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cf6522d1 | 1 | //_________________________________________________________________________ |
2 | // Utility Class for transverse energy studies | |
3 | // Base class for ESD analysis | |
4 | // - reconstruction output | |
5 | // implementation file | |
6 | // | |
7 | //*-- Authors: Oystein Djuvsland (Bergen), David Silvermyr (ORNL) | |
8 | //_________________________________________________________________________ | |
2fbf38ac | 9 | |
10 | #include "AliAnalysisEtReconstructed.h" | |
11 | #include "AliAnalysisEtCuts.h" | |
12 | #include "AliESDtrack.h" | |
ba136eb4 | 13 | #include "AliEMCALTrack.h" |
2fbf38ac | 14 | #include "AliESDCaloCluster.h" |
15 | #include "TVector3.h" | |
ba136eb4 | 16 | #include "TGeoGlobalMagField.h" |
17 | #include "AliMagF.h" | |
2fbf38ac | 18 | #include "AliVEvent.h" |
19 | #include "AliESDEvent.h" | |
b5821c13 | 20 | #include "AliESDtrackCuts.h" |
2fbf38ac | 21 | #include "AliVParticle.h" |
87efb15c | 22 | #include "TDatabasePDG.h" |
23 | #include "TList.h" | |
b5821c13 | 24 | #include "AliESDpid.h" |
2fbf38ac | 25 | #include <iostream> |
09fcb185 | 26 | #include "TH3F.h" |
2fbf38ac | 27 | #include "TH2F.h" |
ef647350 | 28 | #include "TH2I.h" |
29 | #include "TH1I.h" | |
30 | #include "TFile.h" | |
964c8159 | 31 | #include "AliAnalysisHadEtCorrections.h" |
ef647350 | 32 | #include "AliAnalysisEtSelector.h" |
0f6416f3 | 33 | #include "AliLog.h" |
e9da35da | 34 | #include "AliCentrality.h" |
ef647350 | 35 | #include "AliPHOSGeoUtils.h" |
36 | #include "AliPHOSGeometry.h" | |
d3ce32b8 | 37 | #include "AliAnalysisEtRecEffCorrection.h" |
9a365626 | 38 | #include "AliESDpid.h" |
0f6416f3 | 39 | |
2fbf38ac | 40 | |
16abb579 | 41 | using namespace std; |
42 | ||
43 | ClassImp(AliAnalysisEtReconstructed); | |
44 | ||
45 | ||
2fbf38ac | 46 | AliAnalysisEtReconstructed::AliAnalysisEtReconstructed() : |
f61cec2f | 47 | AliAnalysisEt() |
3919b0d0 | 48 | ,fQATree(0) |
49 | ,fMakeQATree(0) | |
50 | ,fClusterMultiplicity(0) | |
51 | ,fTrackMultiplicity(0) | |
52 | ,fEventID(0) | |
f61cec2f | 53 | ,fCorrections(0) |
54 | ,fPidCut(0) | |
fb116385 | 55 | ,nChargedHadronsMeasured(0) |
56 | ,nChargedHadronsTotal(0) | |
f61cec2f | 57 | ,fHistChargedPionEnergyDeposit(0) |
58 | ,fHistProtonEnergyDeposit(0) | |
59 | ,fHistAntiProtonEnergyDeposit(0) | |
60 | ,fHistChargedKaonEnergyDeposit(0) | |
61 | ,fHistMuonEnergyDeposit(0) | |
62 | ,fHistRemovedEnergy(0) | |
63 | ,fGeomCorrection(1.0) | |
b2c10007 | 64 | ,fEMinCorrection(1.0/0.687) |
f61cec2f | 65 | ,fRecEffCorrection(1.0) |
43dd5a38 | 66 | ,fClusterPositionAccepted(0) |
67 | ,fClusterPositionAll(0) | |
68 | ,fClusterPositionAcceptedEnergy(0) | |
69 | ,fClusterPositionAllEnergy(0) | |
53302bfe | 70 | ,fClusterEnergy(0) |
9a365626 | 71 | ,fClusterEnergyCent(0) |
d386205e | 72 | ,fClusterEnergyModifiedTrackMatchesCent(0) |
9a365626 | 73 | ,fClusterEnergyCentMatched(0) |
74 | ,fClusterEnergyCentNotMatched(0) | |
53302bfe | 75 | ,fClusterEt(0) |
f61cec2f | 76 | ,fHistChargedEnergyRemoved(0) |
77 | ,fHistNeutralEnergyRemoved(0) | |
78 | ,fHistGammaEnergyAdded(0) | |
ac610b08 | 79 | ,fHistMatchedTracksEvspTvsCent(0) |
80 | ,fHistMatchedTracksEvspTvsCentEffCorr(0) | |
459e9c44 | 81 | ,fHistMatchedTracksEvspTvsCentEffTMCorr(0) |
3af79c0f | 82 | ,fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr(0) |
5881f036 | 83 | ,fHistMatchedTracksEvspTvsCentEffTMCorr500MeV(0) |
6a152780 | 84 | ,fHistFoundHadronsvsCent(0) |
85 | ,fHistNotFoundHadronsvsCent(0) | |
86 | ,fHistFoundHadronsEtvsCent(0) | |
87 | ,fHistNotFoundHadronsEtvsCent(0) | |
43dd5a38 | 88 | ,fHistFoundHadronsvsCent500MeV(0) |
89 | ,fHistNotFoundHadronsvsCent500MeV(0) | |
90 | ,fHistFoundHadronsEtvsCent500MeV(0) | |
91 | ,fHistNotFoundHadronsEtvsCent500MeV(0) | |
d3ce32b8 | 92 | ,fHistNominalRawEt(0) |
93 | ,fHistNominalNonLinHighEt(0) | |
94 | ,fHistNominalNonLinLowEt(0) | |
95 | ,fHistNominalEffHighEt(0) | |
96 | ,fHistNominalEffLowEt(0) | |
43dd5a38 | 97 | ,fHistTotRawEtEffCorr(0) |
3e9c52ca | 98 | ,fHistTotRawEt(0) |
43dd5a38 | 99 | ,fHistTotRawEtEffCorr500MeV(0) |
100 | ,fHistTotAllRawEt(0) | |
101 | ,fHistTotAllRawEtEffCorr(0) | |
9a365626 | 102 | ,fHistNClustersPhosVsEmcal(0) |
103 | ,fHistClusterSizeVsCent(0) | |
104 | ,fHistMatchedClusterSizeVsCent(0) | |
105 | ,fHistTotAllRawEtVsTotalPt(0) | |
106 | ,fHistTotAllRawEtVsTotalPtVsCent(0) | |
107 | ,fHistTotMatchedRawEtVsTotalPtVsCent(0) | |
108 | ,fHistPIDProtonsTrackMatchedDepositedVsNch(0) | |
109 | ,fHistPIDAntiProtonsTrackMatchedDepositedVsNch(0) | |
0fcbed20 | 110 | ,fHistPIDProtonsTrackMatchedDepositedVsNcl(0) |
111 | ,fHistPIDAntiProtonsTrackMatchedDepositedVsNcl(0) | |
9a365626 | 112 | ,fHistPiKPTrackMatchedDepositedVsNch(0) |
fb116385 | 113 | //, |
114 | ,fHistPIDProtonsTrackMatchedDepositedVsNchNoEff(0) | |
115 | ,fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff(0) | |
116 | ,fHistPIDProtonsTrackMatchedDepositedVsNclNoEff(0) | |
117 | ,fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff(0) | |
118 | ,fHistPiKPTrackMatchedDepositedVsNchNoEff(0) | |
9a365626 | 119 | ,fHistCentVsNchVsNclReco(0) |
fb116385 | 120 | ,fHistRawSignalReco(0) |
121 | ,fHistEffCorrSignalReco(0) | |
02d47689 | 122 | ,fHistRecoRCorrVsPtVsCent(0) |
2fbf38ac | 123 | { |
124 | ||
125 | } | |
126 | ||
e9da35da | 127 | AliAnalysisEtReconstructed::~AliAnalysisEtReconstructed() |
f61cec2f | 128 | {//destructor |
3919b0d0 | 129 | if(fMakeQATree){ |
130 | //fQATree->Clear(); | |
131 | delete fQATree; | |
132 | } | |
e9da35da | 133 | delete fCorrections; |
ef647350 | 134 | delete fHistChargedPionEnergyDeposit; /** Energy deposited in calorimeter by charged pions */ |
135 | delete fHistProtonEnergyDeposit; /** Energy deposited in calorimeter by protons */ | |
136 | delete fHistAntiProtonEnergyDeposit; /** Energy deposited in calorimeter by anti-protons */ | |
137 | delete fHistChargedKaonEnergyDeposit; /** Energy deposited in calorimeter by charged kaons */ | |
d0c22dcc | 138 | delete fHistMuonEnergyDeposit; /** Energy deposited in calorimeter by muons */ |
139 | ||
140 | delete fHistRemovedEnergy; // removed energy | |
43dd5a38 | 141 | delete fClusterPositionAccepted; |
142 | delete fClusterPositionAll; | |
143 | delete fClusterPositionAcceptedEnergy; | |
144 | delete fClusterPositionAllEnergy; | |
53302bfe | 145 | delete fClusterEnergy; |
9a365626 | 146 | delete fClusterEnergyCent; |
d386205e | 147 | delete fClusterEnergyModifiedTrackMatchesCent; |
9a365626 | 148 | delete fClusterEnergyCentMatched; |
149 | delete fClusterEnergyCentNotMatched; | |
53302bfe | 150 | delete fClusterEt; |
311c6540 | 151 | delete fHistChargedEnergyRemoved; |
152 | delete fHistNeutralEnergyRemoved; | |
153 | delete fHistGammaEnergyAdded; | |
ac610b08 | 154 | delete fHistMatchedTracksEvspTvsCent; |
155 | delete fHistMatchedTracksEvspTvsCentEffCorr; | |
459e9c44 | 156 | delete fHistMatchedTracksEvspTvsCentEffTMCorr; |
3af79c0f | 157 | delete fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr; |
5881f036 | 158 | delete fHistMatchedTracksEvspTvsCentEffTMCorr500MeV; |
6a152780 | 159 | delete fHistFoundHadronsvsCent; |
160 | delete fHistNotFoundHadronsvsCent; | |
161 | delete fHistFoundHadronsEtvsCent; | |
162 | delete fHistNotFoundHadronsEtvsCent; | |
43dd5a38 | 163 | delete fHistFoundHadronsvsCent500MeV; |
164 | delete fHistNotFoundHadronsvsCent500MeV; | |
165 | delete fHistFoundHadronsEtvsCent500MeV; | |
166 | delete fHistNotFoundHadronsEtvsCent500MeV; | |
d3ce32b8 | 167 | delete fHistNominalRawEt; |
168 | delete fHistNominalNonLinHighEt; | |
169 | delete fHistNominalNonLinLowEt; | |
170 | delete fHistNominalEffHighEt; | |
171 | delete fHistNominalEffLowEt; | |
43dd5a38 | 172 | delete fHistTotRawEtEffCorr; |
3e9c52ca | 173 | delete fHistTotRawEt; |
43dd5a38 | 174 | delete fHistTotAllRawEt; |
175 | delete fHistTotAllRawEtEffCorr; | |
176 | delete fHistTotRawEtEffCorr500MeV; | |
9a365626 | 177 | delete fHistNClustersPhosVsEmcal; |
178 | delete fHistClusterSizeVsCent; | |
179 | delete fHistMatchedClusterSizeVsCent; | |
180 | delete fHistTotAllRawEtVsTotalPt; | |
181 | delete fHistTotAllRawEtVsTotalPtVsCent; | |
182 | delete fHistTotMatchedRawEtVsTotalPtVsCent; | |
183 | delete fHistPIDProtonsTrackMatchedDepositedVsNch; | |
184 | delete fHistPIDAntiProtonsTrackMatchedDepositedVsNch; | |
0fcbed20 | 185 | delete fHistPIDProtonsTrackMatchedDepositedVsNcl; |
186 | delete fHistPIDAntiProtonsTrackMatchedDepositedVsNcl; | |
9a365626 | 187 | delete fHistPiKPTrackMatchedDepositedVsNch; |
fb116385 | 188 | delete fHistPIDProtonsTrackMatchedDepositedVsNchNoEff; |
189 | delete fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff; | |
190 | delete fHistPIDProtonsTrackMatchedDepositedVsNclNoEff; | |
191 | delete fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff; | |
192 | delete fHistPiKPTrackMatchedDepositedVsNchNoEff; | |
9a365626 | 193 | delete fHistCentVsNchVsNclReco; |
fb116385 | 194 | delete fHistRawSignalReco; |
195 | delete fHistEffCorrSignalReco; | |
02d47689 | 196 | delete fHistRecoRCorrVsPtVsCent; |
cf6522d1 | 197 | } |
198 | ||
199 | Int_t AliAnalysisEtReconstructed::AnalyseEvent(AliVEvent* ev) | |
e9da35da | 200 | { |
f61cec2f | 201 | |
202 | //AliAnalysisEt::AnalyseEvent(ev); | |
e9da35da | 203 | // analyse ESD event |
2fbf38ac | 204 | ResetEventValues(); |
e9da35da | 205 | if (!ev) { |
206 | AliFatal("ERROR: Event does not exist"); | |
207 | return 0; | |
208 | } | |
209 | ||
2fbf38ac | 210 | AliESDEvent *event = dynamic_cast<AliESDEvent*>(ev); |
e9da35da | 211 | if (!event) { |
212 | AliFatal("ERROR: ESD Event does not exist"); | |
213 | return 0; | |
ec956c46 | 214 | } |
2aab9269 | 215 | if(!fSelector){ |
216 | AliFatal("ERROR: fSelector does not exist"); | |
217 | return 0; | |
218 | } | |
ef647350 | 219 | fSelector->SetEvent(event); |
f61cec2f | 220 | |
743ce29f | 221 | Int_t cent = -1; |
d3ce32b8 | 222 | fCentrality = event->GetCentrality(); |
f6b36c54 | 223 | if (fCentrality && cent) |
743ce29f | 224 | { |
d3ce32b8 | 225 | cent = fCentrality->GetCentralityClass5("V0M"); |
226 | fCentClass = fCentrality->GetCentralityClass5("V0M"); | |
743ce29f | 227 | } |
228 | ||
9a365626 | 229 | |
230 | //for PID | |
3af79c0f | 231 | //AliESDpid *pID = new AliESDpid(); |
232 | //pID->MakePID(event); | |
9a365626 | 233 | Float_t etPIDProtons = 0.0; |
234 | Float_t etPIDAntiProtons = 0.0; | |
235 | Float_t etPiKPMatched = 0.0; | |
fb116385 | 236 | Float_t etPIDProtonsNoEff = 0.0; |
237 | Float_t etPIDAntiProtonsNoEff = 0.0; | |
238 | Float_t etPiKPMatchedNoEff = 0.0; | |
9a365626 | 239 | Float_t multiplicity = fEsdtrackCutsTPC->GetReferenceMultiplicity(event,kTRUE); |
3919b0d0 | 240 | fTrackMultiplicity = multiplicity; |
241 | fEventID = event->GetPeriodNumber();//This is not the event id | |
9a365626 | 242 | |
243 | Float_t totalMatchedPt = 0.0; | |
244 | Float_t totalPt = 0.0; | |
245 | TObjArray* list = fEsdtrackCutsTPC->GetAcceptedTracks(event); | |
246 | Int_t nGoodTracks = list->GetEntries(); | |
247 | for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++){ | |
248 | AliESDtrack *track = dynamic_cast<AliESDtrack*> (list->At(iTrack)); | |
249 | if (!track) | |
250 | { | |
251 | Printf("ERROR: Could not get track %d", iTrack); | |
252 | continue; | |
253 | } | |
254 | else{ | |
255 | totalPt +=track->Pt(); | |
3af79c0f | 256 | //pID->MakeITSPID(track); |
9a365626 | 257 | |
258 | ||
259 | } | |
260 | } | |
261 | ||
5881f036 | 262 | //TRefArray *caloClusters = fSelector->GetClusters();//just gets the correct set of clusters - does not apply any cuts |
263 | //Float_t fClusterMult = caloClusters->GetEntries(); | |
09fcb185 | 264 | |
d3ce32b8 | 265 | Float_t nominalRawEt = 0; |
5881f036 | 266 | Float_t totEt500MeV = 0; |
d3ce32b8 | 267 | Float_t nonlinHighRawEt = 0; |
268 | Float_t nonlinLowRawEt = 0; | |
269 | Float_t effHighRawEt = 0; | |
270 | Float_t effLowRawEt = 0; | |
3e9c52ca | 271 | Float_t uncorrEt = 0; |
f2a956c2 | 272 | Float_t rawSignal = 0; |
273 | Float_t effCorrSignal = 0; | |
d3ce32b8 | 274 | |
fb116385 | 275 | nChargedHadronsMeasured = 0.0; |
276 | nChargedHadronsTotal = 0.0; | |
6a152780 | 277 | Float_t nChargedHadronsEtMeasured = 0.0; |
278 | Float_t nChargedHadronsEtTotal = 0.0; | |
43dd5a38 | 279 | Float_t nChargedHadronsMeasured500MeV = 0.0; |
280 | Float_t nChargedHadronsTotal500MeV = 0.0; | |
281 | Float_t nChargedHadronsEtMeasured500MeV = 0.0; | |
282 | Float_t nChargedHadronsEtTotal500MeV = 0.0; | |
283 | Float_t fTotAllRawEt = 0.0; | |
284 | Float_t fTotRawEt = 0.0; | |
f809f93b | 285 | Float_t fTotRawEtEffCorr = 0.0; |
43dd5a38 | 286 | Float_t fTotAllRawEtEffCorr = 0.0; |
9a365626 | 287 | Int_t nPhosClusters = 0; |
288 | Int_t nEmcalClusters = 0; | |
d3ce32b8 | 289 | |
fb116385 | 290 | |
291 | TRefArray *caloClusters = fSelector->GetClusters(); | |
292 | Int_t nCluster = caloClusters->GetEntries(); | |
3919b0d0 | 293 | fClusterMultiplicity = nCluster; |
294 | //if we are making the QA tree and the cluster multiplicity (for PHOS) is less than expected, fill the QA tree so we know what event it was | |
295 | if(fMakeQATree && fClusterMultiplicity < 5e-3*fTrackMultiplicity-1.5) fQATree->Fill(); | |
fb116385 | 296 | |
297 | for (int iCluster = 0; iCluster < nCluster; iCluster++ ) | |
2fbf38ac | 298 | { |
fb116385 | 299 | AliESDCaloCluster* cluster = ( AliESDCaloCluster* )caloClusters->At( iCluster ); |
2fbf38ac | 300 | if (!cluster) |
301 | { | |
e9da35da | 302 | AliError(Form("ERROR: Could not get cluster %d", iCluster)); |
2fbf38ac | 303 | continue; |
304 | } | |
ef647350 | 305 | int x = 0; |
f61cec2f | 306 | fCutFlow->Fill(x++); |
9a365626 | 307 | if(cluster->IsEMCAL()) nEmcalClusters++; |
308 | else nPhosClusters++; | |
86e7d5db | 309 | if(!fSelector->IsDetectorCluster(*cluster)) continue; |
f61cec2f | 310 | fCutFlow->Fill(x++); |
86e7d5db | 311 | if(!fSelector->PassMinEnergyCut(*cluster)) continue; |
f61cec2f | 312 | fCutFlow->Fill(x++); |
86e7d5db | 313 | if (!fSelector->PassDistanceToBadChannelCut(*cluster)) continue; |
f61cec2f | 314 | fCutFlow->Fill(x++); |
5881f036 | 315 | if (!fSelector->CutGeometricalAcceptance(*cluster)) continue; |
316 | //fCutFlow->Fill(x++); | |
2fbf38ac | 317 | Float_t pos[3]; |
e9da35da | 318 | |
2fbf38ac | 319 | cluster->GetPosition(pos); |
e9da35da | 320 | TVector3 cp(pos); |
43dd5a38 | 321 | fClusterPositionAll->Fill(cp.Phi(), cp.PseudoRapidity()); |
02d47689 | 322 | Float_t fReconstructedE = cluster->E(); |
6280e578 | 323 | Float_t lostEnergy = 0.0; |
324 | Float_t lostTrackPt = 0.0; | |
02d47689 | 325 | fClusterPositionAllEnergy->Fill(cp.Phi(), cp.PseudoRapidity(),GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE); |
87efb15c | 326 | |
5881f036 | 327 | //if(TMath::Abs(cp.Eta())> fCuts->fCuts->GetGeometryEmcalEtaAccCut() || cp.Phi() > fCuts->GetGeometryEmcalPhiAccMaxCut()*TMath::Pi()/180. || cp.Phi() > fCuts->GetGeometryEmcalPhiAccMinCut()*TMath::Pi()/180.) continue;//Do not accept if cluster is not in the acceptance |
02d47689 | 328 | fTotAllRawEt += TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
27d85daa | 329 | fTotAllRawEtEffCorr +=GetCorrectionModification(*cluster,0,0,cent)* CorrectForReconstructionEfficiency(*cluster,cent); |
5881f036 | 330 | |
02d47689 | 331 | fClusterEnergyCent->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent); |
09fcb185 | 332 | Bool_t matched = kTRUE;//default to no track matched |
6280e578 | 333 | Bool_t countasmatched = kFALSE; |
96e7f328 | 334 | Bool_t correctedcluster = kFALSE; |
6280e578 | 335 | |
09fcb185 | 336 | Int_t trackMatchedIndex = cluster->GetTrackMatchedIndex();//find the index of the matched track |
584f2478 | 337 | matched = !(fSelector->PassTrackMatchingCut(*cluster));//PassTrackMatchingCut is false if there is a matched track |
338 | if(matched){//if the track match is good (, is the track good? | |
339 | if(trackMatchedIndex < 0) matched=kFALSE;//If the index is bad, don't count it | |
340 | if(matched){ | |
341 | AliESDtrack *track = event->GetTrack(trackMatchedIndex); | |
342 | //if this is a good track, accept track will return true. The track matched is good, so not track matched is false | |
343 | matched = fEsdtrackCutsTPC->AcceptTrack(track);//If the track is bad, don't count it | |
02d47689 | 344 | if(matched){//if it is still matched see if the track p was less than the energy |
345 | Float_t rcorr = TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; | |
346 | fHistRecoRCorrVsPtVsCent->Fill(rcorr,track->Pt(), fCentClass); | |
6280e578 | 347 | if(fSelector->PassMinEnergyCut( (fReconstructedE - fsub* track->P())*TMath::Sin(cp.Theta()) ) ){//if more energy was deposited than the momentum of the track and more than one particle led to the cluster |
7ee3992c | 348 | // if(fReconstructedE - fsub* track->P() > 0.0){ |
96e7f328 | 349 | //cout<<"match corrected"<<endl; |
02d47689 | 350 | fReconstructedE = fReconstructedE - fsub* track->P(); |
351 | matched = kFALSE; | |
6280e578 | 352 | countasmatched = kTRUE; |
96e7f328 | 353 | correctedcluster = kTRUE; |
6280e578 | 354 | lostEnergy = fsub* track->P(); |
355 | lostTrackPt = track->Pt(); | |
d386205e | 356 | fClusterEnergyModifiedTrackMatchesCent->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent); |
02d47689 | 357 | } |
96e7f328 | 358 | // else{ |
359 | // cerr<<"match passed "; | |
360 | // cerr<<"E "<<fReconstructedE<<" fsubmeanhad "<<fsub<<" p "<< track->P(); | |
361 | // if(correctedcluster) cout<<" corrected"; | |
362 | // cerr<<endl; | |
363 | // } | |
02d47689 | 364 | } |
584f2478 | 365 | } |
09fcb185 | 366 | } |
e9da35da | 367 | |
e9da35da | 368 | |
369 | if (matched) | |
370 | { | |
f61cec2f | 371 | |
e9da35da | 372 | if (cluster->GetNTracksMatched() > 0 && trackMatchedIndex>=0) |
373 | { | |
374 | AliVTrack *track = event->GetTrack(trackMatchedIndex); | |
375 | if (!track) { | |
376 | AliError("Error: track does not exist"); | |
377 | } | |
378 | else { | |
9a365626 | 379 | totalMatchedPt +=track->Pt(); |
02d47689 | 380 | fClusterEnergyCentMatched->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent); |
9a365626 | 381 | fHistMatchedClusterSizeVsCent->Fill(cluster->GetNCells(),cent); |
382 | ||
5881f036 | 383 | float eff = fTmCorrections->TrackMatchingEfficiency(track->Pt(),cent); |
584f2478 | 384 | if(TMath::Abs(eff)<1e-5) eff = 1.0; |
9a365626 | 385 | //cout<<"pt "<<track->Pt()<<" eff "<<eff<<" total "<<nChargedHadronsTotal<<endl; |
6a152780 | 386 | nChargedHadronsMeasured++; |
584f2478 | 387 | nChargedHadronsTotal += 1/eff; |
02d47689 | 388 | Double_t effCorrEt = GetCorrectionModification(*cluster,0,0,cent) * CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cent); |
389 | nChargedHadronsEtMeasured+= TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; | |
3e9c52ca | 390 | //One efficiency is the gamma efficiency and the other is the track matching efficiency. |
02d47689 | 391 | nChargedHadronsEtTotal+= 1/eff *TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
392 | //cout<<"nFound "<<1<<" nFoundTotal "<<1/eff<<" etMeas "<<TMath::Sin(cp.Theta())*fReconstructedE<<" ET total "<< 1/eff *TMath::Sin(cp.Theta())*fReconstructedE<<endl; | |
9a365626 | 393 | |
394 | Float_t nSigmaPion = fPIDResponse->NumberOfSigmasTPC(track, AliPID::kPion); | |
395 | Float_t nSigmaProton = fPIDResponse->NumberOfSigmasTPC(track, AliPID::kProton); | |
396 | bool isProton = (nSigmaPion>3.0 && nSigmaProton<3.0 && track->Pt()<0.9); | |
397 | //cout<<"NSigmaProton "<<nSigmaProton<<endl; | |
398 | etPiKPMatched += effCorrEt; | |
02d47689 | 399 | etPiKPMatchedNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
9a365626 | 400 | if(isProton){ |
401 | if(track->Charge()>0){ | |
402 | etPIDProtons += effCorrEt; | |
02d47689 | 403 | etPIDProtonsNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
9a365626 | 404 | } |
405 | else{ | |
02d47689 | 406 | etPIDAntiProtonsNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
9a365626 | 407 | etPIDAntiProtons += effCorrEt; |
408 | } | |
409 | } | |
02d47689 | 410 | if(TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE>0.5){ |
43dd5a38 | 411 | nChargedHadronsMeasured500MeV++; |
412 | nChargedHadronsTotal500MeV += 1/eff; | |
02d47689 | 413 | nChargedHadronsEtMeasured500MeV+= TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
414 | nChargedHadronsEtTotal500MeV+= 1/eff *TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; | |
43dd5a38 | 415 | } |
5881f036 | 416 | cluster->GetPosition(pos); |
417 | TVector3 p2(pos); | |
02d47689 | 418 | uncorrEt += TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; |
96e7f328 | 419 | if(correctedcluster || fReconstructedE <fsubmeanhade* track->P() ){//if more energy was deposited than the momentum of the track and more than one particle led to the cluster and the corrected energy is greater than zero |
6280e578 | 420 | fHistMatchedTracksEvspTvsCent->Fill(track->P(),TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent); |
421 | fHistMatchedTracksEvspTvsCentEffCorr->Fill(track->P(),effCorrEt,cent); | |
422 | //Weighed by the number of tracks we didn't find | |
423 | fHistMatchedTracksEvspTvsCentEffTMCorr->Fill(track->P(), effCorrEt,cent, (1/eff-1) ); | |
424 | if(cent<16 && cent>11){//centralities 60-80% where false track matches are low | |
425 | for(int cbtest = 0; cbtest<20; cbtest++){//then we calculate the deposit matched to hadrons with different centrality bins' efficiencies | |
426 | float efftest = fTmCorrections->TrackMatchingEfficiency(track->Pt(),cbtest); | |
427 | if(TMath::Abs(efftest)<1e-5) efftest = 1.0; | |
428 | Double_t effCorrEttest = GetCorrectionModification(*cluster,0,0,cent)*CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cbtest); | |
429 | fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr->Fill(track->P(), effCorrEttest,cbtest, (1/efftest-1) ); | |
430 | } | |
431 | } | |
432 | if(uncorrEt>=0.5) fHistMatchedTracksEvspTvsCentEffTMCorr500MeV->Fill(track->P(), effCorrEt,cent, (1/eff-1) ); | |
433 | } | |
6280e578 | 434 | const Double_t *pidWeights = track->PID(); |
435 | ||
436 | Double_t maxpidweight = 0; | |
437 | Int_t maxpid = 0; | |
438 | ||
439 | if (pidWeights) | |
e9da35da | 440 | { |
6280e578 | 441 | for (Int_t p =0; p < AliPID::kSPECIES; p++) |
e9da35da | 442 | { |
6280e578 | 443 | if (pidWeights[p] > maxpidweight) |
e9da35da | 444 | { |
6280e578 | 445 | maxpidweight = pidWeights[p]; |
446 | maxpid = p; | |
e9da35da | 447 | } |
448 | } | |
6280e578 | 449 | if (fCuts->GetHistMakeTreeDeposit() && fDepositTree) |
e9da35da | 450 | { |
6280e578 | 451 | fEnergyDeposited =GetCorrectionModification(*cluster,0,0,cent)* fReconstructedE; |
452 | fMomentumTPC = track->P(); | |
453 | fCharge = track->Charge(); | |
454 | fParticlePid = maxpid; | |
455 | fPidProb = maxpidweight; | |
456 | AliESDtrack *esdTrack = dynamic_cast<AliESDtrack*>(track); | |
457 | if (!esdTrack) { | |
458 | AliError("Error: track does not exist"); | |
459 | } | |
460 | else { | |
461 | if (esdTrack) fTrackPassedCut = fEsdtrackCutsTPC->AcceptTrack(esdTrack); | |
462 | fDepositTree->Fill(); | |
463 | } | |
e9da35da | 464 | } |
6280e578 | 465 | |
466 | if (maxpidweight > fPidCut) | |
e9da35da | 467 | { |
6280e578 | 468 | //Float_t dist = TMath::Sqrt(pos[0]*pos[0] + pos[1]*pos[1]); |
469 | ||
470 | //Float_t theta = TMath::ATan(pos[2]/dist)+TMath::Pi()/2; | |
471 | ||
02d47689 | 472 | //Float_t et = fReconstructedE * TMath::Sin(theta); |
e9da35da | 473 | if (maxpid == AliPID::kProton) |
474 | { | |
475 | ||
476 | if (track->Charge() == 1) | |
477 | { | |
02d47689 | 478 | fHistProtonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E()); |
e9da35da | 479 | } |
480 | else if (track->Charge() == -1) | |
481 | { | |
02d47689 | 482 | fHistAntiProtonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E()); |
e9da35da | 483 | } |
484 | } | |
485 | else if (maxpid == AliPID::kPion) | |
486 | { | |
02d47689 | 487 | fHistChargedPionEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E()); |
e9da35da | 488 | } |
489 | else if (maxpid == AliPID::kKaon) | |
490 | { | |
02d47689 | 491 | fHistChargedKaonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E()); |
e9da35da | 492 | } |
493 | else if (maxpid == AliPID::kMuon) | |
494 | { | |
02d47689 | 495 | fHistMuonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E()); |
e9da35da | 496 | } |
497 | } | |
498 | } | |
499 | } | |
500 | } | |
501 | //continue; | |
ba136eb4 | 502 | } // distance |
6a152780 | 503 | else{//these are clusters which were not track matched |
f61cec2f | 504 | fCutFlow->Fill(x++); |
505 | //std::cout << x++ << std::endl; | |
6a152780 | 506 | |
02d47689 | 507 | //if (fReconstructedE > fSingleCellEnergyCut && cluster->GetNCells() == fCuts->GetCommonSingleCell()) continue; |
508 | //if (fReconstructedE < fClusterEnergyCut) continue; | |
6a152780 | 509 | cluster->GetPosition(pos); |
510 | ||
6280e578 | 511 | TVector3 p2(pos); |
512 | if(countasmatched){//These are tracks where we partially subtracted the energy but we subtracted some energy | |
513 | float eff = fTmCorrections->TrackMatchingEfficiency(lostTrackPt,cent); | |
514 | if(TMath::Abs(eff)<1e-5) eff = 1.0; | |
515 | //cout<<"pt "<<track->Pt()<<" eff "<<eff<<" total "<<nChargedHadronsTotal<<endl; | |
516 | nChargedHadronsMeasured++; | |
517 | nChargedHadronsTotal += 1/eff; | |
518 | //Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,lostEnergy,cent); | |
519 | nChargedHadronsEtMeasured+= TMath::Sin(cp.Theta())*lostEnergy; | |
520 | //One efficiency is the gamma efficiency and the other is the track matching efficiency. | |
521 | nChargedHadronsEtTotal+= 1/eff *TMath::Sin(cp.Theta())*lostEnergy; | |
522 | } | |
523 | fClusterPositionAccepted->Fill(p2.Phi(), p2.PseudoRapidity()); | |
524 | fClusterPositionAcceptedEnergy->Fill(p2.Phi(), p2.PseudoRapidity(),GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE); | |
525 | fClusterEnergy->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE); | |
526 | fClusterEnergyCentNotMatched->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent); | |
527 | fHistClusterSizeVsCent->Fill(cluster->GetNCells(),cent); | |
528 | fClusterEt->Fill(TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE); | |
529 | uncorrEt += TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; | |
530 | float myuncorrEt = TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE; | |
531 | fTotRawEt += myuncorrEt; | |
532 | ||
533 | Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cent)*GetCorrectionModification(*cluster,0,0,cent); | |
534 | rawSignal += myuncorrEt; | |
535 | effCorrSignal +=effCorrEt; | |
536 | //cout<<"cluster energy "<<fReconstructedE<<" eff corr Et "<<effCorrEt<<endl; | |
537 | fTotRawEtEffCorr += effCorrEt; | |
538 | fTotNeutralEt += effCorrEt; | |
539 | nominalRawEt += effCorrEt; | |
540 | if(myuncorrEt>=0.5){ | |
541 | totEt500MeV += effCorrEt; | |
542 | //cout<<"test "<<myuncorrEt<<"> 0.5"<<endl; | |
543 | } | |
544 | else{ | |
545 | //cout<<"test "<<myuncorrEt<<"< 0.5"<<endl; | |
546 | } | |
547 | nonlinHighRawEt += effCorrEt*GetCorrectionModification(*cluster,1,0,cent); | |
548 | nonlinLowRawEt += effCorrEt*GetCorrectionModification(*cluster,-1,0,cent); | |
549 | effHighRawEt += effCorrEt*GetCorrectionModification(*cluster,0,1,cent); | |
550 | effLowRawEt += effCorrEt*GetCorrectionModification(*cluster,0,-1,cent); | |
551 | fNeutralMultiplicity++; | |
e9da35da | 552 | } |
ef647350 | 553 | fMultiplicity++; |
554 | } | |
f61cec2f | 555 | |
fb116385 | 556 | |
557 | fHistRawSignalReco->Fill(rawSignal); | |
558 | fHistEffCorrSignalReco->Fill(effCorrSignal); | |
559 | ||
9a365626 | 560 | fHistNClustersPhosVsEmcal->Fill(nPhosClusters,nEmcalClusters,cent); |
ef647350 | 561 | fChargedEnergyRemoved = GetChargedContribution(fNeutralMultiplicity); |
562 | fNeutralEnergyRemoved = GetNeutralContribution(fNeutralMultiplicity); | |
563 | fHistChargedEnergyRemoved->Fill(fChargedEnergyRemoved, fNeutralMultiplicity); | |
564 | fHistNeutralEnergyRemoved->Fill(fNeutralEnergyRemoved, fNeutralMultiplicity); | |
f61cec2f | 565 | |
ef647350 | 566 | fGammaEnergyAdded = GetGammaContribution(fNeutralMultiplicity); |
567 | fHistGammaEnergyAdded->Fill(fGammaEnergyAdded, fNeutralMultiplicity); | |
2fbf38ac | 568 | |
8529c4c1 | 569 | //Double_t removedEnergy = GetChargedContribution(cent) + GetNeutralContribution(cent) + GetGammaContribution(cent) + GetSecondaryContribution(cent);//fNeutralMultiplicity |
570 | Double_t removedEnergy = GetHadronContribution(cent) + GetNeutronContribution(cent) + GetKaonContribution(cent) + GetSecondaryContribution(cent);//fNeutralMultiplicity | |
571 | //cout<<" centbin "<<cent<<" removed energy ch "<< GetHadronContribution(cent)<<" n " << GetNeutronContribution(cent) <<" kaon "<< GetKaonContribution(cent)<<" secondary "<< GetSecondaryContribution(cent);//fNeutralMultiplicity | |
572 | //cout<<" test min et "<<fTmCorrections->GetMinEtCorrection(cent); | |
573 | //cout<<" test neutral "<<fTmCorrections->NeutralContr(cent); | |
574 | //cout<<" test neutron "<<fTmCorrections->NeutralContr(cent); | |
e9da35da | 575 | fHistRemovedEnergy->Fill(removedEnergy); |
f61cec2f | 576 | |
459e9c44 | 577 | fTotNeutralEtAcc = fTotNeutralEt; |
f809f93b | 578 | //fHistTotRawEtEffCorr->Fill(fTotNeutralEt,cent); |
579 | fHistTotRawEtEffCorr->Fill(fTotRawEtEffCorr,cent); | |
43dd5a38 | 580 | fHistTotRawEt->Fill(fTotRawEt,cent); |
581 | fHistTotAllRawEt->Fill(fTotAllRawEt,cent); | |
9a365626 | 582 | fHistTotAllRawEtVsTotalPt->Fill(fTotAllRawEt,totalPt); |
583 | fHistTotAllRawEtVsTotalPtVsCent->Fill(fTotAllRawEt,totalPt,cent); | |
584 | fHistTotMatchedRawEtVsTotalPtVsCent->Fill(fTotAllRawEt,totalMatchedPt,cent); | |
43dd5a38 | 585 | fHistTotAllRawEtEffCorr->Fill(fTotAllRawEtEffCorr,cent); |
f809f93b | 586 | //cout<<"fTotAllRawEtEffCorr "<<fTotAllRawEtEffCorr<<" fTotAllRawEt "<<fTotAllRawEt<<" fTotRawEtEffCorr "<<fTotRawEtEffCorr<<"("<<fTotNeutralEt<<")"<<" fTotRawEt "<<fTotRawEt<<endl; |
3e9c52ca | 587 | //cout<<"uncorr "<<uncorrEt<<" raw "<<nominalRawEt<<" tot raw "<<fTotNeutralEt; |
8529c4c1 | 588 | //cout<<" raw "<<fTotNeutralEt<<" removed "<<removedEnergy<<" etmin "<<GetMinEtCorrection(cent)<<" final "; |
589 | if(GetMinEtCorrection(cent)>0) fTotNeutralEt = (fTotNeutralEt - removedEnergy)/GetMinEtCorrection(cent); | |
590 | //cout<<fTotNeutralEt<<endl; | |
3e9c52ca | 591 | //cout<<" tot corr "<<fTotNeutralEt<<endl; |
2fbf38ac | 592 | fTotEt = fTotChargedEt + fTotNeutralEt; |
f61cec2f | 593 | // Fill the histograms...0 |
2fbf38ac | 594 | FillHistograms(); |
b2c10007 | 595 | //std::cout << "fTotNeutralEt: " << fTotNeutralEt << ", Contribution from non-removed charged: " << GetChargedContribution(fNeutralMultiplicity) << ", neutral: " << GetNeutralContribution(fNeutralMultiplicity) << ", gammas: " << GetGammaContribution(fNeutralMultiplicity) << ", multiplicity: " << fNeutralMultiplicity<< std::endl; |
d3ce32b8 | 596 | //cout<<"cent "<<cent<<" cluster mult "<<fClusterMult<<" fTotNeutralEt "<<fTotNeutralEt<<" nominalRawEt "<<nominalRawEt<<endl; |
597 | fHistNominalRawEt->Fill(nominalRawEt,cent); | |
43dd5a38 | 598 | fHistTotRawEtEffCorr500MeV->Fill(totEt500MeV,cent); |
d3ce32b8 | 599 | fHistNominalNonLinHighEt->Fill(nonlinHighRawEt,cent); |
600 | fHistNominalNonLinLowEt->Fill(nonlinLowRawEt,cent); | |
601 | fHistNominalEffHighEt->Fill(effHighRawEt,cent); | |
602 | fHistNominalEffLowEt->Fill(effLowRawEt,cent); | |
6a152780 | 603 | fHistFoundHadronsvsCent->Fill(nChargedHadronsMeasured,cent); |
604 | fHistNotFoundHadronsvsCent->Fill(nChargedHadronsTotal-nChargedHadronsMeasured,cent); | |
605 | fHistFoundHadronsEtvsCent->Fill(nChargedHadronsEtMeasured,cent); | |
606 | fHistNotFoundHadronsEtvsCent->Fill(nChargedHadronsEtTotal-nChargedHadronsEtMeasured,cent); | |
9a365626 | 607 | //cout<<"found "<<nChargedHadronsMeasured<<" total "<<nChargedHadronsTotal<<" not found "<<nChargedHadronsTotal-nChargedHadronsMeasured<<" found "<< nChargedHadronsMeasured500MeV<<" not found "<< nChargedHadronsTotal500MeV-nChargedHadronsMeasured500MeV <<" total "<<nChargedHadronsTotal500MeV<<endl; |
43dd5a38 | 608 | fHistFoundHadronsvsCent500MeV->Fill(nChargedHadronsMeasured500MeV,cent); |
609 | fHistNotFoundHadronsvsCent500MeV->Fill(nChargedHadronsTotal500MeV-nChargedHadronsMeasured500MeV,cent); | |
610 | fHistFoundHadronsEtvsCent500MeV->Fill(nChargedHadronsEtMeasured500MeV,cent); | |
611 | fHistNotFoundHadronsEtvsCent500MeV->Fill(nChargedHadronsEtTotal500MeV-nChargedHadronsEtMeasured500MeV,cent); | |
6a152780 | 612 | // cout<<"Number of hadrons measured: "<<nChargedHadronsMeasured<<" Estimated total number of hadrons "<<nChargedHadronsTotal<<" ET in track matched hadrons "<< |
613 | // nChargedHadronsEtMeasured; | |
614 | // if(nChargedHadronsMeasured>0)cout<<" ("<<nChargedHadronsEtMeasured/nChargedHadronsMeasured<<") "; | |
615 | // cout<<" ET in all hadrons "; | |
616 | // cout<<nChargedHadronsEtTotal; | |
617 | // if(nChargedHadronsTotal>0) cout<<" ("<<nChargedHadronsEtTotal/nChargedHadronsTotal<<") "; | |
618 | // cout<<endl; | |
9a365626 | 619 | fHistPIDProtonsTrackMatchedDepositedVsNch->Fill(etPIDProtons,multiplicity); |
620 | fHistPIDAntiProtonsTrackMatchedDepositedVsNch->Fill(etPIDAntiProtons,multiplicity); | |
fb116385 | 621 | fHistPIDProtonsTrackMatchedDepositedVsNcl->Fill(etPIDProtons,nCluster); |
622 | fHistPIDAntiProtonsTrackMatchedDepositedVsNcl->Fill(etPIDAntiProtons,nCluster); | |
623 | fHistPIDProtonsTrackMatchedDepositedVsNchNoEff->Fill(etPIDProtonsNoEff,multiplicity); | |
624 | fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff->Fill(etPIDAntiProtonsNoEff,multiplicity); | |
625 | fHistPIDProtonsTrackMatchedDepositedVsNclNoEff->Fill(etPIDProtonsNoEff,nCluster); | |
626 | fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff->Fill(etPIDAntiProtonsNoEff,nCluster); | |
627 | fHistCentVsNchVsNclReco->Fill(cent,multiplicity,nCluster); | |
9a365626 | 628 | fHistPiKPTrackMatchedDepositedVsNch->Fill(etPiKPMatched,multiplicity); |
fb116385 | 629 | fHistPiKPTrackMatchedDepositedVsNchNoEff->Fill(etPiKPMatchedNoEff,multiplicity); |
3af79c0f | 630 | //delete pID; |
2fbf38ac | 631 | return 0; |
632 | } | |
633 | ||
634 | bool AliAnalysisEtReconstructed::CheckGoodVertex(AliVParticle* track) | |
f61cec2f | 635 | { // check vertex |
2fbf38ac | 636 | |
637 | Float_t bxy = 999.; | |
638 | Float_t bz = 999.; | |
e9da35da | 639 | if (!track) { |
640 | AliError("ERROR: no track"); | |
641 | return kFALSE; | |
ec956c46 | 642 | } |
1b8c3d66 | 643 | AliESDtrack *esdTrack = dynamic_cast<AliESDtrack*>(track); |
e9da35da | 644 | if (!esdTrack) { |
645 | AliError("ERROR: no track"); | |
646 | return kFALSE; | |
1b8c3d66 | 647 | } |
648 | esdTrack->GetImpactParametersTPC(bxy,bz); | |
ec956c46 | 649 | |
2fbf38ac | 650 | |
e9da35da | 651 | bool status = (TMath::Abs(track->Xv()) < fCuts->GetReconstructedVertexXCut()) && |
652 | (TMath::Abs(track->Yv()) < fCuts->GetReconstructedVertexYCut()) && | |
653 | (TMath::Abs(track->Zv()) < fCuts->GetReconstructedVertexZCut()) && | |
654 | (TMath::Abs(bxy) < fCuts->GetReconstructedIPxyCut()) && | |
655 | (TMath::Abs(bz) < fCuts->GetReconstructedIPzCut()); | |
2fbf38ac | 656 | |
4998becf | 657 | return status; |
2fbf38ac | 658 | } |
659 | ||
660 | void AliAnalysisEtReconstructed::Init() | |
f61cec2f | 661 | { // Init |
2fbf38ac | 662 | AliAnalysisEt::Init(); |
83d0f02c | 663 | fPidCut = fCuts->GetReconstructedPidCut(); |
ba136eb4 | 664 | TGeoGlobalMagField::Instance()->SetField(new AliMagF("Maps","Maps", 1., 1., AliMagF::k5kG)); |
e9da35da | 665 | if (!fCorrections) { |
666 | cout<<"Warning! You have not set corrections. Your code will crash. You have to set the corrections."<<endl; | |
0f97be4c | 667 | } |
2fbf38ac | 668 | } |
669 | ||
670 | bool AliAnalysisEtReconstructed::TrackHitsCalorimeter(AliVParticle* track, Double_t magField) | |
f61cec2f | 671 | { // propagate track to detector radius |
e9da35da | 672 | if (!track) { |
673 | cout<<"Warning: track empty"<<endl; | |
674 | return kFALSE; | |
675 | } | |
676 | AliESDtrack *esdTrack= dynamic_cast<AliESDtrack*>(track); | |
677 | if (!esdTrack) { | |
678 | AliError("ERROR: no ESD track"); | |
679 | return kFALSE; | |
680 | } | |
681 | // Printf("Propagating track: eta: %f, phi: %f, pt: %f", esdTrack->Eta(), esdTrack->Phi(), esdTrack->Pt()); | |
2fbf38ac | 682 | |
683 | Bool_t prop = esdTrack->PropagateTo(fDetectorRadius, magField); | |
684 | ||
cf6522d1 | 685 | // if (prop) Printf("Track propagated, eta: %f, phi: %f, pt: %f", esdTrack->Eta(), esdTrack->Phi(), esdTrack->Pt()); |
f61cec2f | 686 | return prop && fSelector->CutGeometricalAcceptance(*esdTrack); |
2fbf38ac | 687 | } |
688 | ||
87efb15c | 689 | void AliAnalysisEtReconstructed::FillOutputList(TList* list) |
f61cec2f | 690 | { // add some extra histograms to the ones from base class |
87efb15c | 691 | AliAnalysisEt::FillOutputList(list); |
692 | ||
3919b0d0 | 693 | if(fMakeQATree){ |
694 | list->Add(fQATree); | |
695 | } | |
87efb15c | 696 | list->Add(fHistChargedPionEnergyDeposit); |
697 | list->Add(fHistProtonEnergyDeposit); | |
698 | list->Add(fHistAntiProtonEnergyDeposit); | |
699 | list->Add(fHistChargedKaonEnergyDeposit); | |
700 | list->Add(fHistMuonEnergyDeposit); | |
e9da35da | 701 | |
702 | list->Add(fHistRemovedEnergy); | |
43dd5a38 | 703 | list->Add(fClusterPositionAccepted); |
704 | list->Add(fClusterPositionAll); | |
705 | list->Add(fClusterPositionAcceptedEnergy); | |
706 | list->Add(fClusterPositionAllEnergy); | |
53302bfe | 707 | list->Add(fClusterEnergy); |
9a365626 | 708 | list->Add(fClusterEnergyCent); |
d386205e | 709 | list->Add(fClusterEnergyModifiedTrackMatchesCent); |
9a365626 | 710 | list->Add(fClusterEnergyCentMatched); |
711 | list->Add(fClusterEnergyCentNotMatched); | |
53302bfe | 712 | list->Add(fClusterEt); |
f61cec2f | 713 | |
ef647350 | 714 | list->Add(fHistChargedEnergyRemoved); |
715 | list->Add(fHistNeutralEnergyRemoved); | |
716 | list->Add(fHistGammaEnergyAdded); | |
ac610b08 | 717 | list->Add(fHistMatchedTracksEvspTvsCent); |
718 | list->Add(fHistMatchedTracksEvspTvsCentEffCorr); | |
459e9c44 | 719 | list->Add(fHistMatchedTracksEvspTvsCentEffTMCorr); |
3af79c0f | 720 | list->Add(fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr); |
5881f036 | 721 | list->Add(fHistMatchedTracksEvspTvsCentEffTMCorr500MeV); |
6a152780 | 722 | list->Add(fHistFoundHadronsvsCent); |
723 | list->Add(fHistNotFoundHadronsvsCent); | |
724 | list->Add(fHistFoundHadronsEtvsCent); | |
725 | list->Add(fHistNotFoundHadronsEtvsCent); | |
43dd5a38 | 726 | list->Add(fHistFoundHadronsvsCent500MeV); |
727 | list->Add(fHistNotFoundHadronsvsCent500MeV); | |
728 | list->Add(fHistFoundHadronsEtvsCent500MeV); | |
729 | list->Add(fHistNotFoundHadronsEtvsCent500MeV); | |
d3ce32b8 | 730 | list->Add(fHistNominalRawEt); |
731 | list->Add(fHistNominalNonLinHighEt); | |
732 | list->Add(fHistNominalNonLinLowEt); | |
733 | list->Add(fHistNominalEffHighEt); | |
734 | list->Add(fHistNominalEffLowEt); | |
43dd5a38 | 735 | list->Add(fHistTotRawEtEffCorr); |
736 | list->Add(fHistTotRawEtEffCorr500MeV); | |
737 | list->Add(fHistTotAllRawEtEffCorr); | |
3e9c52ca | 738 | list->Add(fHistTotRawEt); |
43dd5a38 | 739 | list->Add(fHistTotAllRawEt); |
9a365626 | 740 | list->Add(fHistNClustersPhosVsEmcal); |
741 | list->Add(fHistClusterSizeVsCent); | |
742 | list->Add(fHistMatchedClusterSizeVsCent); | |
743 | list->Add(fHistTotAllRawEtVsTotalPt); | |
744 | list->Add(fHistTotAllRawEtVsTotalPtVsCent); | |
745 | list->Add(fHistTotMatchedRawEtVsTotalPtVsCent); | |
746 | list->Add(fHistPIDProtonsTrackMatchedDepositedVsNch); | |
747 | list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNch); | |
0fcbed20 | 748 | list->Add(fHistPIDProtonsTrackMatchedDepositedVsNcl); |
749 | list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNcl); | |
9a365626 | 750 | list->Add(fHistPiKPTrackMatchedDepositedVsNch); |
fb116385 | 751 | list->Add(fHistPIDProtonsTrackMatchedDepositedVsNchNoEff); |
752 | list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff); | |
753 | list->Add(fHistPIDProtonsTrackMatchedDepositedVsNclNoEff); | |
754 | list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff); | |
755 | list->Add(fHistPiKPTrackMatchedDepositedVsNchNoEff); | |
9a365626 | 756 | list->Add(fHistCentVsNchVsNclReco); |
fb116385 | 757 | list->Add(fHistRawSignalReco); |
758 | list->Add(fHistEffCorrSignalReco); | |
02d47689 | 759 | list->Add(fHistRecoRCorrVsPtVsCent); |
87efb15c | 760 | } |
761 | ||
762 | void AliAnalysisEtReconstructed::CreateHistograms() | |
f61cec2f | 763 | { // add some extra histograms to the ones from base class |
87efb15c | 764 | AliAnalysisEt::CreateHistograms(); |
3919b0d0 | 765 | if(fMakeQATree){ |
766 | fQATree = new TTree("fQATree", "fQATree"); | |
767 | fQATree->Branch("fClusterMultiplicity", &fClusterMultiplicity, "fClusterMultiplicity/I"); | |
768 | fQATree->Branch("fTrackMultiplicity", &fTrackMultiplicity, "fTrackMultiplicity/I"); | |
769 | fQATree->Branch("fEventID",&fEventID,"fEventID/I"); | |
770 | fQATree->Branch("fCentClass",&fCentClass,"fCentClass/I"); | |
771 | } | |
87efb15c | 772 | |
6fe6205f | 773 | Float_t scale = 1;//scale up histograms if EMCal 2011 so we have the right range |
774 | if(fDataSet==2011 && !fHistogramNameSuffix.Contains("P")){ | |
775 | scale = 2.5; | |
776 | } | |
777 | Int_t nbinsEt = 1000*scale; | |
0fa8c632 | 778 | Double_t minEt = 0; |
6fe6205f | 779 | Double_t maxEt = 10*scale; |
0fa8c632 | 780 | |
781 | // possibly change histogram limits | |
53302bfe | 782 | // if (fCuts) { |
783 | // nbinsEt = fCuts->GetHistNbinsParticleEt(); | |
784 | // minEt = fCuts->GetHistMinParticleEt(); | |
785 | // maxEt = fCuts->GetHistMaxParticleEt(); | |
786 | // } | |
0fa8c632 | 787 | |
87efb15c | 788 | TString histname; |
789 | histname = "fHistChargedPionEnergyDeposit" + fHistogramNameSuffix; | |
0fa8c632 | 790 | fHistChargedPionEnergyDeposit = new TH2F(histname.Data(), "Energy deposited by #pi^{+/-}", nbinsEt, minEt, maxEt, nbinsEt, minEt, maxEt); |
87efb15c | 791 | fHistChargedPionEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); |
792 | fHistChargedPionEnergyDeposit->SetYTitle("Energy of track"); | |
e9da35da | 793 | |
87efb15c | 794 | histname = "fHistProtonEnergyDeposit" + fHistogramNameSuffix; |
0fa8c632 | 795 | fHistProtonEnergyDeposit = new TH2F(histname.Data(), "Energy deposited by protons", nbinsEt, minEt, maxEt, nbinsEt, minEt, maxEt); |
87efb15c | 796 | fHistProtonEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); |
797 | fHistProtonEnergyDeposit->SetYTitle("Energy of track"); | |
e9da35da | 798 | |
87efb15c | 799 | histname = "fHistAntiProtonEnergyDeposit" + fHistogramNameSuffix; |
0fa8c632 | 800 | fHistAntiProtonEnergyDeposit = new TH2F(histname.Data(), "Energy deposited by anti-protons", nbinsEt, minEt, maxEt, nbinsEt, minEt, maxEt); |
87efb15c | 801 | fHistAntiProtonEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); |
802 | fHistAntiProtonEnergyDeposit->SetYTitle("Energy of track"); | |
e9da35da | 803 | |
87efb15c | 804 | histname = "fHistChargedKaonEnergyDeposit" + fHistogramNameSuffix; |
0fa8c632 | 805 | fHistChargedKaonEnergyDeposit = new TH2F(histname.Data(), "Energy deposited by K^{+/-}", nbinsEt, minEt, maxEt, nbinsEt, minEt, maxEt); |
87efb15c | 806 | fHistChargedKaonEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); |
807 | fHistChargedKaonEnergyDeposit->SetYTitle("Energy of track"); | |
e9da35da | 808 | |
87efb15c | 809 | histname = "fHistMuonEnergyDeposit" + fHistogramNameSuffix; |
0fa8c632 | 810 | fHistMuonEnergyDeposit = new TH2F(histname.Data(), "Energy deposited by #mu^{+/-}", nbinsEt, minEt, maxEt, nbinsEt, minEt, maxEt); |
87efb15c | 811 | fHistMuonEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); |
812 | fHistMuonEnergyDeposit->SetYTitle("Energy of track"); | |
e9da35da | 813 | |
814 | histname = "fHistRemovedEnergy" + fHistogramNameSuffix; | |
815 | fHistRemovedEnergy = new TH1F(histname.Data(), histname.Data(), 1000, 0, 20); | |
816 | //fHistMuonEnergyDeposit->SetXTitle("Energy deposited in calorimeter"); | |
817 | //fHistMuonEnergyDeposit->SetYTitle("Energy of track"); | |
818 | ||
43dd5a38 | 819 | histname = "fClusterPositionAccepted" + fHistogramNameSuffix; |
820 | fClusterPositionAccepted = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7); | |
821 | fClusterPositionAccepted->SetXTitle("#phi"); | |
822 | fClusterPositionAccepted->SetYTitle("#eta"); | |
823 | ||
824 | histname = "fClusterPositionAll" + fHistogramNameSuffix; | |
825 | fClusterPositionAll = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7); | |
826 | fClusterPositionAll->SetXTitle("#phi"); | |
827 | fClusterPositionAll->SetYTitle("#eta"); | |
828 | ||
829 | histname = "fClusterPositionAcceptedEnergy" + fHistogramNameSuffix; | |
830 | fClusterPositionAcceptedEnergy = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7); | |
831 | fClusterPositionAcceptedEnergy->SetXTitle("#phi"); | |
832 | fClusterPositionAcceptedEnergy->SetYTitle("#eta"); | |
833 | ||
834 | histname = "fClusterPositionAllEnergy" + fHistogramNameSuffix; | |
835 | fClusterPositionAllEnergy = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7); | |
836 | fClusterPositionAllEnergy->SetXTitle("#phi"); | |
837 | fClusterPositionAllEnergy->SetYTitle("#eta"); | |
ef647350 | 838 | |
53302bfe | 839 | histname = "fClusterEnergy" + fHistogramNameSuffix; |
840 | fClusterEnergy = new TH1F(histname.Data(), histname.Data(), 100, 0, 5); | |
9a365626 | 841 | fClusterEnergy->SetYTitle("Number of clusters"); |
842 | fClusterEnergy->SetXTitle("Energy of cluster"); | |
843 | ||
844 | histname = "fClusterEnergyCent" + fHistogramNameSuffix; | |
845 | fClusterEnergyCent = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5); | |
846 | fClusterEnergyCent->SetXTitle("Energy of cluster"); | |
847 | fClusterEnergyCent->SetYTitle("Centrality Bin"); | |
848 | fClusterEnergyCent->SetZTitle("Number of clusters"); | |
849 | ||
d386205e | 850 | histname = "fClusterEnergyModifiedTrackMatchesCent" + fHistogramNameSuffix; |
851 | fClusterEnergyModifiedTrackMatchesCent = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5); | |
852 | fClusterEnergyModifiedTrackMatchesCent->SetXTitle("Energy of cluster"); | |
853 | fClusterEnergyModifiedTrackMatchesCent->SetYTitle("Centrality Bin"); | |
854 | fClusterEnergyModifiedTrackMatchesCent->SetZTitle("Number of clusters"); | |
855 | ||
9a365626 | 856 | histname = "fClusterEnergyCentMatched" + fHistogramNameSuffix; |
857 | fClusterEnergyCentMatched = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5); | |
858 | fClusterEnergyCentMatched->SetXTitle("Energy of cluster"); | |
859 | fClusterEnergyCentMatched->SetYTitle("Centrality Bin"); | |
860 | fClusterEnergyCentMatched->SetZTitle("Number of Clusters"); | |
861 | ||
862 | histname = "fClusterEnergyCentNotMatched" + fHistogramNameSuffix; | |
863 | fClusterEnergyCentNotMatched = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5); | |
864 | fClusterEnergyCentNotMatched->SetXTitle("Energy of cluster"); | |
865 | fClusterEnergyCentNotMatched->SetYTitle("Centrality Bin"); | |
866 | fClusterEnergyCentNotMatched->SetZTitle("Number of clusters"); | |
53302bfe | 867 | |
868 | histname = "fClusterEt" + fHistogramNameSuffix; | |
869 | fClusterEt = new TH1F(histname.Data(), histname.Data(), 100, 0, 5); | |
870 | fClusterEt->SetXTitle("Number of clusters"); | |
871 | fClusterEt->SetYTitle("E_{T} of cluster"); | |
ef647350 | 872 | |
873 | histname = "fHistChargedEnergyRemoved" + fHistogramNameSuffix; | |
874 | fHistChargedEnergyRemoved = new TH2D(histname.Data(), histname.Data(), 1000, .0, 30, 100, -0.5 , 99.5); | |
875 | ||
876 | histname = "fHistNeutralEnergyRemoved" + fHistogramNameSuffix; | |
877 | fHistNeutralEnergyRemoved = new TH2D(histname.Data(), histname.Data(), 1000, .0, 30, 100, -0.5 , 99.5); | |
878 | ||
879 | histname = "fHistGammaEnergyAdded" + fHistogramNameSuffix; | |
880 | fHistGammaEnergyAdded = new TH2D(histname.Data(), histname.Data(), 1000, .0, 30, 100, -0.5 , 99.5); | |
e9da35da | 881 | |
5881f036 | 882 | fHistMatchedTracksEvspTvsCent = new TH3F("fHistMatchedTracksEvspTvsCent", "fHistMatchedTracksEvspTvsCent",100, 0, 3,100,0,3,20,-0.5,19.5); |
883 | fHistMatchedTracksEvspTvsCentEffCorr = new TH3F("fHistMatchedTracksEvspTvsCentEffCorr", "fHistMatchedTracksEvspTvsCentEffCorr",100, 0, 3,100,0,3,20,-0.5,19.5); | |
884 | fHistMatchedTracksEvspTvsCentEffTMCorr = new TH3F("fHistMatchedTracksEvspTvsCentEffTMCorr", "fHistMatchedTracksEvspTvsCentEffTMCorr",100, 0, 3,100,0,3,20,-0.5,19.5); | |
3af79c0f | 885 | fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr = new TH3F("fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr", "fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr",100, 0, 3,100,0,3,20,-0.5,19.5); |
5881f036 | 886 | fHistMatchedTracksEvspTvsCentEffTMCorr500MeV = new TH3F("fHistMatchedTracksEvspTvsCentEffTMCorr500MeV", "fHistMatchedTracksEvspTvsCentEffTMCorr500MeV",100, 0, 3,100,0,3,20,-0.5,19.5); |
9a365626 | 887 | |
6fe6205f | 888 | float max = 200*scale; |
9a365626 | 889 | if(fHistogramNameSuffix.Contains("P")){max = 100;} |
890 | fHistFoundHadronsvsCent = new TH2F("fHistFoundHadronsvsCent","fHistFoundHadronsvsCent",100,0,max,20,-0.5,19.5); | |
891 | fHistNotFoundHadronsvsCent = new TH2F("fHistNotFoundHadronsvsCent","fHistNotFoundHadronsvsCent",100,0,max,20,-0.5,19.5); | |
892 | fHistFoundHadronsEtvsCent = new TH2F("fHistFoundHadronsEtvsCent","fHistFoundHadronsEtvsCent",100,0,max,20,-0.5,19.5); | |
893 | fHistNotFoundHadronsEtvsCent = new TH2F("fHistNotFoundHadronsEtvsCent","fHistNotFoundHadronsEtvsCent",100,0,max,20,-0.5,19.5); | |
894 | fHistFoundHadronsvsCent500MeV = new TH2F("fHistFoundHadronsvsCent500MeV","fHistFoundHadronsvsCent500MeV",100,0,max,20,-0.5,19.5); | |
895 | fHistNotFoundHadronsvsCent500MeV = new TH2F("fHistNotFoundHadronsvsCent500MeV","fHistNotFoundHadronsvsCent500MeV",100,0,max,20,-0.5,19.5); | |
896 | fHistFoundHadronsEtvsCent500MeV = new TH2F("fHistFoundHadronsEtvsCent500MeV","fHistFoundHadronsEtvsCent500MeV",100,0,max,20,-0.5,19.5); | |
897 | fHistNotFoundHadronsEtvsCent500MeV = new TH2F("fHistNotFoundHadronsEtvsCent500MeV","fHistNotFoundHadronsEtvsCent500MeV",100,0,max,20,-0.5,19.5); | |
5881f036 | 898 | |
6fe6205f | 899 | fHistTotRawEtEffCorr = new TH2F("fHistTotRawEtEffCorr","fHistTotRawEtEffCorr",250,0,250*scale,20,-0.5,19.5); |
900 | fHistTotRawEt = new TH2F("fHistTotRawEt","fHistTotRawEt",250,0,250*scale,20,-0.5,19.5); | |
901 | fHistTotRawEtEffCorr500MeV = new TH2F("fHistTotRawEtEffCorr500MeV","fHistTotRawEtEffCorr500MeV",250,0,250*scale,20,-0.5,19.5); | |
902 | fHistTotAllRawEt = new TH2F("fHistTotAllRawEt","fHistTotAllRawEt",250,0,250*scale,20,-0.5,19.5); | |
903 | fHistTotAllRawEtEffCorr = new TH2F("fHistTotAllRawEtEffCorr","fHistTotAllRawEtEffCorr",250,0,250*scale,20,-0.5,19.5); | |
904 | fHistNClustersPhosVsEmcal = new TH3F("fHistNClustersPhosVsEmcal","fHistNClustersPhosVsEmcal",50,0,50,250*scale,0,250*scale,20,-0.5,19); | |
9a365626 | 905 | fHistClusterSizeVsCent = new TH2F("fHistClusterSizeVsCent","fHistClusterSizeVsCent",10,0.5,10.5,20,-0.5,19.5); |
906 | fHistMatchedClusterSizeVsCent = new TH2F("fHistMatchedClusterSizeVsCent","fHistMatchedClusterSizeVsCent",10,0.5,10.5,20,-0.5,19.5); | |
6fe6205f | 907 | fHistTotAllRawEtVsTotalPt = new TH2F("fHistTotAllRawEtVsTotalPt","fHistTotAllRawEtVsTotalPt",125,0,250*scale,200,0,2000); |
908 | fHistTotAllRawEtVsTotalPtVsCent = new TH3F("fHistTotAllRawEtVsTotalPtVsCent","fHistTotAllRawEtVsTotalPtVsCent",125,0,250*scale,200,0,2000,20,-0.5,19.5); | |
909 | fHistTotMatchedRawEtVsTotalPtVsCent = new TH3F("fHistTotMatchedRawEtVsTotalPtVsCent","fHistTotMatchedRawEtVsTotalPtVsCent",250,0,250*scale,100,0,200,20,-0.5,19.5); | |
d3ce32b8 | 910 | |
6fe6205f | 911 | maxEt = 500*scale; |
d3ce32b8 | 912 | histname = "fHistNominalRawEt" + fHistogramNameSuffix; |
913 | fHistNominalRawEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5); | |
914 | histname = "fHistNominalNonLinHighEt" + fHistogramNameSuffix; | |
915 | fHistNominalNonLinHighEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5); | |
916 | histname = "fHistNominalNonLinLowEt" + fHistogramNameSuffix; | |
917 | fHistNominalNonLinLowEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5); | |
918 | histname = "fHistNominalEffHighEt" + fHistogramNameSuffix; | |
919 | fHistNominalEffHighEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5); | |
920 | histname = "fHistNominalEffLowEt" + fHistogramNameSuffix; | |
921 | fHistNominalEffLowEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5); | |
922 | ||
6fe6205f | 923 | Float_t maxEtRange = 25*scale; |
924 | Float_t maxEtRangeHigh = 125*scale; | |
9a365626 | 925 | Float_t minEtRange = 0; |
926 | Int_t nbinsMult = 100; | |
927 | Float_t maxMult = 3000; | |
928 | Float_t minMult = 0; | |
6fe6205f | 929 | Int_t nbinsCl = 250*scale; |
930 | Float_t maxCl = 500*scale; | |
9a365626 | 931 | Float_t minCl = 0; |
932 | fHistPIDProtonsTrackMatchedDepositedVsNch = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNch","PID'd protons deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult); | |
933 | fHistPIDAntiProtonsTrackMatchedDepositedVsNch = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNch","PID'd #bar{p} E_{T} deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult); | |
0fcbed20 | 934 | fHistPIDProtonsTrackMatchedDepositedVsNcl = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNcl","PID'd protons deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl); |
935 | fHistPIDAntiProtonsTrackMatchedDepositedVsNcl = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNcl","PID'd #bar{p} E_{T} deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl); | |
9a365626 | 936 | fHistPiKPTrackMatchedDepositedVsNch = new TH2F("fHistPiKPTrackMatchedDepositedVsNch","PiKP track matched",nbinsEt,minEtRange,maxEtRangeHigh,nbinsMult,minMult,maxMult); |
fb116385 | 937 | |
938 | fHistPIDProtonsTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNchNoEff","PID'd protons deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult); | |
939 | fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff","PID'd #bar{p} E_{T} deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult); | |
940 | fHistPIDProtonsTrackMatchedDepositedVsNclNoEff = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNclNoEff","PID'd protons deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl); | |
941 | fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff","PID'd #bar{p} E_{T} deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl); | |
942 | fHistPiKPTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPiKPTrackMatchedDepositedVsNchNoEff","PiKP track matched",nbinsEt,minEtRange,maxEtRangeHigh,nbinsMult,minMult,maxMult); | |
943 | ||
944 | ||
9a365626 | 945 | fHistCentVsNchVsNclReco = new TH3F("fHistCentVsNchVsNclReco","Cent bin vs Nch Vs NCl",20,-0.5,19.5,nbinsMult,minMult,maxMult,nbinsCl,minCl,maxCl); |
fb116385 | 946 | |
947 | fHistRawSignalReco = new TH1F("fHistRawSignalReco","fHistRawSignalReco",20,-0.5,19.5); | |
948 | fHistEffCorrSignalReco = new TH1F("fHistEffCorrSignalReco","fHistEffCorrSignalReco",20,-0.5,19.5); | |
02d47689 | 949 | fHistRecoRCorrVsPtVsCent = new TH3F("fHistRecoRCorrVsPtVsCent","fHistRecoRCorrVsPtVsCent",72,0,2,50,0,10,20,-0.5,19.5); |
fb116385 | 950 | |
d3ce32b8 | 951 | } |
5881f036 | 952 | Double_t AliAnalysisEtReconstructed::ApplyModifiedCorrections(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t cent) |
d3ce32b8 | 953 | { |
954 | Float_t pos[3]; | |
955 | cluster.GetPosition(pos); | |
956 | TVector3 cp(pos); | |
5881f036 | 957 | Double_t corrEnergy = fReCorrections->CorrectedEnergy(cluster.E(),cent); |
d3ce32b8 | 958 | |
5881f036 | 959 | Double_t factorNonLin = GetCorrectionModification(cluster, nonLinCorr,effCorr,cent); |
d3ce32b8 | 960 | |
43dd5a38 | 961 | cout<<"Warning: This function should not get called!"<<endl; |
d3ce32b8 | 962 | //std::cout << "Original energy: " << cluster.E() << ", corrected energy: " << corrEnergy << std::endl; |
963 | return TMath::Sin(cp.Theta())*corrEnergy*factorNonLin; | |
964 | } | |
87efb15c | 965 | |
5881f036 | 966 | Double_t AliAnalysisEtReconstructed::GetCorrectionModification(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t cent){//nonLinCorr 0 = nominal 1 = high -1 = low, effCorr 0 = nominal 1 = high -1 = low |
d3ce32b8 | 967 | if(nonLinCorr==0){ |
968 | cout<<"Warning: This function should not get called!"<<endl;//this statement is basically here to avoid a compilation warning | |
969 | } | |
970 | if(effCorr==0){ | |
971 | cout<<"Warning: This function should not get called!"<<endl;//this statement is basically here to avoid a compilation warning | |
972 | } | |
5881f036 | 973 | return cluster.E()*cent; |
2aab9269 | 974 | } |