1 //_________________________________________________________________________
2 // Utility Class for transverse energy studies, charged hadrons
3 // Base class for MC analysis
7 //Created by Christine Nattrass, Rebecca Scott, Irakli Martashvili
8 //University of Tennessee at Knoxville
9 //_________________________________________________________________________
10 #include "AliAnalysisHadEtMonteCarlo.h"
11 #include "AliAnalysisEtCuts.h"
14 #include "AliMCEvent.h"
15 #include "AliESDEvent.h"
16 #include "AliESDtrackCuts.h"
17 #include "AliESDpid.h"
19 #include "AliESDtrack.h"
20 #include "AliVParticle.h"
21 #include "AliAnalysisTask.h"
22 #include "AliAnalysisManager.h"
23 #include "AliAnalysisHadEtReconstructed.h"
24 #include "AliAnalysisHadEtCorrections.h"
25 #include "AliAnalysisEtCuts.h"
28 #include "AliAnalysisEtCommon.h"
29 #include "AliCentrality.h"
31 #include "AliPWG0Helper.h"
32 //class AliPWG0Helper;
33 //#include "$ALICE_ROOT/PWG0/AliPWG0Helper.h"
37 ClassImp(AliAnalysisHadEtMonteCarlo);
40 Int_t AliAnalysisHadEtMonteCarlo::fgNumSmearWidths = 4;
41 Float_t AliAnalysisHadEtMonteCarlo::fgSmearWidths[4] = {0.005,0.006,0.007,0.008};
43 AliAnalysisHadEtMonteCarlo::AliAnalysisHadEtMonteCarlo():AliAnalysisHadEt()
47 ,fSimPiKPEtShouldBeReco(0)
48 ,fSimPiKPEtShouldBeRecoPi(0)
49 ,fSimPiKPEtShouldBeRecoK(0)
50 ,fSimPiKPEtShouldBeRecoP(0)
52 ,fInvestigateSmearing(0)
58 ,fBaryonEnhancement(0)
63 ,kDoTriggerChecksOnly(0)
68 AliAnalysisHadEtMonteCarlo::~AliAnalysisHadEtMonteCarlo(){//destructor
69 if(fPtSmearer) delete fPtSmearer;
72 void AliAnalysisHadEtMonteCarlo::ResetEventValues(){//resetting event variables
73 AliAnalysisHadEt::ResetEventValues();
78 Int_t AliAnalysisHadEtMonteCarlo::AnalyseEvent(AliVEvent* ev,AliVEvent* ev2)
79 { // analyse MC and real event info
80 FillHisto1D("NEvents",0.5,1);
82 AliFatal("ERROR: Event does not exist");
85 AliMCEvent *mcEvent = dynamic_cast<AliMCEvent*>(ev);
86 AliESDEvent *realEvent = dynamic_cast<AliESDEvent*>(ev2);
87 if(!mcEvent || !realEvent){
88 AliFatal("ERROR: mcEvent or realEvent does not exist");
91 AliStack *stack = mcEvent->Stack();
93 fGoodEvent = kTRUE;//for p+p collisions if we made it this far we have a good event
94 if(fDataSet==20100){//If this is Pb+Pb
95 AliCentrality *centrality = realEvent->GetCentrality();
96 if(fNCentBins<21) fCentBin= centrality->GetCentralityClass10(fCentralityMethod);
97 else{ fCentBin= centrality->GetCentralityClass5(fCentralityMethod);}
98 if(fCentBin ==-1) fGoodEvent = kFALSE;//but for Pb+Pb events we don't want to count events where we did not find a centrality
101 if(kDoTriggerChecksOnly) return 1;//If we are only doing trigger checks, don't bother with all of the reconstructed stuff
103 if(kDoTriggerChecks && (!kIsOfflineV0AND ||!kIsOfflineMB ) ){return 1;}//In this case we are just after trigger efficiencies and don't care about the ET reconstructed.
104 AliESDpid *pID = new AliESDpid();//This is identified as a memory leak in valgrind but I delete this object so I think it may be a problem with AliESDpid.
106 //=============================================
108 //Roughly following $ALICE_ROOT/PWG0/dNdEta/AlidNdEtaCorrectionTask
110 //=============================================TPC&&ITS=============================================
111 //for investigating momentum smearing
112 Float_t pTtotalReco = 0.0;
113 Float_t pTtotalSim = 0.0;
114 Float_t eTtotalSimAll = 0.0;
115 Float_t eTtotalReco = 0.0;
116 Float_t eTtotalRecoEffCorr = 0.0;
117 Float_t eTtotalRecoEffBkgdCorr = 0.0;
118 Float_t eTtotalRecoBkgdCorr = 0.0;
119 Float_t eTtotalRecoUncorr = 0.0;
120 Float_t eTtotalRecoTotalUncorr = 0.0;
121 Float_t eTtotalRecoEffCorrPi = 0.0;
122 Float_t eTtotalRecoEffCorrK = 0.0;
123 Float_t eTtotalRecoEffCorrP = 0.0;
124 Float_t eTtotalRecoBkgd = 0.0;
125 Float_t eTtotalRecoPIDSmeared = 0.0;
126 Float_t eTtotalAsReconstructed = 0.0;
127 Float_t eTBkgdAsReconstructed = 0.0;
128 Float_t eTtotalAsReconstructedPi = 0.0;
129 Float_t eTtotalAsReconstructedP = 0.0;
130 Float_t eTtotalAsReconstructedK = 0.0;
131 Float_t eTtotalSim = 0.0;
133 TString *strTPC = new TString("TPC");
134 TString *strITS = new TString("ITS");
135 TString *strTPCITS = new TString("TPCITS");
136 Int_t lastcutset = 1;
137 if(fRequireITSHits) lastcutset = 2;
138 for(Int_t cutset=0;cutset<=lastcutset;cutset++){
139 TString *cutName = NULL;
140 TObjArray* list = NULL;
144 list = fEsdtrackCutsTPC->GetAcceptedTracks(realEvent);
148 list = fEsdtrackCutsITS->GetAcceptedTracks(realEvent);
152 list = fEsdtrackCutsITSTPC->GetAcceptedTracks(realEvent);
155 cerr<<"Error: cannot fill histograms!"<<endl;
158 Int_t nGoodTracks = list->GetEntries();
159 for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++)
161 AliESDtrack *track = dynamic_cast<AliESDtrack*> (list->At(iTrack));
164 Printf("ERROR: Could not get track %d", iTrack);
168 Float_t nSigmaPion,nSigmaProton,nSigmaKaon,nSigmaElectron;
169 pID->MakeTPCPID(track);
170 pID->MakeITSPID(track);
172 nSigmaPion = TMath::Abs(pID->NumberOfSigmasTPC(track,AliPID::kPion));
173 nSigmaProton = TMath::Abs(pID->NumberOfSigmasTPC(track,AliPID::kProton));
174 nSigmaKaon = TMath::Abs(pID->NumberOfSigmasTPC(track,AliPID::kKaon));
175 nSigmaElectron = TMath::Abs(pID->NumberOfSigmasTPC(track,AliPID::kElectron));
178 nSigmaPion = TMath::Abs(pID->NumberOfSigmasITS(track,AliPID::kPion));
179 nSigmaProton = TMath::Abs(pID->NumberOfSigmasITS(track,AliPID::kProton));
180 nSigmaKaon = TMath::Abs(pID->NumberOfSigmasITS(track,AliPID::kKaon));
181 nSigmaElectron = TMath::Abs(pID->NumberOfSigmasITS(track,AliPID::kElectron));
183 // bool isPion = (nSigmaPion<3.0 && nSigmaProton>2.0 && nSigmaKaon>2.0);
184 // bool isElectron = (nSigmaElectron<2.0 && nSigmaPion>4.0 && nSigmaProton>3.0 && nSigmaKaon>3.0);
185 // bool isKaon = (nSigmaPion>3.0 && nSigmaProton>2.0 && nSigmaKaon<2.0);
186 // bool isProton = (nSigmaPion>3.0 && nSigmaProton<2.0 && nSigmaKaon>2.0);
187 bool isPion = (nSigmaPion<3.0 && nSigmaProton>2.0 && nSigmaKaon>2.0);
188 bool isElectron = (nSigmaElectron<2.0 && nSigmaPion>4.0 && nSigmaProton>3.0 && nSigmaKaon>3.0);
189 bool isKaon = (nSigmaPion>3.0 && nSigmaProton>3.0 && nSigmaKaon<3.0 && track->Pt()<0.45);
190 bool isProton = (nSigmaPion>3.0 && nSigmaProton<3.0 && nSigmaKaon>3.0 && track->Pt()<0.9);
192 bool unidentified = (!isProton && !isKaon && !isElectron && !isPion);
193 if(cutset==1){//ITS dE/dx identification requires tighter cuts on the tracks and we don't gain much from that so we won't do it
200 Float_t dEdx = track->GetTPCsignal();
201 if(cutset==1) dEdx = track->GetITSsignal();
203 FillHisto2D(Form("dEdxAll%s",cutName->Data()),track->P(),dEdx,1.0);
205 UInt_t label = (UInt_t)TMath::Abs(track->GetLabel());
206 TParticle *simPart = stack->Particle(label);
208 Printf("no MC particle\n");
212 if(fInvestigateSmearing && cutset==2){
213 //calculates what we would measure for the pi/k/p et with background
214 eTtotalRecoTotalUncorr += Et(simPart);
216 eTtotalRecoEffBkgdCorr += Et(simPart) *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionPion(track->Pt(),fCentBin) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
217 eTtotalRecoBkgdCorr += Et(simPart) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
218 eTtotalRecoTotalUncorr += Et(simPart);
221 eTtotalRecoEffBkgdCorr += Et(simPart) *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionProton(track->Pt(),fCentBin) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
222 eTtotalRecoBkgdCorr += Et(simPart) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
225 eTtotalRecoEffBkgdCorr += Et(simPart) *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionKaon(track->Pt(),fCentBin) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
226 eTtotalRecoBkgdCorr += Et(simPart) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
229 eTtotalRecoEffBkgdCorr += Et(simPart) *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionHadron(track->Pt(),fCentBin) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
230 eTtotalRecoBkgdCorr += Et(simPart) * fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
232 //for calculating et as it's done in the reconstructed data
233 Float_t corrBkgd=0.0;
234 Float_t corrNotID=0.0;
235 Float_t corrNoID=0.0;// = fHadEtReco->GetCorrections()->GetNotIDCorrectionNoPID(track->Pt());
236 Float_t corrEff = 0.0;
237 Float_t corrEffNoID = 0.0;
240 corrBkgd = fHadEtReco->GetCorrections()->GetBackgroundCorrectionTPC(track->Pt());
241 corrEffNoID = fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionHadron(track->Pt(),fCentBin);
242 corrNotID = fHadEtReco->GetCorrections()->GetNotIDConstCorrectionTPC();
243 corrNoID = fHadEtReco->GetCorrections()->GetNotIDConstCorrectionTPCNoID();
246 corrBkgd = fHadEtReco->GetCorrections()->GetBackgroundCorrectionITS(track->Pt());
247 corrEffNoID = fHadEtReco->GetCorrections()->GetITSEfficiencyCorrectionHadron(track->Pt(),fCentBin);
248 corrNotID = fHadEtReco->GetCorrections()->GetNotIDConstCorrectionITS();
249 corrNoID = fHadEtReco->GetCorrections()->GetNotIDConstCorrectionITSNoID();
253 bool isprimary = stack->IsPhysicalPrimary(label);
254 if (TMath::Abs(track->Eta()) < fHadEtReco->GetCorrections()->GetEtaCut()){
256 et = Et(track->P(),track->Theta(),fgPiPlusCode,track->Charge());
257 corrEff = fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionPion(track->Pt(),fCentBin);
259 eTtotalAsReconstructed += et*corrBkgd*corrEff*corrNotID;
262 eTBkgdAsReconstructed += et*corrBkgd*corrEff*corrNotID;
266 et = Et(track->P(),track->Theta(),fgKPlusCode,track->Charge());
267 corrEff = fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionKaon(track->Pt(),fCentBin);
269 eTtotalAsReconstructed += et*corrBkgd*corrEff*corrNotID;
272 eTBkgdAsReconstructed += et*corrBkgd*corrEff*corrNotID;
276 et = Et(track->P(),track->Theta(),fgProtonCode,track->Charge());
277 corrEff = fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionProton(track->Pt(),fCentBin);
279 eTtotalAsReconstructed += et*corrBkgd*corrEff*corrNotID;
282 eTBkgdAsReconstructed += et*corrBkgd*corrEff*corrNotID;
286 et = Et(track->P(),track->Theta(),fgPiPlusCode,track->Charge());
287 corrEff = fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionHadron(track->Pt(),fCentBin);
289 eTtotalAsReconstructed += et*corrBkgd*corrEff*corrNotID;
292 eTBkgdAsReconstructed += et*corrBkgd*corrEff*corrNotID;
295 if(!isPion && !isProton && !isKaon && !unidentified){
296 eTBkgdAsReconstructed += et*corrBkgd*corrEff*corrNotID;
298 Int_t pdgCode = simPart->GetPDG(0)->PdgCode();
299 if(pdgCode==fgPiPlusCode ||pdgCode==fgPiMinusCode){eTtotalAsReconstructedPi+=et*corrBkgd*corrEff*corrNotID;}
300 if(pdgCode==fgKPlusCode ||pdgCode==fgKMinusCode){eTtotalAsReconstructedK+=et*corrBkgd*corrEff*corrNotID;}
301 if(pdgCode==fgProtonCode ||pdgCode==fgAntiProtonCode){eTtotalAsReconstructedP+=et*corrBkgd*corrEff*corrNotID;}
305 if(cutset==2) eTtotalSimAll += Et(simPart);
306 if(stack->IsPhysicalPrimary(label)){
307 if (TMath::Abs(simPart->Eta()) < fHadEtReco->GetCorrections()->GetEtaCut()){
308 Int_t pdgCode = simPart->GetPDG(0)->PdgCode();
310 if(pdgCode==AliAnalysisHadEt::fgPiPlusCode) mypid = 1;
311 if(pdgCode==fgProtonCode) mypid = 2;
312 if(pdgCode==fgKPlusCode) mypid = 3;
313 if(pdgCode==fgEPlusCode) mypid = 4;
314 if(pdgCode==fgPiMinusCode) mypid = 1;
315 if(pdgCode==fgAntiProtonCode) mypid = 2;
316 if(pdgCode==fgKMinusCode) mypid = 3;
317 if(pdgCode==fgEMinusCode) mypid = 4;
319 //for smearing investigations
320 if(fInvestigateSmearing && cutset==2){
321 pTtotalReco += simPart->Pt();
322 pTtotalSim += track->Pt();
323 eTtotalReco += Et(track->P(),track->Theta(),pdgCode,track->Charge());
324 eTtotalSim += Et(simPart);
327 //============Charged hadrons===================================
328 float myefficiencyCorrEt = 0.0;
331 if(pdgCode!=fgPiPlusCode && pdgCode!=fgPiMinusCode){
332 FillHisto2D(Form("MisidentifiedPIDs%s",cutName->Data()),1,mypid,1);
334 float myEt = Et(simPart);
335 if(fInvestigateSmearing && cutset==2){
336 eTtotalRecoPIDSmeared +=myEt;
337 eTtotalRecoEffCorr += myEt *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionPion(track->Pt(),fCentBin);
338 myefficiencyCorrEt = myEt * fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionPion(track->Pt(),fCentBin) ;
340 if( !fRunLightweight){
341 if(track->Charge()>0){ FillHisto2D(Form("EtReconstructed%sIdentifiedPiPlus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
342 else{ FillHisto2D(Form("EtReconstructed%sIdentifiedPiMinus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
344 FillHisto2D(Form("dEdxPion%s",cutName->Data()),track->P(),dEdx,1.0);
347 if(pdgCode!=fgProtonCode && pdgCode!=fgAntiProtonCode){
348 FillHisto2D(Form("MisidentifiedPIDs%s",cutName->Data()),2,mypid,1);
350 float myEt = Et(simPart);
351 if(fInvestigateSmearing && cutset==2){
352 eTtotalRecoPIDSmeared +=myEt;
353 eTtotalRecoEffCorr += myEt *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionProton(track->Pt(),fCentBin);
354 myefficiencyCorrEt = myEt * fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionProton(track->Pt(),fCentBin);
356 if( !fRunLightweight){
357 if(track->Charge()>0){ FillHisto2D(Form("EtReconstructed%sIdentifiedProton",cutName->Data()),track->Pt(),track->Eta(),myEt);}
358 else{ FillHisto2D(Form("EtReconstructed%sIdentifiedAntiProton",cutName->Data()),track->Pt(),track->Eta(),myEt);}
359 if(fBaryonEnhancement){
360 myEt = myEt*ProtonBaryonEnhancement(track->Pt());
361 if(track->Charge()>0){ FillHisto2D(Form("EtReconstructed%sIdentifiedProtonEnhanced",cutName->Data()),track->Pt(),track->Eta(),myEt);}
362 else{ FillHisto2D(Form("EtReconstructed%sIdentifiedAntiProtonEnhanced",cutName->Data()),track->Pt(),track->Eta(),myEt);}
365 FillHisto2D(Form("dEdxProton%s",cutName->Data()),track->P(),dEdx,1.0);
368 if(pdgCode!=fgKMinusCode && pdgCode!=fgKPlusCode){
369 FillHisto2D(Form("MisidentifiedPIDs%s",cutName->Data()),3,mypid,1);
371 float myEt = Et(simPart);
372 if(fInvestigateSmearing && cutset==2){
373 eTtotalRecoPIDSmeared +=myEt;
374 eTtotalRecoEffCorr += myEt *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionKaon(track->Pt(),fCentBin);
375 myefficiencyCorrEt = myEt * fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionKaon(track->Pt(),fCentBin);
377 if( !fRunLightweight){
378 if(track->Charge()>0){ FillHisto2D(Form("EtReconstructed%sIdentifiedKPlus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
379 else{ FillHisto2D(Form("EtReconstructed%sIdentifiedKMinus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
381 FillHisto2D(Form("dEdxKaon%s",cutName->Data()),track->P(),dEdx,1.0);
384 if(pdgCode!=fgEMinusCode && pdgCode!=fgEPlusCode){
385 FillHisto2D(Form("MisidentifiedPIDs%s",cutName->Data()),4,mypid,1);
387 if( !fRunLightweight){
388 float myEt = Et(simPart);
389 if(track->Charge()>0){ FillHisto2D(Form("EtReconstructed%sIdentifiedEPlus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
390 else{ FillHisto2D(Form("EtReconstructed%sIdentifiedEMinus",cutName->Data()),track->Pt(),track->Eta(),myEt);}
392 FillHisto2D(Form("dEdxElectron%s",cutName->Data()),track->P(),dEdx,1.0);
395 if(pdgCode!=fgEMinusCode && pdgCode!=fgEPlusCode){
396 float myEtPi = Et(simPart,fgPionMass);
397 float myEtP = Et(simPart,fgProtonMass);
398 float myEtK = Et(simPart,fgKaonMass);
399 float myEt = Et(simPart);
400 if(fInvestigateSmearing && cutset==2){
401 eTtotalRecoPIDSmeared +=myEtPi;
402 eTtotalRecoEffCorr += myEt *fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionHadron(track->Pt(),fCentBin);
403 myefficiencyCorrEt = myEt * fHadEtReco->GetCorrections()->GetTPCEfficiencyCorrectionHadron(track->Pt(),fCentBin);
405 if( !fRunLightweight){
406 FillHisto2D(Form("EtReconstructed%sUnidentifiedAssumingPion",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
407 FillHisto2D(Form("EtReconstructed%sUnidentifiedAssumingProton",cutName->Data()),track->Pt(),track->Eta(),myEtP);
408 FillHisto2D(Form("EtReconstructed%sUnidentifiedAssumingKaon",cutName->Data()),track->Pt(),track->Eta(),myEtK);
409 FillHisto2D(Form("EtReconstructed%sUnidentified",cutName->Data()),track->Pt(),track->Eta(),myEt);
410 FillHisto2D(Form("EtNReconstructed%sUnidentified",cutName->Data()),track->Pt(),track->Eta(),1.0);
411 if(pdgCode == fgPiPlusCode||pdgCode == fgPiMinusCode){
412 FillHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingPion",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
413 FillHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingProton",cutName->Data()),track->Pt(),track->Eta(),myEtP);
414 FillHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingKaon",cutName->Data()),track->Pt(),track->Eta(),myEtK);
415 FillHisto2D(Form("EtReconstructed%sUnidentifiedPion",cutName->Data()),track->Pt(),track->Eta(),myEt);
416 FillHisto2D(Form("EtNReconstructed%sUnidentifiedPion",cutName->Data()),track->Pt(),track->Eta(),1.0);
418 if(pdgCode == fgKPlusCode||pdgCode == fgKMinusCode){
419 FillHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingPion",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
420 FillHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingProton",cutName->Data()),track->Pt(),track->Eta(),myEtP);
421 FillHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingKaon",cutName->Data()),track->Pt(),track->Eta(),myEtK);
422 FillHisto2D(Form("EtReconstructed%sUnidentifiedKaon",cutName->Data()),track->Pt(),track->Eta(),myEt);
423 FillHisto2D(Form("EtNReconstructed%sUnidentifiedKaon",cutName->Data()),track->Pt(),track->Eta(),1.0);
425 if(pdgCode == fgProtonCode||pdgCode == fgAntiProtonCode){
426 FillHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingPion",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
427 FillHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingProton",cutName->Data()),track->Pt(),track->Eta(),myEtP);
428 FillHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingKaon",cutName->Data()),track->Pt(),track->Eta(),myEtK);
429 FillHisto2D(Form("EtReconstructed%sUnidentifiedProton",cutName->Data()),track->Pt(),track->Eta(),myEt);
430 FillHisto2D(Form("EtNReconstructed%sUnidentifiedProton",cutName->Data()),track->Pt(),track->Eta(),1.0);
431 if(fBaryonEnhancement){
432 myEt = myEt*ProtonBaryonEnhancement(track->Pt());
433 FillHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingPionEnhanced",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
434 FillHisto2D(Form("EtReconstructed%sUnidentifiedProtonEnhanced",cutName->Data()),track->Pt(),track->Eta(),myEt);
435 FillHisto2D(Form("EtNReconstructed%sUnidentifiedProtonEnhanced",cutName->Data()),track->Pt(),track->Eta(),1.0);
440 FillHisto2D(Form("dEdxUnidentified%s",cutName->Data()),track->P(),dEdx,1.0);
441 FillHisto1D(Form("UnidentifiedPIDs%s",cutName->Data()),mypid,1);
444 float myEtSim = Et(simPart);
445 float myEtReco = 0.0;
446 if(pdgCode == fgPiPlusCode){
447 float myEt = Et(simPart);
448 float myEtP = Et(simPart,fgProtonMass);
449 float myEtK = Et(simPart,fgKaonMass);
450 myEtReco = Et(track->P(),track->Theta(),fgPiPlusCode,track->Charge());
451 float pT = simPart->Pt();
452 float eta = simPart->Eta();
453 if(fInvestigateSmearing && cutset==2){
454 eTtotalRecoEffCorrPi+=myefficiencyCorrEt;
455 eTtotalRecoUncorr +=myEt;
457 if(fUseRecoPt){//Then we switch the pT and the Et
462 if( !fRunLightweight){
463 FillHisto2D(Form("EtReconstructed%sPiPlus",cutName->Data()),pT,eta,myEt);
464 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
465 FillHisto2D(Form("EtNReconstructed%sPiPlus",cutName->Data()),pT,eta,myEt);
466 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
467 if(fCentBin>=0){//if a centrality bin was defined
468 FillHisto2D(Form("EtNReconstructed%sPiPlusCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
469 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
471 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEt);
472 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEtP);
473 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEtK);
474 FillHisto2D(Form("EtReconstructed%sPiPlusAssumingKaon",cutName->Data()),pT,eta,myEtK);
475 FillHisto2D(Form("EtReconstructed%sPiPlusAssumingProton",cutName->Data()),pT,eta,myEtP);
479 if(pdgCode == fgPiMinusCode){
480 float myEt = Et(simPart);
481 float myEtP = Et(simPart,fgProtonMass);
482 float myEtK = Et(simPart,fgKaonMass);
483 myEtReco = Et(track->P(),track->Theta(),fgPiMinusCode,track->Charge());
484 float pT = simPart->Pt();
485 float eta = simPart->Eta();
486 if(fInvestigateSmearing && cutset==2){
487 eTtotalRecoEffCorrPi+=myefficiencyCorrEt;
488 eTtotalRecoUncorr +=myEt;
490 if(fUseRecoPt){//Then we switch the pT and the Et
495 if( !fRunLightweight){
496 FillHisto2D(Form("EtReconstructed%sPiMinus",cutName->Data()),pT,eta,myEt);
497 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
498 FillHisto2D(Form("EtNReconstructed%sPiMinus",cutName->Data()),pT,eta,myEt);
499 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
500 if(fCentBin>=0){//if a centrality bin was defined
501 FillHisto2D(Form("EtNReconstructed%sPiMinusCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
502 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
504 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEt);
505 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEtP);
506 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEtK);
507 FillHisto2D(Form("EtReconstructed%sPiMinusAssumingKaon",cutName->Data()),pT,eta,myEtK);
508 FillHisto2D(Form("EtReconstructed%sPiMinusAssumingProton",cutName->Data()),pT,eta,myEtP);
512 if(pdgCode == fgKPlusCode){
513 float myEt = Et(simPart);
514 float myEtPi = Et(simPart,fgPionMass);
515 float myEtP = Et(simPart,fgProtonMass);
516 myEtReco = Et(track->P(),track->Theta(),fgKPlusCode,track->Charge());
517 float pT = simPart->Pt();
518 float eta = simPart->Eta();
519 if(fUseRecoPt){//Then we switch the pT and the Et
524 if(fInvestigateSmearing && cutset==2){
525 eTtotalRecoEffCorrK+=myefficiencyCorrEt;
526 eTtotalRecoUncorr +=myEt;
528 if( !fRunLightweight){
529 FillHisto2D(Form("EtReconstructed%sKPlus",cutName->Data()),pT,eta,myEt);
530 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
531 FillHisto2D(Form("EtNReconstructed%sKPlus",cutName->Data()),pT,eta,myEt);
532 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
533 if(fCentBin>=0){//if a centrality bin was defined
534 FillHisto2D(Form("EtNReconstructed%sKPlusCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
535 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
537 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEtPi);
538 FillHisto2D(Form("EtReconstructed%sKPlusAssumingPion",cutName->Data()),pT,eta,myEtPi);
539 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEt);
540 FillHisto2D(Form("EtReconstructed%sKPlusAssumingKaon",cutName->Data()),pT,eta,myEt);
541 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEtP);
542 FillHisto2D(Form("EtReconstructed%sKPlusAssumingProton",cutName->Data()),pT,eta,myEtP);
546 if(pdgCode == fgKMinusCode){
547 float myEt = Et(simPart);
548 float myEtPi = Et(simPart,fgPionMass);
549 float myEtP = Et(simPart,fgProtonMass);
550 myEtReco = Et(track->P(),track->Theta(),fgKMinusCode,track->Charge());
551 float pT = simPart->Pt();
552 float eta = simPart->Eta();
553 if(fUseRecoPt){//Then we switch the pT and the Et
558 if(fInvestigateSmearing && cutset==2){
559 eTtotalRecoEffCorrK+=myefficiencyCorrEt;
560 eTtotalRecoUncorr +=myEt;
562 if( !fRunLightweight){
563 FillHisto2D(Form("EtReconstructed%sKMinus",cutName->Data()),pT,eta,myEt);
564 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
565 FillHisto2D(Form("EtNReconstructed%sKMinus",cutName->Data()),pT,eta,myEt);
566 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
567 if(fCentBin>=0){//if a centrality bin was defined
568 FillHisto2D(Form("EtNReconstructed%sKMinusCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
569 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
571 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEtPi);
572 FillHisto2D(Form("EtReconstructed%sKMinusAssumingPion",cutName->Data()),pT,eta,myEtPi);
573 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEt);
574 FillHisto2D(Form("EtReconstructed%sKMinusAssumingKaon",cutName->Data()),pT,eta,myEt);
575 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEtP);
576 FillHisto2D(Form("EtReconstructed%sKMinusAssumingProton",cutName->Data()),pT,eta,myEtP);
580 if(pdgCode == fgProtonCode){
581 float myEt = Et(simPart);
582 float myEtPi = Et(simPart,fgPionMass);
583 float myEtK = Et(simPart,fgKaonMass);
584 myEtReco = Et(track->P(),track->Theta(),fgProtonCode,track->Charge());
585 float pT = simPart->Pt();
586 float eta = simPart->Eta();
587 if(fUseRecoPt){//Then we switch the pT and the Et
592 if(fInvestigateSmearing && cutset==2){
593 eTtotalRecoEffCorrP+=myefficiencyCorrEt;
594 eTtotalRecoUncorr +=myEt;
596 if( !fRunLightweight){
597 FillHisto2D(Form("EtReconstructed%sProton",cutName->Data()),pT,eta,myEt);
598 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
599 FillHisto2D(Form("EtNReconstructed%sProton",cutName->Data()),pT,eta,myEt);
600 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
601 if(fCentBin>=0){//if a centrality bin was defined
602 FillHisto2D(Form("EtNReconstructed%sProtonCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
603 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
605 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEtPi);
606 FillHisto2D(Form("EtReconstructed%sProtonAssumingPion",cutName->Data()),pT,eta,myEtPi);
607 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEtK);
608 FillHisto2D(Form("EtReconstructed%sProtonAssumingKaon",cutName->Data()),pT,eta,myEtK);
609 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEt);
610 FillHisto2D(Form("EtReconstructed%sProtonAssumingProton",cutName->Data()),pT,eta,myEt);
614 if( !fRunLightweight){
615 if(fBaryonEnhancement){
616 float enhancement = ProtonBaryonEnhancement(track->Pt());
617 FillHisto2D(Form("EtReconstructed%sProtonEnhanced",cutName->Data()),pT,eta,myEt*enhancement);
618 FillHisto2D(Form("EtNReconstructed%sProtonEnhanced",cutName->Data()),pT,eta,myEt*enhancement);
619 FillHisto2D(Form("EtReconstructed%sProtonAssumingPionEnhanced",cutName->Data()),pT,eta,myEtPi*enhancement);
624 if(pdgCode == fgAntiProtonCode){
625 float myEt = Et(simPart);
626 float myEtPi = Et(simPart,fgPionMass);
627 float myEtK = Et(simPart,fgKaonMass);
628 myEtReco = Et(track->P(),track->Theta(),fgAntiProtonCode,track->Charge());
629 float pT = simPart->Pt();
630 float eta = simPart->Eta();
631 if(fUseRecoPt){//Then we switch the pT and the Et
636 if(fInvestigateSmearing && cutset==2){
637 eTtotalRecoEffCorrP+=myefficiencyCorrEt;
638 eTtotalRecoUncorr +=myEt;
640 if( !fRunLightweight){
641 FillHisto2D(Form("EtReconstructed%sAntiProton",cutName->Data()),pT,eta,myEt);
642 FillHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
643 FillHisto2D(Form("EtNReconstructed%sAntiProton",cutName->Data()),pT,eta,myEt);
644 FillHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),pT,eta,myEt);
645 if(fCentBin>=0){//if a centrality bin was defined
646 FillHisto2D(Form("EtNReconstructed%sAntiProtonCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
647 FillHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),fCentBin),pT,eta,myEt);
649 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),pT,eta,myEtPi);
650 FillHisto2D(Form("EtReconstructed%sAntiProtonAssumingPion",cutName->Data()),pT,eta,myEtPi);
651 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),pT,eta,myEtK);
652 FillHisto2D(Form("EtReconstructed%sAntiProtonAssumingKaon",cutName->Data()),pT,eta,myEtK);
653 FillHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),pT,eta,myEt);
654 FillHisto2D(Form("EtReconstructed%sAntiProtonAssumingProton",cutName->Data()),pT,eta,myEt);
657 if( !fRunLightweight){
658 if(fBaryonEnhancement){
659 float enhancement = ProtonBaryonEnhancement(track->Pt());
660 FillHisto2D(Form("EtReconstructed%sAntiProtonEnhanced",cutName->Data()),pT,eta,myEt*enhancement);
661 FillHisto2D(Form("EtNReconstructed%sAntiProtonEnhanced",cutName->Data()),pT,eta,myEt*enhancement);
662 FillHisto2D(Form("EtReconstructed%sAntiProtonAssumingPionEnhanced",cutName->Data()),pT,eta,myEtPi*enhancement);
666 if(pdgCode == fgEPlusCode){
667 if( !fRunLightweight){
668 float myEt = Et(simPart);
669 FillHisto2D(Form("EtReconstructed%sEPlus",cutName->Data()),simPart->Pt(),simPart->Eta(),myEt);
670 if(!isElectron || unidentified){
671 float myEtPi = Et(simPart,fgPionMass);
672 FillHisto2D(Form("EtReconstructed%sMisidentifiedElectrons",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
677 if(pdgCode == fgEMinusCode){
678 if( !fRunLightweight){
679 if(!isElectron || unidentified){
680 float myEtPi = Et(simPart,fgPionMass);
681 FillHisto2D(Form("EtReconstructed%sMisidentifiedElectrons",cutName->Data()),track->Pt(),track->Eta(),myEtPi);
683 float myEt = Et(simPart);
684 FillHisto2D(Form("EtReconstructed%sEMinus",cutName->Data()),simPart->Pt(),simPart->Eta(),myEt);
688 if( !fRunLightweight){
689 if(myEtReco>0.0){FillHisto2D(Form("ETresolution%s",cutName->Data()),myEtReco,(myEtSim-myEtReco)/myEtReco,1.0);}
690 if(track->Pt()>0.0){FillHisto2D(Form("pTresolution%s",cutName->Data()),track->Pt(),(simPart->Pt() - track->Pt())/track->Pt(),1.0);}
691 if(track->P()>0.0){FillHisto2D(Form("presolution%s",cutName->Data()),track->P(),(simPart->P() - track->P())/track->P(),1.0);}
692 FillHisto1D(Form("pTsim%s",cutName->Data()),simPart->Pt(),1.0);
693 FillHisto1D(Form("pTrec%s",cutName->Data()),track->Pt(),1.0);
695 FillHisto1D(Form("pTsim%sCB%i",cutName->Data(),fCentBin),simPart->Pt(),1.0);
696 FillHisto1D(Form("pTrec%sCB%i",cutName->Data(),fCentBin),track->Pt(),1.0);
701 else{//not a primary - we're after V0 daughters!
702 bool written = false;
703 //now, what is the et we would measure for this? Since this is the relevant et.
705 if(isPion || unidentified) myrecoEt = Et(track->P(),track->Theta(),fgPiPlusCode,track->Charge());
706 if(isProton) myrecoEt = Et(track->P(),track->Theta(),fgProtonCode,track->Charge());
707 if(isKaon) myrecoEt = Et(track->P(),track->Theta(),fgKPlusCode,track->Charge());
708 if (TMath::Abs(simPart->Eta()) < fHadEtReco->GetCorrections()->GetEtaCut()){
709 TParticle *mom = stack->Particle(simPart->GetFirstMother());
711 TParticlePDG *pc = mom->GetPDG(0);
713 Int_t pdgCode = mom->GetPDG(0)->PdgCode();
714 if(pdgCode == fgLambdaCode){
716 float myEt = Et(simPart);
717 float pT = simPart->Pt();
718 float eta = simPart->Eta();
719 eTtotalRecoBkgd+=myEt;
720 if(fUseRecoPt){//Then we switch the pT and the Et
721 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
725 if( !fRunLightweight){
726 FillHisto2D(Form("EtReconstructed%sLambdaDaughters",cutName->Data()),pT,eta,myrecoEt);
727 Float_t weight = LambdaWeight(mom->Pt());
728 if(fBaryonEnhancement){
729 float enhancement = ProtonBaryonEnhancement(track->Pt());
730 weight = weight*enhancement;
732 FillHisto2D(Form("EtReconstructed%sLambdaDaughtersReweighted",cutName->Data()),pT,eta,myrecoEt*weight);
735 if(pdgCode == fgAntiLambdaCode){
737 float myEt = Et(simPart);
738 float pT = simPart->Pt();
739 float eta = simPart->Eta();
740 eTtotalRecoBkgd+=myEt;
741 if(fUseRecoPt){//Then we switch the pT and the Et
742 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
746 if( !fRunLightweight){
747 FillHisto2D(Form("EtReconstructed%sAntiLambdaDaughters",cutName->Data()),pT,eta,myrecoEt);
748 Float_t weight = AntiLambdaWeight(mom->Pt());
749 if(fBaryonEnhancement){
750 float enhancement = ProtonBaryonEnhancement(track->Pt());
751 weight = weight*enhancement;
753 FillHisto2D(Form("EtReconstructed%sAntiLambdaDaughtersReweighted",cutName->Data()),pT,eta,myrecoEt*weight);
756 if(pdgCode == fgK0SCode || pdgCode == fgK0LCode || pdgCode == fgKPlusCode || pdgCode == fgKMinusCode){//actually get all kaon daughters
758 float myEt = Et(simPart);
759 float pT = simPart->Pt();
760 float eta = simPart->Eta();
761 eTtotalRecoBkgd+=myEt;
762 if(fUseRecoPt){//Then we switch the pT and the Et
763 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
767 if( !fRunLightweight){
768 FillHisto2D(Form("EtReconstructed%sK0SDaughters",cutName->Data()),pT,eta,myEt);
769 Float_t weight = K0Weight(mom->Pt());
770 FillHisto2D(Form("EtReconstructed%sK0SDaughtersReweighted",cutName->Data()),pT,eta,myrecoEt*weight);
773 if(pdgCode == fgXiCode){
775 float myEt = Et(simPart);
776 float pT = simPart->Pt();
777 float eta = simPart->Eta();
778 eTtotalRecoBkgd+=myEt;
779 if(fUseRecoPt){//Then we switch the pT and the Et
780 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
784 if( !fRunLightweight){
785 FillHisto2D(Form("EtReconstructed%sXiDaughters",cutName->Data()),pT,eta,myrecoEt);
788 if(pdgCode == fgAntiXiCode){
790 float myEt = Et(simPart);
791 float pT = simPart->Pt();
792 float eta = simPart->Eta();
793 eTtotalRecoBkgd+=myEt;
794 if(fUseRecoPt){//Then we switch the pT and the Et
795 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
799 if( !fRunLightweight){
800 FillHisto2D(Form("EtReconstructed%sAntiXiDaughters",cutName->Data()),pT,eta,myrecoEt);
803 if(pdgCode == fgOmegaCode){
805 float myEt = Et(simPart);
806 float pT = simPart->Pt();
807 float eta = simPart->Eta();
808 eTtotalRecoBkgd+=myEt;
809 if(fUseRecoPt){//Then we switch the pT and the Et
810 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
814 if( !fRunLightweight){
815 FillHisto2D(Form("EtReconstructed%sOmegaDaughters",cutName->Data()),pT,eta,myrecoEt);
818 if(pdgCode == fgXiCode){
820 float myEt = Et(simPart);
821 float pT = simPart->Pt();
822 float eta = simPart->Eta();
823 eTtotalRecoBkgd+=myEt;
824 if(fUseRecoPt){//Then we switch the pT and the Et
825 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
829 if( !fRunLightweight){
830 FillHisto2D(Form("EtReconstructed%sAntiOmegaDaughters",cutName->Data()),pT,eta,myrecoEt);
834 if(mom->GetFirstMother()>0){
835 TParticle *grandma = stack->Particle(mom->GetFirstMother());
837 Int_t pdgCodeMom = mom->GetPDG(0)->PdgCode();
838 if(pdgCodeMom==fgPiPlusCode || pdgCodeMom==fgPiMinusCode || pdgCodeMom==fgProtonCode ||pdgCodeMom==fgAntiProtonCode || pdgCodeMom==fgKPlusCode || pdgCode==fgKMinusCode){
839 Int_t pdgCodeGrandma = grandma->GetPDG(0)->PdgCode();
841 if(pdgCodeGrandma == fgXiCode){
843 float myEt = Et(simPart);
844 float pT = simPart->Pt();
845 float eta = simPart->Eta();
846 eTtotalRecoBkgd+=myEt;
847 if(fUseRecoPt){//Then we switch the pT and the Et
848 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
852 if( !fRunLightweight){
853 FillHisto2D(Form("EtReconstructed%sXiDaughters",cutName->Data()),pT,eta,myrecoEt);
856 if(pdgCodeGrandma == fgAntiXiCode){
858 float myEt = Et(simPart);
859 float pT = simPart->Pt();
860 float eta = simPart->Eta();
861 eTtotalRecoBkgd+=myEt;
862 if(fUseRecoPt){//Then we switch the pT and the Et
863 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
867 if( !fRunLightweight){
868 FillHisto2D(Form("EtReconstructed%sAntiXiDaughters",cutName->Data()),pT,eta,myrecoEt);
871 if(pdgCodeGrandma == fgOmegaCode){
873 float myEt = Et(simPart);
874 float pT = simPart->Pt();
875 float eta = simPart->Eta();
876 eTtotalRecoBkgd+=myEt;
877 if(fUseRecoPt){//Then we switch the pT and the Et
878 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
882 if( !fRunLightweight){
883 FillHisto2D(Form("EtReconstructed%sOmegaDaughters",cutName->Data()),pT,eta,myrecoEt);
886 if(pdgCodeGrandma == fgXiCode){
888 float myEt = Et(simPart);
889 float pT = simPart->Pt();
890 float eta = simPart->Eta();
891 eTtotalRecoBkgd+=myEt;
892 if(fUseRecoPt){//Then we switch the pT and the Et
893 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
897 if( !fRunLightweight){
898 FillHisto2D(Form("EtReconstructed%sAntiOmegaDaughters",cutName->Data()),pT,eta,myrecoEt);
906 int mycode = simPart->GetPDG(0)->PdgCode();
907 if( (pdgCode == fgGammaCode || pdgCode == fgPi0Code) && (mycode==fgEPlusCode||mycode==fgEMinusCode)){
909 float myEt = Et(simPart);
910 float pT = simPart->Pt();
911 float eta = simPart->Eta();
912 eTtotalRecoBkgd+=myEt;
913 if(fUseRecoPt){//Then we switch the pT and the Et
914 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
918 if( !fRunLightweight){
919 FillHisto2D(Form("EtReconstructed%sConversionElectrons",cutName->Data()),pT,eta,myrecoEt);
922 if(mycode==fgMuPlusCode || mycode==fgMuMinusCode){
924 float myEt = Et(simPart);
925 float pT = simPart->Pt();
926 float eta = simPart->Eta();
927 eTtotalRecoBkgd+=myEt;
928 if(fUseRecoPt){//Then we switch the pT and the Et
929 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
933 if( !fRunLightweight){
934 FillHisto2D(Form("EtReconstructed%sSecondaryMuons",cutName->Data()),pT,eta,myrecoEt);
937 if(mycode==fgPiPlusCode || mycode==fgPiMinusCode){
939 float myEt = Et(simPart);
940 float pT = simPart->Pt();
941 float eta = simPart->Eta();
942 eTtotalRecoBkgd+=myEt;
943 if(fUseRecoPt){//Then we switch the pT and the Et
944 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
948 if( !fRunLightweight){
949 FillHisto2D(Form("EtReconstructed%sSecondaryPions",cutName->Data()),pT,eta,myrecoEt);
952 if(mycode==fgAntiProtonCode || mycode==fgProtonCode){
954 float myEt = Et(simPart);
955 float pT = simPart->Pt();
956 float eta = simPart->Eta();
957 eTtotalRecoBkgd+=myEt;
958 if(fUseRecoPt){//Then we switch the pT and the Et
959 myEt = Et(track->P(),track->Theta(),simPart->GetPDG(0)->PdgCode(),track->Charge());
963 if( !fRunLightweight){
964 FillHisto2D(Form("EtReconstructed%sSecondaryProtons",cutName->Data()),pT,eta,myrecoEt);
967 //if(!written) cout<<"I was not counted in the background and I am a "<<simPart->GetName()<<" and my mother is a "<<mom->GetName()<<endl;
970 else{cout<<"No particle code!! 657"<<endl;}
972 else{cout<<"No mother particle!! 658"<<endl;}
981 if(fInvestigateSmearing && !fRunLightweight){
982 if(fSimPiKPEtShouldBeReco>0.0) FillHisto2D("SimPiKPEtMinusSimEffCorrRecoOnly",fSimPiKPEtShouldBeReco,(fSimPiKPEtShouldBeReco-eTtotalRecoEffCorr)/fSimPiKPEtShouldBeReco,1.0);
983 if(fSimPiKPEtShouldBeReco>0.0) FillHisto2D("SimPiKPEtMinusSimEffBkgdCorrRecoOnly",fSimPiKPEtShouldBeReco,(fSimPiKPEtShouldBeReco-eTtotalRecoEffBkgdCorr)/fSimPiKPEtShouldBeReco,1.0);
984 if(fSimPiKPEtShouldBeRecoPi>0.0) FillHisto2D("SimPiKPEtMinusSimEffCorrRecoPiOnly",fSimPiKPEtShouldBeRecoPi,(fSimPiKPEtShouldBeRecoPi-eTtotalRecoEffCorrPi)/fSimPiKPEtShouldBeRecoPi,1.0);
985 if(fSimPiKPEtShouldBeRecoP>0.0) FillHisto2D("SimPiKPEtMinusSimEffCorrRecoPOnly",fSimPiKPEtShouldBeRecoP,(fSimPiKPEtShouldBeRecoP-eTtotalRecoEffCorrP)/fSimPiKPEtShouldBeRecoP,1.0);
986 if(fSimPiKPEtShouldBeRecoK>0.0) FillHisto2D("SimPiKPEtMinusSimEffCorrRecoKOnly",fSimPiKPEtShouldBeRecoK,(fSimPiKPEtShouldBeRecoK-eTtotalRecoEffCorrK)/fSimPiKPEtShouldBeRecoK,1.0);
987 if(eTtotalSim>0.0) FillHisto2D("SimPiKPEtMinusSimAllCorrSmearedRecoOnly",eTtotalSim,(eTtotalSim-eTtotalSimAll+eTtotalRecoBkgd)/eTtotalSim,1.0);
988 if(eTtotalRecoTotalUncorr>0.0) FillHisto2D("SimPiKPEtMeasMinusEtRealPiKP",eTtotalRecoTotalUncorr,(eTtotalRecoTotalUncorr-eTtotalRecoUncorr)/eTtotalRecoTotalUncorr,1.0);
989 if(eTtotalSim>0.0) FillHisto2D("SimPiKPEtMinusSimAllSmearedRecoOnly",eTtotalSim,(eTtotalSim-eTtotalSimAll)/eTtotalSim,1.0);
990 if(eTtotalSim>0.0) FillHisto2D("SimPiKPEtMinusSimPIDSmearedRecoOnly",eTtotalSim,(eTtotalSim-eTtotalRecoPIDSmeared*1.01)/eTtotalSim,1.0);
991 if(eTtotalSim>0.0) FillHisto2D("SimPiKPEtMinusSimSmearedRecoOnly",eTtotalSim,(eTtotalSim-eTtotalReco)/eTtotalSim,1.0);
992 if(pTtotalSim>0.0) FillHisto2D("SimPiKPPtMinusSimSmearedRecoOnly",pTtotalSim,(pTtotalSim-pTtotalReco)/pTtotalSim,1.0);
993 if(eTtotalSim>0.0) FillHisto2D("SimPiKPEtMinusSimSmearedMultRecoOnly",nReco,(eTtotalSim-eTtotalReco)/eTtotalSim,1.0);
994 if(pTtotalSim>0.0) FillHisto2D("SimPiKPPtMinusSimSmearedMultRecoOnly",nReco,(pTtotalSim-pTtotalReco)/pTtotalSim,1.0);
1002 Int_t AliAnalysisHadEtMonteCarlo::AnalyseEvent(AliVEvent* ev)
1003 { // analyse MC event
1006 AliFatal("ERROR: Event does not exist");
1010 // Get us an mc event
1011 AliMCEvent *mcEvent = dynamic_cast<AliMCEvent*>(ev);
1013 AliFatal("ERROR: MC Event does not exist");
1017 // Let's play with the stack!
1018 AliStack *stack = mcEvent->Stack();
1020 Int_t nPrim = stack->GetNtrack();
1022 Float_t fSimPiKPEtPtSmeared = 0;
1023 Float_t fSimPiKPEtEfficiencySmeared = 0;
1024 Float_t fSimPiKPEtPtCutSmearedTPC = 0;
1025 Float_t fSimPiKPEtPtCutSmearedITS = 0;
1026 Float_t fSimPiKPEtPIDSmeared = 0;
1027 Float_t fSimPiKPEtPIDSmearedNoID = 0;
1028 fSimPiKPEtShouldBeReco = 0;
1029 fSimPiKPEtShouldBeRecoPi = 0;
1030 fSimPiKPEtShouldBeRecoK = 0;
1031 fSimPiKPEtShouldBeRecoP = 0;
1032 //=================Tracks which may or may not have been reconstructed=================
1034 for (Int_t iPart = 0; iPart < nPrim; iPart++)
1037 TParticle *part = stack->Particle(iPart);//This line is identified as a loss of memory by valgrind, however, the pointer still belongs to the stack, so it's the stack's problem
1041 Printf("ERROR: Could not get particle %d", iPart);
1044 // Check if it is a primary particle
1045 if (stack->IsPhysicalPrimary(iPart)){//primaries
1047 if (TMath::Abs(part->Eta()) < fHadEtReco->GetCorrections()->GetEtaCut()) {
1049 Int_t pdgCode = part->GetPDG(0)->PdgCode();
1050 bool filled = false;
1051 //Investigating smearing...
1052 //Numbers are realistic correction factors from previous studies
1053 if(fInvestigateSmearing){
1054 if(pdgCode==fgPiPlusCode ||pdgCode==fgPiMinusCode ||pdgCode==fgKPlusCode ||pdgCode==fgKMinusCode ||pdgCode==fgProtonCode ||pdgCode==fgAntiProtonCode){
1055 //To investigate Smearing...
1056 Float_t myet = Et(part);
1058 Float_t theta = part->Theta();
1060 Float_t momentum = part->P();
1062 Float_t pSmeared = momentum * fPtSmearer->Gaus(1,0.005);//Gaussian centered around 1
1063 fSimPiKPEtPtSmeared += Et(pSmeared,theta,pdgCode,charge);
1064 //Efficiency smearing
1065 //to mock up the difference between TPC only tracks in p+p (~90% efficiency at high pT) and TPC+ITS tracks in Pb+Pb (about 70% efficiency at high pT) a factor of 7/9 was added in front
1066 float efficiency = 7.0/9.0*2.26545*TMath::Exp(-TMath::Power(9.99977e-01/part->Pt(),7.85488e-02));//simple rough efficiency from fitting curve
1067 if(fPtSmearer->Binomial(1,efficiency) ==1){
1068 fSimPiKPEtEfficiencySmeared += (1.0/efficiency)*myet;
1071 if(part->Pt()>0.10){fSimPiKPEtPtCutSmearedITS +=1.00988*myet;}
1072 if(part->Pt()>0.15){fSimPiKPEtPtCutSmearedTPC +=1.02994*myet;}
1074 fSimPiKPEtPIDSmearedNoID += 1.03018015790601458*Et(momentum,theta,fgPiPlusCode,charge);
1075 if(part->P()<1.0){//then the particle would have been ID'd
1076 fSimPiKPEtPIDSmeared += 1.00918051514628582*myet;
1078 else{//Then it would have been assumed to be a pion
1079 fSimPiKPEtPIDSmeared += 1.00918051514628582*Et(momentum,theta,fgPiPlusCode,charge);
1084 //============Charged hadrons===================================
1085 if(pdgCode == fgPiPlusCode){
1086 float myEt = Et(part);
1087 float myEtP = Et(part,fgProtonMass);
1088 float myEtK = Et(part,fgKaonMass);
1089 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1090 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoPi += myEt;
1096 if( !fRunLightweight){
1097 FillHisto2D("EtSimulatedPiPlus",part->Pt(),part->Eta(),myEt);
1098 FillHisto2D("EtNSimulatedPiPlus",part->Pt(),part->Eta(),1.0);
1099 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1100 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1101 if(fCentBin>=0){//if a centrality bin was defined
1102 FillHisto2D(Form("EtNSimulatedPiPlusCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1103 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1105 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEt);
1106 FillHisto2D("EtSimulatedChargedHadronAssumingProton",part->Pt(),part->Eta(),myEtP);
1107 FillHisto2D("EtSimulatedPiPlusAssumingProton",part->Pt(),part->Eta(),myEtP);
1108 FillHisto2D("EtSimulatedChargedHadronAssumingKaon",part->Pt(),part->Eta(),myEtK);
1109 FillHisto2D("EtSimulatedPiPlusAssumingKaon",part->Pt(),part->Eta(),myEtK);
1110 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1112 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1113 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1114 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1115 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1116 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1117 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1121 if(pdgCode == fgPiMinusCode){
1122 float myEt = Et(part);
1123 float myEtP = Et(part,fgProtonMass);
1124 float myEtK = Et(part,fgKaonMass);
1125 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1126 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoPi += myEt;
1129 if( !fRunLightweight){
1130 FillHisto2D("EtSimulatedPiMinus",part->Pt(),part->Eta(),myEt);
1131 FillHisto2D("EtNSimulatedPiMinus",part->Pt(),part->Eta(),1.0);
1132 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1133 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1134 if(fCentBin>=0){//if a centrality bin was defined
1135 FillHisto2D(Form("EtNSimulatedPiMinusCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1136 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1138 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEt);
1139 FillHisto2D("EtSimulatedChargedHadronAssumingProton",part->Pt(),part->Eta(),myEtP);
1140 FillHisto2D("EtSimulatedPiMinusAssumingProton",part->Pt(),part->Eta(),myEtP);
1141 FillHisto2D("EtSimulatedChargedHadronAssumingKaon",part->Pt(),part->Eta(),myEtK);
1142 FillHisto2D("EtSimulatedPiMinusAssumingKaon",part->Pt(),part->Eta(),myEtK);
1143 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1144 Short_t charge = -1;
1145 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1146 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1147 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1148 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1149 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1150 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1154 if(pdgCode == fgKPlusCode){
1155 float myEt = Et(part);
1156 float myEtPi = Et(part,fgPionMass);
1157 float myEtP = Et(part,fgProtonMass);
1158 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1159 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoK += myEt;
1162 if( !fRunLightweight){
1163 FillHisto2D("EtSimulatedKPlus",part->Pt(),part->Eta(),myEt);
1164 FillHisto2D("EtNSimulatedKPlus",part->Pt(),part->Eta(),1.0);
1165 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1166 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1167 if(fCentBin>=0){//if a centrality bin was defined
1168 FillHisto2D(Form("EtNSimulatedKPlusCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1169 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1171 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEtPi);
1172 FillHisto2D("EtSimulatedKPlusAssumingPion",part->Pt(),part->Eta(),myEtPi);
1173 FillHisto2D("EtSimulatedChargedHadronAssumingProton",part->Pt(),part->Eta(),myEtP);
1174 FillHisto2D("EtSimulatedKPlusAssumingProton",part->Pt(),part->Eta(),myEtP);
1175 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1177 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1178 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1179 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1180 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1181 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1182 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1186 if(pdgCode == fgKMinusCode){
1187 float myEt = Et(part);
1188 float myEtPi = Et(part,fgPionMass);
1189 float myEtP = Et(part,fgProtonMass);
1190 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1191 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoK += myEt;
1194 if( !fRunLightweight){
1195 FillHisto2D("EtSimulatedKMinus",part->Pt(),part->Eta(),myEt);
1196 FillHisto2D("EtNSimulatedKMinus",part->Pt(),part->Eta(),1.0);
1197 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1198 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1199 if(fCentBin>=0){//if a centrality bin was defined
1200 FillHisto2D(Form("EtNSimulatedKMinusCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1201 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1203 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEtPi);
1204 FillHisto2D("EtSimulatedKMinusAssumingPion",part->Pt(),part->Eta(),myEtPi);
1205 FillHisto2D("EtSimulatedChargedHadronAssumingProton",part->Pt(),part->Eta(),myEtP);
1206 FillHisto2D("EtSimulatedKMinusAssumingProton",part->Pt(),part->Eta(),myEtP);
1207 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1208 Short_t charge = -1;
1209 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1210 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1211 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1212 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1213 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1214 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1218 if(pdgCode == fgProtonCode){
1219 float myEt = Et(part);
1220 float myEtPi = Et(part,fgPionMass);
1221 float myEtK = Et(part,fgKaonMass);
1222 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1223 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoP += myEt;
1226 if( !fRunLightweight){
1227 FillHisto2D("EtSimulatedProton",part->Pt(),part->Eta(),myEt);
1228 FillHisto2D("EtNSimulatedProton",part->Pt(),part->Eta(),1.0);
1229 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1230 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1231 if(fCentBin>=0){//if a centrality bin was defined
1232 FillHisto2D(Form("EtNSimulatedProtonCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1233 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1235 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEtPi);
1236 FillHisto2D("EtSimulatedProtonAssumingPion",part->Pt(),part->Eta(),myEtPi);
1237 FillHisto2D("EtSimulatedChargedHadronAssumingKaon",part->Pt(),part->Eta(),myEtK);
1238 FillHisto2D("EtSimulatedProtonAssumingKaon",part->Pt(),part->Eta(),myEtK);
1239 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1241 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1242 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1243 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1244 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1245 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1246 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1249 if( !fRunLightweight){
1250 if(fBaryonEnhancement){
1251 float enhancement = ProtonBaryonEnhancement(part->Pt());
1252 FillHisto2D("EtSimulatedProtonEnhanced",part->Pt(),part->Eta(),myEt*enhancement);
1253 FillHisto2D("EtNSimulatedProtonEnhanced",part->Pt(),part->Eta(),1.0*enhancement);
1254 FillHisto2D("EtSimulatedProtonAssumingPionEnhanced",part->Pt(),part->Eta(),myEtPi*enhancement);
1258 if(pdgCode == fgAntiProtonCode){
1259 float myEt = Et(part);
1260 float myEtPi = Et(part,fgPionMass);
1261 float myEtK = Et(part,fgKaonMass);
1262 if(part->Pt()>0.15) fSimPiKPEtShouldBeReco += myEt;
1263 if(part->Pt()>0.15) fSimPiKPEtShouldBeRecoP += myEt;
1266 if( !fRunLightweight){
1267 FillHisto2D("EtSimulatedAntiProton",part->Pt(),part->Eta(),myEt);
1268 FillHisto2D("EtNSimulatedAntiProton",part->Pt(),part->Eta(),1.0);
1269 FillHisto2D("EtSimulatedChargedHadron",part->Pt(),part->Eta(),myEt);
1270 FillHisto2D("EtNSimulatedChargedHadron",part->Pt(),part->Eta(),1.0);
1271 if(fCentBin>=0){//if a centrality bin was defined
1272 FillHisto2D(Form("EtNSimulatedAntiProtonCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1273 FillHisto2D(Form("EtNSimulatedChargedHadronCB%i",fCentBin),part->Pt(),part->Eta(),1.0);
1275 FillHisto2D("EtSimulatedChargedHadronAssumingPion",part->Pt(),part->Eta(),myEtPi);
1276 FillHisto2D("EtSimulatedAntiProtonAssumingPion",part->Pt(),part->Eta(),myEtPi);
1277 FillHisto2D("EtSimulatedChargedHadronAssumingKaon",part->Pt(),part->Eta(),myEtK);
1278 FillHisto2D("EtSimulatedAntiProtonAssumingKaon",part->Pt(),part->Eta(),myEtK);
1279 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1280 Short_t charge = -1;
1281 Float_t myEtLow = Et(0.0,part->Theta(),pdgCode,charge);
1282 Float_t myEtITS = Et(0.10/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1283 Float_t myEtTPC = Et(0.15/TMath::Sin(part->Theta()),part->Theta(),pdgCode,charge);
1284 FillHisto2D("EtSimulatedChargedHadronAssumingNoPt",part->Pt(),part->Eta(),myEtLow);
1285 FillHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut",part->Pt(),part->Eta(),myEtTPC);
1286 FillHisto2D("EtSimulatedChargedHadronAssumingPtITSCut",part->Pt(),part->Eta(),myEtITS);
1289 if( !fRunLightweight){
1290 if(fBaryonEnhancement){
1291 float enhancement = ProtonBaryonEnhancement(part->Pt());
1292 FillHisto2D("EtSimulatedAntiProtonEnhanced",part->Pt(),part->Eta(),myEt*enhancement);
1293 FillHisto2D("EtNSimulatedAntiProtonEnhanced",part->Pt(),part->Eta(),1.0*enhancement);
1294 FillHisto2D("EtSimulatedAntiProtonAssumingPionEnhanced",part->Pt(),part->Eta(),myEtPi*enhancement);
1298 //============Other hadrons===================================
1300 if(pdgCode == fgNeutronCode){
1301 float myEt = Et(part);
1304 if( !fRunLightweight){
1305 FillHisto2D("EtSimulatedNeutron",part->Pt(),part->Eta(),myEt);
1306 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1310 if(pdgCode == fgAntiNeutronCode){
1311 float myEt = Et(part);
1314 if( !fRunLightweight){
1315 FillHisto2D("EtSimulatedAntiNeutron",part->Pt(),part->Eta(),myEt);
1316 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1320 if(pdgCode == fgLambdaCode){
1321 float myEt = Et(part);
1324 if( !fRunLightweight){
1325 FillHisto2D("EtSimulatedLambda",part->Pt(),part->Eta(),myEt);
1326 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1327 Float_t weight = LambdaWeight(part->Pt());
1328 if(fBaryonEnhancement){
1329 float enhancement = ProtonBaryonEnhancement(part->Pt());
1330 weight = weight*enhancement;
1332 FillHisto2D("EtSimulatedLambdaReweighted",part->Pt(),part->Eta(),myEt*weight);
1333 Int_t ndaughters = part->GetNDaughters();
1334 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1335 Int_t daughterindex = part->GetDaughter(idaughter);
1336 if(daughterindex<0 || daughterindex>1e5) continue;
1337 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1339 if(daughter->GetPDG(0)){
1340 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1341 if(daughtercode==fgPiMinusCode || daughtercode==fgProtonCode){
1342 myEt = Et(daughter);
1343 FillHisto2D("EtSimulatedLambdaDaughters",daughter->Pt(),daughter->Eta(),myEt);
1344 FillHisto2D("EtSimulatedLambdaDaughtersReweighted",daughter->Pt(),daughter->Eta(),myEt*weight);
1354 if(pdgCode == fgAntiLambdaCode){
1355 float myEt = Et(part);
1358 if( !fRunLightweight){
1359 FillHisto2D("EtSimulatedAntiLambda",part->Pt(),part->Eta(),myEt);
1360 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1361 Float_t weight = AntiLambdaWeight(part->Pt());
1362 if(fBaryonEnhancement){
1363 float enhancement = ProtonBaryonEnhancement(part->Pt());
1364 weight = weight*enhancement;
1366 FillHisto2D("EtSimulatedAntiLambdaReweighted",part->Pt(),part->Eta(),myEt*weight);
1367 Int_t ndaughters = part->GetNDaughters();
1368 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1369 Int_t daughterindex = part->GetDaughter(idaughter);
1370 if(daughterindex<0 || daughterindex>1e5) continue;
1371 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1373 if(daughter->GetPDG(0)){
1374 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1375 if(daughtercode==fgPiPlusCode || daughtercode==fgAntiProtonCode){
1376 myEt = Et(daughter);
1377 FillHisto2D("EtSimulatedAntiLambdaDaughters",daughter->Pt(),daughter->Eta(),myEt);
1378 FillHisto2D("EtSimulatedAntiLambdaDaughtersReweighted",daughter->Pt(),daughter->Eta(),myEt*weight);
1386 if(pdgCode == fgK0SCode){
1387 float myEt = Et(part);
1390 if( !fRunLightweight){
1391 FillHisto2D("EtSimulatedK0S",part->Pt(),part->Eta(),myEt);
1392 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1393 Float_t weight = K0Weight(part->Pt());
1394 FillHisto2D("EtSimulatedK0SReweighted",part->Pt(),part->Eta(),myEt*weight);
1395 Int_t ndaughters = part->GetNDaughters();
1396 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1397 Int_t daughterindex = part->GetDaughter(idaughter);
1398 if(daughterindex<0 || daughterindex>1e5) continue;
1399 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1401 if(daughter->GetPDG(0)){
1403 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1404 if(daughtercode==fgPiMinusCode || daughtercode==fgPiPlusCode){
1405 myEt = Et(daughter);
1406 FillHisto2D("EtSimulatedK0SDaughters",daughter->Pt(),daughter->Eta(),myEt);
1407 FillHisto2D("EtSimulatedK0SDaughtersReweighted",daughter->Pt(),daughter->Eta(),myEt*weight);
1415 if(pdgCode == fgK0LCode){
1416 float myEt = Et(part);
1419 if( !fRunLightweight){
1420 FillHisto2D("EtSimulatedK0L",part->Pt(),part->Eta(),myEt);
1421 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1422 Float_t weight = K0Weight(part->Pt());
1423 FillHisto2D("EtSimulatedK0LReweighted",part->Pt(),part->Eta(),myEt*weight);
1427 if(pdgCode == fgOmegaCode){
1428 float myEt = Et(part);
1431 if( !fRunLightweight){
1432 FillHisto2D("EtSimulatedOmega",part->Pt(),part->Eta(),myEt);
1433 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1434 Int_t ndaughters = part->GetNDaughters();
1435 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1436 Int_t daughterindex = part->GetDaughter(idaughter);
1437 if(daughterindex<0 || daughterindex>1e5) continue;
1438 TParticle *daughter = stack->Particle(daughterindex);
1440 if(daughter->GetPDG(0)){
1442 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1443 if(daughtercode==fgPiPlusCode || daughtercode==fgProtonCode || daughtercode==fgKMinusCode){
1444 myEt = Et(daughter);
1445 FillHisto2D("EtSimulatedOmegaDaughters",daughter->Pt(),daughter->Eta(),myEt);
1453 if(pdgCode == fgAntiOmegaCode){
1454 float myEt = Et(part);
1457 if( !fRunLightweight){
1458 FillHisto2D("EtSimulatedOmega",part->Pt(),part->Eta(),myEt);
1459 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1460 Int_t ndaughters = part->GetNDaughters();
1461 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1462 Int_t daughterindex = part->GetDaughter(idaughter);
1463 if(daughterindex<0 || daughterindex>1e5) continue;
1464 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1466 if(daughter->GetPDG(0)){
1467 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1468 if(daughtercode==fgPiMinusCode || daughtercode==fgAntiProtonCode || daughtercode==fgKPlusCode){
1469 myEt = Et(daughter);
1470 FillHisto2D("EtSimulatedAntiOmegaDaughters",daughter->Pt(),daughter->Eta(),myEt);
1478 //There are two codes for Sigmas
1479 if(pdgCode == fgSigmaCode || pdgCode == -3222){
1480 float myEt = Et(part);
1483 if( !fRunLightweight){
1484 FillHisto2D("EtSimulatedSigma",part->Pt(),part->Eta(),myEt);
1485 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1489 if(pdgCode == fgAntiSigmaCode || pdgCode == 3222){
1490 float myEt = Et(part);
1493 if( !fRunLightweight){
1494 FillHisto2D("EtSimulatedAntiSigma",part->Pt(),part->Eta(),myEt);
1495 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1499 if(pdgCode == fgXiCode){
1500 float myEt = Et(part);
1503 if( !fRunLightweight){
1504 FillHisto2D("EtSimulatedXi",part->Pt(),part->Eta(),myEt);
1505 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1506 Int_t ndaughters = part->GetNDaughters();
1507 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1508 Int_t daughterindex = part->GetDaughter(idaughter);
1509 if(daughterindex<0 || daughterindex>1e5 || daughterindex>1e5) continue;
1510 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1512 if(daughter->GetPDG(0)){
1514 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1515 if(daughtercode==fgPiPlusCode || daughtercode==fgProtonCode || daughtercode==fgPiMinusCode){
1516 myEt = Et(daughter);
1517 FillHisto2D("EtSimulatedXiDaughters",daughter->Pt(),daughter->Eta(),myEt);
1525 if(pdgCode == fgAntiXiCode){
1526 float myEt = Et(part);
1529 if( !fRunLightweight){
1530 FillHisto2D("EtSimulatedAntiXi",part->Pt(),part->Eta(),myEt);
1531 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1532 Int_t ndaughters = part->GetNDaughters();
1533 for(Int_t idaughter = 0;idaughter<ndaughters;idaughter++){
1534 Int_t daughterindex = part->GetDaughter(idaughter);
1535 if(daughterindex<0 || daughterindex>1e5) continue;
1536 TParticle *daughter = stack->ParticleFromTreeK(daughterindex);
1538 if(daughter->GetPDG(0)){
1539 Int_t daughtercode = daughter->GetPDG(0)->PdgCode();
1540 if(daughtercode==fgPiPlusCode || daughtercode==fgAntiProtonCode || daughtercode==fgPiMinusCode){
1541 myEt = Et(daughter);
1542 FillHisto2D("EtSimulatedAntiXiDaughters",daughter->Pt(),daughter->Eta(),myEt);
1550 if(pdgCode == fgXi0Code){
1551 float myEt = Et(part);
1554 if( !fRunLightweight){
1555 FillHisto2D("EtSimulatedXi0",part->Pt(),part->Eta(),myEt);
1556 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1560 if(pdgCode == fgAntiXi0Code){
1561 float myEt = Et(part);
1564 if( !fRunLightweight){
1565 FillHisto2D("EtSimulatedAntiXi0",part->Pt(),part->Eta(),myEt);
1566 FillHisto2D("EtSimulatedAllHadron",part->Pt(),part->Eta(),myEt);
1570 //============electrons===================================
1572 if(pdgCode == fgEPlusCode){
1573 float myEt = Et(part);
1575 if( !fRunLightweight){
1576 FillHisto2D("EtSimulatedEPlus",part->Pt(),part->Eta(),myEt);
1580 if(pdgCode == fgEMinusCode){
1581 float myEt = Et(part);
1583 if( !fRunLightweight){
1584 FillHisto2D("EtSimulatedEMinus",part->Pt(),part->Eta(),myEt);
1588 //============neutrals===================================
1589 if(pdgCode == fgGammaCode){
1590 TParticle *mom = NULL;
1591 Int_t pdgCodeMom = -99999999;
1594 if(part->GetFirstMother()){
1595 mom = stack->Particle(part->GetFirstMother());
1596 pdgCodeMom = mom->GetPDG(0)->PdgCode();
1597 momEta = mom->Eta();
1600 //We want to separate the gammas by pi0, eta, omega0 but we don't want to double count energy so we get the et from the gamma daughter
1601 if(pdgCodeMom == fgEtaCode){
1602 float myEt = Et(part);
1604 if( !fRunLightweight){
1605 FillHisto2D("EtSimulatedEta",mompT,momEta,myEt);
1609 if(pdgCodeMom == fgPi0Code){
1610 float myEt = Et(part);
1612 if( !fRunLightweight){
1613 FillHisto2D("EtSimulatedPi0",mompT,momEta,myEt);
1617 if(pdgCodeMom == fgOmega0Code){
1618 float myEt = Et(part);
1620 if( !fRunLightweight){
1621 FillHisto2D("EtSimulatedOmega0",mompT,momEta,myEt);
1626 float myEt = Et(part);
1628 if( !fRunLightweight){
1629 FillHisto2D("EtSimulatedGamma",part->Pt(),part->Eta(),myEt);
1634 if(pdgCode == fgEtaCode){
1635 float myEt = Et(part);
1637 if( !fRunLightweight){
1638 FillHisto2D("EtSimulatedEta",part->Pt(),part->Eta(),myEt);
1642 if(pdgCode == fgPi0Code){
1643 float myEt = Et(part);
1645 if( !fRunLightweight){
1646 FillHisto2D("EtSimulatedPi0",part->Pt(),part->Eta(),myEt);
1650 if(pdgCode == fgOmega0Code){
1651 float myEt = Et(part);
1653 if( !fRunLightweight){
1654 FillHisto2D("EtSimulatedOmega0",part->Pt(),part->Eta(),myEt);
1662 FillHisto1D("SimTotEt",fSimTotEt,1.0);
1663 FillHisto1D("SimHadEt",fSimHadEt,1.0);
1664 FillHisto1D("SimPiKPEt",fSimPiKPEt,1.0);
1665 if(fDataSet!=20100 && AliPWG0Helper::GetEventProcessType(mcEvent->Header()) == AliPWG0Helper::kND){
1666 FillHisto1D("SimHadEtND",fSimHadEt,1.0);
1667 FillHisto1D("SimTotEtND",fSimTotEt,1.0);
1668 FillHisto1D("NEventsND",0.5,1);
1669 FillHisto1D("SimPiKPEtND",fSimPiKPEt,1.0);
1670 if(kIsOfflineV0AND){
1671 FillHisto1D("SimHadEtNDV0AND",fSimHadEt,1.0);
1672 FillHisto1D("SimTotEtNDV0AND",fSimTotEt,1.0);
1673 FillHisto1D("NEventsNDV0AND",0.5,1);
1674 FillHisto1D("SimPiKPEtNDV0AND",fSimPiKPEt,1.0);
1677 FillHisto1D("SimHadEtNDMB",fSimHadEt,1.0);
1678 FillHisto1D("SimTotEtNDMB",fSimTotEt,1.0);
1679 FillHisto1D("NEventsNDMB",0.5,1);
1680 FillHisto1D("SimPiKPEtNDMB",fSimPiKPEt,1.0);
1683 if(fDataSet!=20100 && AliPWG0Helper::GetEventProcessType(mcEvent->Header()) == AliPWG0Helper::kSD){
1684 FillHisto1D("SimHadEtSD",fSimHadEt,1.0);
1685 FillHisto1D("SimTotEtSD",fSimTotEt,1.0);
1686 FillHisto1D("NEventsSD",0.5,1);
1687 FillHisto1D("SimPiKPEtSD",fSimPiKPEt,1.0);
1688 if(kIsOfflineV0AND){
1689 FillHisto1D("SimHadEtSDV0AND",fSimHadEt,1.0);
1690 FillHisto1D("SimTotEtSDV0AND",fSimTotEt,1.0);
1691 FillHisto1D("NEventsSDV0AND",0.5,1);
1692 FillHisto1D("SimPiKPEtSDV0AND",fSimPiKPEt,1.0);
1695 FillHisto1D("SimHadEtSDMB",fSimHadEt,1.0);
1696 FillHisto1D("SimTotEtSDMB",fSimTotEt,1.0);
1697 FillHisto1D("NEventsSDMB",0.5,1);
1698 FillHisto1D("SimPiKPEtSDMB",fSimPiKPEt,1.0);
1701 if(fDataSet!=20100 && AliPWG0Helper::GetEventProcessType(mcEvent->Header()) == AliPWG0Helper::kDD){
1702 FillHisto1D("SimHadEtDD",fSimHadEt,1.0);
1703 FillHisto1D("SimTotEtDD",fSimTotEt,1.0);
1704 FillHisto1D("NEventsDD",0.5,1);
1705 FillHisto1D("SimPiKPEtDD",fSimPiKPEt,1.0);
1706 if(kIsOfflineV0AND){
1707 FillHisto1D("SimHadEtDDV0AND",fSimHadEt,1.0);
1708 FillHisto1D("SimTotEtDDV0AND",fSimTotEt,1.0);
1709 FillHisto1D("NEventsDDV0AND",0.5,1);
1710 FillHisto1D("SimPiKPEtDDV0AND",fSimPiKPEt,1.0);
1713 FillHisto1D("SimHadEtDDMB",fSimHadEt,1.0);
1714 FillHisto1D("SimTotEtDDMB",fSimTotEt,1.0);
1715 FillHisto1D("NEventsDDMB",0.5,1);
1716 FillHisto1D("SimPiKPEtDDMB",fSimPiKPEt,1.0);
1719 if(fCentBin != -1){//if we have Pb+Pb and a centrality bin was found
1720 if(fSimTotEt>0.0) FillHisto1D(Form("SimTotEtCB%i",fCentBin),fSimTotEt,1.0);
1721 if(fSimHadEt>0.0) FillHisto1D(Form("SimHadEtCB%i",fCentBin),fSimHadEt,1.0);
1722 if(fSimPiKPEt>0.0)FillHisto1D(Form("SimPiKPEtCB%i",fCentBin),fSimPiKPEt,1.0);
1725 if(fInvestigateSmearing && !fRunLightweight){
1726 //Smearing histograms
1727 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimPtSmeared",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtPtSmeared)/fSimPiKPEt,1.0);
1728 FillHisto1D("SimPiKPEtPtSmeared",fSimPiKPEtPtSmeared,1.0);
1729 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimEfficiencySmeared",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtEfficiencySmeared)/fSimPiKPEt,1.0);
1730 FillHisto1D("SimPiKPEtEfficiencySmeared",fSimPiKPEtEfficiencySmeared,1.0);
1731 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimPtCutSmearedTPC",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtPtCutSmearedTPC)/fSimPiKPEt,1.0);
1732 FillHisto1D("SimPiKPEtPtCutSmearedTPC",fSimPiKPEtPtCutSmearedTPC,1.0);
1733 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimPtCutSmearedITS",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtPtCutSmearedITS)/fSimPiKPEt,1.0);
1734 FillHisto1D("SimPiKPEtPtCutSmearedITS",fSimPiKPEtPtCutSmearedTPC,1.0);
1735 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimPIDSmeared",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtPIDSmeared)/fSimPiKPEt,1.0);
1736 FillHisto1D("SimPiKPEtPIDSmeared",fSimPiKPEtPIDSmeared,1.0);
1737 if(fSimPiKPEt>0.0) FillHisto2D("SimPiKPEtMinusSimPIDSmearedNoID",fSimPiKPEt,(fSimPiKPEt-fSimPiKPEtPIDSmearedNoID)/fSimPiKPEt,1.0);
1738 FillHisto1D("SimPiKPEtPIDSmearedNoID",fSimPiKPEtPIDSmearedNoID,1.0);
1744 void AliAnalysisHadEtMonteCarlo::Init()
1746 AliAnalysisHadEt::Init();
1747 if(!fPtSmearer) fPtSmearer = new TRandom();
1749 void AliAnalysisHadEtMonteCarlo::CreateHistograms(){
1750 //for simulated Et only (no reconstruction)
1751 if( !fRunLightweight){
1752 CreateEtaPtHisto2D(TString("EtSimulatedPiPlus"),TString("Simulated E_{T} from #pi^{+}"));
1753 CreateEtaPtHisto2D("EtSimulatedPiMinus","Simulated E_{T} from #pi^{-}");
1754 CreateEtaPtHisto2D("EtSimulatedKPlus","Simulated E_{T} from K^{+}");
1755 CreateEtaPtHisto2D("EtSimulatedKMinus","Simulated E_{T} from K^{-}");
1756 CreateEtaPtHisto2D("EtSimulatedProton","Simulated E_{T} from p");
1757 CreateEtaPtHisto2D("EtSimulatedAntiProton","Simulated E_{T} from #bar{p}");//Both baryon enhancement and strangeness rescaling
1758 if(fBaryonEnhancement){
1759 CreateEtaPtHisto2D("EtSimulatedProtonEnhanced","Simulated E_{T} from p");
1760 CreateEtaPtHisto2D("EtSimulatedAntiProtonEnhanced","Simulated E_{T} from #bar{p}");
1762 CreateEtaPtHisto2D("EtSimulatedChargedHadron","Simulated E_{T} from charged hadrons");
1763 CreateEtaPtHisto2D("EtNSimulatedPiPlus","Number of Simulated #pi^{+}");
1764 CreateEtaPtHisto2D("EtNSimulatedPiMinus","Number of simulated #pi^{-}");
1765 CreateEtaPtHisto2D("EtNSimulatedKPlus","Number of simulated K^{+}");
1766 CreateEtaPtHisto2D("EtNSimulatedKMinus","Number of simulated K^{-}");
1767 CreateEtaPtHisto2D("EtNSimulatedProton","Number of simulated p");
1768 CreateEtaPtHisto2D("EtNSimulatedAntiProton","Number of simulated #bar{p}");
1769 if(fBaryonEnhancement){
1770 CreateEtaPtHisto2D("EtNSimulatedProtonEnhanced","Number of simulated p");
1771 CreateEtaPtHisto2D("EtNSimulatedAntiProtonEnhanced","Number of simulated #bar{p}");
1773 CreateEtaPtHisto2D("EtNSimulatedChargedHadron","Number of simulated charged hadrons");
1774 if(fDataSet==20100){//If this is Pb+Pb
1776 if(fNCentBins<21) width = 10;
1777 for(Int_t i=0;i<fNCentBins;i++){
1778 CreateEtaPtHisto2D(Form("EtNSimulatedPiPlusCB%i",i),Form("Number of Simulated #pi^{+} for %i-%i central",i*width,(i+1)*width));
1779 CreateEtaPtHisto2D(Form("EtNSimulatedPiMinusCB%i",i),Form("Number of simulated #pi^{-} for %i-%i central",i*width,(i+1)*width));
1780 CreateEtaPtHisto2D(Form("EtNSimulatedKPlusCB%i",i),Form("Number of simulated K^{+} for %i-%i central",i*width,(i+1)*width));
1781 CreateEtaPtHisto2D(Form("EtNSimulatedKMinusCB%i",i),Form("Number of simulated K^{-} for %i-%i central",i*width,(i+1)*width));
1782 CreateEtaPtHisto2D(Form("EtNSimulatedProtonCB%i",i),Form("Number of simulated p for %i-%i central",i*width,(i+1)*width));
1783 CreateEtaPtHisto2D(Form("EtNSimulatedAntiProtonCB%i",i),Form("Number of simulated #bar{p} for %i-%i central",i*width,(i+1)*width));
1784 CreateEtaPtHisto2D(Form("EtNSimulatedChargedHadronCB%i",i),Form("Number of simulated charged hadrons for %i-%i central",i*width,(i+1)*width));
1787 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingNoPt","Simulated E_{T} from charged hadrons assuming p_{T}=0");
1788 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingPtTPCCut","Simulated E_{T} from charged hadrons assuming p_{T}=0.15");
1789 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingPtITSCut","Simulated E_{T} from charged hadrons assuming p_{T}=0.10");
1791 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingPion","Simulated E_{T} from charged hadrons assuming they are all pions");
1792 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingProton","Simulated E_{T} from charged hadrons assuming they are all pions");
1793 CreateEtaPtHisto2D("EtSimulatedChargedHadronAssumingKaon","Simulated E_{T} from charged hadrons assuming they are all pions");
1794 CreateEtaPtHisto2D("EtSimulatedKPlusAssumingPion","Simulated E_{T} from K^{+} assuming #pi mass");
1795 CreateEtaPtHisto2D("EtSimulatedKMinusAssumingPion","Simulated E_{T} from K^{-} assuming #pi mass");
1796 CreateEtaPtHisto2D("EtSimulatedProtonAssumingPion","Simulated E_{T} from p assuming #pi mass");
1797 CreateEtaPtHisto2D("EtSimulatedAntiProtonAssumingPion","Simulated E_{T} from #bar{p} assuming #pi mass");
1798 CreateEtaPtHisto2D("EtSimulatedKPlusAssumingProton","Simulated E_{T} from K^{+} assuming #pi mass");
1799 CreateEtaPtHisto2D("EtSimulatedKMinusAssumingProton","Simulated E_{T} from K^{-} assuming #pi mass");
1800 CreateEtaPtHisto2D("EtSimulatedPiPlusAssumingProton","Simulated E_{T} from p assuming #pi mass");
1801 CreateEtaPtHisto2D("EtSimulatedPiMinusAssumingProton","Simulated E_{T} from #bar{p} assuming #pi mass");
1802 CreateEtaPtHisto2D("EtSimulatedPiPlusAssumingKaon","Simulated E_{T} from K^{+} assuming #pi mass");
1803 CreateEtaPtHisto2D("EtSimulatedPiMinusAssumingKaon","Simulated E_{T} from K^{-} assuming #pi mass");
1804 CreateEtaPtHisto2D("EtSimulatedProtonAssumingKaon","Simulated E_{T} from p assuming #pi mass");
1805 CreateEtaPtHisto2D("EtSimulatedAntiProtonAssumingKaon","Simulated E_{T} from #bar{p} assuming #pi mass");
1806 if(fBaryonEnhancement){
1807 CreateEtaPtHisto2D("EtSimulatedProtonAssumingPionEnhanced","Simulated E_{T} from p assuming #pi mass");
1808 CreateEtaPtHisto2D("EtSimulatedAntiProtonAssumingPionEnhanced","Simulated E_{T} from #bar{p} assuming #pi mass");
1811 CreateEtaPtHisto2D("EtSimulatedLambda","Simulated E_{T} from #Lambda");
1812 CreateEtaPtHisto2D("EtSimulatedAntiLambda","Simulated E_{T} from #bar{#Lambda}");
1813 CreateEtaPtHisto2D("EtSimulatedK0S","Simulated E_{T} from K^{0}_{S}");
1814 CreateEtaPtHisto2D("EtSimulatedK0L","Simulated E_{T} from K^{0}_{L}");
1815 CreateEtaPtHisto2D("EtSimulatedLambdaReweighted","Simulated E_{T} from #Lambda");//These will also be used for baryon enhancement
1816 CreateEtaPtHisto2D("EtSimulatedAntiLambdaReweighted","Simulated E_{T} from #bar{#Lambda}");
1817 CreateEtaPtHisto2D("EtSimulatedK0SReweighted","Simulated E_{T} from K^{0}_{S}");
1818 CreateEtaPtHisto2D("EtSimulatedK0LReweighted","Simulated E_{T} from K^{0}_{L}");
1819 CreateEtaPtHisto2D("EtSimulatedNeutron","Simulated E_{T} from neutrons");
1820 CreateEtaPtHisto2D("EtSimulatedAntiNeutron","Simulated E_{T} from #bar{n}");
1821 CreateEtaPtHisto2D("EtSimulatedEPlus","Simulated E_{T} from e^{+}");
1822 CreateEtaPtHisto2D("EtSimulatedEMinus","Simulated E_{T} from e^{-}");
1823 CreateEtaPtHisto2D("EtSimulatedOmega","Simulated E_{T} from #Omega^{-}");
1824 CreateEtaPtHisto2D("EtSimulatedAntiOmega","Simulated E_{T} from #Omega^{+}");
1825 CreateEtaPtHisto2D("EtSimulatedXi","Simulated E_{T} from #Xi^{-}");
1826 CreateEtaPtHisto2D("EtSimulatedAntiXi","Simulated E_{T} from #Xi^{+}");
1827 CreateEtaPtHisto2D("EtSimulatedSigma","Simulated E_{T} from #Xi^{-}");
1828 CreateEtaPtHisto2D("EtSimulatedAntiSigma","Simulated E_{T} from #Xi^{+}");
1829 CreateEtaPtHisto2D("EtSimulatedXi0","Simulated E_{T} from #Xi^{0}");
1830 CreateEtaPtHisto2D("EtSimulatedAntiXi0","Simulated E_{T} from #Xi^{0}");
1831 CreateEtaPtHisto2D("EtSimulatedAllHadron","Simulated E_{T} from all hadrons");
1834 CreateEtaPtHisto2D("EtSimulatedLambdaDaughters","Simulated E_{T} from #Lambda Daughters");
1835 CreateEtaPtHisto2D("EtSimulatedAntiLambdaDaughters","Simulated E_{T} from #bar{#Lambda} Daughters");
1836 CreateEtaPtHisto2D("EtSimulatedK0SDaughters","Simulated E_{T} from K^{0}_{S} Daughters");
1837 CreateEtaPtHisto2D("EtSimulatedLambdaDaughtersReweighted","Simulated E_{T} from #Lambda Daughters");
1838 CreateEtaPtHisto2D("EtSimulatedAntiLambdaDaughtersReweighted","Simulated E_{T} from #bar{#Lambda} Daughters");
1839 CreateEtaPtHisto2D("EtSimulatedK0SDaughtersReweighted","Simulated E_{T} from K^{0}_{S} Daughters");
1840 CreateEtaPtHisto2D("EtSimulatedOmegaDaughters","Simulated E_{T} from #Omega^{-} Daughters");
1841 CreateEtaPtHisto2D("EtSimulatedAntiOmegaDaughters","Simulated E_{T} from #Omega^{+} Daughters");
1842 CreateEtaPtHisto2D("EtSimulatedXiDaughters","Simulated E_{T} from #Xi^{-} Daughters");
1843 CreateEtaPtHisto2D("EtSimulatedAntiXiDaughters","Simulated E_{T} from #Xi^{+} Daughters");
1846 CreateEtaPtHisto2D("EtSimulatedGamma","Simulated E_{T} from #gamma");
1847 CreateEtaPtHisto2D("EtSimulatedEta","Simulated E_{T} from #eta");
1848 CreateEtaPtHisto2D("EtSimulatedPi0","Simulated E_{T} from #pi^{0}");
1849 CreateEtaPtHisto2D("EtSimulatedOmega0","Simulated E_{T} from #omega");
1851 TString *strTPC = new TString("TPC");
1852 TString *strITS = new TString("ITS");
1853 TString *strTPCITS = new TString("TPCITS");
1854 Int_t lastcutset = 1;
1855 if(fRequireITSHits) lastcutset = 2;
1856 for(Int_t i=0;i<=lastcutset;i++){
1857 TString *cutName = NULL;
1858 Float_t maxPtdEdx = 10;
1859 Float_t mindEdx = 35;
1860 Float_t maxdEdx = 150.0;
1871 cutName = strTPCITS;
1874 cerr<<"Error: cannot make histograms!"<<endl;
1878 if( !fRunLightweight){
1879 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedPiPlus",cutName->Data()),"Reconstructed E_{T} from identified #pi^{+}");
1880 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedPiMinus",cutName->Data()),"Reconstructed E_{T} from identified #pi^{-}");
1881 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedKPlus",cutName->Data()),"Reconstructed E_{T} from identified K^{+}");
1882 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedEMinus",cutName->Data()),"Reconstructed E_{T} from identified e^{-}");
1883 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedEPlus",cutName->Data()),"Reconstructed E_{T} from identified e^{+}");
1884 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedKMinus",cutName->Data()),"Reconstructed E_{T} from identified K^{-}");
1885 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedProton",cutName->Data()),"Reconstructed E_{T} from identified p");
1886 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedAntiProton",cutName->Data()),"Reconstructed E_{T} from identified #bar{p}");
1887 if(fBaryonEnhancement){
1888 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from identified p");
1889 CreateEtaPtHisto2D(Form("EtReconstructed%sIdentifiedAntiProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from identified #bar{p}");
1891 CreateEtaPtHisto2D(Form("EtNReconstructed%sUnidentified",cutName->Data()),"Number of Reconstructed unidentified particles");
1892 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedAssumingPion",cutName->Data()),"Reconstructed E_{T} from unidentified particles assuming pion mass");
1893 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedAssumingProton",cutName->Data()),"Reconstructed E_{T} from unidentified particles assuming pion mass");
1894 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified particles assuming pion mass");
1896 CreateEtaPtHisto2D(Form("EtNReconstructed%sUnidentifiedKaon",cutName->Data()),"Number of Reconstructed unidentified kaons particles");
1897 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingPion",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming pion mass");
1898 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingProton",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming pion mass");
1899 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedKaonAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming pion mass");
1900 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedKaon",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming kaon mass");
1901 CreateEtaPtHisto2D(Form("EtNReconstructed%sUnidentifiedProton",cutName->Data()),"Number of Reconstructed unidentified proton particles");
1902 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingPion",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming pion mass");
1903 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming pion mass");
1904 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming pion mass");
1905 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming pion mass");
1906 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingProton",cutName->Data()),"Reconstructed E_{T} from unidentified kaons particles assuming pion mass");
1907 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingProton",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming pion mass");
1908 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProton",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming proton mass");
1909 if(fBaryonEnhancement){
1910 CreateEtaPtHisto2D(Form("EtNReconstructed%sUnidentifiedProtonEnhanced",cutName->Data()),"Number of Reconstructed unidentified proton particles");
1911 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonAssumingPionEnhanced",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming pion mass");
1912 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from unidentified proton particles assuming proton mass");
1914 CreateEtaPtHisto2D(Form("EtNReconstructed%sUnidentifiedPion",cutName->Data()),"Number of Reconstructed unidentified pions particles");
1915 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingPion",cutName->Data()),"Reconstructed E_{T} from unidentified pions particles assuming pion mass");
1916 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingKaon",cutName->Data()),"Reconstructed E_{T} from unidentified pions particles assuming pion mass");
1917 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPionAssumingProton",cutName->Data()),"Reconstructed E_{T} from unidentified pions particles assuming pion mass");
1918 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentifiedPion",cutName->Data()),"Reconstructed E_{T} from unidentified pions particles assuming pion mass");
1920 CreateEtaPtHisto2D(Form("EtReconstructed%sUnidentified",cutName->Data()),"Reconstructed E_{T} from unidentified particles using real mass");
1921 CreateEtaPtHisto2D(Form("EtReconstructed%sMisidentifiedElectrons",cutName->Data()),"Reconstructed E_{T} from misidentified electrons");
1924 CreateEtaPtHisto2D(Form("EtReconstructed%sPiPlus",cutName->Data()),"Reconstructed E_{T} from #pi^{+}");
1925 CreateEtaPtHisto2D(Form("EtReconstructed%sPiMinus",cutName->Data()),"Reconstructed E_{T} from #pi^{-}");
1926 CreateEtaPtHisto2D(Form("EtReconstructed%sKPlus",cutName->Data()),"Reconstructed E_{T} from K^{+}");
1927 CreateEtaPtHisto2D(Form("EtReconstructed%sKMinus",cutName->Data()),"Reconstructed E_{T} from K^{-}");
1928 CreateEtaPtHisto2D(Form("EtReconstructed%sProton",cutName->Data()),"Reconstructed E_{T} from p");
1929 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProton",cutName->Data()),"Reconstructed E_{T} from #bar{p}");
1930 if(fBaryonEnhancement){
1931 CreateEtaPtHisto2D(Form("EtReconstructed%sProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from p");
1932 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from #bar{p}");
1934 CreateEtaPtHisto2D(Form("EtReconstructed%sChargedHadron",cutName->Data()),"Reconstructed E_{T} from charged hadrons");
1935 CreateEtaPtHisto2D(Form("EtNReconstructed%sPiPlus",cutName->Data()),"Reconstructed E_{T} from #pi^{+}");
1936 CreateEtaPtHisto2D(Form("EtNReconstructed%sPiMinus",cutName->Data()),"Reconstructed E_{T} from #pi^{-}");
1937 CreateEtaPtHisto2D(Form("EtNReconstructed%sKPlus",cutName->Data()),"Reconstructed E_{T} from K^{+}");
1938 CreateEtaPtHisto2D(Form("EtNReconstructed%sKMinus",cutName->Data()),"Reconstructed E_{T} from K^{-}");
1939 CreateEtaPtHisto2D(Form("EtNReconstructed%sProton",cutName->Data()),"Reconstructed E_{T} from p");
1940 CreateEtaPtHisto2D(Form("EtNReconstructed%sAntiProton",cutName->Data()),"Reconstructed E_{T} from #bar{p}");
1941 if(fBaryonEnhancement){
1942 CreateEtaPtHisto2D(Form("EtNReconstructed%sProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from p");
1943 CreateEtaPtHisto2D(Form("EtNReconstructed%sAntiProtonEnhanced",cutName->Data()),"Reconstructed E_{T} from #bar{p}");
1945 CreateEtaPtHisto2D(Form("EtNReconstructed%sChargedHadron",cutName->Data()),"Reconstructed E_{T} from charged hadrons");
1946 if(fDataSet==20100){//If this is Pb+Pb
1948 if(fNCentBins<21) width = 10;
1949 for(Int_t j=0;j<fNCentBins;j++){
1950 CreateEtaPtHisto2D(Form("EtNReconstructed%sPiPlusCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from #pi^{+} for %i-%i central",j*width,(j+1)*width));
1951 CreateEtaPtHisto2D(Form("EtNReconstructed%sPiMinusCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from #pi^{-} for %i-%i central",j*width,(j+1)*width));
1952 CreateEtaPtHisto2D(Form("EtNReconstructed%sKPlusCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from K^{+} for %i-%i central",j*width,(j+1)*width));
1953 CreateEtaPtHisto2D(Form("EtNReconstructed%sKMinusCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from K^{-} for %i-%i central",j*width,(j+1)*width));
1954 CreateEtaPtHisto2D(Form("EtNReconstructed%sProtonCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from p for %i-%i central",j*width,(j+1)*width));
1955 CreateEtaPtHisto2D(Form("EtNReconstructed%sAntiProtonCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from #bar{p} for %i-%i central",j*width,(j+1)*width));
1956 CreateEtaPtHisto2D(Form("EtNReconstructed%sChargedHadronCB%i",cutName->Data(),j),Form("Reconstructed E_{T} from charged hadrons for %i-%i central",j*width,(j+1)*width));
1960 CreateEtaPtHisto2D(Form("EtReconstructed%sChargedHadronAssumingPion",cutName->Data()),"Reconstructed E_{T} from charged hadrons assuming they are all pions");
1961 CreateEtaPtHisto2D(Form("EtReconstructed%sChargedHadronAssumingProton",cutName->Data()),"Reconstructed E_{T} from charged hadrons assuming they are all pions");
1962 CreateEtaPtHisto2D(Form("EtReconstructed%sChargedHadronAssumingKaon",cutName->Data()),"Reconstructed E_{T} from charged hadrons assuming they are all pions");
1963 CreateEtaPtHisto2D(Form("EtReconstructed%sKPlusAssumingPion",cutName->Data()),"Reconstructed E_{T} from K^{+} assuming #pi mass");
1964 CreateEtaPtHisto2D(Form("EtReconstructed%sKMinusAssumingPion",cutName->Data()),"Reconstructed E_{T} from K^{-} assuming #pi mass");
1965 CreateEtaPtHisto2D(Form("EtReconstructed%sProtonAssumingPion",cutName->Data()),"Reconstructed E_{T} from p assuming #pi mass");
1966 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProtonAssumingPion",cutName->Data()),"Reconstructed E_{T} from #bar{p} assuming #pi mass");
1967 CreateEtaPtHisto2D(Form("EtReconstructed%sPiPlusAssumingKaon",cutName->Data()),"Reconstructed E_{T} from K^{+} assuming #pi mass");
1968 CreateEtaPtHisto2D(Form("EtReconstructed%sPiMinusAssumingKaon",cutName->Data()),"Reconstructed E_{T} from K^{-} assuming #pi mass");
1969 CreateEtaPtHisto2D(Form("EtReconstructed%sKPlusAssumingKaon",cutName->Data()),"Reconstructed E_{T} from K^{+} assuming #pi mass");
1970 CreateEtaPtHisto2D(Form("EtReconstructed%sKMinusAssumingKaon",cutName->Data()),"Reconstructed E_{T} from K^{-} assuming #pi mass");
1971 CreateEtaPtHisto2D(Form("EtReconstructed%sProtonAssumingKaon",cutName->Data()),"Reconstructed E_{T} from p assuming #pi mass");
1972 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProtonAssumingKaon",cutName->Data()),"Reconstructed E_{T} from #bar{p} assuming #pi mass");
1974 CreateEtaPtHisto2D(Form("EtReconstructed%sKPlusAssumingProton",cutName->Data()),"Reconstructed E_{T} from K^{+} assuming #pi mass");
1975 CreateEtaPtHisto2D(Form("EtReconstructed%sKMinusAssumingProton",cutName->Data()),"Reconstructed E_{T} from K^{-} assuming #pi mass");
1976 CreateEtaPtHisto2D(Form("EtReconstructed%sPiMinusAssumingProton",cutName->Data()),"Reconstructed E_{T} from p assuming #pi mass");
1977 CreateEtaPtHisto2D(Form("EtReconstructed%sPiPlusAssumingProton",cutName->Data()),"Reconstructed E_{T} from #bar{p} assuming #pi mass");
1978 CreateEtaPtHisto2D(Form("EtReconstructed%sProtonAssumingProton",cutName->Data()),"Reconstructed E_{T} from p assuming #pi mass");
1979 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProtonAssumingProton",cutName->Data()),"Reconstructed E_{T} from #bar{p} assuming #pi mass");
1981 if(fBaryonEnhancement){
1982 CreateEtaPtHisto2D(Form("EtReconstructed%sProtonAssumingPionEnhanced",cutName->Data()),"Reconstructed E_{T} from p assuming #pi mass");
1983 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiProtonAssumingPionEnhanced",cutName->Data()),"Reconstructed E_{T} from #bar{p} assuming #pi mass");
1986 CreateEtaPtHisto2D(Form("EtReconstructed%sEPlus",cutName->Data()),"Reconstructed E_{T} from e^{+}");
1987 CreateEtaPtHisto2D(Form("EtReconstructed%sEMinus",cutName->Data()),"Reconstructed E_{T} from e^{-}");
1991 CreateEtaPtHisto2D(Form("EtReconstructed%sLambdaDaughters",cutName->Data()),"Reconstructed E_{T} from #Lambda Daughters");
1992 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiLambdaDaughters",cutName->Data()),"Reconstructed E_{T} from #bar{#Lambda} Daughters");
1993 CreateEtaPtHisto2D(Form("EtReconstructed%sK0SDaughters",cutName->Data()),"Reconstructed E_{T} from K^{0}_{S} Daughters");
1994 CreateEtaPtHisto2D(Form("EtReconstructed%sLambdaDaughtersReweighted",cutName->Data()),"Reconstructed E_{T} from #Lambda Daughters");
1995 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiLambdaDaughtersReweighted",cutName->Data()),"Reconstructed E_{T} from #bar{#Lambda} Daughters");
1996 CreateEtaPtHisto2D(Form("EtReconstructed%sK0SDaughtersReweighted",cutName->Data()),"Reconstructed E_{T} from K^{0}_{S} Daughters");
1997 CreateEtaPtHisto2D(Form("EtReconstructed%sOmegaDaughters",cutName->Data()),"Reconstructed E_{T} from #Omega^{-} Daughters");
1998 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiOmegaDaughters",cutName->Data()),"Reconstructed E_{T} from #Omega^{+} Daughters");
1999 CreateEtaPtHisto2D(Form("EtReconstructed%sXiDaughters",cutName->Data()),"Reconstructed E_{T} from #Xi^{-} Daughters");
2000 CreateEtaPtHisto2D(Form("EtReconstructed%sAntiXiDaughters",cutName->Data()),"Reconstructed E_{T} from #Xi^{+} Daughters");
2001 CreateEtaPtHisto2D(Form("EtReconstructed%sConversionElectrons",cutName->Data()),"Reconstructed E_{T} from conversion electrons");
2002 CreateEtaPtHisto2D(Form("EtReconstructed%sSecondaryMuons",cutName->Data()),"Reconstructed E_{T} from secondary muons");//from pions
2003 CreateEtaPtHisto2D(Form("EtReconstructed%sSecondaryPions",cutName->Data()),"Reconstructed E_{T} from secondary pions");//from rescattering and sigma+-
2004 CreateEtaPtHisto2D(Form("EtReconstructed%sSecondaryProtons",cutName->Data()),"Reconstructed E_{T} from secondary protons");//from rescattering and sigma+-
2006 CreateIntHisto1D(Form("UnidentifiedPIDs%s",cutName->Data()),"PIDs of unidentified particles", "PID", "Number of particles",9, -4,4);
2007 CreateHisto2D(Form("MisidentifiedPIDs%s",cutName->Data()),"PIDs of misidentified particles", "PID real","PID identified",5, -.5,4.5,5, -.5,4.5);
2008 CreateHisto2D(Form("dEdxAll%s",cutName->Data()),"dE/dx for all particles","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2009 CreateHisto2D(Form("dEdxPion%s",cutName->Data()),"dE/dx for #pi^{#pm}","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2010 CreateHisto2D(Form("dEdxKaon%s",cutName->Data()),"dE/dx for K^{#pm}","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2011 CreateHisto2D(Form("dEdxProton%s",cutName->Data()),"dE/dx for p(#bar{p})","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2012 CreateHisto2D(Form("dEdxElectron%s",cutName->Data()),"dE/dx for e^{#pm}","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2013 CreateHisto2D(Form("dEdxUnidentified%s",cutName->Data()),"dE/dx for unidentified particles","momentum (GeV/c)","dE/dx",400,0.0,maxPtdEdx,200,mindEdx,maxdEdx);
2019 Float_t minEt = 0.0;
2020 Float_t maxEt = 100.0;
2021 Float_t minEtPiKP = 0.0;
2022 Float_t maxEtPiKP = 50.0;
2023 if(fDataSet==20100) maxEt=4000.0;
2024 Int_t nbinsEt = 100;
2025 char histoname[200];
2026 char histotitle[200];
2029 TString *sTPC = new TString("TPC");
2030 TString *sITS = new TString("ITS");
2031 TString *sTPCpt = new TString("0.15");
2032 TString *sITSpt = new TString("0.10");
2033 TString *sPID = new TString("");
2034 TString *sNoPID = new TString("NoPID");
2035 TString *sNoPIDString = new TString(", No PID");
2036 TString *sHadEt = new TString("HadEt");
2037 TString *sTotEt = new TString("TotEt");
2038 TString *sPiKPEt = new TString("PiKPEt");
2039 TString *sTotEtString = new TString("total E_{T}");
2040 TString *sHadEtString = new TString("hadronic E_{T}");
2041 TString *sPiKPEtString = new TString("E_{T}^{#pi,K,p}");
2042 TString *sFull = new TString("Full");
2043 TString *sEMCAL = new TString("EMCAL");
2044 TString *sPHOS = new TString("PHOS");
2046 float etDiffLow = etDiff;
2047 if(fDataSet!=20100){//If this is p+p
2051 for(int tpc = 0;tpc<lastcutset;tpc++){
2052 TString *detector = NULL;
2053 TString *ptstring = NULL;
2054 if(tpc==1) {detector = sTPC; ptstring = sTPCpt;}
2055 else{detector = sITS; ptstring = sITSpt;}
2056 for(int hadet = 0;hadet<2;hadet++){
2058 TString *etstring = NULL;
2059 if(hadet==1) {et = sHadEt; etstring = sHadEtString;}
2060 else{et = sTotEt; etstring = sTotEtString;}
2061 for(int type = 0;type<3;type++){
2062 if(type==0 && !fInvestigateFull) continue;
2063 if(type==1 && !fInvestigateEMCal) continue;
2064 if(type==2 && !fInvestigatePHOS) continue;
2065 TString *acceptance = NULL;
2072 acceptance = sEMCAL;
2082 for(int pid = 0;pid<2;pid++){
2083 TString *partid = NULL;
2084 TString *partidstring = NULL;
2085 if(pid==1){partid = sPID; partidstring = sPID;}
2086 else{partid = sNoPID; partidstring = sNoPIDString;}
2088 snprintf(histoname,200,"Sim%sMinusReco%s%sAcceptance%s%s",et->Data(),et->Data(),acceptance->Data(),detector->Data(),partid->Data());
2089 snprintf(histotitle,200,"(Simulated %s - reconstructed %s)/(Simulated %s) with %s acceptance for p_{T}>%s GeV/c%s",etstring->Data(),etstring->Data(),etstring->Data(),acceptance->Data(),ptstring->Data(),partidstring->Data());
2090 snprintf(ytitle,50,"(Simulated %s - reconstructed %s)/(Simulated %s)",etstring->Data(),etstring->Data(),etstring->Data());
2091 snprintf(xtitle,50,"Simulated %s",etstring->Data());
2092 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiffLow,etDiff);
2094 if(type==0){//only fill for full acceptance
2095 snprintf(histoname,200,"Sim%sVsReco%s%sAcceptance%s%s",et->Data(),et->Data(),acceptance->Data(),detector->Data(),partid->Data());
2096 snprintf(histotitle,200,"Simulated %s vs reconstructed %s with %s acceptance for p_{T}>%s GeV/c%s",etstring->Data(),etstring->Data(),acceptance->Data(),ptstring->Data(),partidstring->Data());
2097 snprintf(ytitle,50,"Reconstructed %s",etstring->Data());
2098 snprintf(xtitle,50,"Simulated %s",etstring->Data());
2099 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt*4,minEt,maxEt,nbinsEt*4,minEt,maxEt);
2100 if(hadet==1){//on top of that we want to create pikp histograms without adding a full option parallel to had and tot et - therefore we will just create these histos when we create the hadet histos
2101 snprintf(histoname,200,"Sim%sVsReco%s%sAcceptance%s%s",sPiKPEt->Data(),sPiKPEt->Data(),acceptance->Data(),detector->Data(),partid->Data());
2102 snprintf(histotitle,200,"Simulated %s vs reconstructed %s with %s acceptance for p_{T}>%s GeV/c%s",sPiKPEtString->Data(),sPiKPEtString->Data(),acceptance->Data(),ptstring->Data(),partidstring->Data());
2103 snprintf(ytitle,50,"Reconstructed %s",sPiKPEtString->Data());
2104 snprintf(xtitle,50,"Simulated %s",sPiKPEtString->Data());
2105 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt*4,minEtPiKP,maxEtPiKP,nbinsEt*4,minEtPiKP,maxEtPiKP);
2109 if(hadet==0 && type==0 && fInvestigatePiKP){//we only want to do this once... not the most elegant way of coding but hey...
2110 snprintf(histoname,200,"SimPiKPMinusRecoPiKP%sAcceptance%s%s",acceptance->Data(),detector->Data(),partid->Data());
2111 snprintf(histotitle,200,"(Sim PiKP - reco PiKP)/(Sim PiKP) with %s acceptance for p_{T}>%s GeV/c%s",acceptance->Data(),ptstring->Data(),partidstring->Data());
2112 snprintf(ytitle,50,"(Sim PiKP - reco PiKP)/(Sim PiKP)");
2113 snprintf(xtitle,50,"Simulated E_{T}^{#pi,K,p}");
2114 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiffLow,etDiff);
2120 CreateHisto1D("SimPiKPEt","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2121 CreateHisto1D("SimPiKPEtND","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2122 CreateHisto1D("SimPiKPEtDD","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2123 CreateHisto1D("SimPiKPEtSD","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2124 CreateHisto1D("SimPiKPEtNDV0AND","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2125 CreateHisto1D("SimPiKPEtDDV0AND","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2126 CreateHisto1D("SimPiKPEtSDV0AND","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2127 CreateHisto1D("SimPiKPEtNDMB","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2128 CreateHisto1D("SimPiKPEtDDMB","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2129 CreateHisto1D("SimPiKPEtSDMB","Simulated #pi,K,p E_{T}","Simulated #pi,K,p E_{T}","Number of events",nbinsEt*4,minEtPiKP,maxEtPiKP);
2130 CreateHisto1D("SimTotEt","Simulated Total E_{T}","Simulated Total E_{T}","Number of events",nbinsEt*4,minEt,maxEt);
2131 CreateHisto1D("SimHadEt","Simulated Hadronic E_{T}","Simulated Hadronic E_{T}","Number of events",nbinsEt*4,minEt,maxEt);
2132 CreateHisto1D("SimTotEtND","Simulated Total E_{T}","Simulated Total E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2133 CreateHisto1D("SimHadEtND","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2134 CreateHisto1D("SimTotEtNDV0AND","Simulated Total E_{T}","Simulated Total E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2135 CreateHisto1D("SimHadEtNDV0AND","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2136 CreateHisto1D("SimTotEtNDMB","Simulated Total E_{T}","Simulated Total E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2137 CreateHisto1D("SimHadEtNDMB","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for non-diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2138 CreateHisto1D("SimTotEtSD","Simulated Total E_{T}","Simulated Total E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2139 CreateHisto1D("SimHadEtSD","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2140 CreateHisto1D("SimTotEtSDV0AND","Simulated Total E_{T}","Simulated Total E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2141 CreateHisto1D("SimHadEtSDV0AND","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2142 CreateHisto1D("SimTotEtSDMB","Simulated Total E_{T}","Simulated Total E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2143 CreateHisto1D("SimHadEtSDMB","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for singly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2144 CreateHisto1D("SimTotEtDD","Simulated Total E_{T}","Simulated Total E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2145 CreateHisto1D("SimHadEtDD","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2146 CreateHisto1D("SimTotEtDDV0AND","Simulated Total E_{T}","Simulated Total E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2147 CreateHisto1D("SimHadEtDDV0AND","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2148 CreateHisto1D("SimTotEtDDMB","Simulated Total E_{T}","Simulated Total E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2149 CreateHisto1D("SimHadEtDDMB","Simulated Hadronic E_{T}","Simulated Hadronic E_{T} for doubly diffractive events","Number of events",nbinsEt*4,minEt,maxEt);
2150 if(fDataSet==20100){
2152 if(fNCentBins<21) width = 10;
2153 for(Int_t j=0;j<fNCentBins;j++){
2154 CreateHisto1D(Form("SimTotEtCB%i",j),Form("Simulated Total E_{T} for %i-%i central",j*width,(j+1)*width),"Simulated Total E_{T}","Number of events",nbinsEt*4,minEt,maxEt);
2155 CreateHisto1D(Form("SimHadEtCB%i",j),Form("Simulated Hadronic E_{T} for %i-%i central",j*width,(j+1)*width),"Simulated Hadronic E_{T}","Number of events",nbinsEt*4,minEt,maxEt);
2156 CreateHisto1D(Form("SimPiKPEtCB%i",j),Form("Simulated #pi,K,p E_{T} for %i-%i central",j*width,(j+1)*width),"Simulated #pi,K,p E_{T}","Number of events",nbinsEt,minEt,maxEt);
2162 if(fInvestigateSmearing && !fRunLightweight){
2163 //======================================================================
2165 snprintf(histoname,200,"SimPiKPEtMeasMinusEtRealPiKP");
2166 snprintf(histotitle,200,"Simulated (all reconstructed - primaries)/all reconstructed for reconstructed tracks only");
2167 snprintf(ytitle,50,"(primary-all)/primary");
2168 snprintf(xtitle,50,"true p, K, p E_{T} for primary tracks");
2169 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*5,etDiff*5);
2171 snprintf(histoname,200,"SimPiKPEtMinusSimAllCorrSmearedRecoOnly");
2172 snprintf(histotitle,200,"Simulated (primary-all)/primary for reconstructed tracks only");
2173 snprintf(ytitle,50,"(primary-all)/primary");
2174 snprintf(xtitle,50,"true p, K, p E_{T} for primary tracks");
2175 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*5,etDiff*5);
2177 snprintf(histoname,200,"SimPiKPEtMinusSimEffCorrRecoOnly");
2178 snprintf(histotitle,200,"(sim-reco)/sim primary #pi,k,p for p_{T}>0.15");
2179 snprintf(ytitle,50,"(sim-reco)/sim");
2180 snprintf(xtitle,50,"true p, K, p E_{T} for primary tracks");
2181 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*5,etDiff*5);
2183 snprintf(histoname,200,"SimPiKPEtMinusSimEffBkgdCorrRecoOnly");
2184 snprintf(histotitle,200,"(sim-reco)/sim primary #pi,k,p for p_{T}>0.15 with background subtraction");
2185 snprintf(ytitle,50,"(sim-reco)/sim");
2186 snprintf(xtitle,50,"true p, K, p E_{T} for primary tracks");
2187 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*5,etDiff*5);
2189 snprintf(histoname,200,"SimPiKPEtMinusSimEffCorrRecoPiOnly");
2190 snprintf(histotitle,200,"(sim-reco)/sim primary #pi for p_{T}>0.15");
2191 snprintf(ytitle,50,"(sim-reco)/sim");
2192 snprintf(xtitle,50,"true #pi E_{T} for primary tracks");
2193 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt/2,nbinsEt,-etDiff*5,etDiff*5);
2195 snprintf(histoname,200,"SimPiKPEtMinusSimEffCorrRecoKOnly");
2196 snprintf(histotitle,200,"(sim-reco)/sim primary K for p_{T}>0.15");
2197 snprintf(ytitle,50,"(sim-reco)/sim");
2198 snprintf(xtitle,50,"true K E_{T} for primary tracks");
2199 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt/6,nbinsEt,-etDiff*5,etDiff*5);
2201 snprintf(histoname,200,"SimPiKPEtMinusSimEffCorrRecoPOnly");
2202 snprintf(histotitle,200,"(sim-reco)/sim primary p for p_{T}>0.15");
2203 snprintf(ytitle,50,"(sim-reco)/sim");
2204 snprintf(xtitle,50,"true p E_{T} for primary tracks");
2205 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt/6,nbinsEt,-etDiff*5,etDiff*5);
2207 snprintf(histoname,200,"SimPiKPEtMinusSimAllSmearedRecoOnly");
2208 snprintf(histotitle,200,"Simulated (primary-all)/primary for reconstructed tracks only");
2209 snprintf(ytitle,50,"(primary-all)/primary");
2210 snprintf(xtitle,50,"true p, K, p E_{T} for primary tracks");
2211 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*5,0.0);
2213 snprintf(histoname,200,"SimPiKPEtMinusSimPIDSmearedRecoOnly");
2214 snprintf(histotitle,200,"Simulated (true-smeared)/true for reconstructed tracks only with PID smearing");
2215 snprintf(ytitle,50,"(true-smeared)/true");
2216 snprintf(xtitle,50,"true p, K, p E_{T}");
2217 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2219 snprintf(histoname,200,"SimPiKPEtMinusSimSmearedRecoOnly");
2220 snprintf(histotitle,200,"Simulated (true-smeared)/true for reconstructed tracks only");
2221 snprintf(ytitle,50,"(true-smeared)/true");
2222 snprintf(xtitle,50,"true p, K, p E_{T}");
2223 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff/15,etDiff/15);
2225 snprintf(histoname,200,"SimPiKPPtMinusSimSmearedRecoOnly");
2226 snprintf(histotitle,200,"Simulated (true-smeared)/true for reconstructed tracks only");
2227 snprintf(ytitle,50,"(true-smeared)/true");
2228 snprintf(xtitle,50,"true p, K, p p_{T}");
2229 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff/15,etDiff/15);
2231 snprintf(histoname,200,"SimPiKPEtMinusSimSmearedMultRecoOnly");
2232 snprintf(histotitle,200,"Simulated (true-smeared)/true for reconstructed tracks only");
2233 snprintf(ytitle,50,"(true-smeared)/true");
2234 snprintf(xtitle,50,"number of reconstructed particles");
2235 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff/15,etDiff/15);
2237 snprintf(histoname,200,"SimPiKPPtMinusSimSmearedMultRecoOnly");
2238 snprintf(histotitle,200,"Simulated (true-smeared)/true for reconstructed tracks only");
2239 snprintf(ytitle,50,"(true-smeared)/true");
2240 snprintf(xtitle,50,"number of reconstructed particles");
2241 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff/15,etDiff/15);
2243 //======================================================================
2245 snprintf(histoname,200,"SimPiKPEtMinusSimPtSmeared");
2246 snprintf(histotitle,200,"Simulated (true-smeared)/true for 0.5 percent momentum smearing");
2247 snprintf(ytitle,50,"(true-smeared)/true");
2248 snprintf(xtitle,50,"true p, K, p E_{T}");
2249 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2250 snprintf(histoname,200,"SimPiKPEtPtSmeared");
2251 snprintf(histotitle,200,"Simulated E_{T} for 0.5 percent momentum smearing");
2252 snprintf(ytitle,50,"Number of events");
2253 snprintf(xtitle,50,"p, K, p E_{T}");
2254 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2256 //======================================================================
2258 snprintf(histoname,200,"SimPiKPEtMinusSimEfficiencySmeared");
2259 snprintf(histotitle,200,"Simulated (true-smeared)/true for efficiency smearing");
2260 snprintf(ytitle,50,"(true-smeared)/true");
2261 snprintf(xtitle,50,"true p, K, p E_{T}");
2262 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff*7,etDiff*7);
2263 snprintf(histoname,200,"SimPiKPEtEfficiencySmeared");
2264 snprintf(histotitle,200,"Simulated E_{T} for efficiency smearing");
2265 snprintf(ytitle,50,"Number of events");
2266 snprintf(xtitle,50,"p, K, p E_{T}");
2267 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2269 //======================================================================
2271 snprintf(histoname,200,"SimPiKPEtMinusSimPtCutSmearedTPC");
2272 snprintf(histotitle,200,"Simulated (true-smeared)/true for p_{T}>0.15 GeV/c smearing");
2273 snprintf(ytitle,50,"(true-smeared)/true");
2274 snprintf(xtitle,50,"true p, K, p E_{T}");
2275 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2276 snprintf(histoname,200,"SimPiKPEtPtCutSmearedTPC");
2277 snprintf(histotitle,200,"Simulated E_{T} for p_{T}>0.15 GeV/c smearing");
2278 snprintf(ytitle,50,"Number of events");
2279 snprintf(xtitle,50,"p, K, p E_{T}");
2280 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2283 //======================================================================
2285 snprintf(histoname,200,"SimPiKPEtMinusSimPtCutSmearedITS");
2286 snprintf(histotitle,200,"Simulated (true-smeared)/true for p_{T}>0.10 GeV/c smearing");
2287 snprintf(ytitle,50,"(true-smeared)/true");
2288 snprintf(xtitle,50,"true p, K, p E_{T}");
2289 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2290 snprintf(histoname,200,"SimPiKPEtPtCutSmearedITS");
2291 snprintf(histotitle,200,"Simulated E_{T} for p_{T}>0.10 GeV/c smearing");
2292 snprintf(ytitle,50,"Number of events");
2293 snprintf(xtitle,50,"p, K, p E_{T}");
2294 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2296 //======================================================================
2298 snprintf(histoname,200,"SimPiKPEtMinusSimPIDSmeared");
2299 snprintf(histotitle,200,"Simulated (true-smeared)/true for PID smearing");
2300 snprintf(ytitle,50,"(true-smeared)/true");
2301 snprintf(xtitle,50,"true p, K, p E_{T}");
2302 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2303 snprintf(histoname,200,"SimPiKPEtPIDSmeared");
2304 snprintf(histotitle,200,"Simulated E_{T} for PID smearing");
2305 snprintf(ytitle,50,"Number of events");
2306 snprintf(xtitle,50,"p, K, p E_{T}");
2307 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2309 //======================================================================
2311 snprintf(histoname,200,"SimPiKPEtMinusSimPIDSmearedNoID");
2312 snprintf(histotitle,200,"Simulated (true-smeared)/true for PID smearing No ID");
2313 snprintf(ytitle,50,"(true-smeared)/true");
2314 snprintf(xtitle,50,"true p, K, p E_{T}");
2315 CreateHisto2D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt,nbinsEt,-etDiff,etDiff);
2316 snprintf(histoname,200,"SimPiKPEtPIDSmearedNoID");
2317 snprintf(histotitle,200,"Simulated E_{T} for PID smearing No ID");
2318 snprintf(ytitle,50,"Number of events");
2319 snprintf(xtitle,50,"p, K, p E_{T}");
2320 CreateHisto1D(histoname,histotitle,xtitle,ytitle,nbinsEt,minEt,maxEt);
2328 delete sNoPIDString;
2332 delete sTotEtString;
2333 delete sHadEtString;
2334 delete sPiKPEtString;
2338 CreateIntHisto1D("NEvents","Number of events","number of events","Number of events",1,0,1);
2339 CreateIntHisto1D("NEventsSD","Number of events","number of singly diffractive events","Number of events",1,0,1);
2340 CreateIntHisto1D("NEventsDD","Number of events","number of doubly diffractive events","Number of events",1,0,1);
2341 CreateIntHisto1D("NEventsND","Number of events","number of non-diffractive events","Number of events",1,0,1);
2342 CreateIntHisto1D("NEventsSDV0AND","Number of events","number of singly diffractive events","Number of events",1,0,1);
2343 CreateIntHisto1D("NEventsDDV0AND","Number of events","number of doubly diffractive events","Number of events",1,0,1);
2344 CreateIntHisto1D("NEventsNDV0AND","Number of events","number of non-diffractive events","Number of events",1,0,1);
2345 CreateIntHisto1D("NEventsSDMB","Number of events","number of singly diffractive events","Number of events",1,0,1);
2346 CreateIntHisto1D("NEventsDDMB","Number of events","number of doubly diffractive events","Number of events",1,0,1);
2347 CreateIntHisto1D("NEventsNDMB","Number of events","number of non-diffractive events","Number of events",1,0,1);
2348 if( !fRunLightweight){
2349 CreateResolutionPtHisto2D("presolutionTPC","p resolution","p^{rec}","(p^{sim}-p^{rec})/p^{rec}");
2350 CreateResolutionPtHisto2D("pTresolutionTPC","p_{T} resolution","p_{T}^{rec}","(p_{T}^{sim}-p_{T}^{rec})/p_{T}^{rec}");
2351 CreateResolutionPtHisto2D("ETresolutionTPC","E_{T} resolution","E_{T}^{rec}","(E_{T}^{sim}-E_{T}^{rec})/E_{T}^{rec}");
2352 CreateResolutionPtHisto2D("pTresolutionTPCITS","p_{T} resolution","p_{T}^{rec}","(p_{T}^{sim}-p_{T}^{rec})/p_{T}^{rec}");
2353 CreateResolutionPtHisto2D("ETresolutionTPCITS","E_{T} resolution","E_{T}^{rec}","(E_{T}^{sim}-E_{T}^{rec})/E_{T}^{rec}");
2354 CreateResolutionPtHisto2D("presolutionTPCITS","p resolution","p^{rec}","(p^{sim}-p^{rec})/p^{rec}");
2355 CreateResolutionPtHisto2D("pTresolutionITS","p_{T} resolution","p_{T}^{rec}","(p_{T}^{sim}-p_{T}^{rec})/p_{T}^{rec}");
2356 CreateResolutionPtHisto2D("ETresolutionITS","E_{T} resolution","E_{T}^{rec}","(E_{T}^{sim}-E_{T}^{rec})/E_{T}^{rec}");
2357 CreateResolutionPtHisto2D("presolutionITS","p resolution","p^{rec}","(p^{sim}-p^{rec})/p^{rec}");
2358 CreatePtHisto1D("pTsimITS","p_{T}^{sim}","p_{T}^{sim}","Number of particles");
2359 CreatePtHisto1D("pTsimTPC","p_{T}^{sim}","p_{T}^{sim}","Number of particles");
2360 CreatePtHisto1D("pTsimTPCITS","p_{T}^{sim}","p_{T}^{sim}","Number of particles");
2361 CreatePtHisto1D("pTrecITS","p_{T}^{rec}","p_{T}^{rec}","Number of particles");
2362 CreatePtHisto1D("pTrecTPC","p_{T}^{rec}","p_{T}^{rec}","Number of particles");
2363 CreatePtHisto1D("pTrecTPCITS","p_{T}^{rec}","p_{T}^{rec}","Number of particles");
2364 if(fDataSet==20100){
2366 if(fNCentBins<21) width = 10;
2367 for(Int_t j=0;j<fNCentBins;j++){
2368 CreatePtHisto1D(Form("pTsimITSCB%i",j),Form("p_{T}^{sim} for %i-%i central",j*width,(j+1)*width),"p_{T}^{sim}","Number of particles");
2369 CreatePtHisto1D(Form("pTsimTPCITSCB%i",j),Form("p_{T}^{sim} for %i-%i central",j*width,(j+1)*width),"p_{T}^{sim}","Number of particles");
2370 CreatePtHisto1D(Form("pTsimTPCCB%i",j),Form("p_{T}^{sim} for %i-%i central",j*width,(j+1)*width),"p_{T}^{sim}","Number of particles");
2371 CreatePtHisto1D(Form("pTrecITSCB%i",j),Form("p_{T}^{rec} for %i-%i central",j*width,(j+1)*width),"p_{T}^{rec}","Number of particles");
2372 CreatePtHisto1D(Form("pTrecTPCITSCB%i",j),Form("p_{T}^{rec} for %i-%i central",j*width,(j+1)*width),"p_{T}^{rec}","Number of particles");
2373 CreatePtHisto1D(Form("pTrecTPCCB%i",j),Form("p_{T}^{rec} for %i-%i central",j*width,(j+1)*width),"p_{T}^{rec}","Number of particles");