/************************************************************************** * Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ // // Task for Heavy Flavour Electron Analysis // Fills a single-inclusive electron pt-spectrum // For further information see implementation file // #ifndef ALIANALYSISTASKHFE_H #define ALIANALYSISTASKHFE_H #ifndef ALIANALYSISTASKSE_H #include "AliAnalysisTaskSE.h" #endif #ifndef ROOT_TString #include #endif class AliHFEcontainer; class AliHFEcollection; class AliHFEcuts; class AliHFEextraCuts; class AliHFEelecbackground; class AliHFEmcQA; class AliHFEpid; class AliHFEpidQAmanager; class AliHFEsecVtx; class AliHFEsignalCuts; class AliHFEvarManager; class AliHFEtaggedTrackAnalysis; class AliCFManager; class AliMCEvent; class AliOADBContainer; class AliVEvent; class AliVParticle; class AliTriggerAnalysis; class TH1I; class TList; class AliAnalysisTaskHFE : public AliAnalysisTaskSE{ public: enum{ kPIDqa = 0, kMCqa =1 }; enum{ kPriVtx = 0, kSecVtx = 1, kIsElecBackGround = 2, kPostProcess = 3, kDEstep = 4, kTaggedTrackAnalysis = 5 }; enum CreationProcess_t{ kSignalCharm = 0, kSignalBeauty = 1, kGammaConv = 2, kOther = 3 }; enum{ kBgPtBins = 44, kElecBgSpecies = 6, kCentBins = 11, kBgLevels = 3 }; AliAnalysisTaskHFE(); AliAnalysisTaskHFE(const char * name); AliAnalysisTaskHFE(const AliAnalysisTaskHFE &ref); AliAnalysisTaskHFE& operator=(const AliAnalysisTaskHFE &ref); virtual void Copy(TObject &o) const; virtual ~AliAnalysisTaskHFE(); virtual void UserCreateOutputObjects(); virtual void UserExec(Option_t *); virtual void Terminate(Option_t *); virtual Bool_t IsEventInBinZero(); Bool_t IsQAOn(Int_t qaLevel) const { return TESTBIT(fQAlevel, qaLevel); }; Bool_t IsAODanalysis() const { return TestBit(kAODanalysis); }; Bool_t IsESDanalysis() const { return !TestBit(kAODanalysis); }; Bool_t HasMCData() const { return TestBit(kHasMCdata); } Bool_t IsPbPb() const { return TestBit(kBeamType); } Bool_t GetPlugin(Int_t plug) const { return TESTBIT(fPlugins, plug); }; // Get Components for configuration AliHFEvarManager *GetVarManager() const { return fVarManager; } AliHFEpidQAmanager *GetPIDQAManager() const { return fPIDqa; } AliHFEpid *GetPID() const { return fPID; } void SetHFECuts(AliHFEcuts * const cuts) { fCuts = cuts; }; void SetTaggedTrackCuts(AliHFEcuts * const cuts) { fTaggedTrackCuts = cuts; } void SetCleanTaggedTrack(Bool_t clean) { fCleanTaggedTrack = clean; }; void SetVariablesTRDTaggedTrack(Bool_t variablesTRD) { fVariablesTRDTaggedTrack = variablesTRD; }; void SetHFECutsPreselect(AliHFEcuts * const cuts) { fCutspreselect = cuts; }; void SetHFEElecBackGround(AliHFEelecbackground * const elecBackGround) { fElecBackGround = elecBackGround; }; void SetQAOn(Int_t qaLevel) { SETBIT(fQAlevel, qaLevel); }; void SwitchOnPlugin(Int_t plug); void SetHasMCData(Bool_t hasMC = kTRUE) { SetBit(kHasMCdata, hasMC); }; void SetFillSignalOnly(Bool_t signalOnly) { fFillSignalOnly = signalOnly; } void SetFillNoCuts(Bool_t fillNoCuts) { fFillNoCuts = fillNoCuts; } void SetUseFlagAOD(Bool_t useFlagAOD) { fUseFlagAOD = useFlagAOD; } void SetApplyCutAOD(Bool_t applyCutAOD) { fApplyCutAOD = applyCutAOD; } void SetFlags(ULong_t flags) { fFlags = flags; } void SetRemovePileUp(Bool_t removePileUp) { fRemovePileUp = removePileUp; } void SetPIDPreselect(AliHFEpid * const cuts) { fPIDpreselect = cuts; }; void SetAODAnalysis() { SetBit(kAODanalysis, kTRUE); }; void SetESDAnalysis() { SetBit(kAODanalysis, kFALSE); }; void SetPbPbAnalysis(Bool_t isPbPb = kFALSE) { SetBit(kBeamType, isPbPb); }; void SetPbPbUserCentralityLimit(Bool_t isPbPbUserBinning = kFALSE){fPbPbUserCentralityBinning = isPbPbUserBinning; }; void SetPbPbUserCentralityArray(Int_t icentr, Float_t valuecentr) {fCentralityLimits[icentr] = valuecentr;}; void SetPPMultiBinAnalysis(Bool_t isppMultiBin) { fisppMultiBin = isppMultiBin; }; void SetNonHFEsystematics(Bool_t isSystematics) {fisNonHFEsystematics = isSystematics; }; void SetRejectKinkMother(Bool_t rejectKinkMother = kFALSE) { fRejectKinkMother = rejectKinkMother; }; void SetBackGroundFactorsFunction(const TF1 * const backGroundFactorsFunction, Int_t centralitybin=0){ fkBackGroundFactorArray[centralitybin]=backGroundFactorsFunction; fBackGroundFactorApply=kTRUE; SetBit(kBackgroundInitialized); }; void SetBackgroundFactorsFromOADB(AliOADBContainer *cont) { fHadronBackgroundOADB = cont; fBackGroundFactorApply = kTRUE; } void SetElecBackGroundFactors(Int_t iPt, Int_t iType, Int_t iCent, Int_t iError, Double_t elecBackGroundFactor) {fElecBackgroundFactor[iError][iCent][iType][iPt] = elecBackGroundFactor; }; void SetBinLimits(Int_t iPt, Double_t momentum){fBinLimit[iPt] = momentum;}; void PrintStatus() const; Bool_t ReadCentrality(); void RejectionPileUpVertexRangeEventCut(); void SelectSpecialTrigger(const Char_t *trgclust, Int_t runMin = 0, Int_t runMax = 999999999); void SetDebugStreaming() {SetBit(kTreeStream);}; private: enum{ kHasMCdata = BIT(19), kAODanalysis = BIT(20), kBeamType = BIT(21), kBackgroundInitialized = BIT(22), kTreeStream = BIT(23) }; Bool_t FillProductionVertex(const AliVParticle * const track) const; void MakeParticleContainer(); void MakeEventContainer(); void InitPIDperformanceQA(); void InitContaminationQA(); void InitHistoITScluster(); Bool_t InitializeHadronBackground(Int_t run); const Char_t *GetSpecialTrigger(Int_t run); void ProcessMC(); void ProcessESD(); void ProcessAOD(); Int_t GetITSMultiplicity(AliVEvent *ev); Bool_t PreSelectTrack(AliESDtrack *track) const; Bool_t ProcessMCtrack(AliVParticle *track); Bool_t ProcessCutStep(Int_t cutStep, AliVParticle *track); ULong_t fQAlevel; // QA level UShort_t fPlugins; // Enabled Plugins Bool_t fFillSignalOnly; // Fill container only with MC Signal Tracks Bool_t fFillNoCuts; // Fill container before any cut Bool_t fUseFlagAOD; // Use the preselected AOD track Bool_t fApplyCutAOD; // Apply the analysis cut for AOD tracks ULong_t fFlags; // reconstruction AOD status flags Bool_t fBackGroundFactorApply; // Apply Background Function Subtraction, MF: To be removed when transition to OADB container is finished Bool_t fRemovePileUp; // Remove Pile Up Bool_t fIdentifiedAsPileUp; // Identified as pile-up Bool_t fIdentifiedAsOutInz; // Out Of Range in z Bool_t fPassTheEventCut; // Pass The Event Cut Bool_t fRejectKinkMother; // Reject Kink Mother Bool_t fisppMultiBin; // pp Multiplicity Bin analysis Bool_t fPbPbUserCentralityBinning; // PbPb user centrality binning Bool_t fisNonHFEsystematics; // Non-HFE background systematics analysis AliOADBContainer *fSpecialTrigger; // Special trigger selection Int_t fCentralityF; // Centrality bin Float_t fCentralityPercent; // Centrality percentile Float_t fContributors; // Contributors Double_t fWeightBackGround; // weight background function Double_t fVz; // z position of the primary vertex AliOADBContainer *fHadronBackgroundOADB; // OADB Container for hadron contamination const TF1 *fkBackGroundFactorArray[12]; // Array of BackGround factors for each centrality bin, bin0 = min bias Double_t fElecBackgroundFactor[kBgLevels][kCentBins][kElecBgSpecies][kBgPtBins]; // Electron background factors Double_t fBinLimit[kBgPtBins+1]; // Electron pt bin edges Float_t fCentralityLimits[12]; // Limits for centrality bins AliHFEcontainer *fContainer; //! The HFE container AliHFEvarManager *fVarManager; // The var manager as the backbone of the analysis AliHFEsignalCuts *fSignalCuts; //! MC true signal (electron coming from certain source) AliCFManager *fCFM; //! Correction Framework Manager AliTriggerAnalysis *fTriggerAnalysis; //! Trigger Analysis for Normalisation AliHFEpid *fPID; // PID AliHFEpidQAmanager *fPIDqa; // PID QA AliHFEpid *fPIDpreselect; // PID oject for pre-selected tracks (without QA) AliHFEcuts *fCuts; // Cut Collection AliHFEcuts *fTaggedTrackCuts; // Cut Collection for V0 tagged tracks Bool_t fCleanTaggedTrack; // Loose cleaning of the V0 tagged tracks electron Bool_t fVariablesTRDTaggedTrack; // Take the variables at the TRD for the V0 tagged tracks electron AliHFEcuts *fCutspreselect; // Cut Collection for pre-selected tracks AliHFEsecVtx *fSecVtx; //! Secondary Vertex Analysis AliHFEelecbackground *fElecBackGround;//! Background analysis AliHFEmcQA *fMCQA; //! MC QA AliHFEtaggedTrackAnalysis *fTaggedTrackAnalysis; //!Analyse V0-tagged tracks AliHFEextraCuts *fExtraCuts; //! temporary implementation for IP QA //-----------QA and output--------------- TList *fQA; //! QA histos for the cuts TList *fOutput; //! Container for Task Output TList *fHistMCQA; //! Output container for MC QA histograms TList *fHistSECVTX; //! Output container for sec. vertexing results TList *fHistELECBACKGROUND; //! Output container for electron background analysis AliHFEcollection *fQACollection; //! Tasks own QA collection //--------------------------------------- ClassDef(AliAnalysisTaskHFE, 2) // The electron Analysis Task }; #endif