameters used for this analysis. | |
1186 | const Int_t buffersize = 560; | |
1187 | char onePar[buffersize] ; | |
1188 | ||
81796cfc | 1189 | snprintf(onePar,buffersize,"--- AliAnaPaticleHadronCorrelation ---:") ; |
05d0d05d | 1190 | parList+=onePar ; |
81796cfc | 1191 | snprintf(onePar,buffersize," %3.2f < Pt associated < %3.2f; ", fMinAssocPt, fMaxAssocPt) ; |
05d0d05d | 1192 | parList+=onePar ; |
81796cfc | 1193 | snprintf(onePar,buffersize," %3.2f < Phi trigger particle-Hadron < %3.2f; ", fDeltaPhiMinCut, fDeltaPhiMaxCut) ; |
05d0d05d | 1194 | parList+=onePar ; |
81796cfc | 1195 | snprintf(onePar,buffersize," %3.2f < Phi trigger particle-UeHadron < %3.2f; ", fUeDeltaPhiMinCut, fUeDeltaPhiMaxCut) ; |
05d0d05d | 1196 | parList+=onePar ; |
81796cfc | 1197 | snprintf(onePar,buffersize,"Isolated Trigger? %d;", fSelectIsolated) ; |
05d0d05d | 1198 | parList+=onePar ; |
81796cfc | 1199 | snprintf(onePar,buffersize,"Several UE? %d;", fMakeSeveralUE) ; |
05d0d05d | 1200 | parList+=onePar ; |
81796cfc | 1201 | snprintf(onePar,buffersize,"Name of AOD Pi0 Branch %s;", fPi0AODBranchName.Data()); |
05d0d05d | 1202 | parList+=onePar ; |
81796cfc | 1203 | snprintf(onePar,buffersize,"Do Decay-hadron correlation ? pi0 %d, decay %d;", fPi0Trigger, fDecayTrigger) ; |
05d0d05d | 1204 | parList+=onePar ; |
81796cfc | 1205 | snprintf(onePar,buffersize,"Select absolute leading for cluster triggers ? %d or Near Side Leading %d;", |
3f150b4b | 1206 | fMakeAbsoluteLeading, fMakeNearSideLeading) ; |
05d0d05d | 1207 | parList+=onePar ; |
1208 | snprintf(onePar,buffersize,"Associated particle pt bins %d: ", fNAssocPtBins) ; | |
1209 | parList+=onePar ; | |
1210 | for (Int_t ibin = 0; ibin<fNAssocPtBins; ibin++) { | |
1211 | snprintf(onePar,buffersize,"bin %d = [%2.1f,%2.1f];", ibin, fAssocPtBinLimit[ibin], fAssocPtBinLimit[ibin+1]) ; | |
1212 | } | |
1213 | parList+=onePar ; | |
1214 | ||
1215 | //Get parameters set in base class. | |
1216 | parList += GetBaseParametersList() ; | |
1217 | ||
05d0d05d | 1218 | //Get parameters set in FiducialCut class (not available yet) |
1219 | //parlist += GetFidCut()->GetFidCutParametersList() | |
1220 | ||
1221 | return new TObjString(parList) ; | |
1222 | ||
1223 | } | |
1224 | ||
1225 | //________________________________________________________________ | |
e09cf5ef | 1226 | TList * AliAnaParticleHadronCorrelation::GetCreateOutputObjects() |
c8ad7ead | 1227 | { |
c8ad7ead | 1228 | // Create histograms to be saved in output file and |
e09cf5ef | 1229 | // store them in fOutputContainer |
029dea5a | 1230 | |
c8ad7ead | 1231 | TList * outputContainer = new TList() ; |
1232 | outputContainer->SetName("CorrelationHistos") ; | |
e09cf5ef | 1233 | |
7aaa6c97 | 1234 | Int_t nptbins = GetHistogramRanges()->GetHistoPtBins(); Int_t nphibins = GetHistogramRanges()->GetHistoPhiBins(); Int_t netabins = GetHistogramRanges()->GetHistoEtaBins(); |
1235 | Float_t ptmax = GetHistogramRanges()->GetHistoPtMax(); Float_t phimax = GetHistogramRanges()->GetHistoPhiMax(); Float_t etamax = GetHistogramRanges()->GetHistoEtaMax(); | |
1236 | Float_t ptmin = GetHistogramRanges()->GetHistoPtMin(); Float_t phimin = GetHistogramRanges()->GetHistoPhiMin(); Float_t etamin = GetHistogramRanges()->GetHistoEtaMin(); | |
1237 | ||
1238 | Int_t ndeltaphibins = GetHistogramRanges()->GetHistoDeltaPhiBins(); Int_t ndeltaetabins = GetHistogramRanges()->GetHistoDeltaEtaBins(); | |
1239 | Float_t deltaphimax = GetHistogramRanges()->GetHistoDeltaPhiMax(); Float_t deltaetamax = GetHistogramRanges()->GetHistoDeltaEtaMax(); | |
1240 | Float_t deltaphimin = GetHistogramRanges()->GetHistoDeltaPhiMin(); Float_t deltaetamin = GetHistogramRanges()->GetHistoDeltaEtaMin(); | |
1241 | ||
1242 | Int_t ntrbins = GetHistogramRanges()->GetHistoTrackMultiplicityBins(); Int_t nclbins = GetHistogramRanges()->GetHistoNClustersBins(); | |
1243 | Int_t trmax = GetHistogramRanges()->GetHistoTrackMultiplicityMax(); Int_t clmax = GetHistogramRanges()->GetHistoNClustersMax(); | |
1244 | Int_t trmin = GetHistogramRanges()->GetHistoTrackMultiplicityMin(); Int_t clmin = GetHistogramRanges()->GetHistoNClustersMin(); | |
1245 | ||
1246 | Int_t nxeztbins = GetHistogramRanges()->GetHistoRatioBins(); Int_t nhbpbins = GetHistogramRanges()->GetHistoHBPBins(); | |
1247 | Float_t xeztmax = GetHistogramRanges()->GetHistoRatioMax(); Float_t hbpmax = GetHistogramRanges()->GetHistoHBPMax(); | |
1248 | Float_t xeztmin = GetHistogramRanges()->GetHistoRatioMin(); Float_t hbpmin = GetHistogramRanges()->GetHistoHBPMin(); | |
e09cf5ef | 1249 | |
d0b625bc | 1250 | Int_t nMixBins = GetNCentrBin()*GetNZvertBin()*GetNRPBin(); |
1251 | ||
4a296f4a | 1252 | TString nameMC[] = {"Photon","Pi0","Pi0Decay","EtaDecay","OtherDecay","Electron","Hadron","Pi0DecayLostPair"}; |
17af6e24 | 1253 | TString pileUpName[] = {"SPD","EMCAL","SPDOrEMCAL","SPDAndEMCAL","SPDAndNotEMCAL","EMCALAndNotSPD","NotSPDAndNotEMCAL"} ; |
c8ad7ead | 1254 | |
7d306daf | 1255 | // For vz dependent histograms, if option ON |
1256 | Int_t nz = 1 ; | |
1257 | if(fCorrelVzBin) nz = GetNZvertBin(); | |
1258 | TString sz = "" ; | |
1259 | TString tz = "" ; | |
1260 | ||
de9949a4 | 1261 | // Fill histograms for neutral clusters in mixing? |
1262 | Bool_t isoCase = OnlyIsolated() && (GetIsolationCut()->GetParticleTypeInCone() != AliIsolationCut::kOnlyCharged); | |
1263 | Bool_t neutralMix = fFillNeutralEventMixPool || isoCase ; | |
1264 | ||
55c20a99 | 1265 | fhPtTriggerInput = new TH1F("hPtTriggerInput","Input trigger #it{p}_{T}", nptbins,ptmin,ptmax); |
bef61a43 | 1266 | fhPtTriggerInput->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); |
1267 | outputContainer->Add(fhPtTriggerInput); | |
c8ad7ead | 1268 | |
bef61a43 | 1269 | if( fM02MaxCut > 0 && fM02MinCut > 0 ) |
1270 | { | |
1271 | fhPtTriggerSSCut = new TH1F("hPtTriggerSSCut","Trigger #it{p}_{T} after #lambda^{2}_{0} cut", nptbins,ptmin,ptmax); | |
1272 | fhPtTriggerSSCut->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1273 | outputContainer->Add(fhPtTriggerSSCut); | |
1274 | } | |
1275 | ||
1276 | if( OnlyIsolated() ) | |
1277 | { | |
6c9e3fb5 | 1278 | fhPtTriggerIsoCut = new TH1F("hPtTriggerIsoCut","Trigger #it{p}_{T} after isolation (and #lambda^{2}_{0} cut)", nptbins,ptmin,ptmax); |
bef61a43 | 1279 | fhPtTriggerIsoCut->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); |
1280 | outputContainer->Add(fhPtTriggerIsoCut); | |
1281 | } | |
1282 | ||
1283 | fhPtTriggerFidCut = new TH1F("hPtTriggerFidCut","Trigger #it{p}_{T} after fiducial (isolation and #lambda^{2}_{0}) cut", nptbins,ptmin,ptmax); | |
1284 | fhPtTriggerFidCut->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1285 | outputContainer->Add(fhPtTriggerFidCut); | |
c8ad7ead | 1286 | |
6c9e3fb5 | 1287 | fhPtTrigger = new TH1F("hPtTrigger","#it{p}_{T} distribution of trigger particles (after opposite hadron leading cut and rest)", nptbins,ptmin,ptmax); |
55c20a99 | 1288 | fhPtTrigger->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); |
1289 | outputContainer->Add(fhPtTrigger); | |
c8ad7ead | 1290 | |
764ab1f4 | 1291 | if(IsDataMC()) |
1292 | { | |
0ff0cd12 | 1293 | for(Int_t i=0; i < fgkNmcTypes; i++) |
764ab1f4 | 1294 | { |
55c20a99 | 1295 | fhPtTriggerMC[i] = new TH1F(Form("hPtTrigger_MC%s",nameMC[i].Data()), |
1296 | Form("#it{p}_{T} distribution of trigger particles, trigger origin is %s",nameMC[i].Data()), | |
c8ad7ead | 1297 | nptbins,ptmin,ptmax); |
55c20a99 | 1298 | fhPtTriggerMC[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); |
1299 | outputContainer->Add(fhPtTriggerMC[i]); | |
764ab1f4 | 1300 | } |
1301 | } | |
1302 | ||
48c5da66 | 1303 | if(fDecayTrigger) |
1304 | { | |
1305 | for(Int_t ibit = 0; ibit < fNDecayBits; ibit++) | |
1306 | { | |
1307 | fhPtDecayTrigger[ibit] = new TH1F(Form("hPtDecayTrigger_bit%d",fDecayBits[ibit]), | |
1308 | Form("#it{p}_{T} distribution of trigger particles, decay Bit %d",fDecayBits[ibit]), | |
1309 | nptbins,ptmin,ptmax); | |
1310 | fhPtDecayTrigger[ibit]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1311 | outputContainer->Add(fhPtDecayTrigger[ibit]); | |
1312 | ||
1313 | if(IsDataMC()) | |
1314 | { | |
0ff0cd12 | 1315 | for(Int_t i=0; i < fgkNmcTypes; i++) |
48c5da66 | 1316 | { |
1317 | fhPtDecayTriggerMC[ibit][i] = new TH1F(Form("hPtDecayTrigger_bit%d_MC%s",fDecayBits[ibit], nameMC[i].Data()), | |
1318 | Form("#it{p}_{T} distribution of trigger particles, decay Bit %d, trigger origin is %s",fDecayBits[ibit], nameMC[i].Data()), | |
1319 | nptbins,ptmin,ptmax); | |
1320 | fhPtDecayTriggerMC[ibit][i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1321 | outputContainer->Add(fhPtDecayTriggerMC[ibit][i]); | |
1322 | } | |
1323 | } | |
1324 | } | |
1325 | } | |
1326 | ||
7d306daf | 1327 | if(fCorrelVzBin) |
1328 | { | |
55c20a99 | 1329 | fhPtTriggerVzBin = new TH2F("hPtTriggerVzBin","#it{p}_{T} distribution of trigger particles vs vz bin", nptbins,ptmin,ptmax,GetNZvertBin(),0,GetNZvertBin()); |
1330 | fhPtTriggerVzBin->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1331 | fhPtTriggerVzBin->SetYTitle("#it{v}_{#it{z}} bin"); | |
1332 | outputContainer->Add(fhPtTriggerVzBin); | |
7d306daf | 1333 | } |
1334 | ||
55c20a99 | 1335 | fhPtTriggerBin = new TH2F ("hPtTriggerBin","#it{p}_{T} distribution of trigger particles", nptbins,ptmin,ptmax,nMixBins,0,nMixBins); |
1336 | fhPtTriggerBin->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1337 | fhPtTriggerBin->SetYTitle("Bin"); | |
1338 | outputContainer->Add(fhPtTriggerBin); | |
c8ad7ead | 1339 | |
55c20a99 | 1340 | fhPhiTrigger = new TH2F ("hPhiTrigger","#phi distribution of trigger Particles",nptbins,ptmin,ptmax, nphibins,phimin,phimax); |
1341 | fhPhiTrigger->SetYTitle("#phi (rad)"); | |
1342 | outputContainer->Add(fhPhiTrigger); | |
c8ad7ead | 1343 | |
55c20a99 | 1344 | fhEtaTrigger = new TH2F ("hEtaTrigger","#eta distribution of trigger",nptbins,ptmin,ptmax, netabins,etamin,etamax); |
1345 | fhEtaTrigger->SetYTitle("#eta "); | |
1346 | outputContainer->Add(fhEtaTrigger); | |
e09cf5ef | 1347 | |
0cea6003 | 1348 | if(IsHighMultiplicityAnalysisOn()) |
b6afb6b1 | 1349 | { |
1350 | fhPtTriggerCentrality = new TH2F("hPtTriggerCentrality","Trigger particle #it{p}_{T} vs centrality",nptbins,ptmin,ptmax,100,0.,100) ; | |
1351 | fhPtTriggerCentrality->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1352 | fhPtTriggerCentrality->SetYTitle("Centrality (%)"); | |
1353 | outputContainer->Add(fhPtTriggerCentrality) ; | |
1354 | ||
1355 | fhPtTriggerEventPlane = new TH2F("hPtTriggerEventPlane","Trigger particle #it{p}_{T} vs event plane angle",nptbins,ptmin,ptmax, 100,0.,TMath::Pi()) ; | |
1356 | fhPtTriggerEventPlane->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1357 | fhPtTriggerEventPlane->SetXTitle("EP angle (rad)"); | |
1358 | outputContainer->Add(fhPtTriggerEventPlane) ; | |
1359 | ||
1360 | fhTriggerEventPlaneCentrality = new TH2F("hTriggerEventPlaneCentrality","Trigger particle centrality vs event plane angle",100,0.,100,100,0.,TMath::Pi()) ; | |
1361 | fhTriggerEventPlaneCentrality->SetXTitle("Centrality (%)"); | |
1362 | fhTriggerEventPlaneCentrality->SetYTitle("EP angle (rad)"); | |
1363 | outputContainer->Add(fhTriggerEventPlaneCentrality) ; | |
1364 | } | |
a22f3f34 | 1365 | |
55c20a99 | 1366 | // Leading hadron in oposite side |
98604e3a | 1367 | if(fFillLeadHadOppositeHisto) |
55c20a99 | 1368 | { |
1369 | fhPtLeadingOppositeHadron = new TH2F("hPtTriggerPtLeadingOppositeHadron","Leading hadron opposite to trigger vs trigger #it{p}_{T}", | |
1370 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1371 | fhPtLeadingOppositeHadron->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1372 | fhPtLeadingOppositeHadron->SetYTitle("#it{p}_{T}^{lead hadron} (GeV/#it{c})"); | |
1373 | outputContainer->Add(fhPtLeadingOppositeHadron); | |
98604e3a | 1374 | |
1375 | fhPtNoLeadingOppositeHadron = new TH1F("hPtTriggerNoLeadingOppositeHadron","No Leading hadron opposite to trigger #it{p}_{T}", | |
1376 | nptbins,ptmin,ptmax); | |
1377 | fhPtNoLeadingOppositeHadron->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1378 | outputContainer->Add(fhPtNoLeadingOppositeHadron); | |
1379 | ||
1380 | fhEtaPhiNoLeadingOppositeHadron = new TH2F("hEtaPhiTriggerNoLeadingOppositeHadron","No Leading hadron opposite to trigger #eta:#phi", | |
1381 | netabins,etamin,etamax,nphibins,phimin,phimax); | |
1382 | fhEtaPhiNoLeadingOppositeHadron->SetXTitle("#eta"); | |
1383 | fhEtaPhiNoLeadingOppositeHadron->SetYTitle("#phi"); | |
1384 | outputContainer->Add(fhEtaPhiNoLeadingOppositeHadron); | |
1385 | ||
55c20a99 | 1386 | |
1387 | fhPtDiffPhiLeadingOppositeHadron = new TH2F("hPtTriggerDiffPhiTriggerLeadingOppositeHadron","#phi_{trigger}-#phi_{leading opposite hadron} vs #it{p}_{T}^{trig}", | |
98604e3a | 1388 | nptbins,ptmin,ptmax,ndeltaphibins,deltaphimin,deltaphimax); |
55c20a99 | 1389 | fhPtDiffPhiLeadingOppositeHadron->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); |
1390 | fhPtDiffPhiLeadingOppositeHadron->SetYTitle("#phi_{trigger}-#phi_{leading opposite hadron} (rad)"); | |
1391 | outputContainer->Add(fhPtDiffPhiLeadingOppositeHadron); | |
1392 | ||
1393 | fhPtDiffEtaLeadingOppositeHadron = new TH2F("hPtTriggerDiffEtaTriggerPhiLeadingOppositeHadron","#eta_{trigger}-#eta_{leading opposite hadron} vs #it{p}_{T}^{trig}", | |
1394 | nptbins,ptmin,ptmax,ndeltaetabins,deltaetamin,deltaetamax); | |
1395 | fhPtDiffEtaLeadingOppositeHadron->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1396 | fhPtDiffEtaLeadingOppositeHadron->SetYTitle("#eta_{trigger}-#eta_{leading opposite hadron}"); | |
1397 | outputContainer->Add(fhPtDiffEtaLeadingOppositeHadron); | |
1398 | } | |
68cd2624 | 1399 | |
e09cf5ef | 1400 | //Correlation with charged hadrons |
c8ad7ead | 1401 | |
1402 | fhDeltaPhiDeltaEtaCharged = new TH2F | |
1403 | ("hDeltaPhiDeltaEtaCharged","#eta_{trigger} - #eta_{h^{#pm}} vs #phi_{trigger} - #phi_{h^{#pm}}", | |
1404 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins,deltaetamin,deltaetamax); | |
1405 | fhDeltaPhiDeltaEtaCharged->SetXTitle("#Delta #phi (rad)"); | |
1406 | fhDeltaPhiDeltaEtaCharged->SetYTitle("#Delta #eta"); | |
1407 | ||
1408 | fhDeltaPhiDeltaEtaChargedPtA3GeV = new TH2F | |
1409 | ("hDeltaPhiDeltaEtaChargedPtA3GeV","#eta_{trigger} - #eta_{h^{#pm}} vs #phi_{trigger} - #phi_{h^{#pm}, #it{p}_{TA}>3 GeV/#it{c}}", | |
1410 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins,deltaetamin,deltaetamax); | |
1411 | fhDeltaPhiDeltaEtaChargedPtA3GeV->SetXTitle("#Delta #phi (rad)"); | |
1412 | fhDeltaPhiDeltaEtaChargedPtA3GeV->SetYTitle("#Delta #eta"); | |
1413 | ||
1414 | fhPhiCharged = new TH2F | |
1415 | ("hPhiCharged","#phi_{h^{#pm}} vs #it{p}_{T #pm}", | |
2af40966 | 1416 | nptbins,ptmin,ptmax,180,0,TMath::TwoPi()); |
c8ad7ead | 1417 | fhPhiCharged->SetYTitle("#phi_{h^{#pm}} (rad)"); |
1418 | fhPhiCharged->SetXTitle("#it{p}_{T #pm} (GeV/#it{c})"); | |
1419 | ||
1420 | fhEtaCharged = new TH2F | |
1421 | ("hEtaCharged","#eta_{h^{#pm}} vs #it{p}_{T #pm}", | |
2af40966 | 1422 | nptbins,ptmin,ptmax,100,-1.,1.); |
c8ad7ead | 1423 | fhEtaCharged->SetYTitle("#eta_{h^{#pm}} (rad)"); |
1424 | fhEtaCharged->SetXTitle("#it{p}_{T #pm} (GeV/#it{c})"); | |
1425 | ||
1426 | fhDeltaPhiCharged = new TH2F | |
1427 | ("hDeltaPhiCharged","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}", | |
1428 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1429 | fhDeltaPhiCharged->SetYTitle("#Delta #phi (rad)"); | |
1430 | fhDeltaPhiCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1431 | ||
1432 | fhDeltaPhiChargedPtA3GeV = new TH2F | |
1433 | ("hDeltaPhiChargedPtA3GeV","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}", | |
1434 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1435 | fhDeltaPhiChargedPtA3GeV->SetYTitle("#Delta #phi (rad)"); | |
1436 | fhDeltaPhiChargedPtA3GeV->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1437 | ||
1438 | ||
1439 | fhDeltaPhiChargedPt = new TH2F | |
1440 | ("hDeltaPhiChargedPt","#phi_{trigger} - #phi_{#h^{#pm}} vs #it{p}_{T h^{#pm}}", | |
1441 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1442 | fhDeltaPhiChargedPt->SetYTitle("#Delta #phi (rad)"); | |
1443 | fhDeltaPhiChargedPt->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1444 | ||
c8ad7ead | 1445 | fhDeltaEtaCharged = new TH2F |
1446 | ("hDeltaEtaCharged","#eta_{trigger} - #eta_{h^{#pm}} vs #it{p}_{T trigger}", | |
1447 | nptbins,ptmin,ptmax,ndeltaetabins,deltaetamin,deltaetamax); | |
1448 | fhDeltaEtaCharged->SetYTitle("#Delta #eta"); | |
1449 | fhDeltaEtaCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1450 | ||
1451 | fhDeltaEtaChargedPtA3GeV = new TH2F | |
1452 | ("hDeltaEtaChargedPtA3GeV","#eta_{trigger} - #eta_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}", | |
1453 | nptbins,ptmin,ptmax,ndeltaetabins,deltaetamin,deltaetamax); | |
1454 | fhDeltaEtaChargedPtA3GeV->SetYTitle("#Delta #eta"); | |
1455 | fhDeltaEtaChargedPtA3GeV->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1456 | ||
1457 | fhXECharged = | |
1458 | new TH2F("hXECharged","#it{x}_{#it{E}} for charged tracks", | |
7aaa6c97 | 1459 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1460 | fhXECharged->SetYTitle("#it{x}_{#it{E}}"); |
1461 | fhXECharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1462 | ||
1463 | fhXECharged_Cone2 = | |
1464 | new TH2F("hXECharged_Cone2","#it{x}_{#it{E}} for charged tracks in cone 2 (5#pi/6-7#pi/6)", | |
7aaa6c97 | 1465 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1466 | fhXECharged_Cone2->SetYTitle("#it{x}_{#it{E}}"); |
1467 | fhXECharged_Cone2->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1468 | ||
c8ad7ead | 1469 | fhXEPosCharged = |
1470 | new TH2F("hXEPositiveCharged","#it{x}_{#it{E}} for positive charged tracks", | |
7aaa6c97 | 1471 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1472 | fhXEPosCharged->SetYTitle("#it{x}_{#it{E}}"); |
1473 | fhXEPosCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1474 | ||
1475 | fhXENegCharged = | |
1476 | new TH2F("hXENegativeCharged","#it{x}_{#it{E}} for negative charged tracks", | |
7aaa6c97 | 1477 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1478 | fhXENegCharged->SetYTitle("#it{x}_{#it{E}}"); |
1479 | fhXENegCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1480 | ||
1481 | fhPtHbpXECharged = | |
1482 | new TH2F("hHbpXECharged","#xi = ln(1/#it{x}_{#it{E}}) with charged hadrons", | |
7aaa6c97 | 1483 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
c8ad7ead | 1484 | fhPtHbpXECharged->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
1485 | fhPtHbpXECharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1486 | ||
1487 | fhPtHbpXECharged_Cone2 = | |
1488 | new TH2F("hHbpXECharged_Cone2","#xi = ln(1/#it{x}_{#it{E}}) with charged hadrons in cone 2 (5#pi/6-7#pi/6)", | |
7aaa6c97 | 1489 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
c8ad7ead | 1490 | fhPtHbpXECharged_Cone2->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
1491 | fhPtHbpXECharged_Cone2->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1492 | ||
c8ad7ead | 1493 | fhZTCharged = |
1494 | new TH2F("hZTCharged","#it{z}_{T} for charged tracks", | |
7aaa6c97 | 1495 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1496 | fhZTCharged->SetYTitle("#it{z}_{T}"); |
1497 | fhZTCharged->SetXTitle("#it{p}_{T trigger}"); | |
1498 | ||
c8ad7ead | 1499 | fhZTPosCharged = |
1500 | new TH2F("hZTPositiveCharged","#it{z}_{T} for positive charged tracks", | |
7aaa6c97 | 1501 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1502 | fhZTPosCharged->SetYTitle("#it{z}_{T}"); |
1503 | fhZTPosCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1504 | ||
1505 | fhZTNegCharged = | |
1506 | new TH2F("hZTNegativeCharged","#it{z}_{T} for negative charged tracks", | |
7aaa6c97 | 1507 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1508 | fhZTNegCharged->SetYTitle("#it{z}_{T}"); |
1509 | fhZTNegCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1510 | ||
1511 | fhPtHbpZTCharged = | |
1512 | new TH2F("hHbpZTCharged","#xi = ln(1/#it{z}_{T}) with charged hadrons", | |
7aaa6c97 | 1513 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
c8ad7ead | 1514 | fhPtHbpZTCharged->SetYTitle("ln(1/#it{z}_{T})"); |
1515 | fhPtHbpZTCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1516 | ||
c8ad7ead | 1517 | fhPtTrigPout = |
1518 | new TH2F("hPtTrigPout","Pout with triggers", | |
441f378e | 1519 | nptbins,ptmin,ptmax,nptbins,-1.*ptmax/2.,ptmax/2.); |
c8ad7ead | 1520 | fhPtTrigPout->SetYTitle("#it{p}_{out} (GeV/#it{c})"); |
1521 | fhPtTrigPout->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1522 | ||
1523 | fhPtTrigCharged = | |
1524 | new TH2F("hPtTrigCharged","trigger and charged tracks pt distribution", | |
1525 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1526 | fhPtTrigCharged->SetYTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1527 | fhPtTrigCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1528 | ||
1529 | outputContainer->Add(fhDeltaPhiDeltaEtaCharged); | |
1530 | outputContainer->Add(fhDeltaPhiDeltaEtaChargedPtA3GeV); | |
1531 | outputContainer->Add(fhPhiCharged) ; | |
1532 | outputContainer->Add(fhEtaCharged) ; | |
1533 | outputContainer->Add(fhDeltaPhiCharged) ; | |
1534 | outputContainer->Add(fhDeltaPhiChargedPtA3GeV) ; | |
1535 | outputContainer->Add(fhDeltaEtaCharged) ; | |
1536 | outputContainer->Add(fhDeltaEtaChargedPtA3GeV) ; | |
1537 | outputContainer->Add(fhDeltaPhiChargedPt) ; | |
c8ad7ead | 1538 | |
1539 | outputContainer->Add(fhXECharged) ; | |
1540 | outputContainer->Add(fhXECharged_Cone2) ; | |
6ed1ad3e | 1541 | |
c8ad7ead | 1542 | if(IsDataMC()) |
547c2f01 | 1543 | { |
0ff0cd12 | 1544 | for(Int_t i=0; i < fgkNmcTypes; i++) |
c8ad7ead | 1545 | { |
1546 | ||
1547 | fhDeltaPhiChargedMC[i] = new TH2F(Form("hDeltaPhiCharged_MC%s",nameMC[i].Data()), | |
1548 | Form("#Delta #phi for charged tracks, trigger origin is %s",nameMC[i].Data()), | |
1549 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); | |
1550 | fhDeltaPhiChargedMC[i]->SetYTitle("#it{x}_{#it{E}}"); | |
1551 | fhDeltaPhiChargedMC[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1552 | outputContainer->Add(fhDeltaPhiChargedMC[i]) ; | |
1553 | ||
1554 | fhXEChargedMC[i] = new TH2F(Form("hXECharged_MC%s",nameMC[i].Data()), | |
1555 | Form("#it{x}_{#it{E}} for charged tracks, trigger origin is %s",nameMC[i].Data()), | |
7aaa6c97 | 1556 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1557 | fhXEChargedMC[i]->SetYTitle("#it{x}_{#it{E}}"); |
1558 | fhXEChargedMC[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1559 | outputContainer->Add(fhXEChargedMC[i]) ; | |
1560 | } | |
1561 | } | |
1562 | ||
1563 | outputContainer->Add(fhXEPosCharged) ; | |
1564 | outputContainer->Add(fhXENegCharged) ; | |
c8ad7ead | 1565 | outputContainer->Add(fhPtHbpXECharged) ; |
1566 | outputContainer->Add(fhPtHbpXECharged_Cone2) ; | |
c8ad7ead | 1567 | |
1568 | outputContainer->Add(fhZTCharged) ; | |
1569 | outputContainer->Add(fhZTPosCharged) ; | |
1570 | outputContainer->Add(fhZTNegCharged) ; | |
c8ad7ead | 1571 | outputContainer->Add(fhPtHbpZTCharged) ; |
c8ad7ead | 1572 | |
1573 | outputContainer->Add(fhPtTrigPout) ; | |
1574 | outputContainer->Add(fhPtTrigCharged) ; | |
1575 | ||
6ed1ad3e | 1576 | TString right = ""; |
1577 | if(fMakeSeveralUE) right = "Right"; | |
1578 | ||
1579 | fhUePart = new TH1F("hUePart","UE particles distribution vs pt trig", | |
1580 | nptbins,ptmin,ptmax); | |
1581 | fhUePart->SetYTitle("dNch"); | |
1582 | fhUePart->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1583 | ||
1584 | fhDeltaPhiUeChargedPt = new TH2F | |
1585 | (Form("hDeltaPhiUe%sChargedPt",right.Data()),"#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}}", | |
1586 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1587 | fhDeltaPhiUeChargedPt->SetYTitle("#Delta #phi (rad)"); | |
1588 | fhDeltaPhiUeChargedPt->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1589 | ||
1590 | fhXEUeCharged = | |
1591 | new TH2F(Form("hXEUeCharged%s",right.Data()),"#it{x}_{#it{E}} for Underlying Event", | |
7aaa6c97 | 1592 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1593 | fhXEUeCharged->SetYTitle("#it{x}_{#it{E}}"); |
1594 | fhXEUeCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1595 | ||
1596 | fhPtHbpXEUeCharged = | |
1597 | new TH2F(Form("hHbpXEUeCharged%s",right.Data()),"#xi = ln(1/#it{x}_{#it{E}}) for Underlying Event", | |
7aaa6c97 | 1598 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 1599 | fhPtHbpXEUeCharged->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
1600 | fhPtHbpXEUeCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1601 | ||
1602 | fhZTUeCharged = | |
1603 | new TH2F(Form("hZTUeCharged%s",right.Data()),"#it{z}_{T} for Underlying Event", | |
7aaa6c97 | 1604 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1605 | fhZTUeCharged->SetYTitle("#it{z}_{T}"); |
1606 | fhZTUeCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1607 | ||
1608 | fhPtHbpZTUeCharged = | |
1609 | new TH2F(Form("hHbpZTUeCharged%s",right.Data()),"#xi = ln(1/#it{z}_{T}) for Underlying Event", | |
7aaa6c97 | 1610 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 1611 | fhPtHbpZTUeCharged->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
1612 | fhPtHbpZTUeCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1613 | ||
1614 | outputContainer->Add(fhUePart); | |
1615 | outputContainer->Add(fhDeltaPhiUeChargedPt) ; | |
1616 | outputContainer->Add(fhXEUeCharged) ; | |
1617 | outputContainer->Add(fhPtHbpXEUeCharged) ; | |
1618 | outputContainer->Add(fhZTUeCharged) ; | |
1619 | outputContainer->Add(fhPtHbpZTUeCharged) ; | |
1620 | ||
1621 | if(fMakeSeveralUE) | |
1622 | { | |
1623 | fhDeltaPhiUeLeftCharged = new TH2F | |
1624 | ("hDeltaPhiUeLeftChargedPt","#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}} with UE left side range of trigger particles", | |
1625 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1626 | fhDeltaPhiUeLeftCharged->SetYTitle("#Delta #phi (rad)"); | |
1627 | fhDeltaPhiUeLeftCharged->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1628 | outputContainer->Add(fhDeltaPhiUeLeftCharged) ; | |
1629 | ||
1630 | fhDeltaPhiUeLeftUpCharged = new TH2F | |
1631 | ("hDeltaPhiUeLeftUpChargedPt","#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}} with UE left Up side range of trigger particles", | |
1632 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1633 | fhDeltaPhiUeLeftUpCharged->SetYTitle("#Delta #phi (rad)"); | |
1634 | fhDeltaPhiUeLeftUpCharged->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1635 | outputContainer->Add(fhDeltaPhiUeLeftUpCharged) ; | |
1636 | ||
1637 | fhDeltaPhiUeRightUpCharged = new TH2F | |
1638 | ("hDeltaPhiUeRightUpChargedPt","#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}} with UE right Up side range of trigger particles", | |
1639 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1640 | fhDeltaPhiUeRightUpCharged->SetYTitle("#Delta #phi (rad)"); | |
1641 | fhDeltaPhiUeRightUpCharged->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1642 | outputContainer->Add(fhDeltaPhiUeRightUpCharged) ; | |
1643 | ||
1644 | fhDeltaPhiUeLeftDownCharged = new TH2F | |
1645 | ("hDeltaPhiUeLeftDownChargedPt","#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}} with UE left Down side range of trigger particles", | |
1646 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1647 | fhDeltaPhiUeLeftDownCharged->SetYTitle("#Delta #phi (rad)"); | |
1648 | fhDeltaPhiUeLeftDownCharged->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1649 | outputContainer->Add(fhDeltaPhiUeLeftDownCharged) ; | |
1650 | ||
1651 | fhDeltaPhiUeRightDownCharged = new TH2F | |
1652 | ("hDeltaPhiUeRightDownChargedPt","#phi_{trigger} - #phi_{#Ueh^{#pm}} vs #it{p}_{T Ueh^{#pm}} with UE right Down side range of trigger particles", | |
1653 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1654 | fhDeltaPhiUeRightDownCharged->SetYTitle("#Delta #phi (rad)"); | |
1655 | fhDeltaPhiUeRightDownCharged->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1656 | outputContainer->Add(fhDeltaPhiUeRightDownCharged) ; | |
1657 | ||
1658 | fhXEUeLeftCharged = | |
1659 | new TH2F("hXEUeChargedLeft","#it{x}_{#it{E}} with UE left side of trigger", | |
7aaa6c97 | 1660 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1661 | fhXEUeLeftCharged->SetYTitle("#it{x}_{#it{E} Ueh^{#pm}}"); |
1662 | fhXEUeLeftCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1663 | outputContainer->Add(fhXEUeLeftCharged) ; | |
1664 | ||
1665 | fhXEUeLeftUpCharged = | |
1666 | new TH2F("hXEUeChargedLeftUp","#it{x}_{#it{E}} with UE left Up side of trigger", | |
7aaa6c97 | 1667 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1668 | fhXEUeLeftUpCharged->SetYTitle("#it{x}_{#it{E} Ueh^{#pm}}"); |
1669 | fhXEUeLeftUpCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1670 | outputContainer->Add(fhXEUeLeftUpCharged) ; | |
1671 | ||
1672 | fhXEUeRightUpCharged = | |
1673 | new TH2F("hXEUeChargedRightUp","#it{x}_{#it{E} h^{#pm}} with UE right Up side of trigger", | |
7aaa6c97 | 1674 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1675 | fhXEUeRightUpCharged->SetYTitle("#it{z}_{trigger Ueh^{#pm}}"); |
1676 | fhXEUeRightUpCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1677 | outputContainer->Add(fhXEUeRightUpCharged) ; | |
1678 | ||
1679 | fhXEUeLeftDownCharged = | |
1680 | new TH2F("hXEUeChargedLeftDown","#it{x}_{#it{E}} with UE left Down side of trigger", | |
7aaa6c97 | 1681 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1682 | fhXEUeLeftDownCharged->SetYTitle("#it{x}_{#it{E} Ueh^{#pm}}"); |
1683 | fhXEUeLeftDownCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1684 | outputContainer->Add(fhXEUeLeftDownCharged) ; | |
1685 | ||
1686 | fhXEUeRightDownCharged = | |
1687 | new TH2F("hXEUeChargedRightDown","#it{x}_{#it{E} h^{#pm}} with UE right Down side of trigger", | |
7aaa6c97 | 1688 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1689 | fhXEUeRightDownCharged->SetYTitle("#it{z}_{trigger Ueh^{#pm}}"); |
1690 | fhXEUeRightDownCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1691 | outputContainer->Add(fhXEUeRightDownCharged) ; | |
1692 | ||
1693 | fhPtHbpXEUeLeftCharged = | |
1694 | new TH2F("hHbpXEUeChargedLeft","#xi = ln(1/#it{x}_{#it{E}}) with charged UE left side of trigger", | |
7aaa6c97 | 1695 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 1696 | fhPtHbpXEUeLeftCharged->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
1697 | fhPtHbpXEUeLeftCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1698 | outputContainer->Add(fhPtHbpXEUeLeftCharged) ; | |
1699 | ||
1700 | fhZTUeLeftCharged = | |
1701 | new TH2F("hZTUeChargedLeft","#it{z}_{trigger h^{#pm}} = #it{p}_{T Ueh^{#pm}} / #it{p}_{T trigger} with UE left side of trigger", | |
7aaa6c97 | 1702 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 1703 | fhZTUeLeftCharged->SetYTitle("#it{z}_{trigger Ueh^{#pm}}"); |
1704 | fhZTUeLeftCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1705 | outputContainer->Add(fhZTUeLeftCharged) ; | |
1706 | ||
1707 | fhPtHbpZTUeLeftCharged = | |
1708 | new TH2F("hHbpZTUeChargedLeft","#xi = ln(1/#it{z}_{T}) with charged UE left side of trigger", | |
7aaa6c97 | 1709 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 1710 | fhPtHbpZTUeLeftCharged->SetYTitle("ln(1/#it{z}_{T})"); |
1711 | fhPtHbpZTUeLeftCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1712 | outputContainer->Add(fhPtHbpZTUeLeftCharged) ; | |
1713 | } | |
1714 | ||
0cea6003 | 1715 | if(IsPileUpAnalysisOn()) |
c8ad7ead | 1716 | { |
1717 | fhDeltaPhiChargedOtherBC = new TH2F | |
1718 | ("hDeltaPhiChargedOtherBC","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, track BC!=0", | |
62f2fe4d | 1719 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
c8ad7ead | 1720 | fhDeltaPhiChargedOtherBC->SetYTitle("#Delta #phi (rad)"); |
1721 | fhDeltaPhiChargedOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 1722 | |
c8ad7ead | 1723 | fhDeltaPhiChargedPtA3GeVOtherBC = new TH2F |
1724 | ("hDeltaPhiChargedPtA3GeVOtherBC","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}, track BC!=0", | |
b1f720a7 | 1725 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
c8ad7ead | 1726 | fhDeltaPhiChargedPtA3GeVOtherBC->SetYTitle("#Delta #phi (rad)"); |
1727 | fhDeltaPhiChargedPtA3GeVOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
b1f720a7 | 1728 | |
c8ad7ead | 1729 | fhPtTrigChargedOtherBC = |
1730 | new TH2F("hPtTrigChargedOtherBC","trigger and charged tracks pt distribution, track BC!=0", | |
1731 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1732 | fhPtTrigChargedOtherBC->SetYTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1733 | fhPtTrigChargedOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1734 | ||
1735 | fhXEChargedOtherBC = | |
1736 | new TH2F("hXEChargedOtherBC","#it{x}_{#it{E}} for charged tracks, track BC!=0", | |
7aaa6c97 | 1737 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1738 | fhXEChargedOtherBC->SetYTitle("#it{x}_{#it{E}}"); |
1739 | fhXEChargedOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1740 | ||
1741 | fhXEUeChargedOtherBC = | |
1742 | new TH2F("hXEUeChargedOtherBC","#it{x}_{#it{E}} for Underlying Event, track BC!=0", | |
7aaa6c97 | 1743 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1744 | fhXEUeChargedOtherBC->SetYTitle("#it{x}_{#it{E}}"); |
1745 | fhXEUeChargedOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1746 | ||
1747 | fhZTChargedOtherBC = | |
1748 | new TH2F("hZTChargedOtherBC","#it{z}_{T} for charged tracks, track BC!=0", | |
7aaa6c97 | 1749 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1750 | fhZTChargedOtherBC->SetYTitle("#it{z}_{T}"); |
1751 | fhZTChargedOtherBC->SetXTitle("#it{p}_{T trigger}"); | |
1752 | ||
1753 | fhZTUeChargedOtherBC = | |
1754 | new TH2F("hZTUeChargedOtherBC","#it{z}_{T} for Underlying Event, track BC!=0", | |
7aaa6c97 | 1755 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1756 | fhZTUeChargedOtherBC->SetYTitle("#it{z}_{T}"); |
1757 | fhZTUeChargedOtherBC->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1758 | ||
1759 | outputContainer->Add(fhDeltaPhiChargedOtherBC) ; | |
1760 | outputContainer->Add(fhDeltaPhiChargedPtA3GeVOtherBC) ; | |
1761 | outputContainer->Add(fhXEChargedOtherBC) ; | |
1762 | outputContainer->Add(fhXEUeChargedOtherBC) ; | |
1763 | outputContainer->Add(fhZTChargedOtherBC) ; | |
1764 | outputContainer->Add(fhZTUeChargedOtherBC) ; | |
1765 | outputContainer->Add(fhPtTrigChargedOtherBC) ; | |
1766 | ||
1767 | fhDeltaPhiChargedBC0 = new TH2F | |
1768 | ("hDeltaPhiChargedBC0","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, track BC==0", | |
62f2fe4d | 1769 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
c8ad7ead | 1770 | fhDeltaPhiChargedBC0->SetYTitle("#Delta #phi (rad)"); |
1771 | fhDeltaPhiChargedBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 1772 | |
c8ad7ead | 1773 | fhDeltaPhiChargedPtA3GeVBC0 = new TH2F |
1774 | ("hDeltaPhiChargedPtA3GeVBC0","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}, track BC==0", | |
62f2fe4d | 1775 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
c8ad7ead | 1776 | fhDeltaPhiChargedPtA3GeVBC0->SetYTitle("#Delta #phi (rad)"); |
1777 | fhDeltaPhiChargedPtA3GeVBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1778 | ||
1779 | fhPtTrigChargedBC0 = | |
1780 | new TH2F("hPtTrigChargedBC0","trigger and charged tracks pt distribution, track BC==0", | |
1781 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1782 | fhPtTrigChargedBC0->SetYTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1783 | fhPtTrigChargedBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1784 | ||
1785 | fhXEChargedBC0 = | |
1786 | new TH2F("hXEChargedBC0","#it{x}_{#it{E}} for charged tracks, track BC==0", | |
7aaa6c97 | 1787 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1788 | fhXEChargedBC0->SetYTitle("#it{x}_{#it{E}}"); |
1789 | fhXEChargedBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1790 | ||
1791 | fhXEUeChargedBC0 = | |
1792 | new TH2F("hXEUeChargedBC0","#it{x}_{#it{E}} for Underlying Event, track BC==0", | |
7aaa6c97 | 1793 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1794 | fhXEUeChargedBC0->SetYTitle("#it{x}_{#it{E}}"); |
1795 | fhXEUeChargedBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1796 | ||
1797 | fhZTChargedBC0 = | |
1798 | new TH2F("hZTChargedBC0","#it{z}_{T} for charged tracks, track BC==0", | |
7aaa6c97 | 1799 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1800 | fhZTChargedBC0->SetYTitle("#it{z}_{T}"); |
1801 | fhZTChargedBC0->SetXTitle("#it{p}_{T trigger}"); | |
1802 | ||
1803 | fhZTUeChargedBC0 = | |
1804 | new TH2F("hZTUeChargedBC0","#it{z}_{T} for Underlying Event, track BC==0", | |
7aaa6c97 | 1805 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1806 | fhZTUeChargedBC0->SetYTitle("#it{z}_{T}"); |
1807 | fhZTUeChargedBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1808 | ||
1809 | outputContainer->Add(fhDeltaPhiChargedBC0) ; | |
1810 | outputContainer->Add(fhDeltaPhiChargedPtA3GeVBC0) ; | |
1811 | outputContainer->Add(fhXEChargedBC0) ; | |
1812 | outputContainer->Add(fhXEUeChargedBC0) ; | |
1813 | outputContainer->Add(fhZTChargedBC0) ; | |
1814 | outputContainer->Add(fhZTUeChargedBC0) ; | |
1815 | outputContainer->Add(fhPtTrigChargedBC0) ; | |
1816 | ||
55c20a99 | 1817 | fhPtTriggerVtxBC0 = new TH1F("hPtTriggerVtxBC0","#it{p}_{T} distribution of trigger particles", nptbins,ptmin,ptmax); |
1818 | fhPtTriggerVtxBC0->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
c8ad7ead | 1819 | |
1820 | fhDeltaPhiChargedVtxBC0 = new TH2F | |
1821 | ("hDeltaPhiChargedVtxBC0","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, track BC==0", | |
1822 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1823 | fhDeltaPhiChargedVtxBC0->SetYTitle("#Delta #phi (rad)"); | |
1824 | fhDeltaPhiChargedVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1825 | ||
1826 | fhDeltaPhiChargedPtA3GeVVtxBC0 = new TH2F | |
1827 | ("hDeltaPhiChargedPtA3GeVVtxBC0","#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}, track BC==0", | |
1828 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1829 | fhDeltaPhiChargedPtA3GeVVtxBC0->SetYTitle("#Delta #phi (rad)"); | |
1830 | fhDeltaPhiChargedPtA3GeVVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
3f150b4b | 1831 | |
c8ad7ead | 1832 | fhPtTrigChargedVtxBC0 = |
1833 | new TH2F("hPtTrigChargedVtxBC0","trigger and charged tracks pt distribution, track BC==0", | |
1834 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1835 | fhPtTrigChargedVtxBC0->SetYTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1836 | fhPtTrigChargedVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1837 | ||
1838 | fhXEChargedVtxBC0 = | |
1839 | new TH2F("hXEChargedVtxBC0","#it{x}_{#it{E}} for charged tracks, track BC==0", | |
7aaa6c97 | 1840 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1841 | fhXEChargedVtxBC0->SetYTitle("#it{x}_{#it{E}}"); |
1842 | fhXEChargedVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1843 | ||
1844 | fhXEUeChargedVtxBC0 = | |
1845 | new TH2F("hXEUeChargedVtxBC0","#it{x}_{#it{E}} for Underlying Event, track BC==0", | |
7aaa6c97 | 1846 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1847 | fhXEUeChargedVtxBC0->SetYTitle("#it{x}_{#it{E}}"); |
1848 | fhXEUeChargedVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 1849 | |
c8ad7ead | 1850 | fhZTChargedVtxBC0 = |
1851 | new TH2F("hZTChargedVtxBC0","#it{z}_{T} for charged tracks, track BC==0", | |
7aaa6c97 | 1852 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1853 | fhZTChargedVtxBC0->SetYTitle("#it{z}_{T}"); |
1854 | fhZTChargedVtxBC0->SetXTitle("#it{p}_{T trigger}"); | |
1855 | ||
1856 | fhZTUeChargedVtxBC0 = | |
1857 | new TH2F("hZTUeChargedVtxBC0","#it{z}_{T} for Underlying Event, track BC==0", | |
7aaa6c97 | 1858 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1859 | fhZTUeChargedVtxBC0->SetYTitle("#it{z}_{T}"); |
1860 | fhZTUeChargedVtxBC0->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1861 | ||
55c20a99 | 1862 | outputContainer->Add(fhPtTriggerVtxBC0); |
c8ad7ead | 1863 | outputContainer->Add(fhDeltaPhiChargedVtxBC0) ; |
1864 | outputContainer->Add(fhDeltaPhiChargedPtA3GeVVtxBC0) ; | |
1865 | outputContainer->Add(fhXEChargedVtxBC0) ; | |
1866 | outputContainer->Add(fhXEUeChargedVtxBC0) ; | |
1867 | outputContainer->Add(fhZTChargedVtxBC0) ; | |
1868 | outputContainer->Add(fhZTUeChargedVtxBC0) ; | |
1869 | outputContainer->Add(fhPtTrigChargedVtxBC0) ; | |
1870 | ||
1871 | for(Int_t i = 0 ; i < 7 ; i++) | |
b1f720a7 | 1872 | { |
55c20a99 | 1873 | fhPtTriggerPileUp[i] = new TH1F(Form("hPtTriggerPileUp%s",pileUpName[i].Data()), |
1874 | Form("#it{p}_{T} distribution of trigger particles, %s Pile-Up event",pileUpName[i].Data()), nptbins,ptmin,ptmax); | |
1875 | fhPtTriggerPileUp[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
1876 | outputContainer->Add(fhPtTriggerPileUp[i]); | |
c8ad7ead | 1877 | |
1878 | fhDeltaPhiChargedPileUp[i] = new TH2F(Form("hDeltaPhiChargedPileUp%s",pileUpName[i].Data()), | |
1879 | Form("#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, %s Pile-Up event",pileUpName[i].Data()), | |
1880 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1881 | fhDeltaPhiChargedPileUp[i]->SetYTitle("#Delta #phi (rad)"); | |
1882 | fhDeltaPhiChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1883 | outputContainer->Add(fhDeltaPhiChargedPileUp[i]) ; | |
1884 | ||
1885 | fhDeltaPhiChargedPtA3GeVPileUp[i] = new TH2F(Form("hDeltaPhiChargedPtA3GeVPileUp%s",pileUpName[i].Data()), | |
1886 | Form("#phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}, %s Pile-Up event",pileUpName[i].Data()), | |
1887 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1888 | fhDeltaPhiChargedPtA3GeVPileUp[i]->SetYTitle("#Delta #phi (rad)"); | |
1889 | fhDeltaPhiChargedPtA3GeVPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1890 | outputContainer->Add(fhDeltaPhiChargedPtA3GeVPileUp[i]) ; | |
1891 | ||
1892 | fhDeltaEtaChargedPileUp[i] = new TH2F(Form("hDeltaEtaChargedPileUp%s",pileUpName[i].Data()), | |
1893 | Form("#eta_{trigger} - #eta_{h^{#pm}} vs #it{p}_{T trigger}, %s Pile-Up event",pileUpName[i].Data()), | |
1894 | nptbins,ptmin,ptmax,ndeltaetabins,deltaetamin,deltaetamax); | |
1895 | fhDeltaEtaChargedPileUp[i]->SetYTitle("#Delta #eta"); | |
1896 | fhDeltaEtaChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1897 | outputContainer->Add(fhDeltaEtaChargedPileUp[i]) ; | |
1898 | ||
1899 | fhDeltaEtaChargedPtA3GeVPileUp[i] = new TH2F(Form("hDeltaEtaChargedPtA3GeVPileUp%s",pileUpName[i].Data()), | |
1900 | Form("#eta_{trigger} - #eta_{h^{#pm}} vs #it{p}_{T trigger}, #it{p}_{TA}>3 GeV/#it{c}, %s Pile-Up event",pileUpName[i].Data()), | |
1901 | nptbins,ptmin,ptmax,ndeltaetabins,deltaetamin,deltaetamax); | |
1902 | fhDeltaEtaChargedPtA3GeVPileUp[i]->SetYTitle("#Delta #eta"); | |
1903 | fhDeltaEtaChargedPtA3GeVPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1904 | outputContainer->Add(fhDeltaEtaChargedPtA3GeVPileUp[i]) ; | |
1905 | ||
1906 | fhXEChargedPileUp[i] = new TH2F(Form("hXEChargedPileUp%s",pileUpName[i].Data()), | |
1907 | Form("#it{x}_{#it{E}} for charged tracks, %s Pile-Up event",pileUpName[i].Data()), | |
7aaa6c97 | 1908 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1909 | fhXEChargedPileUp[i]->SetYTitle("#it{x}_{#it{E}}"); |
1910 | fhXEChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1911 | outputContainer->Add(fhXEChargedPileUp[i]) ; | |
1912 | ||
1913 | fhXEUeChargedPileUp[i] = new TH2F(Form("hXEUeChargedPileUp%s",pileUpName[i].Data()), | |
1914 | Form("#it{x}_{#it{E}} for Underlying Event, %s Pile-Up event",pileUpName[i].Data()), | |
7aaa6c97 | 1915 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1916 | fhXEUeChargedPileUp[i]->SetYTitle("#it{x}_{#it{E}}"); |
1917 | fhXEUeChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1918 | outputContainer->Add(fhXEUeChargedPileUp[i]) ; | |
1919 | ||
1920 | fhZTChargedPileUp[i] = new TH2F(Form("hZTChargedPileUp%s",pileUpName[i].Data()), | |
1921 | Form("#it{z}_{T} for charged tracks, %s Pile-Up event",pileUpName[i].Data()), | |
7aaa6c97 | 1922 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1923 | fhZTChargedPileUp[i]->SetYTitle("#it{z}_{T}"); |
1924 | fhZTChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1925 | outputContainer->Add(fhZTChargedPileUp[i]) ; | |
1926 | ||
1927 | fhZTUeChargedPileUp[i] = new TH2F(Form("hZTUeChargedPileUp%s",pileUpName[i].Data()), | |
1928 | Form("#it{z}_{T} for Underlying Event, %s Pile-Up event",pileUpName[i].Data()), | |
7aaa6c97 | 1929 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
c8ad7ead | 1930 | fhZTUeChargedPileUp[i]->SetYTitle("#it{z}_{T}"); |
1931 | fhZTUeChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1932 | outputContainer->Add(fhZTUeChargedPileUp[i]) ; | |
1933 | ||
1934 | fhPtTrigChargedPileUp[i] = new TH2F(Form("hPtTrigChargedPileUp%s",pileUpName[i].Data()), | |
1935 | Form("trigger and charged tracks pt distribution, %s Pile-Up event",pileUpName[i].Data()), | |
1936 | nptbins,ptmin,ptmax,nptbins,ptmin,ptmax); | |
1937 | fhPtTrigChargedPileUp[i]->SetYTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
1938 | fhPtTrigChargedPileUp[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1939 | outputContainer->Add(fhPtTrigChargedPileUp[i]) ; | |
2a9171b5 | 1940 | |
c8ad7ead | 1941 | } |
1942 | } | |
a22f3f34 | 1943 | |
0cea6003 | 1944 | if(IsHighMultiplicityAnalysisOn()) |
c8ad7ead | 1945 | { |
d4a8ff9a | 1946 | Int_t nMultiBins = GetNCentrBin(); |
1947 | fhDeltaPhiChargedMult = new TH2F*[nMultiBins] ; | |
1948 | fhDeltaEtaChargedMult = new TH2F*[nMultiBins] ; | |
1949 | fhXEMult = new TH2F*[nMultiBins] ; | |
1950 | fhXEUeMult = new TH2F*[nMultiBins] ; | |
1951 | fhZTMult = new TH2F*[nMultiBins] ; | |
1952 | fhZTUeMult = new TH2F*[nMultiBins] ; | |
c8ad7ead | 1953 | |
1954 | for(Int_t im=0; im<nMultiBins; im++) | |
1955 | { | |
d4a8ff9a | 1956 | fhDeltaPhiChargedMult[im] = new TH2F |
1957 | (Form("hDeltaPhiCharged_Mult%d",im),Form("#Delta #phi charged Mult bin %d",im), nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
1958 | fhDeltaPhiChargedMult[im]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1959 | fhDeltaPhiChargedMult[im]->SetYTitle("#Delta #phi (rad)"); | |
c8ad7ead | 1960 | |
d4a8ff9a | 1961 | fhDeltaEtaChargedMult[im] = new TH2F |
1962 | (Form("hDeltaEtaCharged_Mult%d",im),Form("#Delta #eta charged Mult bin %d",im), nptbins,ptmin,ptmax, ndeltaetabins ,deltaetamin,deltaetamax); | |
1963 | fhDeltaEtaChargedMult[im]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
1964 | fhDeltaEtaChargedMult[im]->SetYTitle("#Delta #eta"); | |
c8ad7ead | 1965 | |
d4a8ff9a | 1966 | fhXEMult[im] = new TH2F |
7aaa6c97 | 1967 | (Form("hXECharged_Mult%d",im),Form("#it{x}_{E} charged Mult bin %d",im), nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
d4a8ff9a | 1968 | fhXEMult[im]->SetYTitle("#it{x}_{E}"); |
1969 | fhXEMult[im]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
c8ad7ead | 1970 | |
d4a8ff9a | 1971 | fhXEUeMult[im] = new TH2F |
7aaa6c97 | 1972 | (Form("hXEUeCharged_Mult%d",im),Form("#it{x}_{E} UE charged Mult bin %d",im), nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
d4a8ff9a | 1973 | fhXEUeMult[im]->SetYTitle("#it{x}_{E}"); |
1974 | fhXEUeMult[im]->SetXTitle("#it{p}_{T trigger}(GeV/#it{c})"); | |
c8ad7ead | 1975 | |
d4a8ff9a | 1976 | fhZTMult[im] = new TH2F |
7aaa6c97 | 1977 | (Form("hZTCharged_Mult%d",im),Form("#it{z}_{T} charged Mult bin %d",im), nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
d4a8ff9a | 1978 | fhZTMult[im]->SetYTitle("#it{z}_{T}"); |
1979 | fhZTMult[im]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
c8ad7ead | 1980 | |
d4a8ff9a | 1981 | fhZTUeMult[im] = new TH2F |
7aaa6c97 | 1982 | (Form("hZTUeCharged_Mult%d",im),Form("#it{z}_{T} UE charged Mult bin %d",im), nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
d4a8ff9a | 1983 | fhZTUeMult[im]->SetYTitle("#it{z}_{T}"); |
1984 | fhZTUeMult[im]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
c8ad7ead | 1985 | |
d4a8ff9a | 1986 | outputContainer->Add(fhDeltaPhiChargedMult[im]) ; |
1987 | outputContainer->Add(fhDeltaEtaChargedMult[im]) ; | |
1988 | outputContainer->Add(fhXEMult [im]); | |
1989 | outputContainer->Add(fhXEUeMult[im]); | |
1990 | outputContainer->Add(fhZTMult [im]); | |
1991 | outputContainer->Add(fhZTUeMult[im]); | |
c8ad7ead | 1992 | } |
1993 | } | |
1994 | ||
1995 | if(fFillBradHisto) | |
1996 | { | |
1997 | fhAssocPtBkg = new TH2F("hAssocPtBkg", " Trigger #it{p}_{T} vs associated hadron #it{p}_{T} from background", | |
1998 | nptbins, ptmin, ptmax,nptbins,ptmin,ptmax); | |
1999 | fhAssocPtBkg->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2000 | fhAssocPtBkg->SetYTitle("#it{p}_{T associated} (GeV/#it{c})"); | |
2001 | outputContainer->Add(fhAssocPtBkg) ; | |
2002 | ||
2003 | fhDeltaPhiBrad = new TH2F("hDeltaPhiBrad","atan2(sin(#Delta #phi), cos(#Delta #phi))/#pi vs #it{p}_{T trigger} ", | |
2004 | nptbins, ptmin, ptmax,288, -1.0/3.0, 5.0/3.0); | |
2005 | fhDeltaPhiBrad->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2006 | fhDeltaPhiBrad->SetYTitle("atan2(sin(#Delta #phi), cos(#Delta #phi))/#pi"); | |
2007 | outputContainer->Add(fhDeltaPhiBrad) ; | |
2008 | } | |
2009 | ||
2010 | fhDeltaPhiDeltaEtaAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2011 | fhDeltaPhiAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2012 | fhDeltaPhiAssocPtBinDEta08 = new TH2F*[fNAssocPtBins*nz]; | |
2013 | fhDeltaPhiAssocPtBinDEta0 = new TH2F*[fNAssocPtBins*nz]; | |
a22f3f34 | 2014 | if(fFillMomImbalancePtAssocBinsHisto) |
2015 | { | |
2016 | fhXEAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2017 | fhZTAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2018 | } | |
2019 | ||
2020 | if(fCorrelVzBin) | |
2021 | { | |
2022 | fhXEVZ = new TH2F*[nz]; | |
2023 | fhZTVZ = new TH2F*[nz]; | |
2024 | } | |
c8ad7ead | 2025 | |
2026 | if(fFillBradHisto) | |
2027 | fhDeltaPhiBradAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2028 | ||
e7d2373d | 2029 | |
2030 | fhDeltaPhiAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2031 | if(fFillEtaGapsHisto)fhDeltaPhiAssocPtBinDEta08 = new TH2F*[fNAssocPtBins*nz]; | |
2032 | if(fDecayTrigger) fhDeltaPhiDecayChargedAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
2033 | ||
c8ad7ead | 2034 | |
2035 | if(fHMPIDCorrelation) | |
2036 | { | |
2037 | fhDeltaPhiAssocPtBinHMPID = new TH2F*[fNAssocPtBins*nz]; | |
2038 | fhDeltaPhiAssocPtBinHMPIDAcc= new TH2F*[fNAssocPtBins*nz]; | |
2039 | } | |
a22f3f34 | 2040 | |
c8ad7ead | 2041 | for(Int_t i = 0 ; i < fNAssocPtBins ; i++) |
2042 | { | |
2043 | for(Int_t z = 0 ; z < nz ; z++) | |
2044 | { | |
2045 | Int_t bin = i*nz+z; | |
2a9171b5 | 2046 | |
c8ad7ead | 2047 | if(fCorrelVzBin) |
2048 | { | |
2049 | sz = Form("_vz%d",z); | |
2050 | tz = Form(", #it{v}_{#it{z}} bin %d",z); | |
2051 | } | |
cc944149 | 2052 | |
c8ad7ead | 2053 | //printf("iAssoc %d, Vz %d, bin %d - sz %s, tz %s \n",i,z,bin,sz.Data(),tz.Data()); |
cc944149 | 2054 | |
c8ad7ead | 2055 | fhDeltaPhiDeltaEtaAssocPtBin[bin] = new TH2F(Form("hDeltaPhiDeltaEtaPtAssocPt%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), |
2056 | Form("#Delta #phi vs #Delta #eta for associated #it{p}_{T} bin [%2.1f,%2.1f]%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2057 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins,deltaetamin,deltaetamax); | |
2058 | fhDeltaPhiDeltaEtaAssocPtBin[bin]->SetXTitle("#Delta #phi (rad)"); | |
2059 | fhDeltaPhiDeltaEtaAssocPtBin[bin]->SetYTitle("#Delta #eta"); | |
cc944149 | 2060 | |
c8ad7ead | 2061 | fhDeltaPhiAssocPtBin[bin] = new TH2F(Form("hDeltaPhiPtAssocPt%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), |
2062 | Form("#Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2063 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2064 | fhDeltaPhiAssocPtBin[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2065 | fhDeltaPhiAssocPtBin[bin]->SetYTitle("#Delta #phi (rad)"); | |
cc944149 | 2066 | |
c8ad7ead | 2067 | outputContainer->Add(fhDeltaPhiDeltaEtaAssocPtBin[bin]) ; |
2068 | outputContainer->Add(fhDeltaPhiAssocPtBin[bin]) ; | |
a22f3f34 | 2069 | |
2070 | if(fFillEtaGapsHisto) | |
2071 | { | |
2072 | fhDeltaPhiAssocPtBinDEta08[bin] = new TH2F(Form("hDeltaPhiDeltaEta0.8PtAssocPt%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), | |
2073 | Form("#Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, for #Delta #eta > 0.8", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2074 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2075 | fhDeltaPhiAssocPtBinDEta08[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2076 | fhDeltaPhiAssocPtBinDEta08[bin]->SetYTitle("#Delta #phi (rad)"); | |
2077 | ||
2078 | fhDeltaPhiAssocPtBinDEta0[bin] = new TH2F(Form("hDeltaPhiDeltaEta0PtAssocPt%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2079 | Form("#Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, for #Delta #eta = 0.", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2080 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2081 | fhDeltaPhiAssocPtBinDEta0[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2082 | fhDeltaPhiAssocPtBinDEta0[bin]->SetYTitle("#Delta #phi (rad)"); | |
2083 | ||
2084 | outputContainer->Add(fhDeltaPhiAssocPtBinDEta08[bin]) ; | |
2085 | outputContainer->Add(fhDeltaPhiAssocPtBinDEta0[bin]) ; | |
2086 | } | |
2a9171b5 | 2087 | |
e7d2373d | 2088 | if(fDecayTrigger) |
17af6e24 | 2089 | { |
e7d2373d | 2090 | fhDeltaPhiDecayChargedAssocPtBin[bin] = new TH2F(Form("hDeltaPhiPtDecayChargedAssocPt%2.1f_%2.1f%s_bit%d", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data(),fDecayBits[0]), |
2091 | Form("#Delta #phi vs #it{p}_{T trigger} tagged as decay for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, Bit %d", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data(),fDecayBits[0]), | |
c8ad7ead | 2092 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
2093 | fhDeltaPhiDecayChargedAssocPtBin[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2094 | fhDeltaPhiDecayChargedAssocPtBin[bin]->SetYTitle("#Delta #phi (rad)"); | |
17af6e24 | 2095 | |
c8ad7ead | 2096 | outputContainer->Add(fhDeltaPhiDecayChargedAssocPtBin[bin]) ; |
17af6e24 | 2097 | } |
3f150b4b | 2098 | |
c8ad7ead | 2099 | if(fFillBradHisto) |
3f150b4b | 2100 | { |
c8ad7ead | 2101 | fhDeltaPhiBradAssocPtBin[bin] = new TH2F(Form("hDeltaPhiBradPtAssocPt%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), |
2102 | Form("atan2(sin(#Delta #phi), cos(#Delta #phi))/#pi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2103 | nptbins, ptmin, ptmax,288, -1.0/3.0, 5.0/3.0); | |
2104 | fhDeltaPhiBradAssocPtBin[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2105 | fhDeltaPhiBradAssocPtBin[bin]->SetYTitle("atan2(sin(#Delta #phi), cos(#Delta #phi))/#pi"); | |
2106 | outputContainer->Add(fhDeltaPhiBradAssocPtBin[bin]) ; | |
2107 | } | |
2108 | ||
2109 | if(fHMPIDCorrelation) | |
2110 | { | |
2111 | fhDeltaPhiAssocPtBinHMPID[bin] = new TH2F(Form("hDeltaPhiPtAssocPt%2.1f_%2.1f%sHMPID", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), | |
2112 | Form("#Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, with track having HMPID signal", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2113 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2114 | fhDeltaPhiAssocPtBinHMPID[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})" ); | |
2115 | fhDeltaPhiAssocPtBinHMPID[bin]->SetYTitle("#Delta #phi (rad)"); | |
3f150b4b | 2116 | |
c8ad7ead | 2117 | fhDeltaPhiAssocPtBinHMPIDAcc[bin] = new TH2F(Form("hDeltaPhiPtAssocPt%2.1f_%2.1f%sHMPIDAcc", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), |
2118 | Form("#Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, with track within 5<phi<20 deg", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2119 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2120 | fhDeltaPhiAssocPtBinHMPIDAcc[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2121 | fhDeltaPhiAssocPtBinHMPIDAcc[bin]->SetYTitle("#Delta #phi (rad)"); | |
3f150b4b | 2122 | |
6d9932e2 | 2123 | outputContainer->Add(fhDeltaPhiAssocPtBinHMPID [bin]) ; |
c8ad7ead | 2124 | outputContainer->Add(fhDeltaPhiAssocPtBinHMPIDAcc[bin]) ; |
045396c8 | 2125 | } |
2126 | } | |
c8ad7ead | 2127 | } |
2128 | ||
a22f3f34 | 2129 | if(fFillMomImbalancePtAssocBinsHisto) |
2130 | { | |
2131 | for(Int_t i = 0 ; i < fNAssocPtBins ; i++) | |
2132 | { | |
2133 | fhXEAssocPtBin[i] = new TH2F(Form("hXEAssocPtBin%1.f_%1.f", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1]), | |
2134 | Form("#it{x}_{#it{E}} vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1]), | |
2135 | nptbins, ptmin, ptmax,nxeztbins,xeztmin,xeztmax); | |
2136 | fhXEAssocPtBin[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2137 | fhXEAssocPtBin[i]->SetYTitle("#it{x}_{#it{E}}"); | |
2138 | ||
2139 | fhZTAssocPtBin[i] = new TH2F(Form("hZTAssocPtBin%1.f_%1.f", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1]), | |
2140 | Form("#it{z}_{T} vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1]), | |
2141 | nptbins, ptmin, ptmax,nxeztbins,xeztmin,xeztmax); | |
2142 | fhZTAssocPtBin[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2143 | fhZTAssocPtBin[i]->SetYTitle("#it{z}_{T}"); | |
2144 | ||
2145 | ||
2146 | outputContainer->Add(fhXEAssocPtBin[i]); | |
2147 | outputContainer->Add(fhZTAssocPtBin[i]); | |
2148 | } | |
2149 | } | |
2150 | ||
2151 | if(fCorrelVzBin) | |
2152 | { | |
2153 | for(Int_t z = 0 ; z < nz ; z++) | |
2154 | { | |
2155 | sz = Form("_vz%d",z); | |
2156 | tz = Form(", #it{v}_{#it{z}} bin %d",z); | |
2157 | ||
2158 | fhXEVZ[z] = new TH2F(Form("hXE%s", sz.Data()), | |
2159 | Form("#it{x}_{#it{E}} vs #it{p}_{T trigger}%s", tz.Data()), | |
2160 | nptbins, ptmin, ptmax,nxeztbins,xeztmin,xeztmax); | |
2161 | fhXEVZ[z]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2162 | fhXEVZ[z]->SetYTitle("#it{x}_{#it{E}}"); | |
2163 | ||
2164 | fhZTVZ[z] = new TH2F(Form("hZT%s",sz.Data()), | |
2165 | Form("#it{z}_{T} vs #it{p}_{T trigger}%s", tz.Data()), | |
2166 | nptbins, ptmin, ptmax,nxeztbins,xeztmin,xeztmax); | |
2167 | fhZTVZ[z]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2168 | fhZTVZ[z]->SetYTitle("#it{z}_{T}"); | |
2169 | ||
2170 | outputContainer->Add(fhXEVZ[z]); | |
2171 | outputContainer->Add(fhZTVZ[z]); | |
2172 | } | |
2173 | } | |
2174 | ||
e7d2373d | 2175 | |
2176 | if(fPi0Trigger) | |
c8ad7ead | 2177 | { |
e7d2373d | 2178 | fhPtPi0DecayRatio = new TH2F |
2179 | ("hPtPi0DecayRatio","#it{p}_{T} of #pi^{0} and the ratio of pt for two decay", | |
2180 | nptbins,ptmin,ptmax, 100,0.,2.); | |
2181 | fhPtPi0DecayRatio->SetXTitle("#it{p}_{T}^{#pi^{0}} (GeV/#it{c})"); | |
2182 | fhPtPi0DecayRatio->SetYTitle("#it{p}_{T}^{Decay}/#it{p}_{T}^{#pi^{0}}"); | |
2183 | outputContainer->Add(fhPtPi0DecayRatio) ; | |
3f150b4b | 2184 | |
e7d2373d | 2185 | fhDeltaPhiPi0DecayCharged = new TH2F |
2186 | ("hDeltaPhiPi0DecayCharged","#phi_{Decay} - #phi_{h^{#pm}} vs #it{p}_{T Decay}", | |
c8ad7ead | 2187 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
e7d2373d | 2188 | fhDeltaPhiPi0DecayCharged->SetYTitle("#Delta #phi (rad)"); |
2189 | fhDeltaPhiPi0DecayCharged->SetXTitle("#it{p}_{T Decay} (GeV/#it{c})"); | |
907b38cd | 2190 | |
e7d2373d | 2191 | fhXEPi0DecayCharged = |
2192 | new TH2F("hXEPi0DecayCharged","#it{x}_{#it{E}} Decay", | |
7aaa6c97 | 2193 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
e7d2373d | 2194 | fhXEPi0DecayCharged->SetYTitle("#it{x}_{#it{E}}"); |
2195 | fhXEPi0DecayCharged->SetXTitle("#it{p}_{T decay} (GeV/#it{c})"); | |
907b38cd | 2196 | |
e7d2373d | 2197 | fhZTPi0DecayCharged = |
2198 | new TH2F("hZTPi0DecayCharged","#it{z}_{trigger h^{#pm}} = #it{p}_{T h^{#pm}} / #it{p}_{T Decay}", | |
7aaa6c97 | 2199 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
e7d2373d | 2200 | fhZTPi0DecayCharged->SetYTitle("#it{z}_{decay h^{#pm}}"); |
2201 | fhZTPi0DecayCharged->SetXTitle("#it{p}_{T decay} (GeV/#it{c})"); | |
045396c8 | 2202 | |
e7d2373d | 2203 | outputContainer->Add(fhDeltaPhiPi0DecayCharged) ; |
2204 | outputContainer->Add(fhXEPi0DecayCharged) ; | |
2205 | outputContainer->Add(fhZTPi0DecayCharged) ; | |
2206 | } | |
2207 | ||
2208 | if(fDecayTrigger) | |
2209 | { | |
2210 | for(Int_t ibit = 0; ibit< fNDecayBits; ibit++) | |
2211 | { | |
2212 | fhDeltaPhiDecayCharged[ibit] = new TH2F | |
2213 | (Form("hDeltaPhiDecayCharged_bit%d",fDecayBits[ibit]), | |
2214 | Form("#phi_{Decay} - #phi_{h^{#pm}} vs #it{p}_{T Decay}, Bit %d",fDecayBits[ibit]), | |
2215 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2216 | fhDeltaPhiDecayCharged[ibit]->SetYTitle("#Delta #phi (rad)"); | |
2217 | fhDeltaPhiDecayCharged[ibit]->SetXTitle("#it{p}_{T Decay} (GeV/#it{c})"); | |
2218 | ||
2219 | fhXEDecayCharged[ibit] = | |
2220 | new TH2F(Form("hXEDecayCharged_bit%d",fDecayBits[ibit]), | |
2221 | Form("#it{x}_{#it{E}} Decay, Bit %d",fDecayBits[ibit]), | |
2222 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2223 | fhXEDecayCharged[ibit]->SetYTitle("#it{x}_{#it{E}}"); | |
2224 | fhXEDecayCharged[ibit]->SetXTitle("#it{p}_{T decay} (GeV/#it{c})"); | |
2225 | ||
2226 | fhZTDecayCharged[ibit] = | |
2227 | new TH2F(Form("hZTDecayCharged_bit%d",fDecayBits[ibit]), | |
2228 | Form("#it{z}_{trigger h^{#pm}} = #it{p}_{T h^{#pm}} / #it{p}_{T Decay}, Bit %d",fDecayBits[ibit]), | |
2229 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2230 | fhZTDecayCharged[ibit]->SetYTitle("#it{z}_{decay h^{#pm}}"); | |
2231 | fhZTDecayCharged[ibit]->SetXTitle("#it{p}_{T decay} (GeV/#it{c})"); | |
2232 | ||
2233 | outputContainer->Add(fhDeltaPhiDecayCharged[ibit]) ; | |
2234 | outputContainer->Add(fhXEDecayCharged[ibit]) ; | |
2235 | outputContainer->Add(fhZTDecayCharged[ibit]) ; | |
2236 | } | |
c8ad7ead | 2237 | } |
2238 | ||
6ed1ad3e | 2239 | //Correlation with neutral hadrons |
2240 | if(fNeutralCorr) | |
547c2f01 | 2241 | { |
e09cf5ef | 2242 | fhDeltaPhiDeltaEtaNeutral = new TH2F |
babcbc9d | 2243 | ("hDeltaPhiDeltaEtaNeutral","#phi_{trigger} - #phi_{h^{0}} vs #eta_{trigger} - #eta_{h^{0}}", |
c8ad7ead | 2244 | ndeltaphibins ,deltaphimin,deltaphimax, ndeltaetabins ,deltaetamin,deltaetamax); |
2bb7ac98 | 2245 | fhDeltaPhiDeltaEtaNeutral->SetXTitle("#Delta #phi (rad)"); |
c8ad7ead | 2246 | fhDeltaPhiDeltaEtaNeutral->SetYTitle("#Delta #eta"); |
e09cf5ef | 2247 | |
2248 | fhPhiNeutral = new TH2F | |
858212dd | 2249 | ("hPhiNeutral","#phi_{#pi^{0}} vs #it{p}_{T #pi^{0}}", |
2af40966 | 2250 | nptbins,ptmin,ptmax,180,0,TMath::TwoPi()); |
e09cf5ef | 2251 | fhPhiNeutral->SetYTitle("#phi_{#pi^{0}} (rad)"); |
858212dd | 2252 | fhPhiNeutral->SetXTitle("#it{p}_{T #pi^{0}} (GeV/#it{c})"); |
e09cf5ef | 2253 | |
2254 | fhEtaNeutral = new TH2F | |
858212dd | 2255 | ("hEtaNeutral","#eta_{#pi^{0}} vs #it{p}_{T #pi^{0}}", |
2af40966 | 2256 | nptbins,ptmin,ptmax,200,-1.,1.); |
e09cf5ef | 2257 | fhEtaNeutral->SetYTitle("#eta_{#pi^{0}} (rad)"); |
858212dd | 2258 | fhEtaNeutral->SetXTitle("#it{p}_{T #pi^{0}} (GeV/#it{c})"); |
e09cf5ef | 2259 | |
2260 | fhDeltaPhiNeutral = new TH2F | |
858212dd | 2261 | ("hDeltaPhiNeutral","#phi_{trigger} - #phi_{#pi^{0}} vs #it{p}_{T trigger}", |
2af40966 | 2262 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); |
2bb7ac98 | 2263 | fhDeltaPhiNeutral->SetYTitle("#Delta #phi (rad)"); |
858212dd | 2264 | fhDeltaPhiNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); |
e09cf5ef | 2265 | |
2266 | fhDeltaPhiNeutralPt = new TH2F | |
858212dd | 2267 | ("hDeltaPhiNeutralPt","#phi_{trigger} - #phi_{#pi^{0}} vs #it{p}_{T #pi^{0}}}", |
c8ad7ead | 2268 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
2bb7ac98 | 2269 | fhDeltaPhiNeutralPt->SetYTitle("#Delta #phi (rad)"); |
858212dd | 2270 | fhDeltaPhiNeutralPt->SetXTitle("#it{p}_{T h^{0}} (GeV/#it{c})"); |
e09cf5ef | 2271 | |
e09cf5ef | 2272 | fhDeltaEtaNeutral = new TH2F |
858212dd | 2273 | ("hDeltaEtaNeutral","#eta_{trigger} - #eta_{#pi^{0}} vs #it{p}_{T trigger}", |
c8ad7ead | 2274 | nptbins,ptmin,ptmax, ndeltaetabins ,deltaetamin,deltaetamax); |
e09cf5ef | 2275 | fhDeltaEtaNeutral->SetYTitle("#Delta #eta"); |
858212dd | 2276 | fhDeltaEtaNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); |
e09cf5ef | 2277 | |
c8ad7ead | 2278 | fhXENeutral = |
858212dd | 2279 | new TH2F("hXENeutral","#it{x}_{#it{E}} for #pi^{0} associated", |
7aaa6c97 | 2280 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2281 | fhXENeutral->SetYTitle("#it{x}_{#it{E}}"); |
2282 | fhXENeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 2283 | |
c8ad7ead | 2284 | fhPtHbpXENeutral = |
858212dd | 2285 | new TH2F("hHbpXENeutral","#xi = ln(1/#it{x}_{#it{E}})for #pi^{0} associated", |
7aaa6c97 | 2286 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
858212dd | 2287 | fhPtHbpXENeutral->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
2288 | fhPtHbpXENeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 2289 | |
c8ad7ead | 2290 | fhZTNeutral = |
858212dd | 2291 | new TH2F("hZTNeutral","#it{z}_{trigger #pi} = #it{p}_{T #pi^{0}} / #it{p}_{T trigger} for #pi^{0} associated", |
7aaa6c97 | 2292 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2293 | fhZTNeutral->SetYTitle("#it{z}_{trigger #pi^{0}}"); |
2294 | fhZTNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 2295 | |
c8ad7ead | 2296 | fhPtHbpZTNeutral = |
858212dd | 2297 | new TH2F("hHbpZTNeutral","#xi = ln(1/#it{x}_{#it{E}}) for #pi^{0} associated", |
7aaa6c97 | 2298 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
858212dd | 2299 | fhPtHbpZTNeutral->SetYTitle("ln(1/#it{z}_{T})"); |
2300 | fhPtHbpZTNeutral->SetXTitle("#it{p}_{T trigger}"); | |
3f150b4b | 2301 | |
c8ad7ead | 2302 | outputContainer->Add(fhDeltaPhiDeltaEtaNeutral); |
2303 | outputContainer->Add(fhPhiNeutral) ; | |
2304 | outputContainer->Add(fhEtaNeutral) ; | |
2305 | outputContainer->Add(fhDeltaPhiNeutral) ; | |
2306 | outputContainer->Add(fhDeltaPhiNeutralPt) ; | |
c8ad7ead | 2307 | outputContainer->Add(fhDeltaEtaNeutral) ; |
3f150b4b | 2308 | outputContainer->Add(fhXENeutral) ; |
3f150b4b | 2309 | outputContainer->Add(fhPtHbpXENeutral) ; |
3f150b4b | 2310 | outputContainer->Add(fhZTNeutral) ; |
3f150b4b | 2311 | outputContainer->Add(fhPtHbpZTNeutral) ; |
e09cf5ef | 2312 | |
6ed1ad3e | 2313 | fhDeltaPhiUeNeutralPt = new TH2F |
2314 | (Form("hDeltaPhiUe%sNeutralPt",right.Data()),"#phi_{trigger} - #phi_{#pi^{0}} vs #it{p}_{T #pi^{0}}}", | |
2315 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2316 | fhDeltaPhiUeNeutralPt->SetYTitle("#Delta #phi (rad)"); | |
2317 | fhDeltaPhiUeNeutralPt->SetXTitle("#it{p}_{T h^{0}} (GeV/#it{c})"); | |
2318 | ||
2319 | fhXEUeNeutral = | |
2320 | new TH2F(Form("hXEUeNeutral%s",right.Data()),"#it{x}_{#it{E}} for #pi^{0} associated", | |
7aaa6c97 | 2321 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 2322 | fhXEUeNeutral->SetYTitle("#it{x}_{#it{E}}"); |
2323 | fhXEUeNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2324 | ||
2325 | fhPtHbpXEUeNeutral = | |
2326 | new TH2F(Form("hHbpXEUeNeutral%s",right.Data()),"#xi = ln(1/#it{x}_{#it{E}}) for #pi^{0} associated", | |
7aaa6c97 | 2327 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 2328 | fhPtHbpXEUeNeutral->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
2329 | fhPtHbpXEUeNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2330 | ||
2331 | fhZTUeNeutral = | |
2332 | new TH2F(Form("hZTUeNeutral%s",right.Data()),"#it{z}_{trigger #pi} = #it{p}_{T #pi^{0}} / #it{p}_{T trigger} for #pi^{0} associated", | |
7aaa6c97 | 2333 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
6ed1ad3e | 2334 | fhZTUeNeutral->SetYTitle("#it{z}_{trigger #pi^{0}}"); |
2335 | fhZTUeNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
e09cf5ef | 2336 | |
6ed1ad3e | 2337 | fhPtHbpZTUeNeutral = |
2338 | new TH2F(Form("hHbpZTUeNeutral%s",right.Data()),"#xi = ln(1/#it{x}_{#it{E}}) for #pi^{0} associated", | |
7aaa6c97 | 2339 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
6ed1ad3e | 2340 | fhPtHbpXEUeNeutral->SetYTitle("ln(1/#it{z}_{T})"); |
2341 | fhPtHbpXEUeNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2342 | ||
2343 | outputContainer->Add(fhDeltaPhiUeNeutralPt) ; | |
2344 | outputContainer->Add(fhXEUeNeutral) ; | |
2345 | outputContainer->Add(fhPtHbpXEUeNeutral) ; | |
2346 | outputContainer->Add(fhZTUeNeutral) ; | |
2347 | outputContainer->Add(fhPtHbpZTUeNeutral) ; | |
2348 | ||
547c2f01 | 2349 | if(fMakeSeveralUE) |
c8ad7ead | 2350 | { |
e09cf5ef | 2351 | fhDeltaPhiUeLeftNeutral = new TH2F |
858212dd | 2352 | ("hDeltaPhiUeLeftNeutralPt","#phi_{trigger} - #phi_{#Ueh^{0}} vs #it{p}_{T h^{0}} with neutral UE left side range of trigger particles", |
c8ad7ead | 2353 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
2bb7ac98 | 2354 | fhDeltaPhiUeLeftNeutral->SetYTitle("#Delta #phi (rad)"); |
858212dd | 2355 | fhDeltaPhiUeLeftNeutral->SetXTitle("#it{p}_{T h^{0}} (GeV/#it{c})"); |
e09cf5ef | 2356 | outputContainer->Add(fhDeltaPhiUeLeftNeutral) ; |
2357 | ||
c8ad7ead | 2358 | fhXEUeLeftNeutral = |
858212dd | 2359 | new TH2F("hXEUeNeutralLeft","#it{x}_{#it{E}} = #it{p}_{T Ueh^{0}} / #it{p}_{T trigger} with neutral UE left side of trigger", |
7aaa6c97 | 2360 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2361 | fhXEUeLeftNeutral->SetYTitle("#it{z}_{trigger Ueh^{0}}"); |
2362 | fhXEUeLeftNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
3f150b4b | 2363 | outputContainer->Add(fhXEUeLeftNeutral) ; |
2364 | ||
c8ad7ead | 2365 | fhPtHbpXEUeLeftNeutral = |
858212dd | 2366 | new TH2F("hHbpXEUeNeutralLeft","#xi = ln(1/#it{x}_{#it{E}}) with neutral UE left side of trigger", |
7aaa6c97 | 2367 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
858212dd | 2368 | fhPtHbpXEUeLeftNeutral->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
2369 | fhPtHbpXEUeLeftNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
3f150b4b | 2370 | outputContainer->Add(fhPtHbpXEUeLeftNeutral) ; |
2371 | ||
c8ad7ead | 2372 | fhZTUeLeftNeutral = |
858212dd | 2373 | new TH2F("hZTUeNeutralLeft","#it{z}_{trigger h^{0}} = #it{p}_{T Ueh^{0}} / #it{p}_{T trigger} with neutral UE left side of trigger", |
7aaa6c97 | 2374 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2375 | fhZTUeLeftNeutral->SetYTitle("#it{z}_{trigger Ueh^{0}}"); |
2376 | fhZTUeLeftNeutral->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
3f150b4b | 2377 | outputContainer->Add(fhZTUeLeftNeutral) ; |
e09cf5ef | 2378 | |
c8ad7ead | 2379 | fhPtHbpZTUeLeftNeutral = |
858212dd | 2380 | new TH2F("hHbpZTUeNeutralLeft","#xi = ln(1/#it{z}_{T}) with neutral UE left side of trigger", |
7aaa6c97 | 2381 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
858212dd | 2382 | fhPtHbpZTUeLeftNeutral->SetYTitle("ln(1/#it{z}_{T})"); |
2383 | fhPtHbpZTUeLeftNeutral->SetXTitle("#it{p}_{T trigger}"); | |
3f150b4b | 2384 | outputContainer->Add(fhPtHbpZTUeLeftNeutral) ; |
6ed1ad3e | 2385 | } |
2386 | ||
e7d2373d | 2387 | if(fPi0Trigger) |
6ed1ad3e | 2388 | { |
e7d2373d | 2389 | fhDeltaPhiPi0DecayNeutral = new TH2F |
2390 | ("hDeltaPhiPi0DecayNeutral","#phi_{Decay} - #phi_{h^{0}} vs #it{p}_{T Decay}", | |
6ed1ad3e | 2391 | nptbins,ptmin,ptmax, ndeltaphibins ,deltaphimin,deltaphimax); |
e7d2373d | 2392 | fhDeltaPhiPi0DecayNeutral->SetYTitle("#Delta #phi (rad)"); |
2393 | fhDeltaPhiPi0DecayNeutral->SetXTitle("#it{p}_{T Decay} (GeV/#it{c})"); | |
e09cf5ef | 2394 | |
e7d2373d | 2395 | fhXEPi0DecayNeutral = |
2396 | new TH2F("hXEPi0DecayNeutral","#it{x}_{#it{E}} for decay trigger", | |
7aaa6c97 | 2397 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
e7d2373d | 2398 | fhXEPi0DecayNeutral->SetYTitle("#it{x}_{#it{E}}"); |
2399 | fhXEPi0DecayNeutral->SetXTitle("#it{p}_{T decay}"); | |
6ed1ad3e | 2400 | |
e7d2373d | 2401 | fhZTPi0DecayNeutral = |
2402 | new TH2F("hZTPi0DecayNeutral","#it{z}_{trigger h^{0}} = #it{p}_{T h^{0}} / #it{p}_{T Decay}", | |
7aaa6c97 | 2403 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
e7d2373d | 2404 | fhZTPi0DecayNeutral->SetYTitle("#it{z}_{h^{0}}"); |
2405 | fhZTPi0DecayNeutral->SetXTitle("#it{p}_{T decay}"); | |
e09cf5ef | 2406 | |
e7d2373d | 2407 | outputContainer->Add(fhDeltaPhiPi0DecayNeutral) ; |
2408 | outputContainer->Add(fhXEPi0DecayNeutral) ; | |
2409 | outputContainer->Add(fhZTPi0DecayNeutral) ; | |
c8ad7ead | 2410 | } |
fe871b21 | 2411 | }//Correlation with neutral hadrons |
2412 | ||
be2df971 | 2413 | // If data is MC, fill more histograms, depending on origin |
babcbc9d | 2414 | if(IsDataMC()) |
2415 | { | |
be2df971 | 2416 | for(Int_t i= fMCGenTypeMin; i <= fMCGenTypeMax; i++) |
6ed1ad3e | 2417 | { |
be2df971 | 2418 | fhMCPtTrigger[i] = new TH1F (Form("hMCPtTrigger_%s",nameMC[i].Data()), |
2419 | Form("MC %s: generated trigger #it{p}_{T}",nameMC[i].Data()), | |
2420 | nptbins,ptmin,ptmax); | |
2421 | fhMCPtTrigger[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
6ed1ad3e | 2422 | |
be2df971 | 2423 | fhMCPhiTrigger[i] = new TH2F (Form("hMCPhiTrigger_%s",nameMC[i].Data()), |
2424 | Form("MC %s: generated trigger #phi",nameMC[i].Data()), | |
2425 | nptbins,ptmin,ptmax, nphibins,phimin,phimax); | |
2426 | fhMCPhiTrigger[i]->SetYTitle("#phi (rad)"); | |
2427 | fhMCPhiTrigger[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
6ed1ad3e | 2428 | |
be2df971 | 2429 | fhMCEtaTrigger[i] = new TH2F (Form("hMCEtaTrigger_%s",nameMC[i].Data()), |
2430 | Form("MC %s: generated trigger #eta",nameMC[i].Data()), | |
2431 | nptbins,ptmin,ptmax, netabins,etamin,etamax); | |
2432 | fhMCEtaTrigger[i]->SetYTitle("#eta"); | |
2433 | fhMCEtaTrigger[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
6ed1ad3e | 2434 | |
be2df971 | 2435 | if(fMakeAbsoluteLeading || fMakeNearSideLeading) |
2436 | { | |
2437 | fhMCPtTriggerNotLeading[i] = new TH1F (Form("hMCPtTriggerNotLeading_%s",nameMC[i].Data()), | |
2438 | Form("MC %s: generated trigger #it{p}_{T}, when not leading of primaries",nameMC[i].Data()), | |
2439 | nptbins,ptmin,ptmax); | |
2440 | fhMCPtTriggerNotLeading[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
2441 | ||
2442 | fhMCPhiTriggerNotLeading[i] = new TH2F (Form("hMCPhiTriggerNotLeading_%s",nameMC[i].Data()), | |
2443 | Form("MC %s: generated trigger #phi, when not leading of primaries",nameMC[i].Data()), | |
2444 | nptbins,ptmin,ptmax, nphibins,phimin,phimax); | |
2445 | fhMCPhiTriggerNotLeading[i]->SetYTitle("#phi (rad)"); | |
2446 | fhMCPhiTriggerNotLeading[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
2447 | ||
2448 | ||
2449 | fhMCEtaTriggerNotLeading[i] = new TH2F (Form("hMCEtaTriggerNotLeading_%s",nameMC[i].Data()), | |
2450 | Form("MC %s: generated triogger #eta, when not leading of primaries",nameMC[i].Data()), | |
2451 | nptbins,ptmin,ptmax, netabins,etamin,etamax); | |
2452 | fhMCEtaTriggerNotLeading[i]->SetYTitle("#eta "); | |
2453 | fhMCEtaTriggerNotLeading[i]->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
2454 | } | |
2455 | ||
2456 | fhMCEtaCharged[i] = new TH2F (Form("hMCEtaCharged_%s",nameMC[i].Data()), | |
2457 | Form("MC %s: #eta_{h^{#pm}} vs #it{p}_{T #pm}",nameMC[i].Data()), | |
2458 | nptbins,ptmin,ptmax,100,-1.,1.); | |
2459 | fhMCEtaCharged[i]->SetYTitle("#eta_{h^{#pm}} (rad)"); | |
2460 | fhMCEtaCharged[i]->SetXTitle("#it{p}_{T #pm} (GeV/#it{c})"); | |
2461 | ||
2462 | fhMCPhiCharged[i] = new TH2F(Form("hMCPhiCharged_%s",nameMC[i].Data()), | |
2463 | Form("MC %s: phi_{h^{#pm}} vs #it{p}_{T #pm}",nameMC[i].Data()), | |
2464 | nptbins,ptmin,ptmax,180,0,TMath::TwoPi()); | |
2465 | fhMCPhiCharged[i]->SetYTitle("MC #phi_{h^{#pm}} (rad)"); | |
2466 | fhMCPhiCharged[i]->SetXTitle("#it{p}_{T #pm} (GeV/#it{c})"); | |
2467 | ||
2468 | fhMCDeltaPhiDeltaEtaCharged[i] = new TH2F (Form("hMCDeltaPhiDeltaEtaCharged_%s",nameMC[i].Data()), | |
2469 | Form("MC %s: phi_{trigger} - #phi_{h^{#pm}} vs #eta_{trigger} - #eta_{h^{#pm}}",nameMC[i].Data()), | |
2470 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins ,deltaetamin,deltaetamax); | |
2471 | fhMCDeltaPhiDeltaEtaCharged[i]->SetXTitle("#Delta #phi (rad)"); | |
2472 | fhMCDeltaPhiDeltaEtaCharged[i]->SetYTitle("#Delta #eta"); | |
2473 | ||
2474 | fhMCDeltaEtaCharged[i] = new TH2F (Form("hMCDeltaEtaCharged_%s",nameMC[i].Data()), | |
2475 | Form("MC %s: #eta_{trigger} - #eta_{h^{#pm}} vs #it{p}_{T trigger} and #it{p}_{T assoc}",nameMC[i].Data()), | |
2476 | nptbins,ptmin,ptmax,ndeltaetabins ,deltaetamin,deltaetamax); | |
2477 | fhMCDeltaEtaCharged[i]->SetYTitle("#Delta #eta"); | |
2478 | fhMCDeltaEtaCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2479 | ||
2480 | fhMCDeltaPhiCharged[i] = new TH2F (Form("hMCDeltaPhiCharged_%s",nameMC[i].Data()), | |
2481 | Form("MC %s: #phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}",nameMC[i].Data()), | |
2482 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); | |
2483 | fhMCDeltaPhiCharged[i]->SetYTitle("#Delta #phi (rad)"); | |
2484 | fhMCDeltaPhiCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2485 | ||
2486 | fhMCDeltaPhiChargedPt[i] = new TH2F (Form("hMCDeltaPhiChargedPt_%s",nameMC[i].Data()), | |
2487 | Form("MC %s: #phi_{trigger} - #phi_{#h^{#pm}} vs #it{p}_{T h^{#pm}}",nameMC[i].Data()), | |
2488 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); | |
2489 | fhMCDeltaPhiChargedPt[i]->SetYTitle("#Delta #phi (rad)"); | |
2490 | fhMCDeltaPhiChargedPt[i]->SetXTitle("#it{p}_{T h^{#pm}} (GeV/#it{c})"); | |
2491 | ||
2492 | fhMCPtXECharged[i] = new TH2F (Form("hMCPtXECharged_%s",nameMC[i].Data()), | |
2493 | Form("MC %s: #it{x}_{#it{E}} with charged hadrons",nameMC[i].Data()), | |
2494 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2495 | fhMCPtXECharged[i]->SetYTitle("#it{x}_{#it{E}}"); | |
2496 | fhMCPtXECharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2497 | ||
2498 | fhMCPtHbpXECharged[i] = new TH2F(Form("hMCHbpXECharged_%s",nameMC[i].Data()), | |
2499 | Form("MC %s: #xi = ln(1/#it{x}_{#it{E}}) with charged hadrons",nameMC[i].Data()), | |
2500 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); | |
2501 | fhMCPtHbpXECharged[i]->SetYTitle("ln(1/#it{x}_{#it{E}})"); | |
2502 | fhMCPtHbpXECharged[i]->SetXTitle("#it{p}_{T trigger}"); | |
2503 | ||
2504 | fhMCPtZTCharged[i] = new TH2F(Form("hMCPtZTCharged_%s",nameMC[i].Data()), | |
2505 | Form("MC %s: #it{z}_{T} with charged hadrons",nameMC[i].Data()), | |
2506 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2507 | fhMCPtZTCharged[i]->SetYTitle("#it{z}_{T}"); | |
2508 | fhMCPtZTCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2509 | ||
2510 | fhMCPtHbpZTCharged[i] = new TH2F(Form("hMCHbpZTCharged_%s",nameMC[i].Data()), | |
2511 | Form("MC %s: #xi = ln(1/#it{z}_{T}) with charged hadrons",nameMC[i].Data()), | |
2512 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); | |
2513 | fhMCPtHbpZTCharged[i]->SetYTitle("ln(1/#it{z}_{T})"); | |
2514 | fhMCPtHbpZTCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2515 | ||
2516 | fhMCPtTrigPout[i] = new TH2F(Form("hMCPtTrigPout_%s",nameMC[i].Data()), | |
2517 | Form("MC %s: #it{p}_{out} with triggers",nameMC[i].Data()), | |
2518 | nptbins,ptmin,ptmax,nptbins,-1.*ptmax/2.,ptmax/2.); | |
2519 | fhMCPtTrigPout[i]->SetYTitle("#it{p}_{out} (GeV/#it{c})"); | |
2520 | fhMCPtTrigPout[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2521 | ||
2522 | fhMCPtAssocDeltaPhi[i] = new TH2F(Form("hMCPtAssocDeltaPhi_%s",nameMC[i].Data()), | |
2523 | Form("MC %s: #Delta #phi with associated charged hadrons",nameMC[i].Data()), | |
2524 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); | |
2525 | fhMCPtAssocDeltaPhi[i]->SetYTitle("#Delta #phi (rad)"); | |
2526 | fhMCPtAssocDeltaPhi[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
f2d29137 | 2527 | |
be2df971 | 2528 | outputContainer->Add(fhMCPtTrigger[i]); |
2529 | outputContainer->Add(fhMCPhiTrigger[i]); | |
2530 | outputContainer->Add(fhMCEtaTrigger[i]); | |
f2d29137 | 2531 | |
be2df971 | 2532 | if(fMakeAbsoluteLeading || fMakeNearSideLeading) |
2533 | { | |
2534 | outputContainer->Add(fhMCPtTriggerNotLeading[i]); | |
2535 | outputContainer->Add(fhMCPhiTriggerNotLeading[i]); | |
2536 | outputContainer->Add(fhMCEtaTriggerNotLeading[i]); | |
2537 | } | |
6ed1ad3e | 2538 | |
be2df971 | 2539 | outputContainer->Add(fhMCDeltaPhiDeltaEtaCharged[i]); |
2540 | outputContainer->Add(fhMCPhiCharged[i]) ; | |
2541 | outputContainer->Add(fhMCEtaCharged[i]) ; | |
2542 | outputContainer->Add(fhMCDeltaEtaCharged[i]) ; | |
2543 | outputContainer->Add(fhMCDeltaPhiCharged[i]) ; | |
2544 | ||
2545 | outputContainer->Add(fhMCDeltaPhiChargedPt[i]) ; | |
2546 | outputContainer->Add(fhMCPtXECharged[i]) ; | |
2547 | outputContainer->Add(fhMCPtZTCharged[i]) ; | |
2548 | outputContainer->Add(fhMCPtHbpXECharged[i]) ; | |
2549 | outputContainer->Add(fhMCPtHbpZTCharged[i]) ; | |
2550 | outputContainer->Add(fhMCPtTrigPout[i]) ; | |
2551 | outputContainer->Add(fhMCPtAssocDeltaPhi[i]) ; | |
2552 | ||
2553 | // Underlying event | |
2554 | ||
2555 | fhMCUePart[i] = | |
2556 | new TH1F(Form("hMCUePart_%s",nameMC[i].Data()), | |
2557 | Form("MC %s: UE particles distribution vs #it{p}_{T trigger}",nameMC[i].Data()), | |
2558 | nptbins,ptmin,ptmax); | |
2559 | fhMCUePart[i]->SetYTitle("#it{dN}^{ch}"); | |
2560 | fhMCUePart[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2561 | ||
2562 | fhMCPtXEUeCharged[i] = | |
349eb23d | 2563 | new TH2F(Form("hMCPtXEUeCharged%s_%s",right.Data(),nameMC[i].Data()), |
2564 | Form("MC %s: #it{x}_{#it{E}} with charged hadrons, Underlying Event %s",nameMC[i].Data(),right.Data()), | |
7aaa6c97 | 2565 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
be2df971 | 2566 | fhMCPtXEUeCharged[i]->SetYTitle("#it{x}_{#it{E}}"); |
2567 | fhMCPtXEUeCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
6ed1ad3e | 2568 | |
be2df971 | 2569 | fhMCPtHbpXEUeCharged[i] = |
349eb23d | 2570 | new TH2F(Form("hMCPtHbpXEUeCharged%s_%s",right.Data(),nameMC[i].Data()), |
2571 | Form("MC %s: #xi = ln(1/#it{x}_{#it{E}}) with charged hadrons, Underlying Event %s",nameMC[i].Data(),right.Data()), | |
7aaa6c97 | 2572 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
be2df971 | 2573 | fhMCPtHbpXEUeCharged[i]->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
2574 | fhMCPtHbpXEUeCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
6ed1ad3e | 2575 | |
be2df971 | 2576 | fhMCPtZTUeCharged[i] = |
349eb23d | 2577 | new TH2F(Form("hMCPtZTUeCharged%s_%s",right.Data(),nameMC[i].Data()), |
2578 | Form("MC %s: #it{z}_{T} with charged hadrons, Underlying Event %s",nameMC[i].Data(),right.Data()), | |
be2df971 | 2579 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
2580 | fhMCPtZTUeCharged[i]->SetYTitle("#it{z}_{T}"); | |
2581 | fhMCPtZTUeCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
6ed1ad3e | 2582 | |
be2df971 | 2583 | fhMCPtHbpZTUeCharged[i] = |
349eb23d | 2584 | new TH2F(Form("hMCPtHbpZTUeCharged%s_%s",right.Data(),nameMC[i].Data()), |
2585 | Form("MC %s: #xi = ln(1/#it{z}_{T}) with charged hadrons, Underlying Event %s",nameMC[i].Data(),right.Data()), | |
be2df971 | 2586 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
2587 | fhMCPtHbpZTUeCharged[i]->SetYTitle("ln(1/#it{z}_{T})"); | |
2588 | fhMCPtHbpZTUeCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2589 | ||
2590 | outputContainer->Add(fhMCUePart[i]); | |
2591 | outputContainer->Add(fhMCPtXEUeCharged[i]) ; | |
2592 | outputContainer->Add(fhMCPtZTUeCharged[i]) ; | |
2593 | outputContainer->Add(fhMCPtHbpZTUeCharged[i]); | |
2594 | outputContainer->Add(fhMCPtHbpXEUeCharged[i]); | |
2595 | ||
2596 | if(fMakeSeveralUE) | |
2597 | { | |
2598 | fhMCPtXEUeLeftCharged[i] = new TH2F(Form("hMCPtXEUeChargedLeft_%s",nameMC[i].Data()), | |
2599 | Form("MC %s: #it{x}_{#it{E}} with charged hadrons, with UE left side range of trigger particles",nameMC[i].Data()), | |
2600 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2601 | fhMCPtXEUeLeftCharged[i]->SetYTitle("#it{x}_{#it{E}}"); | |
2602 | fhMCPtXEUeLeftCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2603 | ||
2604 | fhMCPtHbpXEUeLeftCharged[i] = new TH2F(Form("hMCPtHbpXEUeChargedLeft_%s",nameMC[i].Data()), | |
2605 | Form("MC %s: #xi = ln(1/#it{x}_{#it{E}}) with charged hadrons, with UE left side range of trigger particles",nameMC[i].Data()), | |
2606 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); | |
2607 | fhMCPtHbpXEUeLeftCharged[i]->SetYTitle("ln(1/#it{x}_{#it{E}})"); | |
2608 | fhMCPtHbpXEUeLeftCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2609 | ||
2610 | fhMCPtZTUeLeftCharged[i] = new TH2F(Form("hMCPtZTUeChargedLeft_%s",nameMC[i].Data()), | |
2611 | Form("MC %s: #it{z}_{T} with charged hadrons, with UE left side range of trigger particles",nameMC[i].Data()), | |
2612 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); | |
2613 | fhMCPtZTUeLeftCharged[i]->SetYTitle("#it{z}_{T}"); | |
2614 | fhMCPtZTUeLeftCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2615 | ||
2616 | fhMCPtHbpZTUeLeftCharged[i] = new TH2F(Form("hMCPtHbpZTUeChargedLeft_%s",nameMC[i].Data()), | |
2617 | Form("MC %s: #xi = ln(1/#it{z}_{T}) with charged hadrons, with UE left side range of trigger particles",nameMC[i].Data()), | |
2618 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); | |
2619 | fhMCPtHbpZTUeLeftCharged[i]->SetYTitle("ln(1/#it{z}_{T})"); | |
2620 | fhMCPtHbpZTUeLeftCharged[i]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2621 | ||
2622 | outputContainer->Add(fhMCPtXEUeLeftCharged[i]) ; | |
2623 | outputContainer->Add(fhMCPtZTUeLeftCharged[i]) ; | |
2624 | outputContainer->Add(fhMCPtHbpXEUeLeftCharged[i]); | |
2625 | outputContainer->Add(fhMCPtHbpZTUeLeftCharged[i]) ; | |
2626 | ||
2627 | } | |
f2d29137 | 2628 | } |
fe871b21 | 2629 | } //for MC histogram |
2630 | ||
2e876d85 | 2631 | if(DoOwnMix()) |
029dea5a | 2632 | { |
2633 | //create event containers | |
029dea5a | 2634 | |
c8ad7ead | 2635 | if(!fUseMixStoredInReader || (fUseMixStoredInReader && !GetReader()->ListWithMixedEventsForTracksExists())) |
2e876d85 | 2636 | { |
d07ffd54 | 2637 | Int_t nvz = GetNZvertBin(); |
2638 | Int_t nrp = GetNRPBin(); | |
2639 | Int_t nce = GetNCentrBin(); | |
283f989c | 2640 | |
d07ffd54 | 2641 | fListMixTrackEvents= new TList*[nvz*nrp*nce] ; |
2642 | ||
2643 | for( Int_t ice = 0 ; ice < nce ; ice++ ) | |
2644 | { | |
2645 | for( Int_t ivz = 0 ; ivz < nvz ; ivz++ ) | |
2646 | { | |
2647 | for( Int_t irp = 0 ; irp < nrp ; irp++ ) | |
2648 | { | |
2649 | Int_t bin = GetEventMixBin(ice,ivz,irp); //ic*nvz*nrp+iz*nrp+irp; | |
2650 | ||
2651 | //printf("GetCreateOutputObjects - Bins : cent %d, vz %d, RP %d, event %d/%d\n", | |
2652 | // ic,iz, irp, bin); | |
2653 | ||
2654 | fListMixTrackEvents[bin] = new TList() ; | |
2655 | fListMixTrackEvents[bin]->SetOwner(kFALSE); | |
2656 | } | |
2657 | } | |
c8ad7ead | 2658 | } |
d07ffd54 | 2659 | } |
d0b625bc | 2660 | |
55c20a99 | 2661 | fhPtTriggerMixed = new TH1F ("hPtTriggerMixed","#it{p}_{T} distribution of trigger particles, used for mixing", nptbins,ptmin,ptmax); |
2662 | fhPtTriggerMixed->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
c8ad7ead | 2663 | |
7d306daf | 2664 | if(fCorrelVzBin) |
2665 | { | |
55c20a99 | 2666 | fhPtTriggerMixedVzBin = new TH2F ("hPtTriggerMixedVzBin","#it{p}_{T} distribution of trigger particles, used for mixing", nptbins,ptmin,ptmax,GetNZvertBin(),0,GetNZvertBin()); |
2667 | fhPtTriggerMixedVzBin->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
2668 | fhPtTriggerMixedVzBin->SetYTitle("#it{v}_{#it{z}} bin"); | |
2669 | outputContainer->Add(fhPtTriggerMixedVzBin); | |
7d306daf | 2670 | } |
2671 | ||
55c20a99 | 2672 | fhPtTriggerMixedBin = new TH2F ("hPtTriggerMixedBin","#it{p}_{T} distribution of trigger particles vs mixing bin", nptbins,ptmin,ptmax,nMixBins,0,nMixBins); |
2673 | fhPtTriggerMixedBin->SetXTitle("#it{p}_{T}^{trig} (GeV/#it{c})"); | |
2674 | fhPtTriggerMixedBin->SetYTitle("Bin"); | |
c8ad7ead | 2675 | |
55c20a99 | 2676 | fhPhiTriggerMixed = new TH2F ("hPhiTriggerMixed","#phi distribution of trigger Particles, used for mixing",nptbins,ptmin,ptmax, nphibins,phimin,phimax); |
2677 | fhPhiTriggerMixed->SetYTitle("#phi (rad)"); | |
d0b625bc | 2678 | |
55c20a99 | 2679 | fhEtaTriggerMixed = new TH2F ("hEtaTriggerMixed","#eta distribution of trigger, used for mixing",nptbins,ptmin,ptmax, netabins,etamin,etamax); |
2680 | fhEtaTriggerMixed->SetYTitle("#eta "); | |
d0b625bc | 2681 | |
55c20a99 | 2682 | outputContainer->Add(fhPtTriggerMixed); |
2683 | outputContainer->Add(fhPtTriggerMixedBin); | |
2684 | outputContainer->Add(fhPhiTriggerMixed); | |
2685 | outputContainer->Add(fhEtaTriggerMixed); | |
d0b625bc | 2686 | |
2bb7ac98 | 2687 | // Fill the cluster pool only in isolation analysis or if requested |
de9949a4 | 2688 | if( neutralMix && (!fUseMixStoredInReader || (fUseMixStoredInReader && !GetReader()->ListWithMixedEventsForCaloExists()))) |
d07ffd54 | 2689 | { |
7ed3a248 | 2690 | Int_t nvz = GetNZvertBin(); |
2691 | Int_t nrp = GetNRPBin(); | |
2692 | Int_t nce = GetNCentrBin(); | |
2693 | ||
d07ffd54 | 2694 | fListMixCaloEvents= new TList*[nvz*nrp*nce] ; |
7ed3a248 | 2695 | |
2696 | for( Int_t ice = 0 ; ice < nce ; ice++ ) | |
2e876d85 | 2697 | { |
7ed3a248 | 2698 | for( Int_t ivz = 0 ; ivz < nvz ; ivz++ ) |
2e876d85 | 2699 | { |
7ed3a248 | 2700 | for( Int_t irp = 0 ; irp < nrp ; irp++ ) |
283f989c | 2701 | { |
7ed3a248 | 2702 | Int_t bin = GetEventMixBin(ice,ivz,irp); //ic*nvz*nrp+iz*nrp+irp; |
2703 | ||
da3c40f7 | 2704 | //printf("GetCreateOutputObjects - Bins : cent %d, vz %d, RP %d, event %d/%d\n", |
7ed3a248 | 2705 | // ic,iz, irp, bin); |
2706 | ||
d07ffd54 | 2707 | fListMixCaloEvents[bin] = new TList() ; |
2708 | fListMixCaloEvents[bin]->SetOwner(kFALSE); | |
283f989c | 2709 | } |
2e876d85 | 2710 | } |
c8ad7ead | 2711 | } |
283f989c | 2712 | } |
2713 | ||
2714 | //Init the list in the reader if not done previously | |
d07ffd54 | 2715 | if(fUseMixStoredInReader) |
283f989c | 2716 | { |
c8ad7ead | 2717 | if( !GetReader()->ListWithMixedEventsForTracksExists() ) |
d07ffd54 | 2718 | GetReader()->SetListWithMixedEventsForTracks(fListMixTrackEvents); |
2719 | ||
c8ad7ead | 2720 | if( !GetReader()->ListWithMixedEventsForCaloExists() ) |
d07ffd54 | 2721 | GetReader()->SetListWithMixedEventsForCalo (fListMixCaloEvents ); |
283f989c | 2722 | } |
029dea5a | 2723 | |
efb540af | 2724 | fhEventBin=new TH1I("hEventBin","Number of triggers per bin(cen,vz,rp)", |
c8ad7ead | 2725 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1,0, |
2e876d85 | 2726 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1) ; |
7aaa6c97 | 2727 | fhEventBin->SetXTitle("event bin"); |
2e876d85 | 2728 | outputContainer->Add(fhEventBin) ; |
283f989c | 2729 | |
efb540af | 2730 | fhEventMixBin=new TH1I("hEventMixBin","Number of triggers mixed per event bin(cen,vz,rp)", |
2e876d85 | 2731 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1,0, |
2732 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1) ; | |
7aaa6c97 | 2733 | fhEventMixBin->SetXTitle("event bin"); |
2e876d85 | 2734 | outputContainer->Add(fhEventMixBin) ; |
efb540af | 2735 | |
2736 | fhEventMBBin=new TH1I("hEventMBBin","Number of min bias events per bin(cen,vz,rp)", | |
2737 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1,0, | |
2738 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1) ; | |
2739 | fhEventMBBin->SetXTitle("event bin"); | |
2740 | outputContainer->Add(fhEventMBBin) ; | |
2741 | ||
7aaa6c97 | 2742 | fhNtracksMB=new TH2F("hNtracksMBEvent","Number of filtered tracks in MB event per event bin",ntrbins,trmin,trmax, |
2743 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1,0, | |
2744 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1) ; | |
2745 | fhNtracksMB->SetYTitle("event bin"); | |
2746 | fhNtracksMB->SetXTitle("#it{N}_{track}"); | |
2e876d85 | 2747 | outputContainer->Add(fhNtracksMB); |
7aaa6c97 | 2748 | |
de9949a4 | 2749 | if( neutralMix ) |
2bb7ac98 | 2750 | { |
7aaa6c97 | 2751 | fhNclustersMB=new TH2F("hNclustersMBEvent","Number of filtered clusters in MB events per event bin",nclbins,clmin,clmax, |
2752 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1,0, | |
2753 | GetNCentrBin()*GetNZvertBin()*GetNRPBin()+1) ; | |
2754 | fhNclustersMB->SetYTitle("event bin"); | |
2755 | fhNclustersMB->SetXTitle("#it{N}_{cluster}"); | |
2bb7ac98 | 2756 | outputContainer->Add(fhNclustersMB); |
2757 | } | |
2758 | ||
029dea5a | 2759 | fhMixDeltaPhiCharged = new TH2F |
858212dd | 2760 | ("hMixDeltaPhiCharged","Mixed event : #phi_{trigger} - #phi_{h^{#pm}} vs #it{p}_{T trigger}", |
c8ad7ead | 2761 | nptbins,ptmin,ptmax,ndeltaphibins ,deltaphimin,deltaphimax); |
2bb7ac98 | 2762 | fhMixDeltaPhiCharged->SetYTitle("#Delta #phi (rad)"); |
858212dd | 2763 | fhMixDeltaPhiCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); |
029dea5a | 2764 | outputContainer->Add(fhMixDeltaPhiCharged); |
283f989c | 2765 | |
029dea5a | 2766 | fhMixDeltaPhiDeltaEtaCharged = new TH2F |
2767 | ("hMixDeltaPhiDeltaEtaCharged","Mixed event : #phi_{trigger} - #phi_{h^{#pm}} vs #eta_{trigger} - #eta_{h^{#pm}}", | |
c8ad7ead | 2768 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins ,deltaetamin,deltaetamax); |
2bb7ac98 | 2769 | fhMixDeltaPhiDeltaEtaCharged->SetXTitle("#Delta #phi (rad)"); |
029dea5a | 2770 | fhMixDeltaPhiDeltaEtaCharged->SetYTitle("#Delta #eta"); |
2771 | outputContainer->Add(fhMixDeltaPhiDeltaEtaCharged); | |
283f989c | 2772 | |
c8ad7ead | 2773 | fhMixXECharged = |
858212dd | 2774 | new TH2F("hMixXECharged","Mixed event : #it{x}_{#it{E}} for charged tracks", |
7aaa6c97 | 2775 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2776 | fhMixXECharged->SetYTitle("#it{x}_{#it{E}}"); |
2777 | fhMixXECharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
08f220c8 | 2778 | outputContainer->Add(fhMixXECharged); |
18838011 | 2779 | |
2780 | fhMixXEUeCharged = | |
858212dd | 2781 | new TH2F("hMixXEUeCharged","Mixed event : #it{x}_{#it{E}} for charged tracks in Ue region", |
7aaa6c97 | 2782 | nptbins,ptmin,ptmax,nxeztbins,xeztmin,xeztmax); |
858212dd | 2783 | fhMixXEUeCharged->SetYTitle("#it{x}_{#it{E}}"); |
2784 | fhMixXEUeCharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
18838011 | 2785 | outputContainer->Add(fhMixXEUeCharged); |
c8ad7ead | 2786 | |
18838011 | 2787 | fhMixHbpXECharged = |
858212dd | 2788 | new TH2F("hMixHbpXECharged","mixed event : #xi = ln(1/#it{x}_{#it{E}}) with charged hadrons", |
7aaa6c97 | 2789 | nptbins,ptmin,ptmax,nhbpbins,hbpmin,hbpmax); |
858212dd | 2790 | fhMixHbpXECharged->SetYTitle("ln(1/#it{x}_{#it{E}})"); |
2791 | fhMixHbpXECharged->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
08f220c8 | 2792 | outputContainer->Add(fhMixHbpXECharged); |
c8ad7ead | 2793 | |
7d306daf | 2794 | fhMixDeltaPhiChargedAssocPtBin = new TH2F*[fNAssocPtBins*nz]; |
2795 | fhMixDeltaPhiChargedAssocPtBinDEta08 = new TH2F*[fNAssocPtBins*nz]; | |
2796 | fhMixDeltaPhiChargedAssocPtBinDEta0 = new TH2F*[fNAssocPtBins*nz]; | |
2797 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin = new TH2F*[fNAssocPtBins*nz]; | |
283f989c | 2798 | |
029dea5a | 2799 | for(Int_t i = 0 ; i < fNAssocPtBins ; i++) |
c8ad7ead | 2800 | { |
7d306daf | 2801 | for(Int_t z = 0 ; z < nz ; z++) |
8cc41381 | 2802 | { |
7d306daf | 2803 | Int_t bin = i*nz+z; |
8cc41381 | 2804 | |
7d306daf | 2805 | if(fCorrelVzBin) |
2806 | { | |
d71a7d1f | 2807 | sz = Form("_vz%d",z); |
858212dd | 2808 | tz = Form(", #it{v}_{#it{z}} bin %d",z); |
7d306daf | 2809 | } |
2810 | ||
2811 | //printf("MIX : iAssoc %d, Vz %d, bin %d - sz %s, tz %s \n",i,z,bin,sz.Data(),tz.Data()); | |
2812 | ||
c8ad7ead | 2813 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin[bin] = new TH2F(Form("hMixDeltaPhiDeltaEtaChargedAssocPtBin%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), |
2814 | Form("Mixed event #Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2815 | ndeltaphibins ,deltaphimin,deltaphimax,ndeltaetabins ,deltaetamin,deltaetamax); | |
2bb7ac98 | 2816 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin[bin]->SetXTitle("#Delta #phi (rad)"); |
8cc41381 | 2817 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin[bin]->SetYTitle("#Delta #eta"); |
2818 | ||
8cc41381 | 2819 | outputContainer->Add(fhMixDeltaPhiDeltaEtaChargedAssocPtBin[bin]); |
a22f3f34 | 2820 | |
2821 | fhMixDeltaPhiChargedAssocPtBin[bin] = new TH2F(Form("hMixDeltaPhiChargedAssocPtBin%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), | |
2822 | Form("Mixed event #Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2823 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2824 | fhMixDeltaPhiChargedAssocPtBin[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2825 | fhMixDeltaPhiChargedAssocPtBin[bin]->SetYTitle("#Delta #phi (rad)"); | |
2826 | ||
2827 | outputContainer->Add(fhMixDeltaPhiChargedAssocPtBin[bin]); | |
2828 | ||
2829 | if(fFillEtaGapsHisto) | |
2830 | { | |
2831 | fhMixDeltaPhiChargedAssocPtBinDEta08[bin] = new TH2F(Form("hMixDeltaPhiDeltaEta0.8ChargedAssocPtBin%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), | |
2832 | Form("Mixed event #Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, for #Delta #eta > 0.8", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2833 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2834 | fhMixDeltaPhiChargedAssocPtBinDEta08[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2835 | fhMixDeltaPhiChargedAssocPtBinDEta08[bin]->SetYTitle("#Delta #phi (rad)"); | |
2836 | ||
2837 | fhMixDeltaPhiChargedAssocPtBinDEta0[bin] = new TH2F(Form("hMixDeltaPhiDeltaEta0ChargedAssocPtBin%2.1f_%2.1f%s", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],sz.Data()), | |
2838 | Form("Mixed event #Delta #phi vs #it{p}_{T trigger} for associated #it{p}_{T} bin [%2.1f,%2.1f]%s, for #Delta #eta = 0", fAssocPtBinLimit[i], fAssocPtBinLimit[i+1],tz.Data()), | |
2839 | nptbins, ptmin, ptmax, ndeltaphibins ,deltaphimin,deltaphimax); | |
2840 | fhMixDeltaPhiChargedAssocPtBinDEta0[bin]->SetXTitle("#it{p}_{T trigger} (GeV/#it{c})"); | |
2841 | fhMixDeltaPhiChargedAssocPtBinDEta0[bin]->SetYTitle("#Delta #phi (rad)"); | |
2842 | ||
2843 | outputContainer->Add(fhMixDeltaPhiChargedAssocPtBinDEta08[bin]); | |
2844 | outputContainer->Add(fhMixDeltaPhiChargedAssocPtBinDEta0[bin]); | |
2845 | } | |
8cc41381 | 2846 | } |
c8ad7ead | 2847 | } |
029dea5a | 2848 | } |
7d306daf | 2849 | |
e09cf5ef | 2850 | return outputContainer; |
2851 | ||
2852 | } | |
2853 | ||
55bf1615 | 2854 | //_____________________________________________________________________________________________________________________ |
2855 | Bool_t AliAnaParticleHadronCorrelation::GetDecayPhotonMomentum(Int_t indexPhoton1, Int_t indexPhoton2, Int_t idetector) | |
907b38cd | 2856 | { |
2857 | // Get the momentum of the pi0/eta assigned decay photons | |
c8ad7ead | 2858 | // In case of pi0/eta trigger, we may want to check their decay correlation, |
907b38cd | 2859 | // get their decay children |
2860 | ||
907b38cd | 2861 | if(indexPhoton1!=-1 || indexPhoton2!=-1) return kFALSE; |
2862 | ||
2db10729 | 2863 | AliDebug(1,Form("indexPhoton1 = %d, indexPhoton2 = %d", indexPhoton1, indexPhoton2)); |
907b38cd | 2864 | |
c8ad7ead | 2865 | TObjArray * clusters = 0x0 ; |
55bf1615 | 2866 | if(idetector==kEMCAL) clusters = GetEMCALClusters() ; |
2867 | else clusters = GetPHOSClusters() ; | |
907b38cd | 2868 | |
2869 | for(Int_t iclus = 0; iclus < clusters->GetEntriesFast(); iclus++) | |
2870 | { | |
6d9932e2 | 2871 | AliVCluster * photon = (AliVCluster*) (clusters->At(iclus)); |
2872 | ||
349eb23d | 2873 | if(photon->GetID()==indexPhoton1) photon->GetMomentum(fDecayMom1,GetVertex(0)) ; |
2874 | if(photon->GetID()==indexPhoton2) photon->GetMomentum(fDecayMom2,GetVertex(0)) ; | |
907b38cd | 2875 | |
2db10729 | 2876 | AliDebug(1,Form("Photon1 = %f, Photon2 = %f", fDecayMom1.Pt(), fDecayMom2.Pt())); |
907b38cd | 2877 | |
2878 | } //cluster loop | |
2879 | ||
2880 | return kTRUE; | |
2881 | ||
2882 | } | |
2883 | ||
b1f720a7 | 2884 | //_____________________________________________________________ |
22ad7981 | 2885 | Int_t AliAnaParticleHadronCorrelation::GetMCTagHistogramIndex(Int_t mcTag) |
b1f720a7 | 2886 | { |
2887 | // Index of MC histograms depending on MC origin | |
2888 | ||
2889 | if ( GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCPrompt) || | |
2890 | GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCFragmentation)) return 0; | |
2891 | else if( GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCPi0)) return 1; | |
2892 | else if( GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCPi0Decay)) return 2; | |
be2df971 | 2893 | else if( GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCEta) || |
2894 | GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCEtaDecay)) return 3; | |
b1f720a7 | 2895 | else if( GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCOtherDecay)) return 4; |
2896 | else if(!GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCElectron)) return 5; | |
2897 | else return 6; | |
2898 | ||
2899 | } | |
2900 | ||
c8ad7ead | 2901 | //_________________________________________ |
2902 | void AliAnaParticleHadronCorrelation::Init() | |
2903 | { | |
2904 | //Init | |
2905 | //Do some checks | |
2906 | ||
2907 | if(!GetReader()->IsCTSSwitchedOn()) | |
2db10729 | 2908 | AliFatal("STOP!: You want to use CTS tracks in analysis but not read!! \n!!Check the configuration file!!"); |
c8ad7ead | 2909 | } |
2910 | ||
05d0d05d | 2911 | //____________________________________________________ |
e09cf5ef | 2912 | void AliAnaParticleHadronCorrelation::InitParameters() |
2913 | { | |
2914 | ||
2915 | //Initialize the parameters of the analysis. | |
e4c0a0eb | 2916 | SetInputAODName("Particle"); |
e09cf5ef | 2917 | SetAODObjArrayName("Hadrons"); |
2918 | AddToHistogramsName("AnaHadronCorr_"); | |
045396c8 | 2919 | |
e09cf5ef | 2920 | SetPtCutRange(0.,300); |
b6afb6b1 | 2921 | fDeltaPhiMinCut = TMath::DegToRad()*120.; |
2922 | fDeltaPhiMaxCut = TMath::DegToRad()*240. ; | |
045396c8 | 2923 | fSelectIsolated = kFALSE; |
2924 | fMakeSeveralUE = kFALSE; | |
b6afb6b1 | 2925 | fUeDeltaPhiMinCut = TMath::DegToRad()*60.; |
2926 | fUeDeltaPhiMaxCut = TMath::DegToRad()*120 ; | |
907b38cd | 2927 | |
045396c8 | 2928 | fNeutralCorr = kFALSE ; |
2929 | fPi0Trigger = kFALSE ; | |
907b38cd | 2930 | fDecayTrigger = kFALSE ; |
2931 | fHMPIDCorrelation = kFALSE ; | |
045396c8 | 2932 | |
3f150b4b | 2933 | fMakeAbsoluteLeading = kTRUE; |
2934 | fMakeNearSideLeading = kFALSE; | |
2935 | ||
050ad675 | 2936 | fNAssocPtBins = 9 ; |
2937 | fAssocPtBinLimit[0] = 0.2 ; | |
f85f4afb | 2938 | fAssocPtBinLimit[1] = 0.5 ; |
2939 | fAssocPtBinLimit[2] = 1.0 ; | |
2940 | fAssocPtBinLimit[3] = 2.0 ; | |
2941 | fAssocPtBinLimit[4] = 3.0 ; | |
2942 | fAssocPtBinLimit[5] = 4.0 ; | |
2943 | fAssocPtBinLimit[6] = 5.0 ; | |
2944 | fAssocPtBinLimit[7] = 6.0 ; | |
2945 | fAssocPtBinLimit[8] = 7.0 ; | |
2946 | fAssocPtBinLimit[9] = 8.0 ; | |
2947 | fAssocPtBinLimit[10] = 9.0 ; | |
2948 | fAssocPtBinLimit[11] = 10.0 ; | |
2949 | fAssocPtBinLimit[12] = 12.0 ; | |
2950 | fAssocPtBinLimit[13] = 14.0 ; | |
2951 | fAssocPtBinLimit[14] = 16.0 ; | |
2952 | fAssocPtBinLimit[15] = 20.0 ; | |
2953 | fAssocPtBinLimit[16] = 30.0 ; | |
2954 | fAssocPtBinLimit[17] = 40.0 ; | |
2955 | fAssocPtBinLimit[18] = 50.0 ; | |
2956 | fAssocPtBinLimit[19] = 200.0 ; | |
2957 | ||
283f989c | 2958 | fUseMixStoredInReader = kTRUE; |
2959 | ||
e4c0a0eb | 2960 | fM02MinCut = -1 ; |
2961 | fM02MaxCut = -1 ; | |
2962 | ||
f7408d50 | 2963 | fSelectLeadingHadronAngle = kFALSE; |
0cea6003 | 2964 | fFillLeadHadOppositeHisto = kFALSE; |
f7408d50 | 2965 | fMinLeadHadPhi = 150*TMath::DegToRad(); |
2966 | fMaxLeadHadPhi = 210*TMath::DegToRad(); | |
2967 | ||
2968 | fMinLeadHadPt = 1; | |
2969 | fMaxLeadHadPt = 100; | |
2970 | ||
be2df971 | 2971 | fMCGenTypeMin = 0; |
2972 | fMCGenTypeMax = 6; | |
2973 | ||
e7d2373d | 2974 | fNDecayBits = 1; |
2975 | fDecayBits[0] = AliNeutralMesonSelection::kPi0; | |
2976 | fDecayBits[1] = AliNeutralMesonSelection::kEta; | |
2977 | fDecayBits[2] = AliNeutralMesonSelection::kPi0Side; | |
2978 | fDecayBits[3] = AliNeutralMesonSelection::kEtaSide; | |
e09cf5ef | 2979 | } |
2980 | ||
f3c47a7f | 2981 | //_________________________________________________________________________ |
2982 | Bool_t AliAnaParticleHadronCorrelation::IsTriggerTheEventLeadingParticle() | |
c8ad7ead | 2983 | { |
f3c47a7f | 2984 | // Check if the what of the selected triggers is leading particle comparing |
2985 | // with all the triggers, all the tracks or all the clusters (if requested for the clusters). | |
e09cf5ef | 2986 | |
1f8591af | 2987 | Double_t ptTrig = GetMinPt(); |
c8ad7ead | 2988 | Double_t phiTrig = 0 ; |
f3c47a7f | 2989 | fLeadingTriggerIndex =-1 ; |
2990 | Int_t index =-1 ; | |
2991 | AliAODPWG4ParticleCorrelation* pLeading = 0; | |
2992 | ||
2b65bd0e | 2993 | // Loop on stored AOD particles, find leading trigger on the selected list, with at least min pT. |
f3c47a7f | 2994 | |
c8ad7ead | 2995 | for(Int_t iaod = 0; iaod < GetInputAODBranch()->GetEntriesFast() ; iaod++) |
04f7a616 | 2996 | { |
e09cf5ef | 2997 | AliAODPWG4ParticleCorrelation* particle = (AliAODPWG4ParticleCorrelation*) (GetInputAODBranch()->At(iaod)); |
1f8591af | 2998 | particle->SetLeadingParticle(kFALSE); // set it later |
2999 | ||
04f7a616 | 3000 | // Vertex cut in case of mixing |
3001 | Int_t check = CheckMixedEventVertex(particle->GetCaloLabel(0), particle->GetTrackLabel(0)); | |
3002 | if(check == 0) continue; | |
c8ad7ead | 3003 | if(check == -1) return kFALSE; // not sure if it is correct. |
3004 | ||
045396c8 | 3005 | // find the leading particles with highest momentum |
c8ad7ead | 3006 | if (particle->Pt() > ptTrig) |
547c2f01 | 3007 | { |
f3c47a7f | 3008 | ptTrig = particle->Pt() ; |
3009 | phiTrig = particle->Phi(); | |
3010 | index = iaod ; | |
3011 | pLeading = particle ; | |
045396c8 | 3012 | } |
c8ad7ead | 3013 | }// finish search of leading trigger particle on the AOD branch. |
66e64043 | 3014 | |
f3c47a7f | 3015 | if(index < 0) return kFALSE; |
3016 | ||
3017 | //printf("AOD leading pT %2.2f, ID %d\n", pLeading->Pt(),pLeading->GetCaloLabel(0)); | |
7a12c958 | 3018 | |
c8ad7ead | 3019 | if(phiTrig < 0 ) phiTrig += TMath::TwoPi(); |
7a12c958 | 3020 | |
c8ad7ead | 3021 | // Compare if it is the leading of all tracks |
e09cf5ef | 3022 | |
f3c47a7f | 3023 | for(Int_t ipr = 0;ipr < GetCTSTracks()->GetEntriesFast() ; ipr ++ ) |
c8ad7ead | 3024 | { |
f3c47a7f | 3025 | AliVTrack * track = (AliVTrack *) (GetCTSTracks()->At(ipr)) ; |
3026 | ||
3027 | if(track->GetID() == pLeading->GetTrackLabel(0) || track->GetID() == pLeading->GetTrackLabel(1) || | |
3028 | track->GetID() == pLeading->GetTrackLabel(2) || track->GetID() == pLeading->GetTrackLabel(3) ) continue ; | |
c8ad7ead | 3029 | |
349eb23d | 3030 | fTrackVector.SetXYZ(track->Px(),track->Py(),track->Pz()); |
3031 | Float_t pt = fTrackVector.Pt(); | |
3032 | Float_t phi = fTrackVector.Phi() ; | |
c8ad7ead | 3033 | if(phi < 0) phi+=TMath::TwoPi(); |
3034 | ||
3035 | //jump out this event if near side associated particle pt larger than trigger | |
3036 | if (fMakeNearSideLeading) | |
3037 | { | |
98604e3a | 3038 | Float_t deltaPhi = phiTrig-phi; |
3039 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3040 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3041 | ||
3042 | if(pt > ptTrig && deltaPhi < TMath::PiOver2()) return kFALSE; | |
c8ad7ead | 3043 | } |
3044 | //jump out this event if there is any other particle with pt larger than trigger | |
2b65bd0e | 3045 | else |
c8ad7ead | 3046 | { |
f3c47a7f | 3047 | if(pt > ptTrig) return kFALSE ; |
c8ad7ead | 3048 | } |
3049 | }// track loop | |
3050 | ||
2b65bd0e | 3051 | // Compare if it is leading of all calorimeter clusters |
3052 | ||
f3c47a7f | 3053 | if(fCheckLeadingWithNeutralClusters) |
2b65bd0e | 3054 | { |
f3c47a7f | 3055 | // Select the calorimeter cluster list |
3056 | TObjArray * nePl = 0x0; | |
1290eee4 | 3057 | if (pLeading->GetDetectorTag() == kPHOS ) |
f3c47a7f | 3058 | nePl = GetPHOSClusters(); |
3059 | else | |
3060 | nePl = GetEMCALClusters(); | |
2b65bd0e | 3061 | |
f3c47a7f | 3062 | if(!nePl) return kTRUE; // Do the selection just with the tracks if no calorimeter is available. |
2b65bd0e | 3063 | |
f3c47a7f | 3064 | for(Int_t ipr = 0;ipr < nePl->GetEntriesFast() ; ipr ++ ) |
2b65bd0e | 3065 | { |
f3c47a7f | 3066 | AliVCluster * cluster = (AliVCluster *) (nePl->At(ipr)) ; |
3067 | ||
3068 | if(cluster->GetID() == pLeading->GetCaloLabel(0) || cluster->GetID() == pLeading->GetCaloLabel(1) ) continue ; | |
3069 | ||
349eb23d | 3070 | cluster->GetMomentum(fMomentum,GetVertex(0)); |
f3c47a7f | 3071 | |
349eb23d | 3072 | Float_t pt = fMomentum.Pt(); |
3073 | Float_t phi = fMomentum.Phi() ; | |
f3c47a7f | 3074 | if(phi < 0) phi+=TMath::TwoPi(); |
3075 | ||
3076 | if(IsTrackMatched(cluster,GetReader()->GetInputEvent())) continue ; // avoid charged clusters, already covered by tracks, or cluster merging with track. | |
3077 | ||
3078 | //jump out this event if near side associated particle pt larger than trigger | |
3079 | // not really needed for calorimeter, unless DCal is included | |
3080 | if (fMakeNearSideLeading) | |
3081 | { | |
98604e3a | 3082 | Float_t deltaPhi = phiTrig-phi; |
3083 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3084 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3085 | ||
3086 | if(pt > ptTrig && deltaPhi < TMath::PiOver2()) return kFALSE ; | |
f3c47a7f | 3087 | } |
3088 | //jump out this event if there is any other particle with pt larger than trigger | |
3089 | else | |
3090 | { | |
3091 | if(pt > ptTrig) return kFALSE ; | |
3092 | } | |
3093 | }// cluster loop | |
3094 | } // check neutral clusters | |
3095 | ||
3096 | fLeadingTriggerIndex = index ; | |
1f8591af | 3097 | pLeading->SetLeadingParticle(kTRUE); |
3098 | ||
2db10729 | 3099 | AliDebug(1,Form("\t particle AOD with index %d is leading with pT %2.2f", fLeadingTriggerIndex, pLeading->Pt())); |
2b65bd0e | 3100 | |
c8ad7ead | 3101 | return kTRUE; |
e09cf5ef | 3102 | |
3103 | } | |
3104 | ||
05d0d05d | 3105 | //_________________________________________________________________ |
8e8bfd92 | 3106 | void AliAnaParticleHadronCorrelation::MakeAnalysisFillHistograms() |
e09cf5ef | 3107 | { |
3108 | //Particle-Hadron Correlation Analysis, fill histograms | |
3109 | ||
3f150b4b | 3110 | if(!GetInputAODBranch()) |
3111 | { | |
2db10729 | 3112 | AliFatal(Form("No input particles in AOD with name branch < %s >, STOP",GetInputAODName().Data())); |
7a12c958 | 3113 | return ; // coverity |
e09cf5ef | 3114 | } |
3115 | ||
c8ad7ead | 3116 | Int_t naod = GetInputAODBranch()->GetEntriesFast(); |
3117 | if( naod == 0 ) | |
3118 | { | |
2db10729 | 3119 | AliWarning("No particle AOD found!"); |
c8ad7ead | 3120 | return ; // no trigger particles found. |
3121 | } | |
3122 | ||
2db10729 | 3123 | AliDebug(1,Form("Begin hadron correlation analysis, fill histograms")); |
3124 | AliDebug(1,Form("n particle branch aod entries %d", naod)); | |
3125 | AliDebug(1,Form("In CTS aod entries %d",GetCTSTracks()->GetEntriesFast())); | |
7a12c958 | 3126 | |
1f8591af | 3127 | //------------------------------------------------------ |
55c20a99 | 3128 | // Find leading trigger if analysis request only leading, |
3129 | // if there is no leading trigger, then skip the event | |
8e8bfd92 | 3130 | |
1f8591af | 3131 | Int_t iaod = 0 ; |
3132 | if( fMakeAbsoluteLeading || fMakeNearSideLeading ) | |
7a12c958 | 3133 | { |
1f8591af | 3134 | Bool_t leading = IsTriggerTheEventLeadingParticle(); |
7d306daf | 3135 | |
2db10729 | 3136 | AliDebug(1,Form("AOD Leading trigger? %d, with index %d",leading,fLeadingTriggerIndex)); |
1f8591af | 3137 | |
3138 | if(!leading) | |
547c2f01 | 3139 | { |
2db10729 | 3140 | AliDebug(1,"Leading was requested and not found"); |
1f8591af | 3141 | return ; |
3142 | } | |
3143 | else | |
3144 | { | |
3145 | // Select only the leading in the trigger AOD loop | |
8d7fba83 | 3146 | naod = fLeadingTriggerIndex+1 ; |
3147 | iaod = fLeadingTriggerIndex ; | |
9623bf34 | 3148 | } |
7a12c958 | 3149 | } |
7a12c958 | 3150 | |
8e8bfd92 | 3151 | //------------------------------------------------------ |
3152 | // Get event multiplicity and bins | |
3153 | ||
1f8591af | 3154 | Float_t cen = GetEventCentrality(); |
3155 | Float_t ep = GetEventPlaneAngle(); | |
0cea6003 | 3156 | if(IsHighMultiplicityAnalysisOn()) fhTriggerEventPlaneCentrality->Fill(cen,ep); |
1f8591af | 3157 | |
3158 | Int_t mixEventBin = GetEventMixBin(); | |
3159 | Int_t vzbin = GetEventVzBin(); | |
55c20a99 | 3160 | |
8e8bfd92 | 3161 | //------------------------------------------------------ |
3162 | // Loop on trigger AOD | |
3163 | ||
1f8591af | 3164 | for( iaod = 0; iaod < naod; iaod++ ) |
7a12c958 | 3165 | { |
1f8591af | 3166 | AliAODPWG4ParticleCorrelation* particle = (AliAODPWG4ParticleCorrelation*) (GetInputAODBranch()->At(iaod)); |
3167 | ||
8e8bfd92 | 3168 | // |
3169 | // Trigger particle selection criteria: | |
3170 | // | |
1f8591af | 3171 | Float_t pt = particle->Pt(); |
8e8bfd92 | 3172 | |
1f8591af | 3173 | if(pt < GetMinPt() || pt > GetMaxPt() ) continue ; |
3174 | ||
3175 | fhPtTriggerInput->Fill(pt); | |
3176 | ||
8e8bfd92 | 3177 | // |
3178 | // check if it was a calorimeter cluster | |
3179 | // and if the shower shape cut was requested apply it. | |
3180 | // Not needed if already done at the particle identification level, | |
3181 | // but for isolation studies, it is preferred not to remove so we do it here | |
3182 | // | |
1f8591af | 3183 | Int_t clID1 = particle->GetCaloLabel(0) ; |
3184 | Int_t clID2 = particle->GetCaloLabel(1) ; // for photon clusters should not be set. | |
2db10729 | 3185 | AliDebug(1,Form("%s Trigger : id1 %d, id2 %d, min %f, max %f, det %d", |
3186 | GetInputAODName().Data(),clID1,clID2,fM02MinCut,fM02MaxCut,particle->GetDetectorTag())); | |
1f8591af | 3187 | |
1f8591af | 3188 | if(clID1 > 0 && clID2 < 0 && fM02MaxCut > 0 && fM02MinCut > 0) |
3189 | { | |
c12a38d9 | 3190 | // Int_t iclus = -1; |
3191 | // TObjArray* clusters = 0x0; | |
1290eee4 | 3192 | // if (particle->GetDetectorTag() == kEMCAL) clusters = GetEMCALClusters(); |
3193 | // else if(particle->GetDetectorTag() == kPHOS ) clusters = GetPHOSClusters(); | |
c12a38d9 | 3194 | // |
3195 | // if(clusters) | |
3196 | // { | |
3197 | // AliVCluster *cluster = FindCluster(clusters,clID1,iclus); | |
3198 | // Float_t m02 = cluster->GetM02(); | |
3199 | // if(m02 > fM02MaxCut || m02 < fM02MinCut) continue ; | |
3200 | // } | |
3201 | ||
3202 | Float_t m02 = particle->GetM02(); | |
3203 | if(m02 > fM02MaxCut || m02 < fM02MinCut) continue ; | |
1f8591af | 3204 | |
3205 | fhPtTriggerSSCut->Fill(pt); | |
3206 | } | |
3207 | ||
8e8bfd92 | 3208 | // |
1f8591af | 3209 | // Check if the particle is isolated or if we want to take the isolation into account |
8e8bfd92 | 3210 | // This bool is set in AliAnaParticleIsolation |
3211 | // | |
1f8591af | 3212 | if(OnlyIsolated()) |
3213 | { | |
3214 | if( !particle->IsIsolated() ) continue; | |
3215 | fhPtTriggerIsoCut->Fill(pt); | |
3216 | } | |
3217 | ||
8e8bfd92 | 3218 | // |
1f8591af | 3219 | // Check if trigger is in fiducial region |
8e8bfd92 | 3220 | // |
1f8591af | 3221 | if(IsFiducialCutOn()) |
3222 | { | |
1290eee4 | 3223 | Bool_t in = GetFiducialCut()->IsInFiducialCut(particle->Eta(),particle->Phi(),particle->GetDetectorTag()) ; |
1f8591af | 3224 | if(! in ) continue ; |
3225 | } | |
3226 | ||
3227 | fhPtTriggerFidCut->Fill(pt); | |
3228 | ||
8e8bfd92 | 3229 | //--------------------------------------- |
3230 | // Make correlation | |
1f8591af | 3231 | |
6b013448 | 3232 | // Find the leading hadron in the opposite hemisphere to the triggeer |
3233 | // and accept the trigger if leading is in defined window. | |
3234 | Bool_t okLeadHad = kTRUE; | |
98604e3a | 3235 | if(fSelectLeadingHadronAngle || fFillLeadHadOppositeHisto) |
3236 | { | |
6b013448 | 3237 | okLeadHad = FindLeadingOppositeHadronInWindow(particle); |
98604e3a | 3238 | if(!okLeadHad && fSelectLeadingHadronAngle) continue; |
3239 | } | |
6b013448 | 3240 | |
5267de40 | 3241 | // |
6b013448 | 3242 | // Charged particles correlation |
5267de40 | 3243 | // |
3244 | MakeChargedCorrelation(particle); | |
3245 | ||
3246 | // MC | |
be2df971 | 3247 | Int_t mcIndex = -1; |
4a296f4a | 3248 | Int_t mcTag = particle->GetTag(); |
3249 | Bool_t lostDecayPair = kFALSE; | |
1f8591af | 3250 | if(IsDataMC()) |
be2df971 | 3251 | { |
4a296f4a | 3252 | mcIndex = GetMCTagHistogramIndex(mcTag); |
e23c7107 | 3253 | lostDecayPair = GetMCAnalysisUtils()->CheckTagBit(mcTag,AliMCAnalysisUtils::kMCDecayPairLost); |
4a296f4a | 3254 | MakeMCChargedCorrelation(particle->GetLabel(), mcIndex,lostDecayPair); |
be2df971 | 3255 | } |
1f8591af | 3256 | |
5267de40 | 3257 | // Do own mixed event with charged, |
3258 | // add event and remove previous or fill the mixed histograms | |
3259 | if(DoOwnMix()) | |
3260 | MakeChargedMixCorrelation(particle); | |
3261 | ||
3262 | // | |
6b013448 | 3263 | // Neutral particles correlation |
5267de40 | 3264 | // |
8e8bfd92 | 3265 | if(fNeutralCorr) |
bf01409a | 3266 | MakeNeutralCorrelation(particle); |
1f8591af | 3267 | |
b6afb6b1 | 3268 | //---------------------------------------------------------------- |
bf01409a | 3269 | // Fill trigger pT related histograms if not absolute leading |
df77176b | 3270 | |
8e8bfd92 | 3271 | // |
55c20a99 | 3272 | // pT of the trigger, vs trigger origin if MC |
8e8bfd92 | 3273 | // |
55c20a99 | 3274 | fhPtTrigger->Fill(pt); |
0ff0cd12 | 3275 | if(IsDataMC() && mcIndex >=0 && mcIndex < fgkNmcTypes) |
4a296f4a | 3276 | { |
55c20a99 | 3277 | fhPtTriggerMC[mcIndex]->Fill(pt); |
4a296f4a | 3278 | if( lostDecayPair && mcIndex==2 ) |
3279 | fhPtTriggerMC[7]->Fill(pt); | |
3280 | } | |
1f8591af | 3281 | |
48c5da66 | 3282 | if(fDecayTrigger) |
3283 | { | |
c12a38d9 | 3284 | Int_t decayTag = particle->DecayTag(); |
3285 | if(decayTag < 0) decayTag = 0; | |
3286 | ||
3287 | for(Int_t ibit = 0; ibit<fNDecayBits; ibit++) | |
48c5da66 | 3288 | { |
c12a38d9 | 3289 | if(GetNeutralMesonSelection()->CheckDecayBit(decayTag,fDecayBits[ibit])) |
48c5da66 | 3290 | { |
c12a38d9 | 3291 | fhPtDecayTrigger[ibit]->Fill(pt); |
3292 | ||
3293 | if(IsDataMC() && mcIndex >=0 && mcIndex < fgkNmcTypes) | |
48c5da66 | 3294 | { |
c12a38d9 | 3295 | fhPtDecayTriggerMC[ibit][mcIndex]->Fill(pt); |
3296 | if(lostDecayPair && mcIndex==2 ) | |
3297 | fhPtDecayTriggerMC[ibit][7]->Fill(pt); | |
48c5da66 | 3298 | } |
c12a38d9 | 3299 | }// check bit |
3300 | }// bit loop | |
48c5da66 | 3301 | } |
3302 | ||
8e8bfd92 | 3303 | // |
55c20a99 | 3304 | // Acceptance of the trigger |
8e8bfd92 | 3305 | // |
1f8591af | 3306 | Float_t phi = particle->Phi(); |
2af40966 | 3307 | if( phi < 0 ) phi+=TMath::TwoPi(); |
55c20a99 | 3308 | fhPhiTrigger->Fill(pt, phi); |
1f8591af | 3309 | |
55c20a99 | 3310 | fhEtaTrigger->Fill(pt, particle->Eta()); |
3311 | //printf("AliAnaParticleHadronCorrelation::MakeAnalysisFillHistograms() - Trigger particle : pt %f, eta %f, phi %f\n",particle->Pt(),particle->Eta(),phi); | |
1f8591af | 3312 | |
3313 | //---------------------------------- | |
3314 | // Trigger particle pT vs event bins | |
3315 | ||
55c20a99 | 3316 | fhPtTriggerBin->Fill(pt,mixEventBin); |
1f8591af | 3317 | if(fCorrelVzBin) |
55c20a99 | 3318 | fhPtTriggerVzBin->Fill(pt,vzbin); |
1f8591af | 3319 | |
0cea6003 | 3320 | if(IsHighMultiplicityAnalysisOn()) |
b6afb6b1 | 3321 | { |
3322 | fhPtTriggerCentrality->Fill(pt,cen); | |
3323 | fhPtTriggerEventPlane->Fill(pt,ep); | |
3324 | } | |
1f8591af | 3325 | |
3326 | //---------------------------------- | |
3327 | // Trigger particle pT vs pile-up | |
3328 | ||
0cea6003 | 3329 | if(IsPileUpAnalysisOn()) |
1f8591af | 3330 | { |
3331 | Int_t vtxBC = GetReader()->GetVertexBC(); | |
55c20a99 | 3332 | if(vtxBC == 0 || vtxBC==AliVTrack::kTOFBCNA) fhPtTriggerVtxBC0->Fill(pt); |
3333 | ||
3334 | if(GetReader()->IsPileUpFromSPD()) fhPtTriggerPileUp[0]->Fill(pt); | |
3335 | if(GetReader()->IsPileUpFromEMCal()) fhPtTriggerPileUp[1]->Fill(pt); | |
3336 | if(GetReader()->IsPileUpFromSPDOrEMCal()) fhPtTriggerPileUp[2]->Fill(pt); | |
3337 | if(GetReader()->IsPileUpFromSPDAndEMCal()) fhPtTriggerPileUp[3]->Fill(pt); | |
3338 | if(GetReader()->IsPileUpFromSPDAndNotEMCal()) fhPtTriggerPileUp[4]->Fill(pt); | |
3339 | if(GetReader()->IsPileUpFromEMCalAndNotSPD()) fhPtTriggerPileUp[5]->Fill(pt); | |
3340 | if(GetReader()->IsPileUpFromNotSPDAndNotEMCal()) fhPtTriggerPileUp[6]->Fill(pt); | |
1f8591af | 3341 | } |
df77176b | 3342 | } // AOD trigger loop |
e09cf5ef | 3343 | |
045396c8 | 3344 | //Reinit for next event |
3345 | fLeadingTriggerIndex = -1; | |
e09cf5ef | 3346 | |
2db10729 | 3347 | AliDebug(1,"End fill histograms"); |
e09cf5ef | 3348 | } |
3349 | ||
5267de40 | 3350 | //_______________________________________________________________________________________________________ |
3351 | void AliAnaParticleHadronCorrelation::MakeChargedCorrelation(AliAODPWG4ParticleCorrelation *aodParticle) | |
e09cf5ef | 3352 | { |
3353 | // Charged Hadron Correlation Analysis | |
2db10729 | 3354 | AliDebug(1,"Make trigger particle - charged hadron correlation"); |
907b38cd | 3355 | |
3356 | Float_t phiTrig = aodParticle->Phi(); | |
3357 | Float_t etaTrig = aodParticle->Eta(); | |
3358 | Float_t ptTrig = aodParticle->Pt(); | |
b1f720a7 | 3359 | Int_t mcTag = aodParticle->GetTag(); |
fedea415 | 3360 | Double_t bz = GetReader()->GetInputEvent()->GetMagneticField(); |
3361 | ||
e7d2373d | 3362 | |
3363 | Int_t decayTag = 0; | |
3364 | if(fDecayTrigger) | |
3365 | { | |
3366 | //decay = aodParticle->IsTagged(); | |
c12a38d9 | 3367 | decayTag = aodParticle->DecayTag(); |
3368 | if(decayTag < 0) decayTag = 0; | |
e7d2373d | 3369 | // printf("Correlation: pT %2.2f, BTag %d, Tagged %d\n",ptTrig, decayTag, aodParticle->IsTagged()); |
3370 | // printf("\t check bit Pi0 %d, Eta %d, Pi0Side %d, EtaSide %d\n", | |
3371 | // GetNeutralMesonSelection()->CheckDecayBit(decayTag,AliNeutralMesonSelection::kPi0), | |
3372 | // GetNeutralMesonSelection()->CheckDecayBit(decayTag,AliNeutralMesonSelection::kEta), | |
3373 | // GetNeutralMesonSelection()->CheckDecayBit(decayTag,AliNeutralMesonSelection::kPi0Side), | |
3374 | // GetNeutralMesonSelection()->CheckDecayBit(decayTag,AliNeutralMesonSelection::kEtaSide)); | |
3375 | } | |
3376 | ||
907b38cd | 3377 | Float_t pt = -100. ; |
907b38cd | 3378 | Float_t phi = -100. ; |
3379 | Float_t eta = -100. ; | |
907b38cd | 3380 | Float_t deltaPhi = -100. ; |
e09cf5ef | 3381 | |
907b38cd | 3382 | TObjArray * reftracks = 0x0; |
3383 | Int_t nrefs = 0; | |
907b38cd | 3384 | |
3385 | // Mixed event settings | |
3386 | Int_t evtIndex11 = -1 ; // cluster trigger or pi0 trigger | |
045396c8 | 3387 | Int_t evtIndex12 = -1 ; // pi0 trigger |
3388 | Int_t evtIndex13 = -1 ; // charged trigger | |
045396c8 | 3389 | |
04f7a616 | 3390 | if (GetMixedEvent()) |
3391 | { | |
e09cf5ef | 3392 | evtIndex11 = GetMixedEvent()->EventIndexForCaloCluster(aodParticle->GetCaloLabel(0)) ; |
3393 | evtIndex12 = GetMixedEvent()->EventIndexForCaloCluster(aodParticle->GetCaloLabel(1)) ; | |
3394 | evtIndex13 = GetMixedEvent()->EventIndex(aodParticle->GetTrackLabel(0)) ; | |
3395 | } | |
3396 | ||
98604e3a | 3397 | // Track multiplicity or cent bin |
3398 | Int_t cenbin = 0; | |
0cea6003 | 3399 | if(IsHighMultiplicityAnalysisOn()) cenbin = GetEventCentralityBin(); |
98604e3a | 3400 | |
6d9932e2 | 3401 | // |
98604e3a | 3402 | // In case of pi0/eta trigger, we may want to check their decay correlation, |
907b38cd | 3403 | // get their decay children |
6d9932e2 | 3404 | // |
349eb23d | 3405 | |
907b38cd | 3406 | Bool_t decayFound = kFALSE; |
6d9932e2 | 3407 | if( fPi0Trigger ) |
3408 | { | |
349eb23d | 3409 | decayFound = GetDecayPhotonMomentum(aodParticle->GetCaloLabel(0),aodParticle->GetCaloLabel(1),aodParticle->GetDetectorTag()); |
6d9932e2 | 3410 | if(decayFound) |
3411 | { | |
349eb23d | 3412 | fhPtPi0DecayRatio->Fill(ptTrig, fDecayMom1.Pt()/ptTrig); |
3413 | fhPtPi0DecayRatio->Fill(ptTrig, fDecayMom2.Pt()/ptTrig); | |
6d9932e2 | 3414 | } |
3415 | } | |
3416 | ||
907b38cd | 3417 | //----------------------------------------------------------------------- |
f7408d50 | 3418 | // Track loop, select tracks with good pt, phi and fill AODs or histograms |
907b38cd | 3419 | //----------------------------------------------------------------------- |
f7408d50 | 3420 | |
8e8bfd92 | 3421 | for(Int_t ipr = 0;ipr < GetCTSTracks()->GetEntriesFast() ; ipr ++ ) |
547c2f01 | 3422 | { |
8e8bfd92 | 3423 | AliVTrack * track = (AliVTrack *) (GetCTSTracks()->At(ipr)) ; |
045396c8 | 3424 | |
349eb23d | 3425 | fTrackVector.SetXYZ(track->Px(),track->Py(),track->Pz()); |
3426 | pt = fTrackVector.Pt(); | |
3427 | eta = fTrackVector.Eta(); | |
3428 | phi = fTrackVector.Phi() ; | |
e09cf5ef | 3429 | if(phi < 0) phi+=TMath::TwoPi(); |
045396c8 | 3430 | |
e09cf5ef | 3431 | //Select only hadrons in pt range |
66e64043 | 3432 | if(pt < fMinAssocPt || pt > fMaxAssocPt) continue ; |
3433 | ||
e09cf5ef | 3434 | //remove trigger itself for correlation when use charged triggers |
3435 | if( track->GetID() == aodParticle->GetTrackLabel(0) || track->GetID() == aodParticle->GetTrackLabel(1) || | |
66e64043 | 3436 | track->GetID() == aodParticle->GetTrackLabel(2) || track->GetID() == aodParticle->GetTrackLabel(3) ) |
045396c8 | 3437 | continue ; |
3438 | ||
b6afb6b1 | 3439 | //Only for mixed event frame |
045396c8 | 3440 | Int_t evtIndex2 = 0 ; |
04f7a616 | 3441 | if (GetMixedEvent()) |
3442 | { | |
045396c8 | 3443 | evtIndex2 = GetMixedEvent()->EventIndex(track->GetID()) ; |
3444 | if (evtIndex11 == evtIndex2 || evtIndex12 == evtIndex2 || evtIndex13 == evtIndex2 ) // photon and track from different events | |
3445 | continue ; | |
3446 | //vertex cut | |
3447 | if (TMath::Abs(GetVertex(evtIndex2)[2]) > GetZvertexCut()) | |
5267de40 | 3448 | continue; |
045396c8 | 3449 | } |
3450 | ||
2db10729 | 3451 | AliDebug(2,Form("Selected charge for momentum imbalance: pt %2.2f, phi %2.2f, eta %2.2f",pt,phi,eta)); |
2b65bd0e | 3452 | |
b6afb6b1 | 3453 | // ------------------------------ |
3454 | // Track type bin or bits setting | |
3455 | // | |
3456 | ||
3457 | // | |
3458 | // * Set the pt associated bin for the defined bins * | |
3459 | // | |
2b65bd0e | 3460 | Int_t assocBin = -1; |
3461 | for(Int_t i = 0 ; i < fNAssocPtBins ; i++) | |
3462 | { | |
3463 | if(pt > fAssocPtBinLimit[i] && pt < fAssocPtBinLimit[i+1]) assocBin= i; | |
3464 | } | |
3465 | ||
b6afb6b1 | 3466 | // |
3467 | // * Assign to the histogram array a bin corresponding | |
3468 | // to a combination of pTa and vz bins * | |
3469 | // | |
2b65bd0e | 3470 | Int_t nz = 1; |
3471 | Int_t vz = 0; | |
3472 | ||
3473 | if(fCorrelVzBin) | |
3474 | { | |
3475 | nz = GetNZvertBin(); | |
3476 | vz = GetEventVzBin(); | |
3477 | } | |
3478 | ||
3479 | Int_t bin = assocBin*nz+vz; | |
3480 | ||
3481 | //printf("assoc Bin = %d, vZ bin = %d, bin = %d \n", assocBin,GetEventVzBin(),bin); | |
3482 | ||
b6afb6b1 | 3483 | // |
3484 | // * Get the status of the TOF bit * | |
3485 | // | |
2b65bd0e | 3486 | ULong_t status = track->GetStatus(); |
3487 | Bool_t okTOF = ( (status & AliVTrack::kTOFout) == AliVTrack::kTOFout ) ; | |
3488 | //Double32_t tof = track->GetTOFsignal()*1e-3; | |
3489 | Int_t trackBC = track->GetTOFBunchCrossing(bz); | |
3490 | ||
3491 | Int_t outTOF = -1; | |
3492 | if (okTOF && trackBC!=0) outTOF = 1; | |
3493 | else if(okTOF && trackBC==0) outTOF = 0; | |
3494 | ||
b6afb6b1 | 3495 | //---------------- |
3496 | // Fill Histograms | |
d4a8ff9a | 3497 | |
b6afb6b1 | 3498 | // |
3499 | // Azimuthal Angle histograms | |
3500 | // | |
2af40966 | 3501 | |
6ed1ad3e | 3502 | deltaPhi = phiTrig-phi; |
2af40966 | 3503 | |
3504 | // | |
3505 | // Calculate deltaPhi shift so that for the particles on the opposite side | |
3506 | // it is defined between 90 and 270 degrees | |
3507 | // Shift [-360,-90] to [0, 270] | |
3508 | // and [270,360] to [-90,0] | |
6ed1ad3e | 3509 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); |
3510 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3511 | ||
2b65bd0e | 3512 | FillChargedAngularCorrelationHistograms(pt, ptTrig, bin, phi, phiTrig, deltaPhi, |
e7d2373d | 3513 | eta, etaTrig, decayTag, track->GetHMPIDsignal(), |
d4a8ff9a | 3514 | outTOF, cenbin, mcTag); |
2af40966 | 3515 | |
b6afb6b1 | 3516 | // |
3517 | // Imbalance zT/xE/pOut histograms | |
3518 | // | |
2b65bd0e | 3519 | |
b6afb6b1 | 3520 | // |
3521 | // Delta phi cut for momentum imbalance correlation | |
3522 | // | |
2b65bd0e | 3523 | if ( (deltaPhi > fDeltaPhiMinCut) && (deltaPhi < fDeltaPhiMaxCut) ) |
d4a8ff9a | 3524 | FillChargedMomentumImbalanceHistograms(ptTrig, pt, deltaPhi, cenbin, track->Charge(), |
e7d2373d | 3525 | assocBin, decayTag, outTOF, mcTag); |
b6afb6b1 | 3526 | |
6ed1ad3e | 3527 | // |
3528 | // Underlying event, right side, default case | |
3529 | // | |
2b65bd0e | 3530 | if ( (deltaPhi > fUeDeltaPhiMinCut) && (deltaPhi < fUeDeltaPhiMaxCut) ) |
d4a8ff9a | 3531 | FillChargedUnderlyingEventHistograms(ptTrig, pt, deltaPhi, cenbin, outTOF); |
2b65bd0e | 3532 | |
b6afb6b1 | 3533 | // |
3534 | // Several UE calculation, in different perpendicular regions, up to 6: | |
3535 | // left, right, upper-left, lower left, upper-right, lower-right | |
3536 | // | |
3537 | if(fMakeSeveralUE) | |
3538 | FillChargedUnderlyingEventSidesHistograms(ptTrig,pt,deltaPhi); | |
3539 | ||
3540 | // | |
2b65bd0e | 3541 | if(fPi0Trigger && decayFound) |
349eb23d | 3542 | FillDecayPhotonCorrelationHistograms(pt, phi, kTRUE) ; |
2b65bd0e | 3543 | |
b6afb6b1 | 3544 | // |
3545 | // Add track reference to array | |
3546 | // | |
2b65bd0e | 3547 | if(fFillAODWithReferences) |
547c2f01 | 3548 | { |
e09cf5ef | 3549 | nrefs++; |
547c2f01 | 3550 | if(nrefs==1) |
3551 | { | |
e09cf5ef | 3552 | reftracks = new TObjArray(0); |
2b65bd0e | 3553 | TString trackname = Form("%sTracks", GetAODObjArrayName().Data()); |
045396c8 | 3554 | reftracks->SetName(trackname.Data()); |
2b65bd0e | 3555 | reftracks->SetOwner(kFALSE); |
e09cf5ef | 3556 | } |
029dea5a | 3557 | |
e09cf5ef | 3558 | reftracks->Add(track); |
2b65bd0e | 3559 | }// reference track to AOD |
e09cf5ef | 3560 | }// track loop |
3561 | ||
3562 | //Fill AOD with reference tracks, if not filling histograms | |
2b65bd0e | 3563 | if(fFillAODWithReferences && reftracks) |
547c2f01 | 3564 | { |
e09cf5ef | 3565 | aodParticle->AddObjArray(reftracks); |
3566 | } | |
e09cf5ef | 3567 | |
3568 | } | |
3569 | ||
7ed3a248 | 3570 | //_________________________________________________________________________________________________________ |
3571 | void AliAnaParticleHadronCorrelation::MakeChargedMixCorrelation(AliAODPWG4ParticleCorrelation *aodParticle) | |
029dea5a | 3572 | { |
2e876d85 | 3573 | // Mix current trigger with tracks in another MB event |
029dea5a | 3574 | |
2db10729 | 3575 | AliDebug(1,Form("Make trigger particle - charged hadron mixed event correlation")); |
029dea5a | 3576 | |
3577 | if(GetMixedEvent()) return; // This is not the mixed event from general mixing frame | |
3578 | ||
029dea5a | 3579 | // Get the event with similar caracteristics |
2e876d85 | 3580 | //printf("MakeChargedMixCorrelation for %s\n",GetInputAODName().Data()); |
3581 | ||
3582 | AliAnalysisManager * manager = AliAnalysisManager::GetAnalysisManager(); | |
c52aeef5 | 3583 | |
2e876d85 | 3584 | AliInputEventHandler * inputHandler = dynamic_cast<AliInputEventHandler*>(manager->GetInputEventHandler()); |
c52aeef5 | 3585 | |
3586 | if(!inputHandler) return; | |
3587 | ||
2e876d85 | 3588 | if(!(inputHandler->IsEventSelected( ) & GetReader()->GetEventTriggerMask())) return; |
efb540af | 3589 | |
029dea5a | 3590 | // Get the pool, check if it exits |
2e876d85 | 3591 | Int_t eventBin = GetEventMixBin(); |
029dea5a | 3592 | |
d4a8ff9a | 3593 | //Check that the bin exists, if not (bad determination of RP, ntrality or vz bin) do nothing |
2e876d85 | 3594 | if(eventBin < 0) return; |
de9949a4 | 3595 | |
3596 | fhEventBin->Fill(eventBin); | |
029dea5a | 3597 | |
de9949a4 | 3598 | // get neutral clusters pool? |
3599 | Bool_t isoCase = OnlyIsolated() && (GetIsolationCut()->GetParticleTypeInCone() != AliIsolationCut::kOnlyCharged); | |
3600 | Bool_t neutralMix = fFillNeutralEventMixPool || isoCase ; | |
3601 | ||
d07ffd54 | 3602 | TList * pool = 0; |
3603 | TList * poolCalo = 0; | |
3604 | if(fUseMixStoredInReader) | |
3605 | { | |
3606 | pool = GetReader()->GetListWithMixedEventsForTracks(eventBin); | |
de9949a4 | 3607 | if(neutralMix) poolCalo = GetReader()->GetListWithMixedEventsForCalo (eventBin); |
d07ffd54 | 3608 | } |
3609 | else | |
3610 | { | |
3611 | pool = fListMixTrackEvents[eventBin]; | |
de9949a4 | 3612 | if(neutralMix) poolCalo = fListMixCaloEvents [eventBin]; |
d07ffd54 | 3613 | } |
3614 | ||
2e876d85 | 3615 | if(!pool) return ; |
029dea5a | 3616 | |
de9949a4 | 3617 | if( neutralMix && !poolCalo ) |
2db10729 | 3618 | AliWarning("Careful, cluster pool not available"); |
d07ffd54 | 3619 | |
029dea5a | 3620 | Double_t ptTrig = aodParticle->Pt(); |
3621 | Double_t etaTrig = aodParticle->Eta(); | |
3622 | Double_t phiTrig = aodParticle->Phi(); | |
3623 | if(phiTrig < 0.) phiTrig+=TMath::TwoPi(); | |
3624 | ||
2db10729 | 3625 | AliDebug(1,Form("Pool bin %d size %d, trigger trigger pt=%f, phi=%f, eta=%f", |
3626 | eventBin,pool->GetSize(), ptTrig,phiTrig,etaTrig)); | |
029dea5a | 3627 | |
3628 | Double_t ptAssoc = -999.; | |
2e876d85 | 3629 | Double_t phiAssoc = -999.; |
029dea5a | 3630 | Double_t etaAssoc = -999.; |
3631 | Double_t deltaPhi = -999.; | |
3632 | Double_t deltaEta = -999.; | |
2af40966 | 3633 | Double_t xE = -999.; |
3634 | ||
efb540af | 3635 | // Start from first event in pool except if in this same event the pool was filled |
283f989c | 3636 | Int_t ev0 = 0; |
3637 | if(GetReader()->GetLastTracksMixedEvent() == GetEventNumber()) ev0 = 1; | |
7ed3a248 | 3638 | |
283f989c | 3639 | for(Int_t ev=ev0; ev < pool->GetSize(); ev++) |
029dea5a | 3640 | { |
efb540af | 3641 | // |
3642 | // Recover the lists of tracks or clusters | |
3643 | // | |
029dea5a | 3644 | TObjArray* bgTracks = static_cast<TObjArray*>(pool->At(ev)); |
2bb7ac98 | 3645 | TObjArray* bgCalo = 0; |
3646 | ||
efb540af | 3647 | // Recover the clusters list if requested |
de9949a4 | 3648 | if( neutralMix && poolCalo ) |
7ed3a248 | 3649 | { |
d07ffd54 | 3650 | if(pool->GetSize()!=poolCalo->GetSize()) |
2db10729 | 3651 | AliWarning("Different size of calo and track pools"); |
d07ffd54 | 3652 | |
2bb7ac98 | 3653 | bgCalo = static_cast<TObjArray*>(poolCalo->At(ev)); |
d07ffd54 | 3654 | |
2db10729 | 3655 | if(!bgCalo) AliDebug(1,Form("Event %d in calo pool not available?",ev)); |
7ed3a248 | 3656 | } |
3657 | ||
efb540af | 3658 | // |
3659 | // Isolate the trigger in the mixed event with mixed tracks and clusters | |
3660 | // | |
3661 | if( OnlyIsolated() ) | |
3662 | { | |
3c12e375 | 3663 | Int_t n=0, nfrac = 0; |
3664 | Bool_t isolated = kFALSE; | |
3665 | Float_t coneptsum = 0, coneptlead = 0; | |
efb540af | 3666 | GetIsolationCut()->MakeIsolationCut(bgTracks,bgCalo, |
3667 | GetReader(), GetCaloPID(), | |
3668 | kFALSE, aodParticle, "", | |
3c12e375 | 3669 | n,nfrac,coneptsum,coneptlead,isolated); |
efb540af | 3670 | |
3671 | //printf("AliAnaParticleHadronCorrelation::MakeChargedMixCorrelation() - Isolated? %d - cone %f, ptthres %f", | |
3672 | // isolated,GetIsolationCut()->GetConeSize(),GetIsolationCut()->GetPtThreshold()); | |
3673 | //if(bgTracks)printf(" - n track %d", bgTracks->GetEntriesFast()); | |
3674 | //printf("\n"); | |
3675 | ||
3676 | if(!isolated) continue ; | |
3677 | } | |
029dea5a | 3678 | |
efb540af | 3679 | // |
3680 | // Check if the trigger is leading of mixed event | |
3681 | // | |
2e876d85 | 3682 | Int_t nTracks=bgTracks->GetEntriesFast(); |
2e876d85 | 3683 | |
d0b625bc | 3684 | if(fMakeNearSideLeading || fMakeAbsoluteLeading) |
3685 | { | |
3686 | Bool_t leading = kTRUE; | |
efb540af | 3687 | for(Int_t jlead = 0;jlead < nTracks; jlead++ ) |
d0b625bc | 3688 | { |
3689 | AliAODPWG4Particle *track = (AliAODPWG4Particle*) bgTracks->At(jlead) ; | |
3690 | ||
3691 | ptAssoc = track->Pt(); | |
3692 | phiAssoc = track->Phi() ; | |
d0b625bc | 3693 | if(phiAssoc < 0) phiAssoc+=TMath::TwoPi(); |
32e92d8b | 3694 | |
d0b625bc | 3695 | if (fMakeNearSideLeading) |
3696 | { | |
98604e3a | 3697 | deltaPhi = phiTrig-phiAssoc; |
3698 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3699 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3700 | ||
3701 | if(ptAssoc > ptTrig && deltaPhi < TMath::PiOver2()) | |
d0b625bc | 3702 | { |
3703 | leading = kFALSE; | |
3704 | break; | |
3705 | } | |
3706 | } | |
3707 | //jump out this event if there is any other particle with pt larger than trigger | |
3708 | else if(fMakeAbsoluteLeading) | |
3709 | { | |
3710 | if(ptAssoc > ptTrig) | |
3711 | { | |
3712 | leading = kFALSE; | |
d0b625bc | 3713 | break; |
3714 | } | |
3715 | } | |
3716 | } | |
2bb7ac98 | 3717 | |
efb540af | 3718 | if( !neutralMix && fCheckLeadingWithNeutralClusters ) |
2db10729 | 3719 | AliWarning("Leading of clusters requested but no clusters in mixed event"); |
efb540af | 3720 | |
3721 | if(neutralMix && fCheckLeadingWithNeutralClusters && bgCalo) | |
2bb7ac98 | 3722 | { |
3723 | Int_t nClusters=bgCalo->GetEntriesFast(); | |
2bb7ac98 | 3724 | for(Int_t jlead = 0;jlead <nClusters; jlead++ ) |
3725 | { | |
152c5ca9 | 3726 | AliAODPWG4Particle *cluster= (AliAODPWG4Particle*) bgCalo->At(jlead) ; |
2bb7ac98 | 3727 | |
152c5ca9 | 3728 | ptAssoc = cluster->Pt(); |
3729 | phiAssoc = cluster->Phi() ; | |
2bb7ac98 | 3730 | if(phiAssoc < 0) phiAssoc+=TMath::TwoPi(); |
32e92d8b | 3731 | |
2bb7ac98 | 3732 | if (fMakeNearSideLeading) |
3733 | { | |
98604e3a | 3734 | deltaPhi = phiTrig-phiAssoc; |
3735 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3736 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3737 | ||
3738 | if(ptAssoc > ptTrig && deltaPhi < TMath::PiOver2()) | |
2bb7ac98 | 3739 | { |
3740 | leading = kFALSE; | |
3741 | break; | |
3742 | } | |
3743 | } | |
3744 | //jump out this event if there is any other particle with pt larger than trigger | |
3745 | else if(fMakeAbsoluteLeading) | |
3746 | { | |
3747 | if(ptAssoc > ptTrig) | |
3748 | { | |
3749 | leading = kFALSE; | |
3750 | break; | |
3751 | } | |
3752 | } | |
3753 | } | |
3754 | } | |
3755 | ||
d0b625bc | 3756 | if(!leading) continue; // not leading, check the next event in pool |
3757 | } | |
3758 | ||
32e92d8b | 3759 | // |
3760 | // Fill histograms for selected triggers | |
3761 | // | |
3762 | ||
efb540af | 3763 | fhEventMixBin->Fill(eventBin); |
3764 | ||
3765 | //printf("\t Read Pool event %d, nTracks %d\n",ev,nTracks); | |
3766 | ||
55c20a99 | 3767 | fhPtTriggerMixed ->Fill(ptTrig); |
3768 | fhPhiTriggerMixed ->Fill(ptTrig, phiTrig); | |
3769 | fhEtaTriggerMixed ->Fill(ptTrig, etaTrig); | |
3770 | fhPtTriggerMixedBin->Fill(ptTrig,eventBin); | |
3771 | if(fCorrelVzBin)fhPtTriggerMixedVzBin->Fill(ptTrig, GetEventVzBin()); | |
d0b625bc | 3772 | |
32e92d8b | 3773 | // |
3774 | // Correlation histograms | |
3775 | // | |
029dea5a | 3776 | for(Int_t j1 = 0;j1 <nTracks; j1++ ) |
3777 | { | |
3778 | AliAODPWG4Particle *track = (AliAODPWG4Particle*) bgTracks->At(j1) ; | |
3779 | ||
3780 | if(!track) continue; | |
3781 | ||
3782 | ptAssoc = track->Pt(); | |
3783 | etaAssoc = track->Eta(); | |
3784 | phiAssoc = track->Phi() ; | |
3785 | if(phiAssoc < 0) phiAssoc+=TMath::TwoPi(); | |
029dea5a | 3786 | |
3787 | deltaPhi = phiTrig-phiAssoc; | |
3788 | if(deltaPhi < -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3789 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
3790 | deltaEta = etaTrig-etaAssoc; | |
3791 | ||
2db10729 | 3792 | AliDebug(1,Form("deltaPhi= %f, deltaEta=%f",deltaPhi, deltaEta)); |
029dea5a | 3793 | |
32e92d8b | 3794 | // Angular correlation |
2af40966 | 3795 | fhMixDeltaPhiCharged ->Fill(ptTrig, deltaPhi); |
08f220c8 | 3796 | fhMixDeltaPhiDeltaEtaCharged->Fill(deltaPhi, deltaEta); |
3797 | ||
2af40966 | 3798 | // |
32e92d8b | 3799 | // Momentum imbalance |
2af40966 | 3800 | // |
18838011 | 3801 | if ( (deltaPhi > fDeltaPhiMinCut) && (deltaPhi < fDeltaPhiMaxCut) ) |
08f220c8 | 3802 | { |
2af40966 | 3803 | xE = -ptAssoc/ptTrig*TMath::Cos(deltaPhi); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); |
3804 | ||
3805 | if(xE < 0.) | |
2db10729 | 3806 | AliWarning(Form("Careful!!, negative xE %2.2f for right UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
3807 | xE,deltaPhi*TMath::RadToDeg(),TMath::Cos(deltaPhi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
2af40966 | 3808 | |
7d306daf | 3809 | fhMixXECharged->Fill(ptTrig,xE); |
2af40966 | 3810 | if(xE > 0 ) fhMixHbpXECharged->Fill(ptTrig, TMath::Log(1./xE)); |
08f220c8 | 3811 | } |
18838011 | 3812 | |
2af40966 | 3813 | // |
3814 | // Underlying event momentum imbalance | |
3815 | // | |
18838011 | 3816 | if ( (deltaPhi > fUeDeltaPhiMinCut) && (deltaPhi < fUeDeltaPhiMaxCut) ) |
3817 | { | |
3818 | //Underlying event region | |
3819 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); | |
3820 | Double_t uexE = -(ptAssoc/ptTrig)*TMath::Cos(randomphi); | |
3821 | ||
2af40966 | 3822 | if(uexE < 0.) |
2db10729 | 3823 | AliWarning(Form("Careful!!, negative xE %2.2f for left UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
3824 | uexE,randomphi*TMath::RadToDeg(),TMath::Cos(randomphi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
18838011 | 3825 | |
3826 | fhMixXEUeCharged->Fill(ptTrig,uexE); | |
3827 | } | |
3828 | ||
32e92d8b | 3829 | // Set the pt associated bin for the defined bins |
3830 | Int_t assocBin = -1; | |
3831 | for(Int_t i = 0 ; i < fNAssocPtBins ; i++) | |
3832 | { | |
3833 | if(ptAssoc > fAssocPtBinLimit[i] && ptAssoc < fAssocPtBinLimit[i+1]) assocBin= i; | |
3834 | } | |
3835 | ||
3836 | // | |
3837 | // Assign to the histogram array a bin corresponding to a combination of pTa and vz bins | |
3838 | // | |
3839 | Int_t nz = 1; | |
3840 | Int_t vz = 0; | |
3841 | ||
3842 | if(fCorrelVzBin) | |
3843 | { | |
3844 | nz = GetNZvertBin(); | |
3845 | vz = GetEventVzBin(); | |
3846 | } | |
3847 | ||
3848 | Int_t bin = assocBin*nz+vz; | |
3849 | ||
8cc41381 | 3850 | if(bin < 0) continue ; // this pt bin was not considered |
029dea5a | 3851 | |
a22f3f34 | 3852 | fhMixDeltaPhiChargedAssocPtBin [bin]->Fill(ptTrig, deltaPhi); |
3853 | fhMixDeltaPhiDeltaEtaChargedAssocPtBin[bin]->Fill(deltaPhi, deltaEta); | |
029dea5a | 3854 | |
a22f3f34 | 3855 | if(fFillEtaGapsHisto) |
3856 | { | |
3857 | if(TMath::Abs(deltaEta) > 0.8) | |
2af40966 | 3858 | fhMixDeltaPhiChargedAssocPtBinDEta08 [bin]->Fill(ptTrig, deltaPhi); |
a22f3f34 | 3859 | if(TMath::Abs(deltaEta) < 0.01) |
2af40966 | 3860 | fhMixDeltaPhiChargedAssocPtBinDEta0 [bin]->Fill(ptTrig, deltaPhi); |
a22f3f34 | 3861 | } |
3862 | ||
029dea5a | 3863 | } // track loop |
3864 | } // mixed event loop | |
3865 | } | |
3866 | ||
3867 | ||
bf01409a | 3868 | //_______________________________________________________________________________________________________ |
3869 | void AliAnaParticleHadronCorrelation::MakeNeutralCorrelation(AliAODPWG4ParticleCorrelation * aodParticle) | |
e09cf5ef | 3870 | { |
3871 | // Neutral Pion Correlation Analysis | |
8e8bfd92 | 3872 | |
3873 | TObjArray * pi0list = (TObjArray*) GetAODBranch(fPi0AODBranchName); // For the future, foresee more possible pi0 lists | |
bf01409a | 3874 | if(!pi0list) return ; |
8e8bfd92 | 3875 | |
3876 | Int_t npi0 = pi0list->GetEntriesFast(); | |
bf01409a | 3877 | if(npi0 == 0) return ; |
8e8bfd92 | 3878 | |
2db10729 | 3879 | AliDebug(1,Form("Particle - pi0 correlation, %d pi0's",npi0)); |
e09cf5ef | 3880 | |
3881 | Int_t evtIndex11 = 0 ; | |
3882 | Int_t evtIndex12 = 0 ; | |
04f7a616 | 3883 | if (GetMixedEvent()) |
3884 | { | |
e09cf5ef | 3885 | evtIndex11 = GetMixedEvent()->EventIndexForCaloCluster(aodParticle->GetCaloLabel(0)) ; |
3886 | evtIndex12 = GetMixedEvent()->EventIndexForCaloCluster(aodParticle->GetCaloLabel(1)) ; | |
3887 | } | |
3888 | ||
907b38cd | 3889 | Float_t pt = -100. ; |
24f5f633 | 3890 | Float_t zT = -100. ; |
907b38cd | 3891 | Float_t phi = -100. ; |
3892 | Float_t eta = -100. ; | |
3893 | Float_t xE = -100. ; | |
3894 | Float_t hbpXE= -100. ; | |
24f5f633 | 3895 | Float_t hbpZT= -100. ; |
907b38cd | 3896 | |
3897 | Float_t ptTrig = aodParticle->Pt(); | |
3898 | Float_t phiTrig = aodParticle->Phi(); | |
3899 | Float_t etaTrig = aodParticle->Eta(); | |
3900 | Float_t deltaPhi= -100. ; | |
6ed1ad3e | 3901 | Float_t deltaEta= -100. ; |
045396c8 | 3902 | |
907b38cd | 3903 | // In case of pi0/eta trigger, we may want to check their decay correlation, |
3904 | // get their decay children | |
349eb23d | 3905 | |
907b38cd | 3906 | Bool_t decayFound = kFALSE; |
349eb23d | 3907 | if(fPi0Trigger) decayFound = GetDecayPhotonMomentum(aodParticle->GetCaloLabel(0),aodParticle->GetCaloLabel(1),aodParticle->GetDetectorTag()); |
e09cf5ef | 3908 | |
907b38cd | 3909 | TObjArray * refpi0 = 0x0; |
3910 | Int_t nrefs = 0; | |
e09cf5ef | 3911 | |
3912 | //Loop on stored AOD pi0 | |
547c2f01 | 3913 | |
8e8bfd92 | 3914 | for(Int_t iaod = 0; iaod < npi0 ; iaod++) |
547c2f01 | 3915 | { |
e09cf5ef | 3916 | AliAODPWG4Particle* pi0 = (AliAODPWG4Particle*) (pi0list->At(iaod)); |
3917 | ||
3918 | Int_t evtIndex2 = 0 ; | |
3919 | Int_t evtIndex3 = 0 ; | |
04f7a616 | 3920 | if (GetMixedEvent()) |
3921 | { | |
e09cf5ef | 3922 | evtIndex2 = GetMixedEvent()->EventIndexForCaloCluster(pi0->GetCaloLabel(0)) ; |
3923 | evtIndex3 = GetMixedEvent()->EventIndexForCaloCluster(pi0->GetCaloLabel(1)) ; | |
3924 | ||
045396c8 | 3925 | if (evtIndex11 == evtIndex2 || evtIndex12 == evtIndex2 || |
3926 | evtIndex11 == evtIndex3 || evtIndex12 == evtIndex3) // trigger and pi0 are not from different events | |
e09cf5ef | 3927 | continue ; |
3928 | } | |
907b38cd | 3929 | |
e09cf5ef | 3930 | pt = pi0->Pt(); |
6ed1ad3e | 3931 | |
66e64043 | 3932 | if(pt < fMinAssocPt || pt > fMaxAssocPt) continue ; |
3933 | ||
521ef81f | 3934 | //remove trigger itself for correlation when use charged triggers |
3935 | if(aodParticle->GetCaloLabel(0) >= 0 && | |
3936 | (pi0->GetCaloLabel(0) == aodParticle->GetCaloLabel(0) || pi0->GetCaloLabel(1) == aodParticle->GetCaloLabel(0))) continue ; | |
3937 | ||
3938 | if( aodParticle->GetCaloLabel(1) >= 0 && | |
3939 | (pi0->GetCaloLabel(0) == aodParticle->GetCaloLabel(1) || pi0->GetCaloLabel(1) == aodParticle->GetCaloLabel(1))) continue ; | |
3940 | ||
df77176b | 3941 | // |
3942 | // Angular correlations | |
3943 | // | |
6ed1ad3e | 3944 | phi = pi0->Phi() ; |
3945 | eta = pi0->Eta() ; | |
3946 | deltaEta = etaTrig-eta; | |
3947 | deltaPhi = phiTrig-phi; | |
3948 | if(deltaPhi <= -TMath::PiOver2()) deltaPhi+=TMath::TwoPi(); | |
3949 | if(deltaPhi > 3*TMath::PiOver2()) deltaPhi-=TMath::TwoPi(); | |
2b65bd0e | 3950 | |
6ed1ad3e | 3951 | fhEtaNeutral ->Fill(pt , eta ); |
3952 | fhPhiNeutral ->Fill(pt , phi ); | |
3953 | fhDeltaEtaNeutral->Fill(ptTrig, deltaEta); | |
3954 | fhDeltaPhiNeutral->Fill(ptTrig, deltaPhi); | |
3955 | ||
3956 | if(pt > 2 ) fhDeltaPhiDeltaEtaNeutral->Fill(deltaPhi, deltaEta); | |
3957 | ||
df77176b | 3958 | // |
3959 | // Momentum imbalance | |
3960 | // | |
24f5f633 | 3961 | zT = pt/ptTrig ; |
2b65bd0e | 3962 | |
24f5f633 | 3963 | hbpZT = -100; |
df77176b | 3964 | hbpXE = -100; |
3965 | ||
24f5f633 | 3966 | if(zT > 0 ) hbpZT = TMath::Log(1./zT); |
2b65bd0e | 3967 | |
2b65bd0e | 3968 | //delta phi cut for correlation |
3969 | if( (deltaPhi > fDeltaPhiMinCut) && ( deltaPhi < fDeltaPhiMaxCut) ) | |
907b38cd | 3970 | { |
df77176b | 3971 | xE =-pt/ptTrig*TMath::Cos(deltaPhi); // -(px*pxTrig+py*pyTrig)/(ptTrig*ptTrig); |
2af40966 | 3972 | |
3973 | if(xE < 0.) | |
2db10729 | 3974 | AliWarning(Form("Careful!!, negative xE %2.2f for right UE cos(dPhi %2.2f) = %2.2f, check correlation dPhi limits %f to %f", |
3975 | xE,deltaPhi*TMath::RadToDeg(),TMath::Cos(deltaPhi),fDeltaPhiMinCut*TMath::RadToDeg(),fDeltaPhiMaxCut*TMath::RadToDeg())); | |
2af40966 | 3976 | |
df77176b | 3977 | if(xE > 0 ) hbpXE = TMath::Log(1./xE); |
3978 | ||
2b65bd0e | 3979 | fhDeltaPhiNeutralPt->Fill(pt,deltaPhi); |
3980 | fhXENeutral ->Fill(ptTrig,xE); | |
3981 | fhPtHbpXENeutral ->Fill(ptTrig,hbpXE); | |
df77176b | 3982 | fhZTNeutral ->Fill(ptTrig,zT); |
3983 | fhPtHbpZTNeutral ->Fill(ptTrig,hbpZT); | |
907b38cd | 3984 | } |
2b65bd0e | 3985 | else if ( (deltaPhi > fUeDeltaPhiMinCut) && (deltaPhi < fUeDeltaPhiMaxCut) ) |
907b38cd | 3986 | { |
df77176b | 3987 | // Randomize angle for xE calculation |
3988 | Double_t randomphi = gRandom->Uniform(fDeltaPhiMinCut,fDeltaPhiMaxCut); | |
3989 | ||
3990 | xE = -(pt/ptTrig)*TMath::Cos(randomphi); | |
3991 | if(xE > 0 ) hbpXE = TMath::Log(1./xE); | |
3992 | ||
2b65bd0e | 3993 | fhDeltaPhiUeNeutralPt->Fill(pt,deltaPhi); |
df77176b | 3994 | fhZTUeNeutral ->Fill(ptTrig,zT); |
3995 | fhPtHbpZTUeNeutral ->Fill(ptTrig,hbpZT); | |
2b65bd0e | 3996 | fhXEUeNeutral ->Fill(ptTrig,xE); |
3997 | fhPtHbpXEUeNeutral ->Fill(ptTrig,hbpXE); | |
907b38cd | 3998 | } |
24f5f633 | 3999 | |
df77176b | 4000 | // Several UE calculation, not sure it is useful |
4001 | // with partical calorimter acceptance | |
fe69395f | 4002 | if(fMakeSeveralUE) FillNeutralUnderlyingEventSidesHistograms(ptTrig,pt,zT,hbpZT,deltaPhi); |
2b65bd0e | 4003 | |
df77176b | 4004 | // |
4005 | // Decay photon correlations | |
4006 | // | |
4007 | if(fPi0Trigger && decayFound) | |
349eb23d | 4008 | FillDecayPhotonCorrelationHistograms(pt, phi, kFALSE) ; |
df77176b | 4009 | |
2b65bd0e | 4010 | if(fFillAODWithReferences) |
547c2f01 | 4011 | { |
e09cf5ef | 4012 | nrefs++; |
547c2f01 | 4013 | if(nrefs==1) |
4014 | { | |
e09cf5ef | 4015 | refpi0 = new TObjArray(0); |
4016 | refpi0->SetName(GetAODObjArrayName()+"Pi0s"); | |
4017 | refpi0->SetOwner(kFALSE); | |
4018 | } | |
4019 | refpi0->Add(pi0); | |
2db10729 | 4020 | } // put references in trigger AOD |
045396c8 | 4021 | |
2db10729 | 4022 | AliDebug(1,Form("Selected pi0: pt %2.2f, phi %2.2f, eta %2.2f",pt,phi,eta)); |
045396c8 | 4023 | |
4024 | }//loop | |
4025 | ||
2b65bd0e | 4026 | //Fill AOD with reference tracks, if not filling histograms |
4027 | if(fFillAODWithReferences && refpi0) | |
4028 | { | |
4029 | aodParticle->AddObjArray(refpi0); | |
4030 | } | |
045396c8 | 4031 | } |
4032 | ||
4a296f4a | 4033 | //__________________________________________________________________________________________________________________ |
4034 | void AliAnaParticleHadronCorrelation::MakeMCChargedCorrelation(Int_t label, Int_t histoIndex, Bool_t lostDecayPair) | |
d07cdf32 | 4035 | { |
045396c8 | 4036 | // Charged Hadron Correlation Analysis with MC information |
a426f453 | 4037 | |
2db10729 | 4038 | AliDebug(1,"Make trigger particle - charged hadron correlation in AOD MC level"); |
045396c8 | 4039 | |
f2d29137 | 4040 | if( label < 0 ) |
4041 | { | |
2db10729 | 4042 | AliDebug(1,Form(" *** bad label ***: label %d", label)); |
f2d29137 | 4043 | return; |
4044 | } | |
4045 | ||
be2df971 | 4046 | // Do MC correlation for a given particle type range. |
4047 | // Types defined in GetMCTagHistogramIndex: | |
4048 | // 0 direct gamma; 1 pi0; 2 pi0 decay; 3 eta decay; 4 other decay; 5 electron; 6 other (hadron) | |
4049 | if(histoIndex < fMCGenTypeMin || histoIndex > fMCGenTypeMax) return ; | |
4050 | ||
045396c8 | 4051 | AliStack * stack = 0x0 ; |
d07cdf32 | 4052 | TParticle * primary = 0x0 ; |
045396c8 | 4053 | TClonesArray * mcparticles = 0x0 ; |
d07cdf32 | 4054 | AliAODMCParticle * aodprimary = 0x0 ; |
045396c8 | 4055 | |
4056 | Double_t eprim = 0 ; | |
4057 | Double_t ptprim = 0 ; | |
4058 | Double_t phiprim = 0 ; | |
4059 | Double_t etaprim = 0 ; | |
d07cdf32 | 4060 | Int_t nTracks = 0 ; |
045396c8 | 4061 | Int_t iParticle = 0 ; |
a9023d3b | 4062 | |
f2d29137 | 4063 | Bool_t leadTrig = kTRUE; |
045396c8 | 4064 | |
d07cdf32 | 4065 | if( GetReader()->ReadStack() ) |
547c2f01 | 4066 | { |
045396c8 | 4067 | stack = GetMCStack() ; |
d07cdf32 | 4068 | if(!stack) |
2e876d85 | 4069 | { |
d07cdf32 | 4070 | AliFatal("Stack not available, is the MC handler called? STOP"); |
4071 | return; | |
045396c8 | 4072 | } |
4073 | ||
d07cdf32 | 4074 | //nTracks = stack->GetNtrack() ; |
4075 | nTracks = stack->GetNprimary(); | |
4076 | if( label >= stack->GetNtrack() ) | |
547c2f01 | 4077 | { |
d07cdf32 | 4078 | if(GetDebug() > 2) |
4079 | AliInfo(Form("*** large label ***: label %d, n tracks %d", label, stack->GetNtrack())); | |
045396c8 | 4080 | return ; |
4081 | } | |
547c2f01 | 4082 | |
045396c8 | 4083 | primary = stack->Particle(label); |
d07cdf32 | 4084 | if ( !primary ) |
547c2f01 | 4085 | { |
d07cdf32 | 4086 | AliInfo(Form(" *** no primary ***: label %d", label)); |
045396c8 | 4087 | return; |
4088 | } | |
4089 | ||
d07cdf32 | 4090 | eprim = primary->Energy(); |
4091 | ptprim = primary->Pt(); | |
d07cdf32 | 4092 | etaprim = primary->Eta(); |
63ac03db | 4093 | phiprim = primary->Phi(); |
4094 | if(phiprim < 0) phiprim+=TMath::TwoPi(); | |
4095 | ||
d07cdf32 | 4096 | if(ptprim < 0.01 || eprim < 0.01) return ; |
4097 | ||
4098 | for (iParticle = 0 ; iParticle < nTracks ; iParticle++) | |
547c2f01 | 4099 | { |
d07cdf32 | 4100 | TParticle * particle = stack->Particle(iParticle); |
2747966a | 4101 | |
d07cdf32 | 4102 | //keep only final state particles |
4103 | if( particle->GetStatusCode() != 1 ) continue ; | |
f2d29137 | 4104 | |
d07cdf32 | 4105 | //---------- Charged particles ---------------------- |
4106 | Int_t pdg = particle->GetPdgCode(); | |
4107 | Int_t charge = (Int_t) TDatabasePDG::Instance()->GetParticle(pdg)->Charge(); | |
4108 | if(charge == 0) continue; | |
4109 | ||
349eb23d | 4110 | particle->Momentum(fMomentum); |
d07cdf32 | 4111 | |
4112 | //Particles in CTS acceptance, make sure to use the same selection as in the reader | |
349eb23d | 4113 | Bool_t inCTS = GetReader()->GetFiducialCut()->IsInFiducialCut(fMomentum.Eta(),fMomentum.Phi(),kCTS); |
4114 | //printf("Accepted? %d; pt %2.2f, eta %2.2f, phi %2.2f\n",inCTS,fMomentum.Pt(),fMomentum.Eta(),fMomentum.Phi()*TMath::RadToDeg()); | |
d07cdf32 | 4115 | if( !inCTS ) continue; |
4116 | ||
4117 | // Remove conversions | |
4118 | if ( TMath::Abs(pdg) == 11 && stack->Particle(particle->GetFirstMother())->GetPdgCode() == 22 ) continue ; | |
4119 | ||
4120 | if ( label == iParticle ) continue; // avoid trigger particle | |
4121 | ||
63ac03db | 4122 | Float_t phi = particle->Phi(); |
4123 | if(phi < 0) phi+=TMath::TwoPi(); | |
4124 | ||
4a296f4a | 4125 | Bool_t lead = FillChargedMCCorrelationHistograms(particle->Pt(),phi,particle->Eta(),ptprim,phiprim,etaprim,histoIndex,lostDecayPair); |
f2d29137 | 4126 | if(!lead) leadTrig = kFALSE; |
4127 | //if ( !lead && (fMakeAbsoluteLeading || fMakeNearSideLeading) ) return; | |
d07cdf32 | 4128 | |
4129 | } //track loop | |
4130 | ||
045396c8 | 4131 | } //ESD MC |
a9023d3b | 4132 | |
d07cdf32 | 4133 | else if( GetReader()->ReadAODMCParticles() ) |
547c2f01 | 4134 | { |
045396c8 | 4135 | //Get the list of MC particles |
d07cdf32 | 4136 | mcparticles = GetReader()->GetAODMCParticles(); |
4137 | if( !mcparticles ) return; | |
a9023d3b | 4138 | |
d07cdf32 | 4139 | nTracks = mcparticles->GetEntriesFast() ; |
4140 | ||
4141 | if( label >= nTracks ) | |
547c2f01 | 4142 | { |
d07cdf32 | 4143 | if(GetDebug() > 2) |
4144 | AliInfo(Form(" *** large label ***: label %d, n tracks %d", label,nTracks)); | |
045396c8 | 4145 | return; |
4146 | } | |
a9023d3b | 4147 | |
045396c8 | 4148 | //Get the particle |
d07cdf32 | 4149 | aodprimary = (AliAODMCParticle*) mcparticles->At(label); |
4150 | if( !aodprimary ) | |
547c2f01 | 4151 | { |
d07cdf32 | 4152 | AliInfo(Form(" *** no AOD primary ***: label %d", label)); |
045396c8 | 4153 | return; |
4154 | } | |
a9023d3b | 4155 | |
63ac03db | 4156 | eprim = aodprimary->E(); |
d07cdf32 | 4157 | ptprim = aodprimary->Pt(); |
d07cdf32 | 4158 | etaprim = aodprimary->Eta(); |
63ac03db | 4159 | phiprim = aodprimary->Phi(); |
4160 | if(phiprim < 0) phiprim+=TMath::TwoPi(); | |
4161 | ||
d07cdf32 | 4162 | if(ptprim < 0.01 || eprim < 0.01) return ; |
4163 | ||
4164 | for (iParticle = 0; iParticle < nTracks; iParticle++) | |
547c2f01 | 4165 | { |
d07cdf32 | 4166 | AliAODMCParticle *part = (AliAODMCParticle*) mcparticles->At(iParticle); |
a9023d3b | 4167 | |
d07cdf32 | 4168 | if (!part->IsPhysicalPrimary() ) continue; // same as part->GetStatus() !=1 |
2747966a | 4169 | |
d07cdf32 | 4170 | if ( part->Charge() == 0 ) continue; |
a9023d3b | 4171 | |
349eb23d | 4172 | fMomentum.SetPxPyPzE(part->Px(),part->Py(),part->Pz(),part->E()); |
d07cdf32 | 4173 | |
4174 | //Particles in CTS acceptance, make sure to use the same selection as in the reader | |
349eb23d | 4175 | Bool_t inCTS = GetReader()->GetFiducialCut()->IsInFiducialCut(fMomentum.Eta(),fMomentum.Phi(),kCTS); |
4176 | //printf("Accepted? %d; pt %2.2f, eta %2.2f, phi %2.2f\n",inCTS,fMomentum.Pt(),fMomentum.Eta(),fMomentum.Phi()*TMath::RadToDeg()); | |
d07cdf32 | 4177 | if( !inCTS ) continue; |
4178 | ||
4179 | // Remove conversions | |
4180 | Int_t indexmother = part->GetMother(); | |
4181 | if ( indexmother > -1 ) | |
a9023d3b | 4182 | { |
d07cdf32 | 4183 | Int_t pdg = part->GetPdgCode(); |
4184 | Int_t mPdg = ((AliAODMCParticle*) mcparticles->At(indexmother)) ->GetPdgCode(); | |
4185 | if (TMath::Abs(pdg) == 11 && mPdg == 22) continue; | |
a9023d3b | 4186 | } |
d07cdf32 | 4187 | |
4188 | if ( label == iParticle ) continue; // avoid trigger particle | |
4189 | ||
63ac03db | 4190 | Float_t phi = part->Phi(); |
4191 | if(phi < 0) phi+=TMath::TwoPi(); | |
4192 | ||
4a296f4a | 4193 | Bool_t lead = FillChargedMCCorrelationHistograms(part->Pt(),phi,part->Eta(),ptprim,phiprim,etaprim, histoIndex,lostDecayPair); |
f2d29137 | 4194 | if(!lead) leadTrig = kFALSE; |
4195 | //if ( !lead && (fMakeAbsoluteLeading || fMakeNearSideLeading)) return; | |
d07cdf32 | 4196 | |
4197 | } //MC particle loop | |
045396c8 | 4198 | }// AOD MC |
d07cdf32 | 4199 | |
55c20a99 | 4200 | // Trigger MC particle histograms |
f2d29137 | 4201 | //if (!lead && (fMakeAbsoluteLeading || fMakeNearSideLeading)) return; |
55c20a99 | 4202 | |
be2df971 | 4203 | fhMCPtTrigger [histoIndex]->Fill(ptprim); |
4204 | fhMCPhiTrigger[histoIndex]->Fill(ptprim,phiprim); | |
4205 | fhMCEtaTrigger[histoIndex]->Fill(ptprim,etaprim); | |
55c20a99 | 4206 | |
4a296f4a | 4207 | if(histoIndex==2 && lostDecayPair && 7 >= fMCGenTypeMin && 7 <= fMCGenTypeMax ) |
4208 | { | |
4209 | fhMCPtTrigger [7]->Fill(ptprim); | |
4210 | fhMCPhiTrigger[7]->Fill(ptprim,phiprim); | |
4211 | fhMCEtaTrigger[7]->Fill(ptprim,etaprim); | |
4212 | } | |
4213 | ||
f2d29137 | 4214 | if(!leadTrig && (fMakeAbsoluteLeading || fMakeNearSideLeading) ) |
4215 | { | |
2db10729 | 4216 | AliDebug(1,Form("Not leading primary trigger: pT %2.2f, phi %2.2f, eta %2.2f", |
4217 | ptprim,phiprim*TMath::RadToDeg(),etaprim)); | |
f2d29137 | 4218 | |
be2df971 | 4219 | fhMCPtTriggerNotLeading [histoIndex]->Fill(ptprim); |
4220 | fhMCPhiTriggerNotLeading[histoIndex]->Fill(ptprim,phiprim); | |
4221 | fhMCEtaTriggerNotLeading[histoIndex]->Fill(ptprim,etaprim); | |
4a296f4a | 4222 | |
4223 | if(histoIndex==2 && lostDecayPair && 7 >= fMCGenTypeMin && 7 <= fMCGenTypeMax ) | |
4224 | { | |
4225 | fhMCPtTriggerNotLeading [7]->Fill(ptprim); | |
4226 | fhMCPhiTriggerNotLeading[7]->Fill(ptprim,phiprim); | |
4227 | fhMCEtaTriggerNotLeading[7]->Fill(ptprim,etaprim); | |
4228 | } | |
f2d29137 | 4229 | } |
e09cf5ef | 4230 | } |
045396c8 | 4231 | |
05d0d05d | 4232 | //_____________________________________________________________________ |
4233 | void AliAnaParticleHadronCorrelation::Print(const Option_t * opt) const | |
4234 | { | |
4235 | ||
4236 | //Print some relevant parameters set for the analysis | |
4237 | if(! opt) | |
4238 | return; | |
4239 | ||
4240 | printf("**** Print %s %s ****\n", GetName(), GetTitle() ) ; | |
745913ae | 4241 | AliAnaCaloTrackCorrBaseClass::Print(" "); |
1f8591af | 4242 | printf("Pt trigger > %2.2f; < %2.2f\n", GetMinPt() , GetMaxPt()) ; |
4243 | printf("Pt associa > %2.2f; < %2.2f\n", fMinAssocPt, fMaxAssocPt) ; | |
4244 | printf("Phi trigger particle-Hadron < %3.2f\n", fDeltaPhiMaxCut) ; | |
66e64043 | 4245 | printf("Phi trigger particle-Hadron > %3.2f\n", fDeltaPhiMinCut) ; |
4246 | printf("Phi trigger particle-UeHadron < %3.2f\n", fUeDeltaPhiMaxCut) ; | |
4247 | printf("Phi trigger particle-UeHadron > %3.2f\n", fUeDeltaPhiMinCut) ; | |
4248 | printf("Isolated Trigger? %d\n" , fSelectIsolated) ; | |
4249 | printf("Several UE? %d\n" , fMakeSeveralUE) ; | |
4250 | printf("Name of AOD Pi0 Branch %s \n", fPi0AODBranchName.Data()); | |
05d0d05d | 4251 | printf("Do Decay-hadron correlation ? %d\n", fPi0Trigger) ; |
3f150b4b | 4252 | printf("Select absolute leading for cluster triggers ? %d or Near Side %d\n", |
4253 | fMakeAbsoluteLeading, fMakeNearSideLeading) ; | |
05d0d05d | 4254 | printf("Trigger pt bins %d\n", fNAssocPtBins) ; |
4255 | for (Int_t ibin = 0; ibin<fNAssocPtBins; ibin++) { | |
4256 | printf("\t bin %d = [%2.1f,%2.1f]\n", ibin, fAssocPtBinLimit[ibin], fAssocPtBinLimit[ibin+1]) ; | |
4257 | } | |
4258 | ||
4259 | } | |
4260 | ||
4261 | //____________________________________________________________ | |
4262 | void AliAnaParticleHadronCorrelation::SetNAssocPtBins(Int_t n) | |
045396c8 | 4263 | { |
4264 | // Set number of bins | |
e09cf5ef | 4265 | |
b6afb6b1 | 4266 | fNAssocPtBins = n ; |
05d0d05d | 4267 | |
f85f4afb | 4268 | if(n < 20 && n > 0) |
045396c8 | 4269 | { |
05d0d05d | 4270 | fNAssocPtBins = n ; |
045396c8 | 4271 | } |
4272 | else | |
4273 | { | |
2db10729 | 4274 | AliWarning("n = larger than 19 or too small, set to 19"); |
f85f4afb | 4275 | fNAssocPtBins = 19; |
045396c8 | 4276 | } |
4277 | } | |
e09cf5ef | 4278 | |
05d0d05d | 4279 | //______________________________________________________________________________ |
4280 | void AliAnaParticleHadronCorrelation::SetAssocPtBinLimit(Int_t ibin, Float_t pt) | |
045396c8 | 4281 | { |
4282 | // Set the list of limits for the trigger pt bins | |
4283 | ||
05d0d05d | 4284 | if(ibin <= fNAssocPtBins || ibin >= 0) |
045396c8 | 4285 | { |
05d0d05d | 4286 | fAssocPtBinLimit[ibin] = pt ; |
045396c8 | 4287 | } |
2e876d85 | 4288 | else |
4289 | { | |
2db10729 | 4290 | AliWarning(Form("Bin number too large %d > %d or small, nothing done", ibin, fNAssocPtBins)) ; |
045396c8 | 4291 | } |
4292 | } | |
4293 |