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AliRoot » PWGLF » SPECTRA » NUCLEI » MASSES » AliAnalysisNucleiMass

class AliAnalysisNucleiMass: public AliAnalysisTaskSE

Function Members (Methods)

public:

	AliAnalysisNucleiMass()
	AliAnalysisNucleiMass(const char* name)
virtual	~AliAnalysisNucleiMass()
virtual void	TTask::Abort()MENU
void	TObject::AbstractMethod(const char* method) const
virtual void	TTask::Add(TTask* task)
virtual void	AliAnalysisTaskSE::AddAODBranch(const char* cname, void* addobj, const char* fname = "")
virtual AliAODEvent*	AliAnalysisTaskSE::AODEvent() const
virtual void	TObject::AppendPad(Option_t* option = "")
Bool_t	AliAnalysisTask::AreSlotsConnected()
virtual void	TTask::Browse(TBrowser* b)
Bool_t	AliAnalysisTask::CheckCircularDeps()
void	AliAnalysisTask::CheckNotify(Bool_t init = kFALSE)
virtual Bool_t	AliAnalysisTask::CheckOwnership() const
virtual Bool_t	AliAnalysisTask::CheckPostData() const
static TClass*	Class()
virtual const char*	TObject::ClassName() const
virtual void	TTask::CleanTasks()
virtual void	TTask::Clear(Option_t* option = "")
virtual TObject*	TNamed::Clone(const char* newname = "") const
virtual Int_t	TNamed::Compare(const TObject* obj) const
Bool_t	AliAnalysisTask::ConnectInput(Int_t islot, AliAnalysisDataContainer* cont)
virtual void	AliAnalysisTaskSE::ConnectInputData(Option_t* option = "")
Bool_t	AliAnalysisTask::ConnectOutput(Int_t islot, AliAnalysisDataContainer* cont)
virtual void	TTask::Continue()MENU
virtual void	TNamed::Copy(TObject& named) const
virtual void	AliAnalysisTaskSE::CreateOutputObjects()
virtual const char*	AliAnalysisTaskSE::CurrentFileName()
virtual Int_t	AliAnalysisTaskSE::DebugLevel() const
virtual void	TObject::Delete(Option_t* option = "")MENU
virtual Int_t	TObject::DistancetoPrimitive(Int_t px, Int_t py)
virtual void	TObject::Draw(Option_t* option = "")
virtual void	TObject::DrawClass() constMENU
virtual TObject*	TObject::DrawClone(Option_t* option = "") constMENU
virtual void	TObject::Dump() constMENU
virtual Long64_t	AliAnalysisTaskSE::Entry() const
virtual void	TObject::Error(const char* method, const char* msgfmt) const
virtual AliESDfriend*	AliAnalysisTaskSE::ESDfriend() const
virtual const AliEventTag*	AliAnalysisTaskSE::EventTag() const
virtual void	AliAnalysisTaskSE::Exec(Option_t* option)
virtual void	TObject::Execute(const char* method, const char* params, Int_t* error = 0)
virtual void	TObject::Execute(TMethod* method, TObjArray* params, Int_t* error = 0)
virtual void	TObject::ExecuteEvent(Int_t event, Int_t px, Int_t py)
virtual void	TTask::ExecuteTask(Option_t* option = "0")MENU
virtual void	TTask::ExecuteTasks(Option_t* option)
virtual void	TObject::Fatal(const char* method, const char* msgfmt) const
virtual void	TNamed::FillBuffer(char*& buffer)
virtual TObject*	TObject::FindObject(const char* name) const
virtual TObject*	TObject::FindObject(const TObject* obj) const
virtual void	AliAnalysisTask::FinishTaskOutput()
void	AliAnalysisTask::GetBranches(const char* type, TString& result) const
Int_t	TTask::GetBreakin() const
Int_t	TTask::GetBreakout() const
virtual UInt_t	AliAnalysisTaskSE::GetCollisionCandidates() const
virtual Option_t*	TObject::GetDrawOption() const
static Long_t	TObject::GetDtorOnly()
virtual const char*	TObject::GetIconName() const
TObject*	AliAnalysisTask::GetInputData(Int_t islot) const
AliAnalysisDataSlot*	AliAnalysisTask::GetInputSlot(Int_t islot) const
TClass*	AliAnalysisTask::GetInputType(Int_t islot) const
TList*	TTask::GetListOfTasks() const
virtual const char*	TNamed::GetName() const
Int_t	AliAnalysisTask::GetNinputs() const
Int_t	AliAnalysisTask::GetNoutputs() const
virtual char*	TObject::GetObjectInfo(Int_t px, Int_t py) const
static Bool_t	TObject::GetObjectStat()
virtual Option_t*	TObject::GetOption() const
TObject*	AliAnalysisTask::GetOutputData(Int_t islot) const
AliAnalysisDataSlot*	AliAnalysisTask::GetOutputSlot(Int_t islot) const
TClass*	AliAnalysisTask::GetOutputType(Int_t islot) const
TObject*	AliAnalysisTask::GetPublishedData() const
virtual TList*	AliAnalysisTaskSE::GetQAHistos() const
virtual const char*	TNamed::GetTitle() const
virtual UInt_t	TObject::GetUniqueID() const
virtual Bool_t	TObject::HandleTimer(TTimer* timer)
Bool_t	AliAnalysisTask::HasBranches() const
Bool_t	AliAnalysisTask::HasExecuted() const
virtual ULong_t	TNamed::Hash() const
virtual void	TObject::Info(const char* method, const char* msgfmt) const
virtual Bool_t	TObject::InheritsFrom(const char* classname) const
virtual Bool_t	TObject::InheritsFrom(const TClass* cl) const
virtual void	AliAnalysisTaskSE::Init()
virtual AliVEvent*	AliAnalysisTaskSE::InputEvent() const
virtual void	TObject::Inspect() constMENU
void	TObject::InvertBit(UInt_t f)
virtual TClass*	IsA() const
Bool_t	TTask::IsActive() const
Bool_t	AliAnalysisTask::IsChecked() const
virtual Bool_t	TObject::IsEqual(const TObject* obj) const
virtual Bool_t	AliAnalysisTaskSE::IsEventInBinZero()
virtual Bool_t	TTask::IsFolder() const
Bool_t	AliAnalysisTask::IsInitialized() const
Bool_t	TObject::IsOnHeap() const
Bool_t	AliAnalysisTask::IsOutputReady(Int_t islot) const
Bool_t	AliAnalysisTask::IsPostEventLoop() const
Bool_t	AliAnalysisTask::IsReady() const
virtual Bool_t	TNamed::IsSortable() const
virtual Bool_t	AliAnalysisTaskSE::IsStandardAOD() const
Bool_t	AliAnalysisTask::IsUsed() const
Bool_t	AliAnalysisTask::IsZombie() const
void	AliAnalysisTaskSE::LoadBranches() const
virtual void	AliAnalysisTask::LocalInit()
virtual void	TTask::ls(Option_t* option = "*") constMENU
void	TObject::MayNotUse(const char* method) const
virtual AliMCEvent*	AliAnalysisTaskSE::MCEvent() const
virtual Bool_t	AliAnalysisTaskSE::Notify()
virtual Bool_t	AliAnalysisTask::NotifyBinChange()
virtual void	AliAnalysisTaskSE::NotifyRun()
void	TObject::Obsolete(const char* method, const char* asOfVers, const char* removedFromVers) const
static void	TObject::operator delete(void* ptr)
static void	TObject::operator delete(void* ptr, void* vp)
static void	TObject::operator delete[](void* ptr)
static void	TObject::operator delete[](void* ptr, void* vp)
void*	TObject::operator new(size_t sz)
void*	TObject::operator new(size_t sz, void* vp)
void*	TObject::operator new[](size_t sz)
void*	TObject::operator new[](size_t sz, void* vp)
virtual TTree*	AliAnalysisTaskSE::OutputTree() const
virtual void	TObject::Paint(Option_t* option = "")
virtual void	TObject::Pop()
virtual void	TNamed::Print(Option_t* option = "") const
void	AliAnalysisTask::PrintContainers(Option_t* option = "all", Int_t indent = 0) const
virtual void	AliAnalysisTask::PrintTask(Option_t* option = "all", Int_t indent = 0) const
Bool_t	AliAnalysisTask::ProducersTouched() const
virtual Int_t	TObject::Read(const char* name)
virtual void	TObject::RecursiveRemove(TObject* obj)
virtual void	AliAnalysisTask::Reset()
void	TObject::ResetBit(UInt_t f)
virtual void	TObject::SaveAs(const char* filename = "", Option_t* option = "") constMENU
virtual void	TObject::SavePrimitive(basic_ostream<char,char_traits<char> >& out, Option_t* option = "")
virtual void	AliAnalysisTaskSE::SelectCollisionCandidates(UInt_t offlineTriggerMask = AliVEvent::kMB)
void	TTask::SetActive(Bool_t active = kTRUE)TOGGLE
void	TObject::SetBit(UInt_t f)
void	TObject::SetBit(UInt_t f, Bool_t set)
void	AliAnalysisTask::SetBranches(const char* names)
void	TTask::SetBreakin(Int_t breakin = 1)TOGGLE
void	TTask::SetBreakout(Int_t breakout = 1)TOGGLE
void	SetCentrality(Double_t CentMin = 0., Double_t CentMax = 100.)
void	AliAnalysisTask::SetChecked(Bool_t flag = kTRUE)
void	SetDCACut(Double_t DCAxyCUT = 0.1, Double_t DCAzCUT = 1000.0)
virtual void	AliAnalysisTaskSE::SetDebugLevel(Int_t level)
virtual void	TObject::SetDrawOption(Option_t* option = "")MENU
static void	TObject::SetDtorOnly(void* obj)
void	SetEtaLimit(Double_t etaMin = -0.8, Double_t etaMax = 0.8)
void	SetFilterBit(Int_t TestFilterBit = 16)
void	SetisSignalCheck(Int_t IsSignalCheck = 2)
void	SetMtofMethod(Int_t iMtofMethod = 1)
virtual void	TNamed::SetName(const char* name)MENU
virtual void	TNamed::SetNameTitle(const char* name, const char* title)
void	SetNminTPCcluster(Int_t nMinTPCcluster = 0)
void	SetNsigmaTPCCut(Double_t nSigmaTpcCut = 2)
static void	TObject::SetObjectStat(Bool_t stat)
void	AliAnalysisTask::SetPostEventLoop(Bool_t flag = kTRUE)
void	SetPvtxNucleiCorrection(Int_t kMomVtxCorr = 1)
virtual void	TNamed::SetTitle(const char* title = "")MENU
void	SetTrdCut(Int_t kTRDcut = 0)
virtual void	TObject::SetUniqueID(UInt_t uid)
void	AliAnalysisTask::SetUsed(Bool_t flag = kTRUE)
void	AliAnalysisTask::SetZombie(Bool_t flag = kTRUE)
virtual void	ShowMembers(TMemberInspector&)
virtual Int_t	TNamed::Sizeof() const
virtual void	Streamer(TBuffer&)
void	StreamerNVirtual(TBuffer& ClassDef_StreamerNVirtual_b)
virtual void	TObject::SysError(const char* method, const char* msgfmt) const
virtual void	Terminate(Option_t*)
Bool_t	TObject::TestBit(UInt_t f) const
Int_t	TObject::TestBits(UInt_t f) const
virtual void	TObject::UseCurrentStyle()
virtual void	UserCreateOutputObjects()
virtual void	UserExec(Option_t* option)
virtual void	AliAnalysisTaskSE::UserExecMix(Option_t*)
virtual Bool_t	AliAnalysisTaskSE::UserNotify()
virtual void	TObject::Warning(const char* method, const char* msgfmt) const
virtual Int_t	TObject::Write(const char* name = 0, Int_t option = 0, Int_t bufsize = 0)
virtual Int_t	TObject::Write(const char* name = 0, Int_t option = 0, Int_t bufsize = 0) const

protected:

void	AliAnalysisTaskSE::ConnectMultiHandler()
void	AliAnalysisTask::DefineInput(Int_t islot, TClass* type)
void	AliAnalysisTask::DefineOutput(Int_t islot, TClass* type)
void	AliAnalysisTaskSE::DisconnectMultiHandler()
virtual void	TObject::DoError(int level, const char* location, const char* fmt, va_list va) const
void	AliAnalysisTask::EnableBranch(Int_t islot, const char* bname) const
char*	AliAnalysisTask::GetBranchAddress(Int_t islot, const char* branch) const
void	TObject::MakeZombie()
TFile*	AliAnalysisTask::OpenFile(Int_t iout, Option_t* option = "RECREATE") const
Bool_t	AliAnalysisTask::PostData(Int_t iout, TObject* data, Option_t* option = "")
Bool_t	AliAnalysisTask::SetBranchAddress(Int_t islot, const char* branch, void* address) const

private:

	AliAnalysisNucleiMass(const AliAnalysisNucleiMass& old)
void	FillDCAdist(Double_t DCAxy, Double_t DCAz, Double_t charge, Int_t FlagPid, Int_t* stdFlagPid, Double_t* pC)
void	GetMassFromExpTimes(Double_t beta, Double_t* IntTimes, Double_t* Mass2)
void	GetMassFromMeanMom(Double_t beta, Double_t* IntTimes, Double_t* pVtx, Double_t eta, Double_t charge, Double_t* Mass2, Int_t FlagPid, Int_t FlagPidTof)
void	GetMassFromPvertex(Double_t beta, Double_t p, Double_t& M2)
void	GetMassFromPvertexCorrected(Double_t beta, Double_t* pC, Double_t* Mass2)
void	GetPmeanVsBetaGamma(Double_t* IntTimes, Double_t* pVtx, Int_t FlagPid, Int_t FlagPidTof, Double_t charge)
void	GetZTpc(Double_t dedx, Double_t pTPC, Double_t M2, Double_t& Z2)
void	MomVertexCorrection(Double_t p, Double_t* pC, Double_t eta, Int_t FlagPid)
AliAnalysisNucleiMass&	operator=(const AliAnalysisNucleiMass& source)
void	SetPmeanCorrections()
void	SetPvtxCorrections()

Data Members

public:

enum AliAnalysisTask::EAnalysisTaskFlags {	kTaskUsed
	kTaskZombie
	kTaskChecked
	kTaskPostEventLoop
};
enum TObject::EStatusBits {	kCanDelete
	kMustCleanup
	kObjInCanvas
	kIsReferenced
	kHasUUID
	kCannotPick
	kNoContextMenu
	kInvalidObject
};
enum TObject::[unnamed] {	kIsOnHeap
	kNotDeleted
	kZombie
	kBitMask
	kSingleKey
	kOverwrite
	kWriteDelete
};

protected:

Bool_t	TTask::fActive	true if task is active
TString	AliAnalysisTask::fBranchNames	List of input branches that need to be loaded for this task
Int_t	TTask::fBreakin	=1 if a break point set at task extry
Int_t	TTask::fBreakout	=1 if a break point set at task exit
Int_t	AliAnalysisTaskSE::fCurrentRunNumber	! Current run number
Int_t	AliAnalysisTaskSE::fDebug	Debug flag
AliESDfriend*	AliAnalysisTaskSE::fESDfriend	! ESD friend
Int_t	AliAnalysisTaskSE::fEntry	Current entry in the chain
Bool_t	TTask::fHasExecuted	True if task has executed
TList*	AliAnalysisTaskSE::fHistosQA	! Output histos for QA
Bool_t	AliAnalysisTask::fInitialized	True if Init() was called
AliVEvent*	AliAnalysisTaskSE::fInputEvent	! VEvent Input
AliInputEventHandler*	AliAnalysisTaskSE::fInputHandler	! Input Handler
TObjArray*	AliAnalysisTask::fInputs	Array of input slots
AliMCEvent*	AliAnalysisTaskSE::fMCEvent	! MC
AliInputEventHandler*	AliAnalysisTaskSE::fMCEventHandler	! pointer to MCEventHandler
AliMultiInputEventHandler*	AliAnalysisTaskSE::fMultiInputHandler	! pointer to multihandler
TString	TNamed::fName	object identifier
Int_t	AliAnalysisTask::fNinputs	Number of inputs
Int_t	AliAnalysisTask::fNoutputs	Number of outputs
UInt_t	AliAnalysisTaskSE::fOfflineTriggerMask	Task processes collision candidates only
TString	TTask::fOption	Option specified in ExecuteTask
AliAODEvent*	AliAnalysisTaskSE::fOutputAOD	! AOD out
Bool_t*	AliAnalysisTask::fOutputReady	[fNoutputs] Flags for output readyness
TObjArray*	AliAnalysisTask::fOutputs	Array of output slots
TObject*	AliAnalysisTask::fPublishedData	! published data
Bool_t	AliAnalysisTask::fReady	Flag if the task is ready
TList*	TTask::fTasks	List of Tasks
TString	TNamed::fTitle	object title
TTree*	AliAnalysisTaskSE::fTreeA	AOD output Tree
static TClonesArray*	AliAnalysisTaskSE::fgAODCaloClusters	! CaloClusters for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODDimuons	! Dimuons replication
static AliAODCaloTrigger*	AliAnalysisTaskSE::fgAODEMCALTrigger	! Emcal Trigger for replication
static AliAODCaloCells*	AliAnalysisTaskSE::fgAODEmcalCells	! Emcal Cell replication
static TClonesArray*	AliAnalysisTaskSE::fgAODFMDClusters	! FMDClusters for replication
static AliAODHeader*	AliAnalysisTaskSE::fgAODHeader	! Header for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODHmpidRings	! HMPID replication
static TClonesArray*	AliAnalysisTaskSE::fgAODJets	! Jets for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODMCParticles	! MC Particles for replicatio
static AliAODCaloTrigger*	AliAnalysisTaskSE::fgAODPHOSTrigger	! Phos Trigger for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODPMDClusters	! PMDClusters for replication
static AliAODCaloCells*	AliAnalysisTaskSE::fgAODPhosCells	! Phos Cell replication
static AliAODTracklets*	AliAnalysisTaskSE::fgAODTracklets	! Tracklets for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODTracks	! Tracks for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODV0s	! V0s for replication
static AliAODVZERO*	AliAnalysisTaskSE::fgAODVZERO	! VZERO for replication
static TClonesArray*	AliAnalysisTaskSE::fgAODVertices	! Vertices for replication
static TTask*	TTask::fgBeginTask	pointer to task initiator
static TTask*	TTask::fgBreakPoint	pointer to current break point
static AliTOFHeader*	AliAnalysisTaskSE::fgTOFHeader	! TOFHeader for replication

private:

Double_t	Centrality[2]	Centrality bin (min and max)
Double_t	DCAxyCut	Cut on DCA-xy
Double_t	DCAzCut	Cut on DCA-z
Double_t	EtaLimit[2]	Eta windows in analysis
Int_t	FilterBit	Filter Bit to be used
Int_t	NminTpcCluster	Number of minimum TPC clusters
Double_t	NsigmaTpcCut	number of sigma Tpc Cut
AliAODEvent*	fAOD	! AOD object
TH2F*	fBetaTofVSp[2][2]	! beta vs pVtx
AliESDEvent*	fESD	! ESD object
TH2F*	fEtaPhi[2]	! Phi vs Eta particle distribution
AliVEvent*	fEvent	! general object
TList*	fList[2]	! lists for slot
TH2F*	fM2vsP[2][1][18]	! M2 vs. P with NsigmaTpcCut for each particle species
TH2F*	fM2vsP_NoTpcCut[2][1][2]	! M2 vs. P
TH2F*	fM2vsZ[2][10]	! M2 vs. Z in various pT bins
TH2F*	fNsigmaTof[2][9]	! NsigmaTOF vs. pT
TH2F*	fNsigmaTpc[2][18]	! NsigmaTPC vs. pTpc
TH2F*	fNsigmaTpc_kTOF[2][18]	! NsigmaTPC vs. pt when kTOF is required
AliPIDResponse*	fPIDResponse	! pointer to PID response
TF1*	fPmeanVsBGcorr[14]	! <p>/p as a function of beta*gamma for pi,K,p,d,t,He3,He4
TH2F*	fPmeanVsBetaGamma[2][18]	! <p>/p vs beta*gamma for pi,K,p
TF2*	fPvtxTrueVsReco[4]	! TF1 pVtx_True vs pVtx_Reco calculated with MC for d,t,He3,He4
TH2F*	fdEdxVSp[2][2]	! dedx vs pTpc
TH2F*	h2DCAap[2][18]	! DCAxy vs DCAz with NsigmaTpcCut for each particle species
TProfile*	hBetaExp[2][9]	! TOF expected beta
TH1F*	hCentrality[2][2]	! Centrality of the selected and analyzed events
TH1D*	hDCAxy[2][18][46]	! DCAxy distribution with NsigmaTpcCut for each particle species, in p bins
TH1D*	hDCAz[2][18][46]	! DCAz distribution with NsigmaTpcCut for each particle species, in p bins
TProfile*	hDeDxExp[2][9]	! TPC spline used
TH1F*	hEta[2]	! Eta distribution of the tracks
TH1D*	hM2CutDCAxy[2][18][46]	! Tof m2 distribution with NsigmaTpcCut
TH1F*	hNTpcCluster[2]	! # of the TPC clusters after the track cuts
TH1F*	hNTrdSlices[2]	! Number of the TRD slices after the track cuts
TH1F*	hPhi[2]	! Phi particle distribution
TH1F*	hZvertex[2][2]	! z-vertex distribution before and after the cuts on the event
TH1F*	htemp[2]	! Temp. plot: avoid a problem with the merge of the output when a TList is empty (of the opposite magnetic field configuration)
TH1I*	htriggerbits[2][2]	! Trigger bits distribution
Int_t	iBconf	! If Magnetic Field configuration is down or up
Int_t	iMtof	iMtof==1->m~pVtx ; iMtof==2->m~pExp ; iMtof==4->m~<p> (same correction for particle and antiparticle) ;
Int_t	iTrdCut	iTrdCut==0-> No TRD cut; iTrdCut==1-> Yes TRD cut: yes TRD; iTrdCut==2->Yes TRD cut: no TRD;
static const Int_t	iTriggerSel	-99->no trigger required ; 0-> if kMB ; 16-> if kCentral ; 17-> if kSemiCentral ; -2 -> No MB, No Central and No SemiCentral
Int_t	kPvtxCorr	kPvtxCorr==1->Momentum at the primary vertex for (anti)nuclei is rescaled ; kPvtxCorr==0->no correction
Int_t	kSignalCheck	kSignalCheck==1->Fill all plots ; kSignalCheck==0->Fill only TH1 ; kSignalCheck==2-> Fill TH1 and some TH2 usefull in analysis
Bool_t	kTOF	! kTOFout and kTIME required
static const Int_t	nBconf	Number of Magnetic field configuration (B++ and B--)
static const Int_t	nPart	Number of particle type: e,mu,pi,K...
static const Int_t	nSpec	Number of particle species: particles: e+,e-,mu+,mu-,...
static const Int_t	nbin	Number of pt bins in Tof Mass distributions
TProfile*	prPmeanVsBGcorr[2][14]	! <p>/p vs beta*gamma for pi,K,p,d,t,He3,He4 as calculated from the parameterizations
TProfile*	prPmeanVsBetaGamma[2][18]	! <p>/p vs beta*gamma for pi,K,p (profile)
TProfile*	prPvtxTrueVsReco[2][4]	! TProfile pVtx_True vs pVtx_Reco calculated with MC for d,t,He3,He4

Class Charts

Inheritance Chart:

TTask

←

AliAnalysisTask

←

AliAnalysisTaskSE

←

AliAnalysisNucleiMass

Function documentation

AliAnalysisNucleiMass()

iTriggerSel(-99),

AliAnalysisNucleiMass(const char* name)

iTriggerSel(-99),

~AliAnalysisNucleiMass()

void UserCreateOutputObjects()

void UserExec(Option_t* option)

 Main loop
 Called for each event

void Terminate(Option_t* )

 Terminate loop

void MomVertexCorrection(Double_t p, Double_t* pC, Double_t eta, Int_t FlagPid)

void FillDCAdist(Double_t DCAxy, Double_t DCAz, Double_t charge, Int_t FlagPid, Int_t* stdFlagPid, Double_t* pC)

void GetMassFromPvertex(Double_t beta, Double_t p, Double_t& M2)

void GetZTpc(Double_t dedx, Double_t pTPC, Double_t M2, Double_t& Z2)

void GetMassFromPvertexCorrected(Double_t beta, Double_t* pC, Double_t* Mass2)

void GetMassFromExpTimes(Double_t beta, Double_t* IntTimes, Double_t* Mass2)

void GetPmeanVsBetaGamma(Double_t* IntTimes, Double_t* pVtx, Int_t FlagPid, Int_t FlagPidTof, Double_t charge)

void GetMassFromMeanMom(Double_t beta, Double_t* IntTimes, Double_t* pVtx, Double_t eta, Double_t charge, Double_t* Mass2, Int_t FlagPid, Int_t FlagPidTof)

void SetPvtxCorrections()

for (bar)d

void SetPmeanCorrections()

AliAnalysisNucleiMass()

void SetCentrality(Double_t CentMin = 0., Double_t CentMax = 100.)

Cuts on the events

{Centrality[0]=CentMin; Centrality[1]=CentMax;}

void SetFilterBit(Int_t TestFilterBit = 16)

Cuts on the tracks

{FilterBit=TestFilterBit;}

void SetEtaLimit(Double_t etaMin = -0.8, Double_t etaMax = 0.8)

geometrical cuts

{EtaLimit[0]=etaMin;EtaLimit[1]=etaMax;}

void SetDCACut(Double_t DCAxyCUT = 0.1, Double_t DCAzCUT = 1000.0)

other cuts

{DCAxyCut=DCAxyCUT; DCAzCut=DCAzCUT;}

void SetNsigmaTPCCut(Double_t nSigmaTpcCut = 2)

{NsigmaTpcCut=nSigmaTpcCut;}

void SetNminTPCcluster(Int_t nMinTPCcluster = 0)

{NminTpcCluster=nMinTPCcluster;}

void SetTrdCut(Int_t kTRDcut = 0)

{iTrdCut=kTRDcut;}

void SetisSignalCheck(Int_t IsSignalCheck = 2)

Settings

{kSignalCheck=IsSignalCheck;}

void SetMtofMethod(Int_t iMtofMethod = 1)

{iMtof=iMtofMethod;}

void SetPvtxNucleiCorrection(Int_t kMomVtxCorr = 1)

void SetiTriggerSel(Int_t ItriggerSel=-99) {iTriggerSel=ItriggerSel;}

{kPvtxCorr=kMomVtxCorr;}

AliAnalysisNucleiMass& operator=(const AliAnalysisNucleiMass& source)