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AliCalorimeterUtils.h
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1 #ifndef ALICALORIMETERUTILS_H
2 #define ALICALORIMETERUTILS_H
3 /* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4  * See cxx source for full Copyright notice */
5 
6 //_________________________________________________________________________
18 //_________________________________________________________________________
19 
20 // --- ROOT system ---
21 #include <TObject.h>
22 #include <TString.h>
23 #include <TObjArray.h>
24 class TArrayF;
25 #include <TH2I.h>
26 #include <TGeoMatrix.h>
27 class AliMCEvent;
28 
29 //--- ANALYSIS system ---
30 class AliVEvent;
31 class AliVTrack;
32 class AliAODPWG4Particle;
33 class AliAODCaloCluster;
34 class AliVCaloCells;
35 class AliPHOSGeoUtils;
36 class AliEMCALGeometry;
37 class AliAODMCParticle;
38 class TParticle;
39 
40 #include "AliEMCALRecoUtils.h"
41 
42 class AliCalorimeterUtils : public TObject {
43 
44  public:
45  AliCalorimeterUtils() ; // ctor
46  virtual ~AliCalorimeterUtils() ;//virtual dtor
47 
48  virtual void InitParameters();
49  virtual void Print(const Option_t * opt) const ;
50 
51  virtual Int_t GetDebug() const { return fDebug ; }
52  virtual void SetDebug(Int_t d) { fDebug = d ; }
53 
54  //virtual void Init();
55 
56  // Cluster contents
57 
58  Bool_t AreNeighbours(Int_t calo, Int_t absId1, Int_t absId2) const ;
59 
60  Bool_t IsClusterSharedByTwoSuperModules(const AliEMCALGeometry * geom,
61  AliVCluster* cluster);
62 
63  Int_t GetNumberOfLocalMaxima(AliVCluster* cluster, AliVCaloCells* cells) ;
64 
65  Int_t GetNumberOfLocalMaxima(AliVCluster* cluster, AliVCaloCells* cells,
66  Int_t *absIdList, Float_t *maxEList) ;
67 
68  Float_t GetLocalMaximaCutE() const { return fLocMaxCutE ; }
69  void SetLocalMaximaCutE(Float_t cut) { fLocMaxCutE = cut ; }
70 
73 
74  Int_t GetMaxEnergyCell(AliVCaloCells* cells, AliVCluster* clu, Float_t & fraction) const ;
75 
76  void SplitEnergy(Int_t absId1, Int_t absId2, AliVCluster *cluster, AliVCaloCells* cells,
77  //Float_t & e1, Float_t & e2,
78  AliAODCaloCluster *cluster1, AliAODCaloCluster *cluster2,
79  Int_t nMax, Int_t eventNumber = 0);//, Int_t *absIdList, Float_t *maxEList,
80 
81  void SwitchOnClusterPlot() { fPlotCluster = kTRUE ; }
82  void SwitchOffClusterPlot() { fPlotCluster = kFALSE ; }
83 
84  Float_t GetMCECellClusFracCorrection(Float_t eCell, Float_t eCluster) const ;
86 
90 
91  //------------------------------
92  // Calorimeters Geometry Methods
93  //------------------------------
94 
95  AliEMCALGeometry * GetEMCALGeometry() const { return fEMCALGeo ; }
96  TString EMCALGeometryName() const { return fEMCALGeoName ; }
97  void SetEMCALGeometryName(TString name) { fEMCALGeoName = name ; }
98  void InitEMCALGeometry() ;
100 
101  AliPHOSGeoUtils * GetPHOSGeometry() const { return fPHOSGeo ; }
102  TString PHOSGeometryName() const { return fPHOSGeoName ; }
103  void SetPHOSGeometryName(TString name) { fPHOSGeoName = name ; }
104  void InitPHOSGeometry() ;
106 
107  void AccessGeometry(AliVEvent* inputEvent) ;
108 
110  TString path = ""){
111  fImportGeometryFromFile = import ;
112  fImportGeometryFilePath = path ; } // EMCAL
113 
114  Bool_t IsMCParticleInCalorimeterAcceptance(Int_t calo, TParticle* particle);
115  Bool_t IsMCParticleInCalorimeterAcceptance(Int_t calo, AliAODMCParticle* particle);
117 
120  void SetEMCALGeometryMatrixInSM(TGeoHMatrix* m, Int_t i) { fEMCALMatrix[i] = m ; }
121 
124  void SetPHOSGeometryMatrixInSM(TGeoHMatrix* m, Int_t i) { fPHOSMatrix[i] = m ; }
125 
126  void GetEMCALSubregion(AliVCluster* clus, AliVCaloCells* cells,
127  Int_t & regEta, Int_t & regPhi) const ;
128 
129  //------------------------------
130  // Bad channels
131  //------------------------------
132 
135  fEMCALRecoUtils->SwitchOnBadChannelsRemoval();
138  fEMCALRecoUtils->SwitchOffBadChannelsRemoval() ; }
139 
141  void SwitchOnDistToBadChannelRecalculation () { fEMCALRecoUtils->SwitchOnDistToBadChannelRecalculation() ; }
142  void SwitchOffDistToBadChannelRecalculation() { fEMCALRecoUtils->SwitchOffDistToBadChannelRecalculation(); }
143 
145 
146  Int_t GetEMCALChannelStatus(Int_t iSM , Int_t iCol, Int_t iRow) const {
147  return fEMCALRecoUtils->GetEMCALChannelStatus(iSM,iCol,iRow); }//Channel is ok by default
148 
149  Int_t GetPHOSChannelStatus (Int_t imod, Int_t iCol, Int_t iRow) const {
150  if(fPHOSBadChannelMap) return (Int_t) ((TH2I*)fPHOSBadChannelMap->At(imod))->GetBinContent(iCol,iRow);
151  else return 0 ; }//Channel is ok by default
152 
153  void SetEMCALChannelStatus(Int_t iSM , Int_t iCol, Int_t iRow, Double_t c = 1) {
154  fEMCALRecoUtils->SetEMCALChannelStatus(iSM,iCol,iRow,c) ; }
155 
156  void SetPHOSChannelStatus (Int_t imod, Int_t iCol, Int_t iRow, Double_t c = 1) {
158  ((TH2I*)fPHOSBadChannelMap->At(imod))->SetBinContent(iCol,iRow,c) ; }
159 
160  void SetEMCALChannelStatusMap(Int_t iSM , TH2I* h) { fEMCALRecoUtils->SetEMCALChannelStatusMap(iSM,h) ; }
161  void SetPHOSChannelStatusMap(Int_t imod , TH2I* h) { fPHOSBadChannelMap ->AddAt(h,imod) ; }
162 
163  TH2I * GetEMCALChannelStatusMap(Int_t iSM) const { return fEMCALRecoUtils->GetEMCALChannelStatusMap(iSM) ; }
164  TH2I * GetPHOSChannelStatusMap(Int_t imod) const { return (TH2I*)fPHOSBadChannelMap->At(imod) ; }
165 
166  void SetEMCALChannelStatusMap(TObjArray *map) { fEMCALRecoUtils->SetEMCALChannelStatusMap(map) ; }
168 
169  Bool_t ClusterContainsBadChannel(Int_t calo,UShort_t* cellList, Int_t nCells);
170  Bool_t ClusterContainsBadChannel(TString /*calo*/,UShort_t* /*cellList*/, Int_t /*nCells*/) {return kFALSE;} // Stupid thing to do but just to avoid compilation break in AliTrackComparisonESD while I find the authors
171 
172  // Mask clusters in front of frame, EMCAL only
175  if(n > fNMaskCellColumns) { delete [] fMaskCellColumns ; fMaskCellColumns = new Int_t[n] ; }
176  fNMaskCellColumns = n ; }
177  void SetMaskCellColumn(Int_t ipos, Int_t icol) {
178  if(ipos < fNMaskCellColumns) fMaskCellColumns[ipos] = icol;
179  else printf("Not set, position larger than allocated set size first") ; }
180  Bool_t MaskFrameCluster(Int_t iSM, Int_t ieta) const ;
181 
182  //------------------------------
183  // Calorimeter indexes information
184  //------------------------------
185 
186  Int_t GetModuleNumber(AliAODPWG4Particle * particle, AliVEvent* inputEvent) const;
187  Int_t GetModuleNumber(AliVCluster * cluster) const;
188  Int_t GetModuleNumberCellIndexes(Int_t absId, Int_t calo, Int_t & icol, Int_t & irow, Int_t &iRCU) const ;
189  Int_t GetModuleNumberCellIndexesAbsCaloMap(Int_t absId, Int_t calo, Int_t & icol, Int_t & irow, Int_t &iRCU,
190  Int_t & icolAbs, Int_t & irowAbs) const ;
191 
192  //------------------------------
193  // Modules fiducial region
194  //------------------------------
195 
196  Bool_t CheckCellFiducialRegion(AliVCluster* cluster, AliVCaloCells* cells) const ;
197  Bool_t CheckCellFiducialRegion(AliVCluster* cluster, AliVCaloCells* cells, AliVEvent* , Int_t )
198  { return CheckCellFiducialRegion(cluster, cells) ; } // Stupid thing to do but just to avoid compilation break in AliTrackComparisonESD while I find the authors
201  void SetNumberOfCellsFromEMCALBorder(Int_t n) { fEMCALRecoUtils->SetNumberOfCellsFromEMCALBorder(n) ; }
202  Int_t GetNumberOfCellsFromEMCALBorder() const { return fEMCALRecoUtils->GetNumberOfCellsFromEMCALBorder(); }
203  void SwitchOnNoFiducialBorderInEMCALEta0() { fEMCALRecoUtils->SwitchOnNoFiducialBorderInEMCALEta0() ; }
204  void SwitchOffNoFiducialBorderInEMCALEta0() { fEMCALRecoUtils->SwitchOffNoFiducialBorderInEMCALEta0() ; }
205  Bool_t IsEMCALNoBorderAtEta0() const { return fEMCALRecoUtils->IsEMCALNoBorderAtEta0() ; }
206 
207  //------------------------------
208  // Recalibration
209  //------------------------------
210 
213  InitPHOSRecalibrationFactors(); fEMCALRecoUtils->SwitchOnRecalibration() ; }
215  fEMCALRecoUtils->SwitchOffRecalibration() ; }
216 
218 
220  return fEMCALRecoUtils->GetEMCALChannelRecalibrationFactor(iSM , iCol, iRow) ; }
221 
224  return (Float_t) ((TH2F*)fPHOSRecalibrationFactors->At(imod))->GetBinContent(iCol,iRow);
225  else return 1 ; }
226 
228  fEMCALRecoUtils->SetEMCALChannelRecalibrationFactor(iSM,iCol,iRow,c) ; }
229 
232  ((TH2F*)fPHOSRecalibrationFactors->At(imod))->SetBinContent(iCol,iRow,c) ; }
233 
234  void SetEMCALChannelRecalibrationFactors(Int_t iSM , TH2F* h) { fEMCALRecoUtils->SetEMCALChannelRecalibrationFactors(iSM,h) ; }
236 
237  TH2F * GetEMCALChannelRecalibrationFactors(Int_t iSM) const { return fEMCALRecoUtils->GetEMCALChannelRecalibrationFactors(iSM) ; }
239 
240  void SetEMCALChannelRecalibrationFactors(TObjArray *map) { fEMCALRecoUtils->SetEMCALChannelRecalibrationFactors(map) ; }
242 
243  void RecalibrateCellTime (Double_t & time, Int_t calo, Int_t absId, Int_t bunchCrossNumber) const ;
244  void RecalibrateCellTimeL1Phase(Double_t & time, Int_t calo, Int_t iSM, Int_t bunchCrossNumber) const;
245  void RecalibrateCellAmplitude(Float_t & amp, Int_t calo, Int_t absId) const ;
246  Float_t RecalibrateClusterEnergy(AliVCluster* cluster, AliVCaloCells * cells);
247  Float_t RecalibrateClusterEnergyWeightCell(AliVCluster* cluster, AliVCaloCells * cells, Float_t energyOrg);
248 
249  //------------------------------
250  // Run dependent energy calibrations (EMCAL)
251  //------------------------------
252 
255 
256  //------------------------------
257  // Time Recalibration (EMCAL)
258  //------------------------------
259 
260  Bool_t IsTimeRecalibrationOn() const { return fEMCALRecoUtils->IsTimeRecalibrationOn() ; }
261  void SwitchOffTimeRecalibration() { fEMCALRecoUtils->SwitchOffTimeRecalibration() ; }
262  void SwitchOnTimeRecalibration() { fEMCALRecoUtils->SwitchOnTimeRecalibration() ; }
263 
265  { return fEMCALRecoUtils->GetEMCALChannelTimeRecalibrationFactor(bc, absID) ; }
266 
268  { fEMCALRecoUtils->SetEMCALChannelTimeRecalibrationFactor(bc, absID, c) ; }
269 
271  void SetEMCALChannelTimeRecalibrationFactors(TObjArray *map) { fEMCALRecoUtils->SetEMCALChannelTimeRecalibrationFactors(map) ; }
272  void SetEMCALChannelTimeRecalibrationFactors(Int_t bc , TH1F* h) { fEMCALRecoUtils->SetEMCALChannelTimeRecalibrationFactors(bc , h) ; }
273 
274  //------------------------------
275  // Time Recalibration - L1 phase (EMCAL)
276  //------------------------------
277  Bool_t IsL1PhaseInTimeRecalibrationOn() const { return fEMCALRecoUtils->IsL1PhaseInTimeRecalibrationOn() ; }
278  void SwitchOffL1PhaseInTimeRecalibration() { fEMCALRecoUtils->SwitchOffL1PhaseInTimeRecalibration() ; }
279  void SwitchOnL1PhaseInTimeRecalibration() { fEMCALRecoUtils->SwitchOnL1PhaseInTimeRecalibration() ; }
280 
281  Int_t GetEMCALL1PhaseInTimeRecalibrationForSM(Int_t iSM) const { return fEMCALRecoUtils->GetEMCALL1PhaseInTimeRecalibrationForSM(iSM) ; }
282  void SetEMCALL1PhaseInTimeRecalibrationForSM(Int_t iSM, Int_t c = 0) { return fEMCALRecoUtils->SetEMCALL1PhaseInTimeRecalibrationForSM(iSM,c) ; }
283 
284  TH1C * GetEMCALL1PhaseInTimeRecalibrationForAllSM()const { return fEMCALRecoUtils->GetEMCALL1PhaseInTimeRecalibrationForAllSM() ; }
285  void SetEMCALL1PhaseInTimeRecalibrationForAllSM(TObjArray *map) { fEMCALRecoUtils->SetEMCALL1PhaseInTimeRecalibrationForAllSM(map) ; }
286  void SetEMCALL1PhaseInTimeRecalibrationForAllSM(TH1C* h) { fEMCALRecoUtils->SetEMCALL1PhaseInTimeRecalibrationForAllSM(h) ; }
287 
288  //------------------------------
289  // EMCAL specific utils for the moment
290  //------------------------------
291 
292  void SetEMCALRecoUtils(AliEMCALRecoUtils * ru) { fEMCALRecoUtils = ru ; }
293  AliEMCALRecoUtils* GetEMCALRecoUtils() const { return fEMCALRecoUtils ; }
294 
298  void CorrectClusterEnergy(AliVCluster *cl);
299 
303  void RecalculateClusterPosition(AliVCaloCells* cells, AliVCluster* clu);
304  void RecalculateClusterShowerShapeParameters(AliVCaloCells* cells, AliVCluster* clu){
305  fEMCALRecoUtils->RecalculateClusterShowerShapeParameters((AliEMCALGeometry*)fEMCALGeo, cells, clu) ; }
306 
307  void RecalculateClusterDistanceToBadChannel(AliVCaloCells* cells, AliVCluster* clu){
308  fEMCALRecoUtils->RecalculateClusterDistanceToBadChannel((AliEMCALGeometry*)fEMCALGeo, cells, clu) ; }
309 
310  void RecalculateClusterPID(AliVCluster* clu) { fEMCALRecoUtils->RecalculateClusterPID(clu) ; }
311 
312  //------------------------------
313  // *** Track Matching ***
314  //------------------------------
315 
316  AliVTrack * GetMatchedTrack(AliVCluster * cluster, AliVEvent * event, Int_t index = -1) const ;
317 
318  // Recalculation
319 
320  void RecalculateClusterTrackMatching(AliVEvent * event,
321  TObjArray* clusterArray = 0x0,
322  AliMCEvent* mc = 0x0) ;
323 
324  void GetMatchedResiduals(Int_t index, Float_t &dR, Float_t &dZ) {
325  if (fRecalculateMatching) fEMCALRecoUtils->GetMatchedResiduals(index,dR,dZ) ; }
326 
327  //------------------------------
328  // This could be used for PHOS ...
329  //------------------------------
330 
334 
335  Float_t GetCutZ() const { return fCutZ ; } // PHOS only
336  void SetCutZ(Float_t z) { fCutZ = z ; } // PHOS only
337 
338 
339  Float_t GetCutR() const { return fCutR ; } // PHOS and EMCAL
340  void SetCutR(Float_t r) { fCutR = r ; // PHOS and EMCA
341  fEMCALRecoUtils->SetCutR(r) ; }
342 
343  Float_t GetCutEta() const { return fCutEta ; } // EMCAL only
344  void SetCutEta(Float_t e) { fCutEta = e ; // EMCAL only
345  fEMCALRecoUtils->SetCutEta(e) ; }
346 
347  Float_t GetCutPhi() const { return fCutPhi ; } // EMCAL only
348  void SetCutPhi(Float_t p) { fCutPhi = p ; // EMCAL only
349  fEMCALRecoUtils->SetCutPhi(p) ; }
350 
351  //------------------------------
352  // OADB options settings
353  //------------------------------
354 
355  void AccessOADB(AliVEvent * event) ;
356 
357  TString GetPass() ;
358 
359  void SwitchOnEMCALOADB() { fOADBForEMCAL = kTRUE ; }
360  void SwitchOffEMCALOADB() { fOADBForEMCAL = kFALSE ; }
361 
362  void SwitchOnPHOSOADB() { fOADBForPHOS = kTRUE ; }
363  void SwitchOffPHOSOADB() { fOADBForPHOS = kFALSE ; }
364 
367 
368  //------------------------------
369  // Other settings
370  //------------------------------
371 
374 
375  void SetRunNumber(Int_t run) { fRunNumber = run ; }
376  Int_t GetRunNumber() const { return fRunNumber ; }
377 
378  private:
379 
381 
383 
385 
386  AliEMCALGeometry * fEMCALGeo ;
387 
388  AliPHOSGeoUtils * fPHOSGeo ;
389 
391 
393 
395 
396  TGeoHMatrix * fEMCALMatrix[22];
397 
399 
400  TGeoHMatrix * fPHOSMatrix[5];
401 
403 
405 
407 
409 
411  Int_t * fMaskCellColumns; //[fNMaskCellColumns]
412 
414 
416 
418 
419  AliEMCALRecoUtils* fEMCALRecoUtils;
420 
422 
424 
426 
428 
430 
432 
434 
436 
438 
440 
442 
444 
446 
448 
450 
452 
454 
456 
458 
460 
462 
465 
468 
470  ClassDef(AliCalorimeterUtils,19) ;
472 
473 } ;
474 
475 
476 #endif //ALICALORIMETERUTILS_H
477 
478 
479 
void SetCutEta(Float_t e)
Bool_t fRecalculatePosition
Recalculate cluster position.
Float_t GetCutZ() const
void SetNumberOfCellsFromPHOSBorder(Int_t n)
AliEMCALGeometry * fEMCALGeo
! EMCAL geometry pointer.
double Double_t
Definition: External.C:58
void InitPHOSRecalibrationFactors()
Init PHOS recalibration factors.
void SetRunNumber(Int_t run)
Bool_t IsRecalculationOfClusterTrackMatchingOn() const
Definition: External.C:236
TGeoHMatrix * fEMCALMatrix[22]
Geometry matrices with alignments.
Int_t GetPHOSChannelStatus(Int_t imod, Int_t iCol, Int_t iRow) const
Float_t fLocMaxCutEDiff
Local maxima cut, when aggregating cells, next can be a bit higher.
Bool_t IsCorrectionOfClusterEnergyOn() const
void SetEMCALOADBFilePath(TString path)
TGeoHMatrix * fPHOSMatrix[5]
Geometry matrices with alignments.
Bool_t ClusterContainsBadChannel(Int_t calo, UShort_t *cellList, Int_t nCells)
void SwitchOnLoadOwnEMCALGeometryMatrices()
AliPHOSGeoUtils * fPHOSGeo
! PHOS geometry pointer.
TH2F * GetPHOSChannelRecalibrationFactors(Int_t imod) const
void SetImportGeometryFromFile(Bool_t import, TString path="")
AliEMCALRecoUtils * GetEMCALRecoUtils() const
Int_t GetEMCALL1PhaseInTimeRecalibrationForSM(Int_t iSM) const
TString EMCALGeometryName() const
void SetEMCALL1PhaseInTimeRecalibrationForAllSM(TObjArray *map)
void SwitchOnDistToBadChannelRecalculation()
void SwitchOnNoFiducialBorderInEMCALEta0()
void SwitchOnMCECellClusFracCorrection()
Float_t GetCutPhi() const
void SetEMCALChannelStatus(Int_t iSM, Int_t iCol, Int_t iRow, Double_t c=1)
void SetPHOSChannelRecalibrationFactors(Int_t imod, TH2F *h)
AliPHOSGeoUtils * GetPHOSGeometry() const
Bool_t fOADBForEMCAL
Get calibration from OADB for EMCAL.
TString PHOSGeometryName() const
Float_t GetPHOSChannelRecalibrationFactor(Int_t imod, Int_t iCol, Int_t iRow) const
void SetEMCALChannelTimeRecalibrationFactors(Int_t bc, TH1F *h)
void SwitchOffRecalculateClusterPosition()
void SwitchOffDistToBadChannelRecalculation()
Bool_t ClusterContainsBadChannel(TString, UShort_t *, Int_t)
Float_t fLocMaxCutE
Local maxima cut must have more than this energy.
Float_t GetMCECellClusFracCorrection(Float_t eCell, Float_t eCluster) const
void RecalculateClusterDistanceToBadChannel(AliVCaloCells *cells, AliVCluster *clu)
Bool_t CheckCellFiducialRegion(AliVCluster *cluster, AliVCaloCells *cells, AliVEvent *, Int_t)
void SetEMCALChannelStatusMap(Int_t iSM, TH2I *h)
Bool_t fRunDependentCorrection
Switch on or off the recalibration dependent on T.
TCanvas * c
Definition: TestFitELoss.C:172
void SetLocalMaximaCutEDiff(Float_t c)
void SetNumberOfCellsFromEMCALBorder(Int_t n)
TObjArray * fPHOSRecalibrationFactors
Array of histograms with map of recalibration factors, PHOS.
TString fEMCALGeoName
Name of geometry to use for EMCAL.
void SetEMCALL1PhaseInTimeRecalibrationForAllSM(TH1C *h)
TH2F * GetEMCALChannelRecalibrationFactors(Int_t iSM) const
void SetPHOSChannelStatus(Int_t imod, Int_t iCol, Int_t iRow, Double_t c=1)
Bool_t fRecalibration
Switch on or off the recalibration.
Float_t GetEMCALChannelRecalibrationFactor(Int_t iSM, Int_t iCol, Int_t iRow) const
TH1F * GetEMCALChannelTimeRecalibrationFactors(Int_t bc) const
void SwitchOnLoadOwnPHOSGeometryMatrices()
Int_t fDebug
Debugging level.
TH1C * GetEMCALL1PhaseInTimeRecalibrationForAllSM() const
Int_t GetNumberOfCellsFromPHOSBorder() const
Bool_t IsRecalibrationOn() const
void SetMCECellClusFracCorrectionParamters(Int_t i, Float_t param)
Bool_t IsMCParticleInCalorimeterAcceptance(Int_t calo, TParticle *particle)
void SetPHOSGeometryName(TString name)
virtual void Print(const Option_t *opt) const
Print some relevant parameters set for the analysis.
void SetMaskCellColumn(Int_t ipos, Int_t icol)
void RecalculateClusterPID(AliVCluster *clu)
Float_t GetEMCALChannelTimeRecalibrationFactor(Int_t bc, Int_t absID) const
void SwitchOffRecalculateClusterTrackMatching()
Float_t fCutEta
dEta cut on matching (EMCAL).
Float_t GetLocalMaximaCutE() const
void SetCutPhi(Float_t p)
Int_t GetModuleNumber(AliAODPWG4Particle *particle, AliVEvent *inputEvent) const
Get the EMCAL/PHOS module number that corresponds to this particle.
Bool_t fLoadEMCALMatrices
Matrices set from configuration, not get from geometry.root or from ESDs/AODs.
virtual void SetDebug(Int_t d)
AliEMCALGeometry * GetEMCALGeometry() const
int Int_t
Definition: External.C:63
void RecalculateClusterShowerShapeParameters(AliVCaloCells *cells, AliVCluster *clu)
void SwitchOffMCECellClusFracCorrection()
void SetNMaskCellColumns(Int_t n)
Float_t GetLocalMaximaCutEDiff() const
Bool_t IsL1PhaseInTimeRecalibrationOn() const
Bool_t fRecalculateMatching
Recalculate cluster position.
Bool_t MaskFrameCluster(Int_t iSM, Int_t ieta) const
float Float_t
Definition: External.C:68
AliCalorimeterUtils & operator=(const AliCalorimeterUtils &cu)
Assignment operator not implemented.
Bool_t fOADBForPHOS
Get calibration from OADB for PHOS.
Bool_t IsBadChannelsRemovalSwitchedOn() const
Int_t * fMaskCellColumns
List of masked cells collumn index.
Bool_t fRemoveBadChannels
Check the channel status provided and remove clusters with bad channels.
void InitPHOSBadChannelStatusMap()
Init PHOS bad channels map.
virtual Int_t GetDebug() const
Int_t GetRunNumber() const
void RecalculateClusterTrackMatching(AliVEvent *event, TObjArray *clusterArray=0x0, AliMCEvent *mc=0x0)
AliCalorimeterUtils()
Constructor. Initialize parameters.
void SetEMCALChannelTimeRecalibrationFactor(Int_t bc, Int_t absID, Double_t c=0)
virtual void InitParameters()
Initialize the parameters of the analysis.
void SwitchOnRecalculateClusterTrackMatching()
void SetEMCALChannelRecalibrationFactors(TObjArray *map)
Int_t fNMaskCellColumns
Number of masked columns.
Float_t GetCutR() const
Bool_t IsMCECellClusFracCorrectionOn() const
void SetPHOSGeometryMatrixInSM(TGeoHMatrix *m, Int_t i)
Int_t GetNumberOfSuperModulesUsed() const
Bool_t IsEMCALNoBorderAtEta0() const
Bool_t IsClusterSharedByTwoSuperModules(const AliEMCALGeometry *geom, AliVCluster *cluster)
Bool_t IsRecalculationOfClusterPositionOn() const
Float_t fMCECellClusFracCorrParam[4]
Parameters for the function correcting the weight of the cells in the cluster.
Int_t GetNumberOfLocalMaxima(AliVCluster *cluster, AliVCaloCells *cells)
Find the number of local maxima in cluster.
Bool_t fEMCALGeoMatrixSet
Check if the transformation matrix is set for EMCAL.
void SetEMCALGeometryName(TString name)
void SetPHOSOADBFilePath(TString path)
void SetNumberOfSuperModulesUsed(Int_t nSM)
void SwitchOffNoFiducialBorderInEMCALEta0()
TH2I * GetPHOSChannelStatusMap(Int_t imod) const
void SetEMCALChannelRecalibrationFactor(Int_t iSM, Int_t iCol, Int_t iRow, Double_t c=1)
Float_t GetCutEta() const
TString GetPass()
Get passx from filename.
void RecalculateClusterPosition(AliVCaloCells *cells, AliVCluster *clu)
Bool_t fImportGeometryFromFile
Import geometry settings in geometry.root file.
Int_t GetNMaskCellColumns() const
Bool_t fCorrectELinearity
Correct cluster energy linearity.
Bool_t fPHOSGeoMatrixSet
Check if the transformation matrix is set for PHOS.
TString fOADBFilePathPHOS
Default path $ALICE_PHYSICS/OADB/PHOS, if needed change.
void CorrectClusterEnergy(AliVCluster *cl)
Correct cluster energy non linearity.
void SetEMCALGeometryMatrixInSM(TGeoHMatrix *m, Int_t i)
void GetMatchedResiduals(Int_t index, Float_t &dR, Float_t &dZ)
Float_t fCutZ
dZ cut on matching (EMCAL/PHOS).
Bool_t fLoadPHOSMatrices
Matrices set from configuration, not get from geometry.root or from ESDs/AODs.
void SetPHOSChannelStatusMap(Int_t imod, TH2I *h)
Int_t fNCellsFromPHOSBorder
Number of cells from PHOS border the cell with maximum amplitude has to be.
AliVTrack * GetMatchedTrack(AliVCluster *cluster, AliVEvent *event, Int_t index=-1) const
void RecalibrateCellTimeL1Phase(Double_t &time, Int_t calo, Int_t iSM, Int_t bunchCrossNumber) const
Recalculate time L1 phase shift if time recalibration available for EMCAL.
Bool_t fMCECellClusFracCorrOn
Correct or not the weight of cells in cluster.
void SetPHOSChannelStatusMap(TObjArray *map)
Int_t fNSuperModulesUsed
Number of supermodules to be used in analysis, can be different than the real geo, to be used at initialization of histograms.
TString fImportGeometryFilePath
Path fo geometry.root file.
Bool_t fPlotCluster
Plot cluster in splitting method.
Int_t fRunNumber
Run number of the data, take it from data itself unless set by user.
void SwitchOffLoadOwnPHOSGeometryMatrices()
void RecalibrateCellAmplitude(Float_t &amp, Int_t calo, Int_t absId) const
Recalculate cell energy if recalibration factor.
void SetEMCALChannelTimeRecalibrationFactors(TObjArray *map)
Bool_t IsPHOSGeoMatrixSet() const
void SwitchOffLoadOwnEMCALGeometryMatrices()
void SetEMCALChannelStatusMap(TObjArray *map)
Bool_t IsTimeRecalibrationOn() const
Bool_t IsDistanceToBadChannelRecalculated() const
Bool_t fOADBSet
AODB parameters already set.
unsigned short UShort_t
Definition: External.C:28
TObjArray * fPHOSBadChannelMap
Array of histograms with map of bad channels, PHOS.
TString fPHOSGeoName
Name of geometry to use for PHOS.
Bool_t AreNeighbours(Int_t calo, Int_t absId1, Int_t absId2) const
const char Option_t
Definition: External.C:48
Int_t GetEMCALChannelStatus(Int_t iSM, Int_t iCol, Int_t iRow) const
Float_t fCutPhi
dPhi cut on matching (EMCAL).
bool Bool_t
Definition: External.C:53
Bool_t IsEMCALGeoMatrixSet() const
Class with utils specific to calorimeter clusters/cells.
Int_t GetNumberOfCellsFromEMCALBorder() const
void AccessGeometry(AliVEvent *inputEvent)
void SetPHOSChannelRecalibrationFactors(TObjArray *map)
void SetEMCALRecoUtils(AliEMCALRecoUtils *ru)
AliEMCALRecoUtils * fEMCALRecoUtils
EMCAL utils for cluster rereconstruction.
void SetEMCALL1PhaseInTimeRecalibrationForSM(Int_t iSM, Int_t c=0)
void SetEMCALChannelRecalibrationFactors(Int_t iSM, TH2F *h)
void AccessOADB(AliVEvent *event)
TString fOADBFilePathEMCAL
Default path $ALICE_PHYSICS/OADB/EMCAL, if needed change.
void RecalibrateCellTime(Double_t &time, Int_t calo, Int_t absId, Int_t bunchCrossNumber) const
Recalculate time if time recalibration available for EMCAL not ready for PHOS.
Int_t GetMaxEnergyCell(AliVCaloCells *cells, AliVCluster *clu, Float_t &fraction) const
For a given CaloCluster, it gets the absId of the cell with maximum energy deposit.
Float_t fCutR
dR cut on matching (PHOS).
void SwitchOffL1PhaseInTimeRecalibration()
void SetLocalMaximaCutE(Float_t cut)
Float_t RecalibrateClusterEnergyWeightCell(AliVCluster *cluster, AliVCaloCells *cells, Float_t energyOrg)
void SplitEnergy(Int_t absId1, Int_t absId2, AliVCluster *cluster, AliVCaloCells *cells, AliAODCaloCluster *cluster1, AliAODCaloCluster *cluster2, Int_t nMax, Int_t eventNumber=0)
Int_t GetModuleNumberCellIndexes(Int_t absId, Int_t calo, Int_t &icol, Int_t &irow, Int_t &iRCU) const
Get the EMCAL/PHOS module, columns, row and RCU/DDL number that corresponds to this absId...
TH2I * GetEMCALChannelStatusMap(Int_t iSM) const
void SetPHOSChannelRecalibrationFactor(Int_t imod, Int_t iCol, Int_t iRow, Double_t c=1)
Float_t RecalibrateClusterEnergy(AliVCluster *cluster, AliVCaloCells *cells)
Recalibrate the cluster energy, considering the recalibration map and the energy of the cells that co...
void GetEMCALSubregion(AliVCluster *clus, AliVCaloCells *cells, Int_t &regEta, Int_t &regPhi) const
Bool_t CheckCellFiducialRegion(AliVCluster *cluster, AliVCaloCells *cells) const
Int_t GetModuleNumberCellIndexesAbsCaloMap(Int_t absId, Int_t calo, Int_t &icol, Int_t &irow, Int_t &iRCU, Int_t &icolAbs, Int_t &irowAbs) const