AliPhysics  05c4c93 (05c4c93)
AliAnalysisTaskChargedParticlesRef.cxx
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15 #include <algorithm>
16 #include <array>
17 #include <functional>
18 #include <iostream>
19 #include <map>
20 
21 #include <TMath.h>
22 #include <THistManager.h>
23 #include <TLinearBinning.h>
24 
25 #include "AliAnalysisDataContainer.h"
26 #include "AliAnalysisManager.h"
27 #include "AliAnalysisUtils.h"
28 #include "AliAODInputHandler.h"
29 #include "AliAODTrack.h"
31 #include "AliEMCALGeometry.h"
32 #include "AliEMCALRecoUtils.h"
33 #include "AliEMCALTriggerPatchInfo.h"
34 #include "AliEmcalTrackSelection.h"
35 #include "AliESDtrackCuts.h"
36 #include "AliESDEvent.h"
37 #include "AliInputEventHandler.h"
38 #include "AliPIDResponse.h"
39 #include "AliTOFPIDResponse.h"
40 #include "AliVEvent.h"
41 #include "AliVEventHandler.h"
42 #include "AliVVertex.h"
43 
46 
50 
51 namespace EMCalTriggerPtAnalysis {
52 
53 AliAnalysisTaskChargedParticlesRef::AliAnalysisTaskChargedParticlesRef() :
55  fTrackCuts(nullptr),
56  fYshift(0.465),
57  fEtaSign(1),
58  fMinPt(0.1),
59  fEtaLabCut(-0.5, 0.5),
60  fEtaCmsCut(-2., 2.),
61  fPhiCut(0., TMath::TwoPi()),
62  fStudyPID(false),
63  fStudyEMCALgeo(false),
64  fEnableSumw2(false),
65  fRequireTOFBunchCrossing(false),
66  fStudyExoticTriggers(false)
67 {
68 }
69 
73  fYshift(0.465),
74  fEtaSign(1),
75  fMinPt(0.1),
76  fEtaLabCut(-0.5, 0.5),
77  fEtaCmsCut(-2., 2.),
78  fPhiCut(0., TMath::TwoPi()),
79  fStudyPID(false),
80  fStudyEMCALgeo(false),
81  fEnableSumw2(false),
84 {
85  SetNeedEmcalGeom(true);
86  SetCaloTriggerPatchInfoName("EmcalTriggers");
87 }
88 
90  //if(fTrackCuts) delete fTrackCuts;
91 }
92 
94  if(!fTrackCuts) InitializeTrackCuts("standard", fInputHandler->IsA() == AliAODInputHandler::Class());
96 
99  }
100 }
101 
103 
104  PtBinning newbinning;
105  TString optionstring = fEnableSumw2 ? "s" : "";
106 
107  TLinearBinning etabinning(64, -0.8, 0.8), phibinning(100, 0., 2*TMath::Pi()), chargebinning(2, -1.5, 1.5);
108  const TBinning *binning4D[4] = {&newbinning, &etabinning, &phibinning, &chargebinning};
109 
110  // Binning for the PID histogram
111  const int kdimPID = 3;
112  const int knbinsPID[kdimPID] = {1000, 200, 300};
113  const double kminPID[kdimPID] = {-100., 0., 0.}, kmaxPID[kdimPID] = {100., 200., 1.5};
114  for(auto trg : GetSupportedTriggers()){
115  fHistos->CreateTH1("hEventCount" + trg, "Event Counter for trigger class " + trg, 1, 0.5, 1.5, optionstring);
117  if(!trg.Contains("MB")) fHistos->CreateTH1("hEventsExotricsTrigger" + trg, trg, 6, -0.5, 5.5, optionstring);
118  }
119  fHistos->CreateTH1("hVertexBefore" + trg, "Vertex distribution before z-cut for trigger class " + trg, 500, -50, 50, optionstring);
120  fHistos->CreateTH1("hVertexAfter" + trg, "Vertex distribution after z-cut for trigger class " + trg, 100, -10, 10, optionstring);
121 
122 
123  fHistos->CreateTHnSparse("hPtEtaPhiAll" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + " ; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
124  fHistos->CreateTHnSparse("hPtEtaPhiCent" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + "; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
125  if(fStudyEMCALgeo) {
126  fHistos->CreateTHnSparse("hPtEtaPhiEMCALAll" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks pointing to the EMCAL for trigger " + trg + "; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
127  fHistos->CreateTHnSparse("hPtEtaPhiEMCALCent" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks pointing to the EMCAL for trigger " + trg + "; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
128  }
130  fHistos->CreateTHnSparse("hPtEtaPhiAllExotic" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + " ; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
131  fHistos->CreateTHnSparse("hPtEtaPhiCentExotic" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + "; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
132  fHistos->CreateTHnSparse("hPtEtaPhiAllNoExotic" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + " ; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
133  fHistos->CreateTHnSparse("hPtEtaPhiCentNoExotic" + trg, "p_{t}-#eta-#phi distribution of all accepted tracks for trigger " + trg + "; p_{t} (GeV/c); #eta; #phi; charge", 4, binning4D, optionstring);
134  }
135 
136  if(fStudyPID){
137  fHistos->CreateTH2(Form("hTPCdEdxEMCAL%s", trg.Data()), Form("TPC dE/dx of charged particles in the EMCAL region for trigger %s", trg.Data()), 400, -20., 20., 200, 0., 200., optionstring);
138  fHistos->CreateTH2(Form("hTOFBetaEMCAL%s", trg.Data()), Form("TOF beta of charged particles in the EMCAL region for trigger %s", trg.Data()), 400, -20., 20., 150, 0., 1.5, optionstring);
139  fHistos->CreateTHnSparse(Form("hPIDcorrEMCAL%s", trg.Data()), Form("Correlation of PID observables for Trigger %s", trg.Data()), kdimPID, knbinsPID, kminPID, kmaxPID, optionstring);
140  }
141  }
142 }
143 
145  Bool_t hasPIDresponse = fInputHandler->GetPIDResponse() != nullptr;
146  if(fStudyPID && !hasPIDresponse) AliErrorStream() << "PID requested but PID response not available" << std::endl;
147  double bunchSpacing = fRunNumber >= 195389 && fRunNumber <= 197388 ? 200. : 25.; // hard code bunch spacing as it is not available from OCDB (ideally would be taken from the filling scheme)
148  int bunchSpacingCorrection = int(bunchSpacing / 25.); // Corrects for the hard coded 25 ns bunch separation in GetTOFBunchCrossing
149 
150  // filter exotics condition for EMCAL triggers
151  std::vector<TString> exoticTriggers;
153  for(auto t : fSelectedTriggers){
154  if(t.Contains("MB")) continue;
155  double weight = this->GetTriggerWeight(t);
156 
157  fHistos->FillTH1("hEventsExotricsTrigger" + t, 0.);
158  fHistos->FillTH1("hEventsExotricsTrigger" + t, 3., weight);
159  if(IsExoticsTrigger(t)) {
160  exoticTriggers.push_back(t);
161  fHistos->FillTH1("hEventsExotricsTrigger" + t, 2.);
162  fHistos->FillTH1("hEventsExotricsTrigger" + t, 5., weight);
163  } else {
164  fHistos->FillTH1("hEventsExotricsTrigger" + t, 1.);
165  fHistos->FillTH1("hEventsExotricsTrigger" + t, 4., weight);
166  }
167  }
168  }
169 
170  // Loop over tracks, fill select particles
171  // Histograms
172  // - Full eta_{lab} (-0.8, 0.8), new binning
173  // - Full eta_{lab} (-0.8, 0.8), old binning
174  // - Eta distribution for tracks above 1, 2, 5, 10 GeV/c without eta cut
175  // - Central eta_{cms} (-0.3, -0.2), new binning,
176  // - Central eta_{cms} (-0.8, -0.2), old binning,
177  // - Eta distribution for tracks above 1, 2, 5, 10 GeV/c
178  // - Eta distribution for tracks above 1, 2, 5, 10 GeV/c with eta cut
179  AliVTrack *checktrack(nullptr);
180  int ptmin[5] = {1,2,5,10,20}; // for eta distributions
181  Bool_t isEMCAL(kFALSE);
182  Double_t etaEMCAL(0.), phiEMCAL(0.);
183  for(int itrk = 0; itrk < fInputEvent->GetNumberOfTracks(); ++itrk){
184  checktrack = dynamic_cast<AliVTrack *>(fInputEvent->GetTrack(itrk));
185  if(!checktrack) continue;
186  if(!fEtaLabCut.IsInRange(checktrack->Eta())) continue;
187  if(!fPhiCut.IsInRange(checktrack->Phi())) continue;
188  if(TMath::Abs(checktrack->Pt()) < fMinPt) continue;
189 
190  // Check TOF bunch crossing
192  int tofCrossingRaw = checktrack->GetTOFBunchCrossing();
193  if(tofCrossingRaw == AliVTrack::kTOFBCNA) continue; // No TOF hit assigned to track
194  int tofCrossingCorrected = TMath::Nint(tofCrossingRaw/bunchSpacingCorrection);
195  if(tofCrossingCorrected != fInputEvent->GetHeader()->GetBunchCrossNumber()) continue;
196  }
197 
198  if(fStudyEMCALgeo){
199  if(checktrack->IsA() == AliESDtrack::Class()){
200  AliESDtrack copytrack(*(static_cast<AliESDtrack *>(checktrack)));
201  AliEMCALRecoUtils::ExtrapolateTrackToEMCalSurface(&copytrack);
202  etaEMCAL = copytrack.GetTrackEtaOnEMCal();
203  phiEMCAL = copytrack.GetTrackPhiOnEMCal();
204  } else {
205  AliAODTrack copytrack(*(static_cast<AliAODTrack *>(checktrack)));
206  AliEMCALRecoUtils::ExtrapolateTrackToEMCalSurface(&copytrack);
207  etaEMCAL = copytrack.GetTrackEtaOnEMCal();
208  phiEMCAL = copytrack.GetTrackPhiOnEMCal();
209  }
210  Int_t supermoduleID = -1;
211  isEMCAL = fGeom->SuperModuleNumberFromEtaPhi(etaEMCAL, phiEMCAL, supermoduleID);
212  // Exclude supermodules 10 and 11 as they did not participate in the trigger
213  isEMCAL = isEMCAL && supermoduleID < 10;
214  }
215 
216  // Calculate eta in cms frame according
217  // EPJC74 (2014) 3054:
218  // eta_cms = - eta_lab - |yshift|
219  Double_t etacent = -1. * checktrack->Eta() - TMath::Abs(fYshift);
220  etacent *= fEtaSign;
221 
222  if(!fEtaCmsCut.IsInRange(etacent)) continue; // Apply eta-cent cut
223  if(!fTrackCuts->IsTrackAccepted(checktrack)) continue;
224 
225  // Charge separation
226  bool posCharge = checktrack->Charge() > 0;
227 
228  for(const auto &t : fSelectedTriggers){
229  FillTrackHistos(t, "", posCharge, checktrack->Pt(), checktrack->Eta() * fEtaSign, etacent, checktrack->Phi(), isEMCAL);
231  if(std::find(exoticTriggers.begin(), exoticTriggers.end(), t) != exoticTriggers.end()){
232  // trigger is an "exotic" trigger
233  FillTrackHistos(t, "Exotic", posCharge, checktrack->Pt(), checktrack->Eta() * fEtaSign, etacent, checktrack->Phi(), isEMCAL);
234  } else {
235  // not an exotic trigger
236  FillTrackHistos(t, "NoExotic", posCharge, checktrack->Pt(), checktrack->Eta() * fEtaSign, etacent, checktrack->Phi(), isEMCAL);
237  }
238  }
239  if(fStudyPID && hasPIDresponse)
240  if(isEMCAL) FillPIDHistos(t, *checktrack);
241  }
242  }
243  return true;
244 }
245 
247  // Apply vertex z cut
248  for(const auto &t : fSelectedTriggers){
249  Double_t weight = GetTriggerWeight(t);
250  fHistos->FillTH1(Form("hVertexBefore%s", t.Data()), fVertex[2], weight);
251  }
252 }
253 
255  for(const auto &t : fSelectedTriggers) {
256  Double_t weight = GetTriggerWeight(t);
257  // Fill Event counter and reference vertex distributions after event selection
258  fHistos->FillTH1(Form("hEventCount%s", t.Data()), 1, weight);
259  fHistos->FillTH1(Form("hVertexAfter%s", t.Data()), fVertex[2], weight);
260  }
261 }
262 
264  std::vector<const AliVCluster *> exoticClusters;
265 
266  AliDebugStream(1) << GetName() << ": Reading clusters from container" << fNameClusterContainer << std::endl;
267  for(auto c : this->GetClusterContainer(fNameClusterContainer)->all()) {
268  if(c->GetIsExotic()) exoticClusters.push_back(c);
269  }
270  AliDebugStream(1) << GetName() << ": Found " << exoticClusters.size() << " exotic clusters" << std::endl;
271  if(!exoticClusters.size()) {
272  // event has no exotic clusters, therefore the firing trigger patch must be without overlap of an exotic clusters
273  AliDebugStream(1) << GetName() << ": No exotic clusters in event - event declared as non-exotic" << std::endl;
274  return false;
275  }
276 
277  double threshold = this->GetOnlineTriggerThresholdByName(trg);
278  std::function<bool (const AliEMCALTriggerPatchInfo *)> PatchSelector = [&trg, threshold] (const AliEMCALTriggerPatchInfo *patch) -> bool {
279  if(trg.Contains("G")) {
280  return patch->IsGammaLowRecalc() && patch->GetADCAmp() >= threshold;
281  } else if (trg.Contains("J")) {
282  return patch->IsJetLowRecalc() && patch->GetADCAmp() >= threshold;
283  } else if (trg.Contains("MC")) { // EMC/DMC7/8 triggers
284  return patch->IsLevel0() && patch->GetADCAmp() >= threshold;
285  }
286  return false;
287  };
288 
289  Bool_t hasNonExoticTriggerPatch = kFALSE;
290  for(auto p : *(fTriggerPatchInfo)) {
291  AliEMCALTriggerPatchInfo *patch = static_cast<AliEMCALTriggerPatchInfo *>(p);
292  if(PatchSelector(patch)) {
293  bool hasMatch = false;
294  for(auto c : exoticClusters) {
295  TLorentzVector clustervec;
296  c->GetMomentum(clustervec, fVertex);
297  AliCutValueRange<double> etacut(patch->GetEtaMin(), patch->GetEtaMax()), phicut(patch->GetPhiMin(), patch->GetPhiMax());
298  if(etacut.IsInRange(clustervec.Eta()) && phicut.IsInRange(clustervec.Phi())) {
299  // cluster is matched
300  // patch can be considered as "exotic"
301  AliDebugStream(1) << GetName() << ", Trigger " << trg << ": Found match of triggering patch to exotic cluster: Type "
302  << ((patch->IsJetHighRecalc() || patch->IsJetLowRecalc()) ? "JetRecalc" : ((patch->IsGammaHighRecalc() || patch->IsGammaLowRecalc()) ? "GammaRecalc" : "L0"))
303  << ", ADC" << patch->GetADCAmp() << std::endl;
304  hasMatch = true;
305  break;
306  }
307  }
308  if(!hasMatch){
309  AliDebugStream(1) << GetName() << ": Found at least 1 non-exotic patch firing trigger " << trg << std::endl;
310  hasNonExoticTriggerPatch = true;
311  break;
312  }
313  }
314  }
315  return !hasNonExoticTriggerPatch;
316 }
317 
319  const TString &eventclass,
320  const TString &histtag,
321  Bool_t posCharge,
322  Double_t pt,
323  Double_t etalab,
324  Double_t etacent,
325  Double_t phi,
326  Bool_t inEmcal
327  )
328 {
329  Double_t weight = GetTriggerWeight(eventclass);
330  AliDebugStream(1) << GetName() << ": Using weight " << weight << " for trigger " << eventclass << " in particle histograms." << std::endl;
331  double kinepointall[4] = {TMath::Abs(pt), etalab, phi, posCharge ? 1. : -1.}, kinepointcent[4] = {TMath::Abs(pt), etacent, phi, posCharge ? 1. : -1.};
332  fHistos->FillTHnSparse("hPtEtaPhiAll" + histtag + eventclass, kinepointall, weight);
333  fHistos->FillTHnSparse("hPtEtaPhiCent" + histtag + eventclass, kinepointcent, weight);
334  if(fStudyEMCALgeo && inEmcal){
335  fHistos->FillTHnSparse("hPtEtaPhiEMCALAll" + eventclass, kinepointall, weight);
336  fHistos->FillTHnSparse("hPtEtaPhiEMCALCent" + eventclass, kinepointall, weight);
337  }
338 }
339 
341  const TString &eventclass,
342  const AliVTrack &trk
343 ) {
344  Double_t weight = GetTriggerWeight(eventclass);
345  AliDebugStream(1) << GetName() << ": Using weight " << weight << " for trigger " << eventclass << " in PID histograms." << std::endl;
346  AliPIDResponse *pid = fInputHandler->GetPIDResponse();
347  if(TMath::Abs(trk.Eta()) > 0.5) return;
348  if(!((trk.GetStatus() & AliVTrack::kTOFout) && (trk.GetStatus() & AliVTrack::kTIME))) return;
349 
350  double poverz = TMath::Abs(trk.P())/static_cast<double>(trk.Charge());
351  fHistos->FillTH2("hTPCdEdxEMCAL" + eventclass, poverz, trk.GetTPCsignal(), weight);
352  // correct for units - TOF in ps, track length in cm
353  Double_t trtime = (trk.GetTOFsignal() - pid->GetTOFResponse().GetTimeZero()) * 1e-12;
354  Double_t v = trk.GetIntegratedLength()/(100. * trtime);
355  Double_t beta = v / TMath::C();
356  fHistos->FillTH2("hTOFBetaEMCAL" + eventclass, poverz, beta, weight);
357  double datapoint[3] = {poverz, trk.GetTPCsignal(), beta};
358  fHistos->FillTHnSparse("hPIDcorrEMCAL" + eventclass, datapoint, weight);
359 }
360 
363 }
364 
366  AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
367 
368  TString taskname = "chargedParticleQA_" + suffix;
369 
371  mgr->AddTask(task);
372 
373  TString outfile(mgr->GetCommonFileName());
374  outfile += ":ChargedParticleQA_" + suffix;
375  TString containername = "TrackResults_" + suffix;
376 
377  task->ConnectInput(0, mgr->GetCommonInputContainer());
378  mgr->ConnectOutput(task, 1, mgr->CreateContainer(containername.Data(), TList::Class(), AliAnalysisManager::kOutputContainer, outfile.Data()));
379 
380  return task;
381 }
382 
384  AliAnalysisManager *mgr = AliAnalysisManager::GetAnalysisManager();
385 
387  mgr->AddTask(task);
388 
389  // Set Energy thresholds for additional patch selection:
390  // These are events with offline patches of a given type where the trigger reached already the plateau
391  // These numers are determined as:
392  // EMC7: 5 GeV
393  // EG1: 14 GeV
394  // EG2: 8 GeV
395  // EJ1: 22 GeV
396  // EJ2: 12 GeV
397  mgr->AddTask(task);
400  );
403  cutname,
404  mgr->GetInputEventHandler()->IsA() == AliAODInputHandler::Class()
405  )
406  );
407 
408  TString outfile(mgr->GetCommonFileName());
409  outfile += ":ChargedParticleQA_%s" + cutname;
410 
411  task->ConnectInput(0, mgr->GetCommonInputContainer());
412  mgr->ConnectOutput(task, 1, mgr->CreateContainer(Form("TrackResults_%s", cutname.Data()), TList::Class(), AliAnalysisManager::kOutputContainer, outfile.Data()));
413 
414  return task;
415 }
416 
419 {
420  this->SetMinimum(0.);
421  this->AddStep(1, 0.05);
422  this->AddStep(2, 0.1);
423  this->AddStep(4, 0.2);
424  this->AddStep(7, 0.5);
425  this->AddStep(16, 1);
426  this->AddStep(36, 2);
427  this->AddStep(40, 4);
428  this->AddStep(50, 5);
429  this->AddStep(100, 10);
430  this->AddStep(200, 20);
431 }
432 
433 } /* namespace EMCalTriggerPtAnalysis */
std::vector< TString > fSelectedTriggers
! Triggers selected for given event
virtual bool Run()
Simple task testing particle spectra in triggered events.
double Double_t
Definition: External.C:58
Double_t fEtaSign
Sign of the eta distribution (swaps when beam directions swap): p-Pb: +1, Pb-p: -1.
Class creating a linear binning, used in the histogram manager.
static AliAnalysisTaskChargedParticlesRef * AddTaskChargedParticlesRef(const TString &suffix)
Pre-configure task so that it can be used in subwagons.
void FillTH2(const char *hname, double x, double y, double weight=1., Option_t *opt="")
Fill a 2D histogram within the container.
virtual void SaveQAObjects(TList *outputList)
TCanvas * c
Definition: TestFitELoss.C:172
void AddStep(Double_t max, Double_t binwidth)
virtual void UserFillHistosBeforeEventSelection()
Implementation of framework function UserFillHistosBeforeEventSelection.
Interface for binnings used by the histogram handler.
Definition: TBinning.h:21
void SetOfflineTriggerSelection(AliEmcalTriggerOfflineSelection *sel)
Set an offline trigger selection.
AliClusterContainer * AddClusterContainer(const char *n)
Create new cluster container and attach it to the task.
void SetCaloTriggerPatchInfoName(const char *n)
bool IsExoticsTrigger(const TString &trg)
Check if the trigger is fired by an exotic cluster.
static AliEmcalTrackSelection * TrackCutsFactory(TString name, Bool_t isAOD)
Fully-configure EMCAL track selection independent of the data type.
Bool_t fStudyEMCALgeo
Add histograms for tracks pointing to the EMCAL acceptance.
void FillTHnSparse(const char *name, const double *x, double weight=1., Option_t *opt="")
static AliAnalysisTaskChargedParticlesRef * AddTaskChargedParticlesRefDefault(const TString &cutname="standard")
Fully configure task, not intended for subwagons. Using a default cut configuration.
TH2 * CreateTH2(const char *name, const char *title, int nbinsx, double xmin, double xmax, int nbinsy, double ymin, double ymax, Option_t *opt="")
Create a new TH2 within the container.
int Int_t
Definition: External.C:63
TString fNameClusterContainer
Name of the cluster container in the event.
Bool_t fStudyExoticTriggers
Switch on whether to study exotic triggers or not.
AliEMCALGeometry * fGeom
!emcal geometry
void SetEMCALTrackSelection(AliEmcalTrackSelection *sel)
Set the virtual track selection.
TH1 * CreateTH1(const char *name, const char *title, int nbins, double xmin, double xmax, Option_t *opt="")
Create a new TH1 within the container.
AliClusterContainer * GetClusterContainer(Int_t i=0) const
Get cluster container attached to this task.
Helper class creating user defined custom binning.
const Double_t ptmin
void FillTH1(const char *hname, double x, double weight=1., Option_t *opt="")
Fill a 1D histogram within the container.
Declaration of class AliEMCalTriggerExtraCuts.
virtual PWG::EMCAL::AliEmcalTrackSelResultPtr IsTrackAccepted(AliVTrack *const trk)=0
Interface for track selection code.
AliEmcalList * fOutput
!output list
Analysis of high- tracks in triggered events.
Double_t fVertex[3]
!event vertex
void FillPIDHistos(const TString &eventclass, const AliVTrack &track)
Fill PID-related histograms.
void FillTrackHistos(const TString &eventclass, const TString &histtag, Bool_t posCharge, Double_t pt, Double_t eta, Double_t etacent, Double_t phi, Bool_t inEmcal)
Fill track (kinematic) histograms.
TClonesArray * fTriggerPatchInfo
!trigger patch info array
void SetNeedEmcalGeom(Bool_t n)
void InitializeTrackCuts(TString cutname, bool isAOD)
Set the track selection.
Int_t fRunNumber
!run number (triggering RunChanged()
Bool_t fRequireTOFBunchCrossing
Require that the bunch crossing ID determined by TOF matches the bunch crossing ID of the event...
bool Bool_t
Definition: External.C:53
virtual void UserFillHistosAfterEventSelection()
Implementation of framework function UserFillHistosAfterEventSelection.
THnSparse * CreateTHnSparse(const char *name, const char *title, int ndim, const int *nbins, const double *min, const double *max, Option_t *opt="")
Create a new THnSparse within the container.
std::vector< TString > GetSupportedTriggers(Bool_t useExclusiveTriggers=true) const
static AliEmcalTriggerOfflineSelection * TriggerSelectionFactory(Double_t el0, Double_t eg1, Double_t eg2, Double_t ej1, Double_t ej2, AliEmcalTriggerOfflineSelection::EmcalEnergyDefinition_t endef=AliEmcalTriggerOfflineSelection::kFEEEnergy)
Configures EMCAL trigger offline selection used to restrict EMCAL triggered sample.
void SetMinimum(Double_t min)