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1c5acb87 1#ifndef ALICALOTRACKREADER_H
2#define ALICALOTRACKREADER_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
1c5acb87 5
6//_________________________________________________________________________
7// Base class for reading data: MonteCarlo, ESD or AOD, of PHOS EMCAL and
8// Central Barrel Tracking detectors.
9// Not all MC particles/tracks/clusters are kept, some kinematical restrictions are done.
591cc579 10// Mother class of : AliCaloTrackESDReader: Fills ESD data in 3 TObjArrays (PHOS, EMCAL, CTS)
743aa53a 11// : AliCaloTrackMCReader : Fills Kinematics data in 3 TObjArrays (PHOS, EMCAL, CTS)
12// : AliCaloTrackAODReader: Fills AOD data in 3 TObjArrays (PHOS, EMCAL, CTS)
1c5acb87 13// -- Author: Gustavo Conesa (INFN-LNF)
743aa53a 14//////////////////////////////////////////////////////////////////////////////
1c5acb87 15
16// --- ROOT system ---
49b53920 17#include <TObject.h>
18#include <TString.h>
cfaba834 19class TObjArray ;
591cc579 20class TTree ;
f3138ecf 21class TArrayI ;
1c5acb87 22
23//--- ANALYSIS system ---
0de1814a 24#include "AliVEvent.h"
c5693f62 25class AliVCaloCells;
26class AliStack;
27class AliHeader;
28class AliGenEventHeader;
8dacfd76 29class AliAODEvent;
477d6cee 30class AliMCEvent;
c8fe2783 31class AliMixedEvent;
591cc579 32class AliAODMCHeader;
c5693f62 33class AliESDtrackCuts;
b6dd6ad2 34class AliCentrality;
48c37e02 35class AliTriggerAnalysis;
72542aba 36class AliEventplane;
f3138ecf 37class AliVCluster;
1c5acb87 38
0de1814a 39// --- CaloTrackCorr / EMCAL ---
cfaba834 40#include "AliFiducialCut.h"
0de1814a 41class AliEMCALRecoUtils;
c5693f62 42class AliCalorimeterUtils;
cfaba834 43
1c5acb87 44class AliCaloTrackReader : public TObject {
45
03190ad7 46public:
f3138ecf 47
48 AliCaloTrackReader() ; // ctor
49 virtual ~AliCaloTrackReader() ; // virtual dtor
cfaba834 50
51 //--------------------------------
52 // General methods
53 //--------------------------------
54
55 virtual void Init();
de0b770d 56
cfaba834 57 virtual void InitParameters();
de0b770d 58
cfaba834 59 virtual void Print(const Option_t * opt) const;
de0b770d 60
cfaba834 61 virtual void ResetLists();
1c5acb87 62
3c75ddf7 63 virtual Int_t GetDebug() const { return fDebug ; }
64 virtual void SetDebug(Int_t d) { fDebug = d ; }
cfaba834 65
66 enum inputDataType {kESD, kAOD, kMC};
3c75ddf7 67 virtual Int_t GetDataType() const { return fDataType ; }
68 virtual void SetDataType(Int_t data ) { fDataType = data ; }
1c5acb87 69
3c75ddf7 70 virtual Int_t GetEventNumber() const { return fEventNumber ; }
a79a2424 71
3c75ddf7 72 TString GetTaskName() const { return fTaskName ; }
73 void SetTaskName(TString name) { fTaskName = name ; }
cfaba834 74
cfaba834 75 //---------------------------------------
914b9fe7 76 // Input/output event setters and getters
cfaba834 77 //---------------------------------------
914b9fe7 78
cfaba834 79 virtual void SetInputEvent(AliVEvent* const input) ;
3c75ddf7 80 virtual void SetOutputEvent(AliAODEvent* const aod) { fOutputEvent = aod ; }
81 virtual void SetMC(AliMCEvent* const mc) { fMC = mc ; }
be518ab0 82 virtual void SetInputOutputMCEvent(AliVEvent* /*esd*/, AliAODEvent* /*aod*/, AliMCEvent* /*mc*/) { ; }
cfaba834 83
84 // Delta AODs
914b9fe7 85
3c75ddf7 86 virtual TList * GetAODBranchList() const { return fAODBranchList ; }
87 void SetDeltaAODFileName(TString name ) { fDeltaAODFileName = name ; }
88 TString GetDeltaAODFileName() const { return fDeltaAODFileName ; }
89 void SwitchOnWriteDeltaAOD() { fWriteOutputDeltaAOD = kTRUE ; }
90 void SwitchOffWriteDeltaAOD() { fWriteOutputDeltaAOD = kFALSE ; }
91 Bool_t WriteDeltaAODToFile() const { return fWriteOutputDeltaAOD ; }
cfaba834 92
93 //------------------------------------------------------------
914b9fe7 94 // Clusters/Tracks arrays filtering/filling methods and switchs
cfaba834 95 //------------------------------------------------------------
96
914b9fe7 97 // Minimum pt setters and getters
98
3c75ddf7 99 Float_t GetEMCALPtMin() const { return fEMCALPtMin ; }
100 Float_t GetPHOSPtMin() const { return fPHOSPtMin ; }
101 Float_t GetCTSPtMin() const { return fCTSPtMin ; }
102 Float_t GetEMCALPtMax() const { return fEMCALPtMax ; }
103 Float_t GetPHOSPtMax() const { return fPHOSPtMax ; }
104 Float_t GetCTSPtMax() const { return fCTSPtMax ; }
a5fb4114 105
3c75ddf7 106 void SetEMCALPtMin(Float_t pt) { fEMCALPtMin = pt ; }
107 void SetPHOSPtMin (Float_t pt) { fPHOSPtMin = pt ; }
108 void SetCTSPtMin (Float_t pt) { fCTSPtMin = pt ; }
a5fb4114 109
3c75ddf7 110 void SetEMCALPtMax(Float_t pt) { fEMCALPtMax = pt ; }
111 void SetPHOSPtMax (Float_t pt) { fPHOSPtMax = pt ; }
112 void SetCTSPtMax (Float_t pt) { fCTSPtMax = pt ; }
a5fb4114 113
3c75ddf7 114 Float_t GetEMCALEMin() const { return GetEMCALPtMin() ; }
115 Float_t GetPHOSEMin() const { return GetPHOSPtMin() ; }
116 Float_t GetEMCALEMax() const { return GetEMCALPtMax() ; }
117 Float_t GetPHOSEMax() const { return GetPHOSPtMax() ; }
cfaba834 118
3c75ddf7 119 void SetEMCALEMin (Float_t e) { SetEMCALPtMin(e) ; }
120 void SetPHOSEMin (Float_t e) { SetPHOSPtMin (e) ; }
121 void SetEMCALEMax (Float_t e) { SetEMCALPtMax(e) ; }
122 void SetPHOSEMax (Float_t e) { SetPHOSPtMax (e) ; }
cfaba834 123
cc944149 124 // Track DCA cut
914b9fe7 125
cc944149 126 Bool_t AcceptDCA(const Float_t pt, const Float_t dca);
689d9f15 127 Double_t GetTrackDCACut(Int_t i) const { if(i >= 0 && i < 3 ) return fTrackDCACut[i] ;
128 else return -999 ; }
129
130 void SetTrackDCACut(Int_t i, Float_t cut) { if(i >= 0 && i < 3 )
131 fTrackDCACut[i] = cut ; }
132
133 void SwitchOnUseTrackDCACut() { fUseTrackDCACut = kTRUE ; }
134 void SwitchOffUseTrackDCACut() { fUseTrackDCACut = kFALSE ; }
cc944149 135 Bool_t IsDCACutOn() const { return fUseTrackDCACut ; }
689d9f15 136
914b9fe7 137 // Time cut
ff440946 138
975b29fa 139 Double_t GetTrackTimeCutMin() const { return fTrackTimeCutMin ; }
140 Double_t GetTrackTimeCutMax() const { return fTrackTimeCutMax ; }
141
975b29fa 142 void SetTrackTimeCut(Double_t a, Double_t b) { fTrackTimeCutMin = a ;
143 fTrackTimeCutMax = b ; } // ns
144
4b7f6e01 145 void SwitchOnUseTrackTimeCut() { fUseTrackTimeCut = kTRUE ; }
146 void SwitchOffUseTrackTimeCut() { fUseTrackTimeCut = kFALSE ; }
147
ff440946 148 Double_t GetEMCALTimeCutMin() const { return fEMCALTimeCutMin ; }
149 Double_t GetEMCALTimeCutMax() const { return fEMCALTimeCutMax ; }
d2655d46 150
3c1a2e95 151 Bool_t IsInTimeWindow(const Double_t tof, const Float_t energy) const ;
152
ff440946 153 void SetEMCALTimeCut(Double_t a, Double_t b) { fEMCALTimeCutMin = a ;
d2655d46 154 fEMCALTimeCutMax = b ; } // ns
ff440946 155
156 void SetEMCALParametrizedMinTimeCut(Int_t i, Float_t par) { fEMCALParamTimeCutMin[i] = par ; }
157 void SetEMCALParametrizedMaxTimeCut(Int_t i, Float_t par) { fEMCALParamTimeCutMax[i] = par ; }
158
4b7f6e01 159 void SwitchOnUseEMCALTimeCut() { fUseEMCALTimeCut = kTRUE ; }
160 void SwitchOffUseEMCALTimeCut() { fUseEMCALTimeCut = kFALSE ; }
161
ff440946 162 void SwitchOnUseParametrizedTimeCut() { fUseParamTimeCut = kTRUE ; }
163 void SwitchOffUseParametrizedTimeCut() { fUseParamTimeCut = kFALSE ; }
164
914b9fe7 165 // Fidutial cuts
166
a5fb4114 167 virtual AliFiducialCut * GetFiducialCut() {
168 if(!fFiducialCut) fFiducialCut = new AliFiducialCut();
3c75ddf7 169 return fFiducialCut ; }
170 virtual void SetFiducialCut(AliFiducialCut * const fc) { fFiducialCut = fc ; }
171 virtual Bool_t IsFiducialCutOn() const { return fCheckFidCut ; }
172 virtual void SwitchOnFiducialCut() { fCheckFidCut = kTRUE ;
173 fFiducialCut = new AliFiducialCut() ; }
174 virtual void SwitchOffFiducialCut() { fCheckFidCut = kFALSE ; }
1c5acb87 175
cfaba834 176 // Cluster origin
914b9fe7 177
a5fb4114 178 Bool_t IsEMCALCluster(AliVCluster *clus) const;
179 Bool_t IsPHOSCluster (AliVCluster *clus) const;
914b9fe7 180
181 // Patch for cluster origin for Old AODs implementation
182
3c75ddf7 183 void SwitchOnOldAODs() { fOldAOD = kTRUE ; }
184 void SwitchOffOldAODs() { fOldAOD = kFALSE ; }
f37fa8d2 185
cfaba834 186 // Cluster/track/cells switchs
914b9fe7 187
3c75ddf7 188 Bool_t IsCTSSwitchedOn() const { return fFillCTS ; }
189 void SwitchOnCTS() { fFillCTS = kTRUE ; }
190 void SwitchOffCTS() { fFillCTS = kFALSE ; }
1c5acb87 191
3c75ddf7 192 Bool_t IsEMCALSwitchedOn() const { return fFillEMCAL ; }
193 void SwitchOnEMCAL() { fFillEMCAL = kTRUE ; }
194 void SwitchOffEMCAL() { fFillEMCAL = kFALSE ; }
1c5acb87 195
3c75ddf7 196 Bool_t IsPHOSSwitchedOn() const { return fFillPHOS ; }
197 void SwitchOnPHOS() { fFillPHOS = kTRUE ; }
198 void SwitchOffPHOS() { fFillPHOS = kFALSE ; }
1c5acb87 199
3c75ddf7 200 Bool_t IsEMCALCellsSwitchedOn() const { return fFillEMCALCells ; }
201 void SwitchOnEMCALCells() { fFillEMCALCells = kTRUE ; }
202 void SwitchOffEMCALCells() { fFillEMCALCells = kFALSE ; }
1c5acb87 203
3c75ddf7 204 Bool_t IsPHOSCellsSwitchedOn() const { return fFillPHOSCells ; }
205 void SwitchOnPHOSCells() { fFillPHOSCells = kTRUE ; }
206 void SwitchOffPHOSCells() { fFillPHOSCells = kFALSE ; }
1c5acb87 207
3bfc4732 208 Bool_t AreClustersRecalculated() const { return fRecalculateClusters ; }
209 void SwitchOnClusterRecalculation() { fRecalculateClusters = kTRUE ; }
210 void SwitchOffClusterRecalculation() { fRecalculateClusters = kFALSE ; }
211
3c75ddf7 212 Bool_t IsEmbeddedClusterSelectionOn() const { return fSelectEmbeddedClusters ; }
213 void SwitchOnEmbeddedClustersSelection() { fSelectEmbeddedClusters = kTRUE ; }
214 void SwitchOffEmbeddedClustersSelection() { fSelectEmbeddedClusters = kFALSE ; }
6060ed91 215
be518ab0 216 // Filling/ filtering / detector information access methods
914b9fe7 217
a5fb4114 218 virtual Bool_t FillInputEvent(const Int_t iEntry, const char *currentFileName) ;
219 virtual void FillInputCTS() ;
220 virtual void FillInputEMCAL() ;
221 virtual void FillInputEMCALAlgorithm(AliVCluster * clus, const Int_t iclus) ;
222 virtual void FillInputPHOS() ;
223 virtual void FillInputEMCALCells() ;
224 virtual void FillInputPHOSCells() ;
225 virtual void FillInputVZERO() ;
226
21812953 227 Int_t GetV0Signal(Int_t i) const { return fV0ADC[i] ; }
228 Int_t GetV0Multiplicity(Int_t i) const { return fV0Mul[i] ; }
a5fb4114 229
21812953 230 void SetEMCALClusterListName(TString &name) { fEMCALClustersListName = name ; }
231 TString GetEMCALClusterListName() const { return fEMCALClustersListName ; }
cfaba834 232
914b9fe7 233 // Arrays with clusters/track/cells access method
234
21812953 235 virtual TObjArray* GetCTSTracks() const { return fCTSTracks ; }
236 virtual TObjArray* GetEMCALClusters() const { return fEMCALClusters ; }
237 virtual TObjArray* GetPHOSClusters() const { return fPHOSClusters ; }
238 virtual AliVCaloCells* GetEMCALCells() const { return fEMCALCells ; }
239 virtual AliVCaloCells* GetPHOSCells() const { return fPHOSCells ; }
997b261e 240
cfaba834 241 //-------------------------------------
242 // Event/track selection methods
243 //-------------------------------------
244
cd2e4ce6 245 void AcceptFastClusterEvents() { fAcceptFastCluster = kTRUE ; }
246 void RejectFastClusterEvents() { fAcceptFastCluster = kFALSE ; }
c5693f62 247 Bool_t IsFastClusterAccepted() const { return fAcceptFastCluster ; }
cd2e4ce6 248
249 void SwitchOnLEDEventsRemoval() { fRemoveLEDEvents = kTRUE ; }
afb3af8a 250 void SwitchOffLEDEventsRemoval() { fRemoveLEDEvents = kFALSE ; }
c5693f62 251 Bool_t IsLEDEventRemoved() const { return fRemoveLEDEvents ; }
a529ae05 252 Bool_t RejectLEDEvents();
253
a5fb4114 254 void SetFiredTriggerClassName(TString name ) { fFiredTriggerClassName = name ; }
255 TString GetFiredTriggerClassName() const { return fFiredTriggerClassName ; }
997b261e 256 TString GetFiredTriggerClasses() const { return GetInputEvent()->GetFiredTriggerClasses() ; }
cfaba834 257
21812953 258 UInt_t GetEventTriggerMask() const { return fEventTriggerMask ; }
d9bea110 259 void SetEventTriggerMask(UInt_t evtTrig = AliVEvent::kAny)
029dea5a 260 { fEventTriggerMask = evtTrig ; }
d9bea110 261 Bool_t IsEventTriggerAtSEOn() const { return fEventTriggerAtSE ; }
262 void SwitchOnEventTriggerAtSE() { fEventTriggerAtSE = kTRUE ; }
263 void SwitchOffEventTriggerAtSE() { fEventTriggerAtSE = kFALSE ; }
264
265
85c4406e 266 TArrayI GetTriggerPatches(Int_t tmin, Int_t tmax);
afb3af8a 267 void MatchTriggerCluster(TArrayI patches);
268
269 Bool_t IsExoticEvent() { return fIsExoticEvent ; }
270 Bool_t IsBadCellTriggerEvent() { return fIsBadCellEvent ; }
1035a8d9 271 Bool_t IsBadMaxCellTriggerEvent() { return fIsBadMaxCellEvent ; }
afb3af8a 272 Bool_t IsTriggerMatched() { return fIsTriggerMatch ; }
85c4406e 273 Bool_t IsTriggerMatchedOpenCuts(Int_t i) { return fIsTriggerMatchOpenCut[i]; }
274
afb3af8a 275 Int_t GetTriggerClusterBC() { return fTriggerClusterBC ; }
276 Int_t GetTriggerClusterIndex() { return fTriggerClusterIndex ; }
277 Int_t GetTriggerClusterId() { return fTriggerClusterId ; }
a529ae05 278
afb3af8a 279 Float_t GetEventTriggerThreshold() { return fTriggerEventThreshold ; }
280 void SetEventTriggerThreshold(Float_t tr) { fTriggerEventThreshold = tr ; }
9bf1c947 281
282 void SetTriggerPatchTimeWindow(Int_t min, Int_t max) { fTriggerPatchTimeWindow[0] = min ;
283 fTriggerPatchTimeWindow[1] = max ; }
284
afb3af8a 285 void SwitchOffBadTriggerEventsRemoval() { fRemoveBadTriggerEvents = kFALSE ; }
286 void SwitchOnBadTriggerEventsRemoval() { fRemoveBadTriggerEvents = kTRUE ; }
287
288 void SwitchOffTriggerPatchMatching() { fTriggerPatchClusterMatch = kFALSE ; }
289 void SwitchOnTriggerPatchMatching() { fTriggerPatchClusterMatch = kTRUE ; }
290
790dea42 291 UInt_t GetMixEventTriggerMask() const { return fMixEventTriggerMask ; }
3c72fae2 292 void SetMixEventTriggerMask(UInt_t evtTrig = AliVEvent::kAnyINT)
790dea42 293 { fMixEventTriggerMask = evtTrig ; }
d9bea110 294 void SetEventTriggerBit();
295 Bool_t IsEventMinimumBias() const { return fEventTrigMinBias ; }
296 Bool_t IsEventCentral() const { return fEventTrigCentral ; }
297 Bool_t IsEventSemiCentral() const { return fEventTrigSemiCentral ; }
298 Bool_t IsEventEMCALL0() const { return fEventTrigEMCALL0 ; }
299 Bool_t IsEventEMCALL1Gamma1() const { return fEventTrigEMCALL1Gamma1 ; }
300 Bool_t IsEventEMCALL1Gamma2() const { return fEventTrigEMCALL1Gamma2 ; }
301 Bool_t IsEventEMCALL1Jet1() const { return fEventTrigEMCALL1Jet1 ; }
302 Bool_t IsEventEMCALL1Jet2() const { return fEventTrigEMCALL1Jet2 ; }
303 Bool_t IsEventEMCALL1Gamma() const { return (fEventTrigEMCALL1Gamma1 || fEventTrigEMCALL1Gamma2) ; }
304 Bool_t IsEventEMCALL1Jet() const { return (fEventTrigEMCALL1Jet1 || fEventTrigEMCALL1Jet2 ) ; }
305 Bool_t IsEventEMCALL1() const { return (IsEventEMCALL1Gamma() || IsEventEMCALL1Jet() ) ; }
306
307
cd2e4ce6 308 void SwitchOnEventSelection() { fDoEventSelection = kTRUE ; }
309 void SwitchOffEventSelection() { fDoEventSelection = kFALSE ; }
cc944149 310 Bool_t IsEventSelectionDone() const { return fDoEventSelection ; }
cfaba834 311
a5fb4114 312 void SwitchOnV0ANDSelection() { fDoV0ANDEventSelection = kTRUE ; }
313 void SwitchOffV0ANDSelection() { fDoV0ANDEventSelection = kFALSE ; }
314 Bool_t IsV0ANDEventSelectionDone() const { return fDoV0ANDEventSelection ; }
20218aea 315
cc944149 316 void SwitchOnVertexBCEventSelection() { fDoVertexBCEventSelection = kTRUE ; }
317 void SwitchOffVertexBCEventSelection() { fDoVertexBCEventSelection = kFALSE ; }
318 Bool_t IsVertexBCEventSelectionDone() const { return fDoVertexBCEventSelection ; }
319
a5fb4114 320 void SwitchOnPrimaryVertexSelection() { fUseEventsWithPrimaryVertex = kTRUE ; }
321 void SwitchOffPrimaryVertexSelection() { fUseEventsWithPrimaryVertex = kFALSE ; }
322 Bool_t IsPrimaryVertexSelectionDone() const { return fUseEventsWithPrimaryVertex ; }
20218aea 323
2644ead9 324 void SwitchOnRejectNoTrackEvents() { fDoRejectNoTrackEvents = kTRUE ; }
325 void SwitchOffRejectNoTrackEvents() { fDoRejectNoTrackEvents = kFALSE ; }
326 Bool_t IsEventWithNoTrackRejectionDone() const { return fDoRejectNoTrackEvents ; }
327
d9bea110 328
914b9fe7 329 // Time Stamp
034e885b 330
b370e713 331 Double_t GetRunTimeStampMin() const { return fTimeStampRunMin ; }
332 Double_t GetRunTimeStampMax() const { return fTimeStampRunMax ; }
034e885b 333
b370e713 334 void SetRunTimeStamp(Double_t a, Double_t b) { fTimeStampRunMin = a ;
034e885b 335 fTimeStampRunMax = b ; } // seconds
336
337 Float_t GetEventTimeStampFractionMin() const { return fTimeStampEventFracMin ; }
338 Float_t GetEventTimeStampFractionMax() const { return fTimeStampEventFracMax ; }
339
340 void SetEventTimeStampFraction(Float_t a, Float_t b) { fTimeStampEventFracMin = a ;
341 fTimeStampEventFracMax = b ; }
342
343 void SwitchOnSelectEventTimeStamp() { fTimeStampEventSelect = kTRUE ; }
344 void SwitchOffSelectEventTimeStamp() { fTimeStampEventSelect = kFALSE ; }
345
b8d661af 346 Bool_t IsSelectEventTimeStampOn() {return fTimeStampEventSelect ; }
034e885b 347
3c1a2e95 348 Bool_t IsPileUpFromSPD() const ;
349 Bool_t IsPileUpFromEMCal() const ;
350 Bool_t IsPileUpFromSPDAndEMCal() const ;
351 Bool_t IsPileUpFromSPDOrEMCal() const ;
352 Bool_t IsPileUpFromSPDAndNotEMCal() const ;
353 Bool_t IsPileUpFromEMCalAndNotSPD() const ;
354 Bool_t IsPileUpFromNotSPDAndNotEMCal() const ;
355
356 void SetPileUpParamForSPD (Int_t i, Double_t param)
f5500c7a 357 { fPileUpParamSPD[i] = param ; }
358 void SetPileUpParamForEMCal(Int_t param) { fNPileUpClustersCut = param ; }
4b75cb39 359
f5500c7a 360 Int_t GetNPileUpClusters() { return fNPileUpClusters ; }
361 Int_t GetNNonPileUpClusters() { return fNNonPileUpClusters ; }
975b29fa 362
363 Int_t GetEMCalEventBC(Int_t bc) const { if(bc >=0 && bc < 19) return fEMCalBCEvent [bc] ; else return 0 ; }
364 Int_t GetTrackEventBC(Int_t bc) const { if(bc >=0 && bc < 19) return fTrackBCEvent [bc] ; else return 0 ; }
365 Int_t GetEMCalEventBCcut(Int_t bc) const { if(bc >=0 && bc < 19) return fEMCalBCEventCut[bc] ; else return 0 ; }
366 Int_t GetTrackEventBCcut(Int_t bc) const { if(bc >=0 && bc < 19) return fTrackBCEventCut[bc] ; else return 0 ; }
367
368 void SetEMCalEventBC(Int_t bc) { if(bc >=0 && bc < 19) fEMCalBCEvent [bc] = 1 ; }
369 void SetTrackEventBC(Int_t bc) { if(bc >=0 && bc < 19) fTrackBCEvent [bc] = 1 ; }
370 void SetEMCalEventBCcut(Int_t bc) { if(bc >=0 && bc < 19) fEMCalBCEventCut[bc] = 1 ; }
371 void SetTrackEventBCcut(Int_t bc) { if(bc >=0 && bc < 19) fTrackBCEventCut[bc] = 1 ; }
3c1a2e95 372
c2a62a94 373 Int_t GetVertexBC(const AliVVertex * vtx);
374 Int_t GetVertexBC() const { return fVertexBC ; }
375 void SwitchOnRecalculateVertexBC() { fRecalculateVertexBC = kTRUE ; }
376 void SwitchOffRecalculateVertexBC() { fRecalculateVertexBC = kFALSE ; }
975b29fa 377
3a58eee6 378 // Track selection
914b9fe7 379
f5500c7a 380 ULong_t GetTrackStatus() const { return fTrackStatus ; }
381 void SetTrackStatus(ULong_t bit) { fTrackStatus = bit ; }
a5fb4114 382
f5500c7a 383 ULong_t GetTrackFilterMask() const {return fTrackFilterMask ; }
384 void SetTrackFilterMask(ULong_t bit) { fTrackFilterMask = bit ; }
3a58eee6 385
f5500c7a 386 AliESDtrackCuts* GetTrackCuts() const { return fESDtrackCuts ; }
c5693f62 387 void SetTrackCuts(AliESDtrackCuts * cuts) ;
21812953 388
d7601185 389 AliESDtrackCuts* GetTrackComplementaryCuts() const { return fESDtrackComplementaryCuts ; }
390 void SetTrackComplementaryCuts(AliESDtrackCuts * cuts) ;
391
392
f5500c7a 393 void SwitchOnConstrainTrackToVertex() { fConstrainTrack = kTRUE ; }
d7601185 394 void SwitchOffConstrainTrackToVertex() { fConstrainTrack = kFALSE ; }
a9b8c1d0 395
21812953 396 void SwitchOnAODHybridTrackSelection() { fSelectHybridTracks = kTRUE ; }
397 void SwitchOffAODHybridTrackSelection() { fSelectHybridTracks = kFALSE ; }
c5693f62 398
f5500c7a 399 void SwitchOnTrackHitSPDSelection() { fSelectSPDHitTracks = kTRUE ; }
400 void SwitchOffTrackHitSPDSelection() { fSelectSPDHitTracks = kFALSE ; }
401
402 Int_t GetTrackMultiplicity() const { return fTrackMult ; }
403 Float_t GetTrackMultiplicityEtaCut() const { return fTrackMultEtaCut ; }
404 void SetTrackMultiplicityEtaCut(Float_t eta) { fTrackMultEtaCut = eta ; }
c8fe2783 405
a5fb4114 406 // Calorimeter specific and patches
f5500c7a 407 void AnalyzeOnlyLED() { fAnaLED = kTRUE ; }
408 void AnalyzeOnlyPhysics() { fAnaLED = kFALSE ; }
a5fb4114 409
cfaba834 410 //-------------------------------
914b9fe7 411 // Vertex methods
cfaba834 412 //-------------------------------
914b9fe7 413
a5fb4114 414 virtual void GetVertex(Double_t v[3]) const ;
415 virtual Double_t* GetVertex(const Int_t evtIndex) const { return fVertex[evtIndex] ; }
416 virtual void GetVertex(Double_t vertex[3], const Int_t evtIndex) const ;
cfaba834 417 virtual void FillVertexArray();
418 virtual Bool_t CheckForPrimaryVertex();
a5fb4114 419 virtual Float_t GetZvertexCut() const { return fZvtxCut ; } //cut on vertex position
420 virtual void SetZvertexCut(Float_t zcut=10.) { fZvtxCut=zcut ; } //cut on vertex position
0b13c1f9 421
05d0d05d 422 //--------------------------
72542aba 423 // Centrality / Event Plane
05d0d05d 424 //--------------------------
914b9fe7 425
426 virtual AliCentrality* GetCentrality() const { if(fDataType!=kMC) return fInputEvent->GetCentrality() ;
ee893147 427 else return 0x0 ; }
a5fb4114 428 virtual void SetCentralityClass(TString name) { fCentralityClass = name ; }
429 virtual void SetCentralityOpt(Int_t opt) { fCentralityOpt = opt ; }
430 virtual TString GetCentralityClass() const { return fCentralityClass ; }
431 virtual Int_t GetCentralityOpt() const { return fCentralityOpt ; }
432 virtual Int_t GetEventCentrality() const ;
433 virtual void SetCentralityBin(Int_t min, Int_t max) //Set the centrality bin to select the event. If used, then need to get percentile
434 { fCentralityBin[0]=min; fCentralityBin[1]=max;
435 if(min>=0 && max > 0) fCentralityOpt = 100 ; }
436 virtual Float_t GetCentralityBin(Int_t i) const { if(i < 0 || i > 1) return 0 ;
437 else return fCentralityBin[i] ; }
438
ee893147 439 virtual AliEventplane* GetEventPlane() const { if(fDataType!=kMC) return fInputEvent->GetEventplane() ;
440 else return 0x0 ; }
9929c80b 441 virtual Double_t GetEventPlaneAngle() const ;
3c75ddf7 442 virtual void SetEventPlaneMethod(TString m) { fEventPlaneMethod = m ; }
443 virtual TString GetEventPlaneMethod() const { return fEventPlaneMethod ; }
72542aba 444
39364a52 445 //--------------------
446 // Mixing
447 //--------------------
448
d783becb 449 Int_t GetLastCaloMixedEvent() const { return fLastMixedCaloEvent ; }
39364a52 450 Int_t GetLastTracksMixedEvent () const { return fLastMixedTracksEvent ; }
451
50551817 452 TList * GetListWithMixedEventsForCalo (Int_t bi) const { if(fListMixedCaloEvents) return fListMixedCaloEvents[bi] ; else return 0 ; }
453 TList * GetListWithMixedEventsForTracks(Int_t bi) const { if(fListMixedTracksEvents) return fListMixedTracksEvents [bi] ; else return 0 ; }
39364a52 454
d783becb 455 Bool_t ListWithMixedEventsForCaloExists() const { if(fListMixedCaloEvents) return kTRUE ;
456 else return kFALSE ; }
39364a52 457
d783becb 458 Bool_t ListWithMixedEventsForTracksExists() const { if(fListMixedTracksEvents) return kTRUE ;
459 else return kFALSE ; }
39364a52 460
d783becb 461 void SetLastCaloMixedEvent (Int_t e) { fLastMixedCaloEvent = e ; }
462 void SetLastTracksMixedEvent(Int_t e) { fLastMixedTracksEvent = e ; }
39364a52 463
d783becb 464 void SetListWithMixedEventsForCalo (TList ** l) {
465 if(fListMixedCaloEvents) printf("AliCaloTrackReader::SetListWithMixedEventsForCalo() - Track Mixing event list already set, nothing done\n");
466 else fListMixedCaloEvents = l ; }
39364a52 467
d783becb 468 void SetListWithMixedEventsForTracks(TList ** l) {
469 if(fListMixedTracksEvents) printf("AliCaloTrackReader::SetListWithMixedEventsForTracks() - Calorimeter Mixing event list already set, nothing done\n");
39364a52 470 else fListMixedTracksEvents = l ; }
471
cfaba834 472 //-------------------------------------
473 // Other methods
474 //-------------------------------------
914b9fe7 475
3c75ddf7 476 AliCalorimeterUtils * GetCaloUtils() const { return fCaloUtils ; }
477 void SetCaloUtils(AliCalorimeterUtils * caloutils) { fCaloUtils = caloutils ; }
48c37e02 478
a5fb4114 479 virtual Double_t GetBField() const { return fInputEvent->GetMagneticField() ; }
cfaba834 480
de0b770d 481 void SetImportGeometryFromFile(Bool_t import,
55d66f31 482 TString path = "") {
de0b770d 483 fImportGeometryFromFile = import ;
914b9fe7 484 fImportGeometryFilePath = path ; }
de0b770d 485
cfaba834 486 //------------------------------------------------
487 // MC analysis specific methods
488 //-------------------------------------------------
489
914b9fe7 490 // Kinematics and galice.root available
491
a5fb4114 492 virtual AliStack* GetStack() const ;
493 virtual AliHeader* GetHeader() const ;
494 virtual AliGenEventHeader* GetGenEventHeader() const ;
cfaba834 495
914b9fe7 496 // Filtered kinematics in AOD
497
2644ead9 498 virtual TClonesArray* GetAODMCParticles() const ;
499 virtual AliAODMCHeader* GetAODMCHeader () const ;
2644ead9 500
3c75ddf7 501 virtual AliVEvent* GetInputEvent() const { return fInputEvent ; }
502 virtual AliVEvent* GetOriginalInputEvent() const { return 0x0 ; }
503 virtual AliAODEvent* GetOutputEvent() const { return fOutputEvent ; }
504 virtual AliMCEvent* GetMC() const { return fMC ; }
505 virtual AliMixedEvent* GetMixedEvent() const { return fMixedEvent ; }
506 virtual Int_t GetNMixedEvent() const { return fNMixedEvent ; }
a5fb4114 507
3c75ddf7 508 void SwitchOnStack() { fReadStack = kTRUE ; }
509 void SwitchOffStack() { fReadStack = kFALSE ; }
510 void SwitchOnAODMCParticles() { fReadAODMCParticles = kTRUE ; }
511 void SwitchOffAODMCParticles() { fReadAODMCParticles = kFALSE ; }
512 Bool_t ReadStack() const { return fReadStack ; }
513 Bool_t ReadAODMCParticles() const { return fReadAODMCParticles ; }
cfaba834 514
914b9fe7 515 void RemapMCLabelForAODs(Int_t &label);
516
517 // Select generated events, depending on comparison of pT hard and jets
43cd6c94 518
a5fb4114 519 virtual Bool_t ComparePtHardAndJetPt() ;
520 virtual Bool_t IsPtHardAndJetPtComparisonSet() const { return fComparePtHardAndJetPt ; }
521 virtual void SetPtHardAndJetPtComparison(Bool_t compare) { fComparePtHardAndJetPt = compare ; }
522 virtual Float_t GetPtHardAndJetFactor() const { return fPtHardAndJetPtFactor ; }
523 virtual void SetPtHardAndJetPtFactor(Float_t factor) { fPtHardAndJetPtFactor = factor ; }
eb3e2665 524
dbb3de7b 525 virtual Bool_t ComparePtHardAndClusterPt() ;
526 virtual Bool_t IsPtHardAndClusterPtComparisonSet() const { return fComparePtHardAndClusterPt ; }
527 virtual void SetPtHardAndClusterPtComparison(Bool_t compare) { fComparePtHardAndClusterPt = compare ; }
528 virtual Float_t GetPtHardAndClusterFactor() const { return fPtHardAndClusterPtFactor ; }
529 virtual void SetPtHardAndClusterPtFactor(Float_t factor) { fPtHardAndClusterPtFactor = factor ; }
530
43cd6c94 531 virtual Bool_t IsHIJINGLabel(const Int_t label);
667a3592 532 void SetGeneratorMinMaxParticles();
43cd6c94 533 void SwitchOnAcceptOnlyHIJINGLabels() { fAcceptOnlyHIJINGLabels = kTRUE ; }
534 void SwitchOffAcceptOnlyHIJINGLabels() { fAcceptOnlyHIJINGLabels = kFALSE ; }
667a3592 535 Bool_t AcceptOnlyHIJINGLabels() const { return fAcceptOnlyHIJINGLabels ; }
dbb3de7b 536
914b9fe7 537 // MC reader methods, declared there to allow compilation, they are only used in the MC reader
0ae57829 538
a5fb4114 539 virtual void AddNeutralParticlesArray(TArrayI & /*array*/) { ; }
540 virtual void AddChargedParticlesArray(TArrayI & /*array*/) { ; }
541 virtual void AddStatusArray(TArrayI & /*array*/) { ; }
542
543 virtual void SwitchOnPi0Decay() { ; }
544 virtual void SwitchOffPi0Decay() { ; }
545 virtual void SwitchOnStatusSelection() { ; }
546 virtual void SwitchOffStatusSelection() { ; }
547 virtual void SwitchOnOverlapCheck() { ; }
548 virtual void SwitchOffOverlapCheck() { ; }
549 virtual void SwitchOnOnlyGeneratorParticles() { ; }
550 virtual void SwitchOffOnlyGeneratorParticles() { ; }
be518ab0 551
a5fb4114 552 virtual void SetEMCALOverlapAngle(Float_t /*angle*/) { ; }
553 virtual void SetPHOSOverlapAngle(Float_t /*angle*/) { ; }
af7b3903 554
43cd6c94 555 //-------------
556 // Jets
557 //-------------
558 Bool_t IsNonStandardJetsSwitchedOn() const { return fFillInputNonStandardJetBranch ; }
559 void SwitchOnNonStandardJets() { fFillInputNonStandardJetBranch = kTRUE ; }
560 void SwitchOffNonStandardJets() { fFillInputNonStandardJetBranch = kFALSE ; }
561
562 virtual void FillInputNonStandardJets() ;
563 virtual TClonesArray* GetNonStandardJets() const { return fNonStandardJets ; }
564 virtual void SetInputNonStandardJetBranchName(TString name) { fInputNonStandardJetBranchName = name ; }
565 virtual TString GetInputNonStandardJetBranchName() { return fInputNonStandardJetBranchName ; }
0ae57829 566
1c5acb87 567 protected:
d9bea110 568 Int_t fEventNumber; // Event number
569 Int_t fDataType ; // Select MC:Kinematics, Data:ESD/AOD, MCData:Both
570 Int_t fDebug; // Debugging level
571 AliFiducialCut * fFiducialCut; // Acceptance cuts
572 Bool_t fCheckFidCut ; // Do analysis for clusters in defined region
573
574 Bool_t fComparePtHardAndJetPt; // In MonteCarlo, jet events, reject fake events with wrong jet energy.
575 Float_t fPtHardAndJetPtFactor; // Factor between ptHard and jet pT to reject/accept event.
576
577 Bool_t fComparePtHardAndClusterPt; // In MonteCarlo, jet events, reject events with too large cluster energy
578 Float_t fPtHardAndClusterPtFactor; // Factor between ptHard and cluster pT to reject/accept event.
579
580 Float_t fCTSPtMin; // pT Threshold on charged particles
581 Float_t fEMCALPtMin; // pT Threshold on emcal clusters
582 Float_t fPHOSPtMin; // pT Threshold on phos clusters
583 Float_t fCTSPtMax; // pT Threshold on charged particles
584 Float_t fEMCALPtMax; // pT Threshold on emcal clusters
585 Float_t fPHOSPtMax; // pT Threshold on phos clusters
586 Bool_t fUseEMCALTimeCut; // Do time cut selection
587 Bool_t fUseParamTimeCut; // Use simple or parametrized time cut
588 Bool_t fUseTrackTimeCut; // Do time cut selection
589 Double_t fEMCALTimeCutMin; // Remove clusters/cells with time smaller than this value, in ns
590 Double_t fEMCALTimeCutMax; // Remove clusters/cells with time larger than this value, in ns
591 Float_t fEMCALParamTimeCutMin[4]; // Remove clusters/cells with time smaller than parametrized value, in ns
592 Double_t fEMCALParamTimeCutMax[4]; // Remove clusters/cells with time larger than parametrized value, in ns
593 Double_t fTrackTimeCutMin; // Remove tracks with time smaller than this value, in ns
594 Double_t fTrackTimeCutMax; // Remove tracks with time larger than this value, in ns
595 Bool_t fUseTrackDCACut; // Do DCA selection
596 Double_t fTrackDCACut[3]; // Remove tracks with DCA larger than cut, parameters of function stored here
597
598 TList * fAODBranchList ; //-> List with AOD branches created and needed in analysis
599 TObjArray * fCTSTracks ; //-> temporal array with tracks
600 TObjArray * fEMCALClusters ; //-> temporal array with EMCAL CaloClusters
601 TObjArray * fPHOSClusters ; //-> temporal array with PHOS CaloClusters
602 AliVCaloCells * fEMCALCells ; //! temporal array with EMCAL CaloCells
603 AliVCaloCells * fPHOSCells ; //! temporal array with PHOS CaloCells
604
605 AliVEvent * fInputEvent; //! pointer to esd or aod input
606 AliAODEvent * fOutputEvent; //! pointer to aod output
607 AliMCEvent * fMC; //! Monte Carlo Event Handler
608
609 Bool_t fFillCTS; // use data from CTS
610 Bool_t fFillEMCAL; // use data from EMCAL
611 Bool_t fFillPHOS; // use data from PHOS
612 Bool_t fFillEMCALCells; // use data from EMCAL
613 Bool_t fFillPHOSCells; // use data from PHOS
614 Bool_t fRecalculateClusters; // Correct clusters, recalculate them if recalibration parameters is given
615 Bool_t fSelectEmbeddedClusters; // Use only simulated clusters that come from embedding.
616
617 ULong_t fTrackStatus ; // Track selection bit, select tracks refitted in TPC, ITS ...
618 ULong_t fTrackFilterMask ; // Track selection bit, for AODs (any difference with track status?)
619 AliESDtrackCuts *fESDtrackCuts ; // Track cut
620 AliESDtrackCuts *fESDtrackComplementaryCuts; // Track cut, complementary cuts for hybrids
621 Bool_t fConstrainTrack ; // Constrain Track to vertex
622 Bool_t fSelectHybridTracks ; // Select CTS tracks of type hybrid (only for AODs)
623 Bool_t fSelectSPDHitTracks ; // Ensure that track hits SPD layers
624 Int_t fTrackMult ; // Track multiplicity
625 Float_t fTrackMultEtaCut ; // Track multiplicity eta cut
626 Bool_t fReadStack ; // Access kine information from stack
627 Bool_t fReadAODMCParticles ; // Access kine information from filtered AOD MC particles
591cc579 628
d9bea110 629 TString fDeltaAODFileName ; // Delta AOD file name
630 TString fFiredTriggerClassName; // Name of trigger event type used to do the analysis
631
632 // Trigger bit
633 UInt_t fEventTriggerMask ; // select this triggerered event
634 UInt_t fMixEventTriggerMask ; // select this triggerered event for mixing, tipically kMB or kAnyINT
635 Bool_t fEventTriggerAtSE; // select triggered event at SE base task or here
636
637 Bool_t fEventTrigMinBias ; // Event is min bias on its name, it should correspond to AliVEvent::kMB, AliVEvent::kAnyInt
638 Bool_t fEventTrigCentral ; // Event is AliVEvent::kCentral on its name, it should correspond to PbPb
639 Bool_t fEventTrigSemiCentral ; // Event is AliVEvent::kSemiCentral on its name, it should correspond to PbPb
640 Bool_t fEventTrigEMCALL0 ; // Event is EMCal L0 on its name, it should correspond to AliVEvent::kEMC7, AliVEvent::kEMC1
641 Bool_t fEventTrigEMCALL1Gamma1 ; // Event is L1-Gamma, threshold 1 on its name, it should correspond kEMCEGA
642 Bool_t fEventTrigEMCALL1Gamma2 ; // Event is L1-Gamma, threshold 2 on its name, it should correspond kEMCEGA
643 Bool_t fEventTrigEMCALL1Jet1 ; // Event is L1-Gamma, threshold 1 on its name, it should correspond kEMCEGA
644 Bool_t fEventTrigEMCALL1Jet2 ; // Event is L1-Gamma, threshold 2 on its name, it should correspond kEMCEGA
645
646 Int_t fBitEGA; // Trigger bit on VCaloTrigger for EGA
647 Int_t fBitEJE; // Trigger bit on VCaloTrigger for EJE
648
649 Bool_t fAnaLED; // Analyze LED data only.
c1ac3823 650
d9bea110 651 TString fTaskName; // Name of task that executes the analysis
765d44e7 652
d9bea110 653 AliCalorimeterUtils * fCaloUtils ; // Pointer to CalorimeterUtils
c8fe2783 654
d9bea110 655 AliMixedEvent * fMixedEvent ; //! mixed event object. This class is not the owner
656 Int_t fNMixedEvent ; // number of events in mixed event buffer
657 Double_t ** fVertex ; //! vertex array 3 dim for each mixed event buffer
c8fe2783 658
d9bea110 659 TList ** fListMixedTracksEvents ; //! Container for tracks stored for different events, used in case of own mixing, set in analysis class
660 TList ** fListMixedCaloEvents; //! Container for photon stored for different events, used in case of own mixing, set in analysis class
661 Int_t fLastMixedTracksEvent ; // Temporary container with the last event added to the mixing list for tracks
662 Int_t fLastMixedCaloEvent ; // Temporary container with the last event added to the mixing list for photons
39364a52 663
d9bea110 664 Bool_t fWriteOutputDeltaAOD; // Write the created delta AOD objects into file
665 Bool_t fOldAOD; // Old AODs, before revision 4.20
f37fa8d2 666
d9bea110 667 Int_t fV0ADC[2] ; // Integrated V0 signal
668 Int_t fV0Mul[2] ; // Integrated V0 Multiplicity
798a9b04 669
d9bea110 670 TString fEMCALClustersListName; // Alternative list of clusters produced elsewhere and not from InputEvent
cd2e4ce6 671
672 // Event selection
673 Float_t fZvtxCut ; // Cut on vertex position
674 Bool_t fAcceptFastCluster; // Accept events from fast cluster, exclude these events for LHC11a
675 Bool_t fRemoveLEDEvents; // Remove events where LED was wrongly firing - EMCAL LHC11a
9bf1c947 676
afb3af8a 677 Bool_t fRemoveBadTriggerEvents; // Remove triggered events because trigger was exotic, bad, or out of BC
678 Bool_t fTriggerPatchClusterMatch; // Search for the trigger patch and check if associated cluster was the trigger
9bf1c947 679 Int_t fTriggerPatchTimeWindow[2]; // Trigger patch selection window
afb3af8a 680 Float_t fTriggerEventThreshold; // Threshold to look for triggered events
681 Int_t fTriggerClusterBC; // Event triggered by a cluster in BC -5 0 to 5
682 Int_t fTriggerClusterIndex; // Index in clusters array of trigger cluster
683 Int_t fTriggerClusterId; // Id of trigger cluster (cluster->GetID())
684 Bool_t fIsExoticEvent; // Exotic trigger event flag
1035a8d9 685 Bool_t fIsBadCellEvent; // Bad cell triggered event flag, any cell in cluster is bad
686 Bool_t fIsBadMaxCellEvent; // Bad cell triggered event flag, only max energy cell is bad
85c4406e 687 Bool_t fIsTriggerMatch; // Could match the event to a trigger patch?
688 Bool_t fIsTriggerMatchOpenCut[3]; // Could not match the event to a trigger patch?, retry opening cuts
689
9bf1c947 690
20218aea 691 Bool_t fDoEventSelection; // Select events depending on V0, pileup, vertex well reconstructed, at least 1 track ...
692 Bool_t fDoV0ANDEventSelection; // Select events depending on V0, fDoEventSelection should be on
cc944149 693 Bool_t fDoVertexBCEventSelection; // Select events with vertex on BC=0 or -100
2644ead9 694 Bool_t fDoRejectNoTrackEvents; // Reject events with no selected tracks in event
20218aea 695 Bool_t fUseEventsWithPrimaryVertex ; // Select events with primary vertex
696 AliTriggerAnalysis* fTriggerAnalysis; // Access to trigger selection algorithm for V0AND calculation
034e885b 697
698 Bool_t fTimeStampEventSelect; // Select events within a fraction of data taking time
699 Float_t fTimeStampEventFracMin; // Minimum value of time stamp fraction event
700 Float_t fTimeStampEventFracMax; // Maximum value of time stamp fraction event
b370e713 701 Double_t fTimeStampRunMin; // Minimum value of time stamp in run
702 Double_t fTimeStampRunMax; // Maximum value of time stamp in run
034e885b 703
3c1a2e95 704 Double_t fPileUpParamSPD[5]; // Parameters to pass to method IsPileupFromSPD: Int_t minContributors,
4b75cb39 705 // Double_t minZdist,
706 // Double_t nSigmaZdist,
707 // Double_t nSigmaDiamXY,
708 // Double_t nSigmaDiamZ)
034e885b 709
3c1a2e95 710 // Pile-up in EMCal
711 Int_t fNPileUpClusters; // Number of clusters with time avobe 20 ns
712 Int_t fNNonPileUpClusters; // Number of clusters with time below 20 ns
713 Int_t fNPileUpClustersCut; // Cut to select event as pile-up
975b29fa 714 Int_t fEMCalBCEvent[19]; // Fill one entry per event if there is a cluster in a given BC
715 Int_t fEMCalBCEventCut[19]; // Fill one entry per event if there is a cluster in a given BC, depend on cluster E, acceptance cut
716 Int_t fTrackBCEvent[19]; // Fill one entry per event if there is a track in a given BC
717 Int_t fTrackBCEventCut[19]; // Fill one entry per event if there is a track in a given BC, depend on track pT, acceptance cut
cc944149 718 Int_t fVertexBC; // Vertex BC
719 Bool_t fRecalculateVertexBC; // Recalculate vertex BC from tracks pointing to vertex
720
72542aba 721 //Centrality/Event plane
d9bea110 722 TString fCentralityClass; // Name of selected centrality class
723 Int_t fCentralityOpt; // Option for the returned value of the centrality, possible options 5, 10, 100
724 Int_t fCentralityBin[2]; // Minimum and maximum value of the centrality for the analysis
725 TString fEventPlaneMethod; // Name of event plane method, by default "Q"
32fd29fe 726
d9bea110 727 Bool_t fImportGeometryFromFile; // Import geometry settings in geometry.root file
728 TString fImportGeometryFilePath; // path fo geometry.root file
de0b770d 729
43cd6c94 730 Bool_t fAcceptOnlyHIJINGLabels; // Select clusters or tracks that where generated by HIJING, reject other generators in case of cocktail
667a3592 731 Int_t fNMCProducedMin; // In case of cocktail, select particles in the list with label from this value
732 Int_t fNMCProducedMax; // In case of cocktail, select particles in the list with label up to this value
733
43cd6c94 734 // jets
735
736 Bool_t fFillInputNonStandardJetBranch; // Flag to use data from non standard jets
737 TClonesArray * fNonStandardJets; //! temporal array with jets
738 TString fInputNonStandardJetBranchName; // Name of non standard jet branch
739
0de1814a 740 AliCaloTrackReader( const AliCaloTrackReader & r) ; // cpy ctor
741 AliCaloTrackReader & operator = (const AliCaloTrackReader & r) ; // cpy assignment
f3138ecf 742
d70095f2 743 ClassDef(AliCaloTrackReader,59)
f3138ecf 744
1c5acb87 745} ;
746
747
748#endif //ALICALOTRACKREADER_H
749
750
751