#include <limits.h>
#include <float.h>
+#include <TMatrix.h>
+#include "TParticle.h"
+#include "TObjArray.h"
+#include "AliStack.h"
#include "AliMCEvent.h"
+#include "AliESDEvent.h"
#include "AliVParticle.h"
#include "AliMCParticle.h"
#include "AliESDtrack.h"
#include "AliFlowTrack.h"
#include "AliFlowTrackCuts.h"
#include "AliLog.h"
+#include "AliESDpid.h"
+#include "AliESDPmdTrack.h"
ClassImp(AliFlowTrackCuts)
//-----------------------------------------------------------------------
AliFlowTrackCuts::AliFlowTrackCuts():
+ AliFlowTrackSimpleCuts(),
+ fAliESDtrackCuts(NULL),
+ fQA(NULL),
+ fCutMC(kFALSE),
+ fCutMCprocessType(kFALSE),
+ fMCprocessType(kPNoProcess),
+ fCutMCPID(kFALSE),
+ fMCPID(0),
+ fIgnoreSignInPID(kFALSE),
+ fCutMCisPrimary(kFALSE),
+ fRequireTransportBitForPrimaries(kTRUE),
+ fMCisPrimary(kFALSE),
+ fRequireCharge(kFALSE),
+ fFakesAreOK(kTRUE),
+ fCutSPDtrackletDeltaPhi(kFALSE),
+ fSPDtrackletDeltaPhiMax(FLT_MAX),
+ fSPDtrackletDeltaPhiMin(-FLT_MAX),
+ fIgnoreTPCzRange(kFALSE),
+ fIgnoreTPCzRangeMax(FLT_MAX),
+ fIgnoreTPCzRangeMin(-FLT_MAX),
+ fCutChi2PerClusterTPC(kFALSE),
+ fMaxChi2PerClusterTPC(FLT_MAX),
+ fMinChi2PerClusterTPC(-FLT_MAX),
+ fCutNClustersTPC(kFALSE),
+ fNClustersTPCMax(INT_MAX),
+ fNClustersTPCMin(INT_MIN),
+ fCutNClustersITS(kFALSE),
+ fNClustersITSMax(INT_MAX),
+ fNClustersITSMin(INT_MIN),
+ fUseAODFilterBit(kFALSE),
+ fAODFilterBit(0),
+ fCutDCAToVertexXY(kFALSE),
+ fCutDCAToVertexZ(kFALSE),
+ fCutMinimalTPCdedx(kFALSE),
+ fMinimalTPCdedx(0.),
+ fParamType(kGlobal),
+ fParamMix(kPure),
+ fTrack(NULL),
+ fTrackPhi(0.),
+ fTrackEta(0.),
+ fTrackWeight(0.),
+ fTrackLabel(INT_MIN),
+ fMCevent(NULL),
+ fMCparticle(NULL),
+ fEvent(NULL),
+ fTPCtrack(),
+ fESDpid(),
+ fPIDsource(kTOFpid),
+ fTPCpidCuts(NULL),
+ fTOFpidCuts(NULL),
+ fParticleID(AliPID::kPion),
+ fParticleProbability(.9)
+{
+ //io constructor
+ for ( Int_t i=0; i<5; i++ ) { fProbBayes[i]=0.0; }
+ SetPriors(); //init arrays
+}
+
+//-----------------------------------------------------------------------
+AliFlowTrackCuts::AliFlowTrackCuts(const char* name):
AliFlowTrackSimpleCuts(),
fAliESDtrackCuts(new AliESDtrackCuts()),
- fQA(kFALSE),
+ fQA(NULL),
+ fCutMC(kFALSE),
fCutMCprocessType(kFALSE),
fMCprocessType(kPNoProcess),
fCutMCPID(kFALSE),
fMCPID(0),
+ fIgnoreSignInPID(kFALSE),
fCutMCisPrimary(kFALSE),
+ fRequireTransportBitForPrimaries(kTRUE),
fMCisPrimary(kFALSE),
fRequireCharge(kFALSE),
fFakesAreOK(kTRUE),
+ fCutSPDtrackletDeltaPhi(kFALSE),
+ fSPDtrackletDeltaPhiMax(FLT_MAX),
+ fSPDtrackletDeltaPhiMin(-FLT_MAX),
+ fIgnoreTPCzRange(kFALSE),
+ fIgnoreTPCzRangeMax(FLT_MAX),
+ fIgnoreTPCzRangeMin(-FLT_MAX),
+ fCutChi2PerClusterTPC(kFALSE),
+ fMaxChi2PerClusterTPC(FLT_MAX),
+ fMinChi2PerClusterTPC(-FLT_MAX),
+ fCutNClustersTPC(kFALSE),
+ fNClustersTPCMax(INT_MAX),
+ fNClustersTPCMin(INT_MIN),
+ fCutNClustersITS(kFALSE),
+ fNClustersITSMax(INT_MAX),
+ fNClustersITSMin(INT_MIN),
+ fUseAODFilterBit(kFALSE),
+ fAODFilterBit(0),
+ fCutDCAToVertexXY(kFALSE),
+ fCutDCAToVertexZ(kFALSE),
+ fCutMinimalTPCdedx(kFALSE),
+ fMinimalTPCdedx(0.),
fParamType(kGlobal),
fParamMix(kPure),
- fCleanupTrack(kFALSE),
fTrack(NULL),
fTrackPhi(0.),
fTrackEta(0.),
fTrackWeight(0.),
fTrackLabel(INT_MIN),
fMCevent(NULL),
- fMCparticle(NULL)
+ fMCparticle(NULL),
+ fEvent(NULL),
+ fTPCtrack(),
+ fESDpid(),
+ fPIDsource(kTOFpid),
+ fTPCpidCuts(NULL),
+ fTOFpidCuts(NULL),
+ fParticleID(AliPID::kPion),
+ fParticleProbability(.9)
{
//constructor
+ SetName(name);
+ SetTitle("AliFlowTrackCuts");
+ fESDpid.GetTPCResponse().SetBetheBlochParameters( 0.0283086,
+ 2.63394e+01,
+ 5.04114e-11,
+ 2.12543e+00,
+ 4.88663e+00 );
+ for ( Int_t i=0; i<5; i++ ) { fProbBayes[i]=0.0; }
+ SetPriors(); //init arrays
}
//-----------------------------------------------------------------------
-AliFlowTrackCuts::AliFlowTrackCuts(const AliFlowTrackCuts& someCuts):
- AliFlowTrackSimpleCuts(someCuts),
- fAliESDtrackCuts(new AliESDtrackCuts(*(someCuts.fAliESDtrackCuts))),
- fQA(someCuts.fQA),
- fCutMCprocessType(someCuts.fCutMCprocessType),
- fMCprocessType(someCuts.fMCprocessType),
- fCutMCPID(someCuts.fCutMCPID),
- fMCPID(someCuts.fMCPID),
- fCutMCisPrimary(someCuts.fCutMCisPrimary),
- fMCisPrimary(someCuts.fMCisPrimary),
- fRequireCharge(someCuts.fRequireCharge),
- fFakesAreOK(someCuts.fFakesAreOK),
- fParamType(someCuts.fParamType),
- fParamMix(someCuts.fParamMix),
- fCleanupTrack(kFALSE),
+AliFlowTrackCuts::AliFlowTrackCuts(const AliFlowTrackCuts& that):
+ AliFlowTrackSimpleCuts(that),
+ fAliESDtrackCuts(NULL),
+ fQA(NULL),
+ fCutMC(that.fCutMC),
+ fCutMCprocessType(that.fCutMCprocessType),
+ fMCprocessType(that.fMCprocessType),
+ fCutMCPID(that.fCutMCPID),
+ fMCPID(that.fMCPID),
+ fIgnoreSignInPID(that.fIgnoreSignInPID),
+ fCutMCisPrimary(that.fCutMCisPrimary),
+ fRequireTransportBitForPrimaries(that.fRequireTransportBitForPrimaries),
+ fMCisPrimary(that.fMCisPrimary),
+ fRequireCharge(that.fRequireCharge),
+ fFakesAreOK(that.fFakesAreOK),
+ fCutSPDtrackletDeltaPhi(that.fCutSPDtrackletDeltaPhi),
+ fSPDtrackletDeltaPhiMax(that.fSPDtrackletDeltaPhiMax),
+ fSPDtrackletDeltaPhiMin(that.fSPDtrackletDeltaPhiMin),
+ fIgnoreTPCzRange(that.fIgnoreTPCzRange),
+ fIgnoreTPCzRangeMax(that.fIgnoreTPCzRangeMax),
+ fIgnoreTPCzRangeMin(that.fIgnoreTPCzRangeMin),
+ fCutChi2PerClusterTPC(that.fCutChi2PerClusterTPC),
+ fMaxChi2PerClusterTPC(that.fMaxChi2PerClusterTPC),
+ fMinChi2PerClusterTPC(that.fMinChi2PerClusterTPC),
+ fCutNClustersTPC(that.fCutNClustersTPC),
+ fNClustersTPCMax(that.fNClustersTPCMax),
+ fNClustersTPCMin(that.fNClustersTPCMin),
+ fCutNClustersITS(that.fCutNClustersITS),
+ fNClustersITSMax(that.fNClustersITSMax),
+ fNClustersITSMin(that.fNClustersITSMin),
+ fUseAODFilterBit(that.fUseAODFilterBit),
+ fAODFilterBit(that.fAODFilterBit),
+ fCutDCAToVertexXY(that.fCutDCAToVertexXY),
+ fCutDCAToVertexZ(that.fCutDCAToVertexZ),
+ fCutMinimalTPCdedx(that.fCutMinimalTPCdedx),
+ fMinimalTPCdedx(that.fMinimalTPCdedx),
+ fParamType(that.fParamType),
+ fParamMix(that.fParamMix),
fTrack(NULL),
- fTrackPhi(someCuts.fTrackPhi),
- fTrackEta(someCuts.fTrackEta),
- fTrackWeight(someCuts.fTrackWeight),
+ fTrackPhi(0.),
+ fTrackEta(0.),
+ fTrackWeight(0.),
fTrackLabel(INT_MIN),
fMCevent(NULL),
- fMCparticle(NULL)
+ fMCparticle(NULL),
+ fEvent(NULL),
+ fTPCtrack(),
+ fESDpid(that.fESDpid),
+ fPIDsource(that.fPIDsource),
+ fTPCpidCuts(NULL),
+ fTOFpidCuts(NULL),
+ fParticleID(that.fParticleID),
+ fParticleProbability(that.fParticleProbability)
{
//copy constructor
+ if (that.fTPCpidCuts) fTPCpidCuts = new TMatrixF(*(that.fTPCpidCuts));
+ if (that.fTOFpidCuts) fTOFpidCuts = new TMatrixF(*(that.fTOFpidCuts));
+ if (that.fAliESDtrackCuts) fAliESDtrackCuts = new AliESDtrackCuts(*(that.fAliESDtrackCuts));
+ memcpy(fProbBayes,that.fProbBayes,sizeof(fProbBayes));
+ SetPriors(); //init arrays
}
//-----------------------------------------------------------------------
-AliFlowTrackCuts& AliFlowTrackCuts::operator=(const AliFlowTrackCuts& someCuts)
+AliFlowTrackCuts& AliFlowTrackCuts::operator=(const AliFlowTrackCuts& that)
{
//assignment
- AliFlowTrackSimpleCuts::operator=(someCuts);
- *fAliESDtrackCuts=*(someCuts.fAliESDtrackCuts);
- fQA=someCuts.fQA;
- fCutMCprocessType=someCuts.fCutMCprocessType;
- fMCprocessType=someCuts.fMCprocessType;
- fCutMCPID=someCuts.fCutMCPID;
- fMCPID=someCuts.fMCPID;
- fCutMCisPrimary=someCuts.fCutMCisPrimary;
- fMCisPrimary=someCuts.fMCisPrimary;
- fRequireCharge=someCuts.fRequireCharge;
- fFakesAreOK=someCuts.fFakesAreOK;
- fParamType=someCuts.fParamType;
- fParamMix=someCuts.fParamMix;
-
- fCleanupTrack=kFALSE;
+ if (this==&that) return *this;
+
+ AliFlowTrackSimpleCuts::operator=(that);
+ if (that.fAliESDtrackCuts) *fAliESDtrackCuts=*(that.fAliESDtrackCuts);
+ fQA=NULL;
+ fCutMC=that.fCutMC;
+ fCutMCprocessType=that.fCutMCprocessType;
+ fMCprocessType=that.fMCprocessType;
+ fCutMCPID=that.fCutMCPID;
+ fMCPID=that.fMCPID;
+ fIgnoreSignInPID=that.fIgnoreSignInPID,
+ fCutMCisPrimary=that.fCutMCisPrimary;
+ fRequireTransportBitForPrimaries=that.fRequireTransportBitForPrimaries;
+ fMCisPrimary=that.fMCisPrimary;
+ fRequireCharge=that.fRequireCharge;
+ fFakesAreOK=that.fFakesAreOK;
+ fCutSPDtrackletDeltaPhi=that.fCutSPDtrackletDeltaPhi;
+ fSPDtrackletDeltaPhiMax=that.fSPDtrackletDeltaPhiMax;
+ fSPDtrackletDeltaPhiMin=that.fSPDtrackletDeltaPhiMin;
+ fIgnoreTPCzRange=that.fIgnoreTPCzRange;
+ fIgnoreTPCzRangeMax=that.fIgnoreTPCzRangeMax;
+ fIgnoreTPCzRangeMin=that.fIgnoreTPCzRangeMin;
+ fCutChi2PerClusterTPC=that.fCutChi2PerClusterTPC;
+ fMaxChi2PerClusterTPC=that.fMaxChi2PerClusterTPC;
+ fMinChi2PerClusterTPC=that.fMinChi2PerClusterTPC;
+ fCutNClustersTPC=that.fCutNClustersTPC;
+ fNClustersTPCMax=that.fNClustersTPCMax;
+ fNClustersTPCMin=that.fNClustersTPCMin;
+ fCutNClustersITS=that.fCutNClustersITS;
+ fNClustersITSMax=that.fNClustersITSMax;
+ fNClustersITSMin=that.fNClustersITSMin;
+ fUseAODFilterBit=that.fUseAODFilterBit;
+ fAODFilterBit=that.fAODFilterBit;
+ fCutDCAToVertexXY=that.fCutDCAToVertexXY;
+ fCutDCAToVertexZ=that.fCutDCAToVertexZ;
+ fCutMinimalTPCdedx=that.fCutMinimalTPCdedx;
+ fMinimalTPCdedx=that.fMinimalTPCdedx;
+ fParamType=that.fParamType;
+ fParamMix=that.fParamMix;
+
fTrack=NULL;
- fTrackPhi=someCuts.fTrackPhi;
- fTrackPhi=someCuts.fTrackPhi;
- fTrackWeight=someCuts.fTrackWeight;
+ fTrackPhi=0.;
+ fTrackPhi=0.;
+ fTrackWeight=0.;
fTrackLabel=INT_MIN;
fMCevent=NULL;
fMCparticle=NULL;
+ fEvent=NULL;
+
+ fESDpid = that.fESDpid;
+ fPIDsource = that.fPIDsource;
+
+ delete fTPCpidCuts;
+ delete fTOFpidCuts;
+ if (that.fTPCpidCuts) fTPCpidCuts = new TMatrixF(*(that.fTPCpidCuts));
+ if (that.fTOFpidCuts) fTOFpidCuts = new TMatrixF(*(that.fTOFpidCuts));
+
+ fParticleID=that.fParticleID;
+ fParticleProbability=that.fParticleProbability;
+ memcpy(fProbBayes,that.fProbBayes,sizeof(fProbBayes));
return *this;
}
AliFlowTrackCuts::~AliFlowTrackCuts()
{
//dtor
- if (fCleanupTrack) delete fTrack;
delete fAliESDtrackCuts;
+ delete fTPCpidCuts;
+ delete fTOFpidCuts;
+}
+
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::SetEvent(AliVEvent* event, AliMCEvent* mcEvent)
+{
+ //set the event
+ Clear();
+ fEvent=event;
+ fMCevent=mcEvent;
+
+ //do the magic for ESD
+ AliESDEvent* myESD = dynamic_cast<AliESDEvent*>(event);
+ if (fCutPID && myESD)
+ {
+ //TODO: maybe call it only for the TOF options?
+ // Added by F. Noferini for TOF PID
+ fESDpid.SetTOFResponse(myESD,AliESDpid::kTOF_T0);
+ fESDpid.MakePID(myESD,kFALSE);
+ // End F. Noferini added part
+ }
+
+ //TODO: AOD
+}
+
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::SetCutMC( Bool_t b )
+{
+ //will we be cutting on MC information?
+ fCutMC=b;
+
+ //if we cut on MC info then also the Bethe Bloch should be the one tuned for MC
+ if (fCutMC)
+ {
+ fESDpid.GetTPCResponse().SetBetheBlochParameters( 2.15898e+00/50.,
+ 1.75295e+01,
+ 3.40030e-09,
+ 1.96178e+00,
+ 3.91720e+00);
+ }
}
//-----------------------------------------------------------------------
if (flowtrack) return PassesCuts(flowtrack);
AliMultiplicity* tracklets = dynamic_cast<AliMultiplicity*>(obj);
if (tracklets) return PassesCuts(tracklets,id);
+ AliESDPmdTrack* pmdtrack = dynamic_cast<AliESDPmdTrack*>(obj);
+ if (pmdtrack) return PassesPMDcuts(pmdtrack);
+ return kFALSE; //default when passed wrong type of object
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::IsSelectedMCtruth(TObject* obj, Int_t id)
+{
+ //check cuts
+ AliVParticle* vparticle = dynamic_cast<AliVParticle*>(obj);
+ if (vparticle)
+ {
+ return PassesMCcuts(fMCevent,vparticle->GetLabel());
+ }
+ AliMultiplicity* tracklets = dynamic_cast<AliMultiplicity*>(obj);
+ if (tracklets)
+ {
+ Int_t label0 = tracklets->GetLabel(id,0);
+ Int_t label1 = tracklets->GetLabel(id,1);
+ Int_t label = (label0==label1)?tracklets->GetLabel(id,1):-666;
+ return PassesMCcuts(fMCevent,label);
+ }
return kFALSE; //default when passed wrong type of object
}
//check cuts on a flowtracksimple
//clean up from last iteration
- if (fCleanupTrack) delete fTrack; fTrack = NULL;
+ fTrack = NULL;
return AliFlowTrackSimpleCuts::PassesCuts(track);
}
{
//check cuts on a tracklets
- //clean up from last iteration
- if (fCleanupTrack) delete fTrack; fTrack = NULL;
+ //clean up from last iteration, and init label
+ fTrack = NULL;
fMCparticle=NULL;
+ fTrackLabel=-1;
fTrackPhi = tracklet->GetPhi(id);
fTrackEta = tracklet->GetEta(id);
if (fCutPhi) {if ( fTrackPhi < fPhiMin || fTrackPhi >= fPhiMax ) return kFALSE;}
//check MC info if available
- fTrackLabel = tracklet->GetLabel(id,1); //TODO: this can be improved
- if (!PassesMCcuts()) return kFALSE;
+ //if the 2 clusters have different label track cannot be good
+ //and should therefore not pass the mc cuts
+ Int_t label0 = tracklet->GetLabel(id,0);
+ Int_t label1 = tracklet->GetLabel(id,1);
+ //if possible get label and mcparticle
+ fTrackLabel = (label0==label1)?tracklet->GetLabel(id,1):-1;
+ if (!fFakesAreOK && fTrackLabel<0) return kFALSE;
+ if (fTrackLabel>=0 && fMCevent) fMCparticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(fTrackLabel));
+ //check MC cuts
+ if (fCutMC && !PassesMCcuts()) return kFALSE;
return kTRUE;
}
//-----------------------------------------------------------------------
-Bool_t AliFlowTrackCuts::PassesMCcuts()
+Bool_t AliFlowTrackCuts::PassesMCcuts(AliMCEvent* mcEvent, Int_t label)
{
//check the MC info
- if (!fMCevent) {AliError("no MC info"); return kFALSE;}
- fMCparticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(fTrackLabel));
- if (!fMCparticle) {AliError("no MC info"); return kFALSE;}
+ if (!mcEvent) return kFALSE;
+ if (label<0) return kFALSE;//otherwise AliCMevent prints a warning before returning NULL
+ AliMCParticle* mcparticle = static_cast<AliMCParticle*>(mcEvent->GetTrack(label));
+ if (!mcparticle) {AliError("no MC track"); return kFALSE;}
if (fCutMCisPrimary)
{
- if (IsPhysicalPrimary() != fMCisPrimary) return kFALSE;
+ if (IsPhysicalPrimary(mcEvent,label,fRequireTransportBitForPrimaries) != fMCisPrimary) return kFALSE;
}
if (fCutMCPID)
{
- Int_t pdgCode = fMCparticle->PdgCode();
- if (fMCPID != pdgCode) return kFALSE;
+ Int_t pdgCode = mcparticle->PdgCode();
+ if (fIgnoreSignInPID)
+ {
+ if (TMath::Abs(fMCPID) != TMath::Abs(pdgCode)) return kFALSE;
+ }
+ else
+ {
+ if (fMCPID != pdgCode) return kFALSE;
+ }
}
if ( fCutMCprocessType )
{
- TParticle* particle = fMCparticle->Particle();
+ TParticle* particle = mcparticle->Particle();
Int_t processID = particle->GetUniqueID();
if (processID != fMCprocessType ) return kFALSE;
}
return kTRUE;
}
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::PassesMCcuts()
+{
+ if (!fMCevent) return kFALSE;
+ if (fTrackLabel<0) return kFALSE;//otherwise AliCMevent prints a warning before returning NULL
+ fMCparticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(fTrackLabel));
+ return PassesMCcuts(fMCevent,fTrackLabel);
+}
//-----------------------------------------------------------------------
Bool_t AliFlowTrackCuts::PassesCuts(AliVParticle* vparticle)
// start by preparing the track parameters to cut on //////////
////////////////////////////////////////////////////////////////
//clean up from last iteration
- if (fCleanupTrack) delete fTrack; fTrack=NULL;
+ fTrack=NULL;
//get the label and the mc particle
fTrackLabel = (fFakesAreOK)?TMath::Abs(vparticle->GetLabel()):vparticle->GetLabel();
Bool_t isMCparticle = kFALSE; //some things are different for MC particles, check!
AliESDtrack* esdTrack = dynamic_cast<AliESDtrack*>(vparticle);
+ AliAODTrack* aodTrack = NULL;
if (esdTrack)
+ //for an ESD track we do some magic sometimes like constructing TPC only parameters
+ //or doing some hybrid, handle that here
HandleESDtrack(esdTrack);
else
{
HandleVParticle(vparticle);
//now check if produced particle is MC
isMCparticle = (dynamic_cast<AliMCParticle*>(fTrack))!=NULL;
+ aodTrack = dynamic_cast<AliAODTrack*>(vparticle); //keep the additional dynamic cast out of the way for ESDs
}
////////////////////////////////////////////////////////////////
////////////////////////////////////////////////////////////////
+ if (!fTrack) return kFALSE;
+ //because it may be different from global, not needed for aodTrack because we dont do anything funky there
+ if (esdTrack) esdTrack = static_cast<AliESDtrack*>(fTrack);
+
Bool_t pass=kTRUE;
- //check the common cuts for the current particle (MC,AOD,ESD)
- if (fCutPt) {if (fTrack->Pt() < fPtMin || fTrack->Pt() >= fPtMax ) pass=kFALSE;}
+ //check the common cuts for the current particle fTrack (MC,AOD,ESD)
+ Double_t pt = fTrack->Pt();
+ if (!fFakesAreOK) {if (fTrackLabel<0) pass=kFALSE;}
+ if (fCutPt) {if (pt < fPtMin || pt >= fPtMax ) pass=kFALSE;}
if (fCutEta) {if (fTrack->Eta() < fEtaMin || fTrack->Eta() >= fEtaMax ) pass=kFALSE;}
if (fCutPhi) {if (fTrack->Phi() < fPhiMin || fTrack->Phi() >= fPhiMax ) pass=kFALSE;}
if (fRequireCharge) {if (fTrack->Charge() == 0) pass=kFALSE;}
{
//in case of an MC particle the charge is stored in units of 1/3|e|
Int_t charge = TMath::Nint(fTrack->Charge()/3.0); //mc particles have charge in units of 1/3e
- return (charge==fCharge);
+ if (charge!=fCharge) pass=kFALSE;
}
//if(fCutPID) {if (fTrack->PID() != fPID) pass=kFALSE;}
//when additionally MC info is required
- if (!PassesMCcuts()) pass=kFALSE;
+ if (fCutMC && !PassesMCcuts()) pass=kFALSE;
+
+ //the case of ESD or AOD
+ if (esdTrack) { if (!PassesESDcuts(esdTrack)) { pass=kFALSE; } }
+ if (aodTrack) { if (!PassesAODcuts(aodTrack)) { pass=kFALSE; } }
+
+ //true by default, if we didn't set any cuts
+ return pass;
+}
+
+//_______________________________________________________________________
+Bool_t AliFlowTrackCuts::PassesAODcuts(AliAODTrack* track)
+{
+ Bool_t pass = kTRUE;
+
+ if (fCutNClustersTPC)
+ {
+ Int_t ntpccls = track->GetTPCNcls();
+ if (ntpccls < fNClustersTPCMin || ntpccls > fNClustersTPCMax) pass=kFALSE;
+ }
+
+ if (fCutNClustersITS)
+ {
+ Int_t nitscls = track->GetITSNcls();
+ if (nitscls < fNClustersITSMin || nitscls > fNClustersITSMax) pass=kFALSE;
+ }
+
+ if (fCutChi2PerClusterTPC)
+ {
+ Double_t chi2tpc = track->Chi2perNDF();
+ if (chi2tpc < fMinChi2PerClusterTPC || chi2tpc > fMaxChi2PerClusterTPC) pass=kFALSE;
+ }
+
+ if (GetRequireTPCRefit() && !(track->GetStatus() & AliESDtrack::kTPCrefit) ) pass=kFALSE;
+ if (GetRequireITSRefit() && !(track->GetStatus() & AliESDtrack::kITSrefit) ) pass=kFALSE;
+
+ if (fUseAODFilterBit && !track->TestFilterBit(fAODFilterBit)) pass=kFALSE;
+
+ if (fCutDCAToVertexXY && track->DCA()>GetMaxDCAToVertexXY()) pass=kFALSE;
+
+
+ return pass;
+}
+
+//_______________________________________________________________________
+Bool_t AliFlowTrackCuts::PassesESDcuts(AliESDtrack* track)
+{
+ Bool_t pass=kTRUE;
+ if (fIgnoreTPCzRange)
+ {
+ const AliExternalTrackParam* pin = track->GetOuterParam();
+ const AliExternalTrackParam* pout = track->GetInnerParam();
+ if (pin&&pout)
+ {
+ Double_t zin = pin->GetZ();
+ Double_t zout = pout->GetZ();
+ if (zin*zout<0) pass=kFALSE; //reject if cross the membrane
+ if (zin < fIgnoreTPCzRangeMin || zin > fIgnoreTPCzRangeMax) pass=kFALSE;
+ if (zout < fIgnoreTPCzRangeMin || zout > fIgnoreTPCzRangeMax) pass=kFALSE;
+ }
+ }
+
+ Int_t ntpccls = ( fParamType==kESD_TPConly )?
+ track->GetTPCNclsIter1():track->GetTPCNcls();
+ if (fCutChi2PerClusterTPC)
+ {
+ Float_t tpcchi2 = (fParamType==kESD_TPConly)?
+ track->GetTPCchi2Iter1():track->GetTPCchi2();
+ tpcchi2 = (ntpccls>0)?tpcchi2/ntpccls:-FLT_MAX;
+ if (tpcchi2<fMinChi2PerClusterTPC || tpcchi2 >=fMaxChi2PerClusterTPC)
+ pass=kFALSE;
+ }
+
+ if (fCutMinimalTPCdedx)
+ {
+ if (track->GetTPCsignal() < fMinimalTPCdedx) pass=kFALSE;
+ }
+
+ if (fCutNClustersTPC)
+ {
+ if (ntpccls < fNClustersTPCMin || ntpccls > fNClustersTPCMax) pass=kFALSE;
+ }
+
+ Int_t nitscls = track->GetNcls(0);
+ if (fCutNClustersITS)
+ {
+ if (nitscls < fNClustersITSMin || nitscls > fNClustersITSMax) pass=kFALSE;
+ }
- //check all else for ESDs using aliesdtrackcuts
- if (esdTrack && (fParamType!=kMC) )
- if (!fAliESDtrackCuts->IsSelected(static_cast<AliESDtrack*>(fTrack))) pass=kFALSE;
+ if (fCutPID)
+ {
+ switch (fPIDsource)
+ {
+ case kTPCpid:
+ if (!PassesTPCpidCut(track)) pass=kFALSE;
+ break;
+ case kTPCdedx:
+ if (!PassesTPCdedxCut(track)) pass=kFALSE;
+ break;
+ case kTOFpid:
+ if (!PassesTOFpidCut(track)) pass=kFALSE;
+ break;
+ case kTOFbeta:
+ if (!PassesTOFbetaCut(track)) pass=kFALSE;
+ break;
+ // part added by F. Noferini
+ case kTOFbayesian:
+ if (!PassesTOFbayesianCut(track)) pass=kFALSE;
+ break;
+ // end part added by F. Noferini
+ default:
+ printf("AliFlowTrackCuts::PassesCuts() this should never be called!\n");
+ pass=kFALSE;
+ break;
+ }
+ }
- return pass; //true by default, if we didn't set any cuts
+ //some stuff is still handled by AliESDtrackCuts class - delegate
+ if (fAliESDtrackCuts)
+ {
+ if (!fAliESDtrackCuts->IsSelected(track)) pass=kFALSE;
+ }
+
+ return pass;
}
//-----------------------------------------------------------------------
switch (fParamType)
{
default:
- fCleanupTrack = kFALSE;
fTrack = track;
+ break;
}
}
{
case kGlobal:
fTrack = track;
- fCleanupTrack = kFALSE;
break;
case kESD_TPConly:
- fTrack = new AliESDtrack();
- track->FillTPCOnlyTrack(*(static_cast<AliESDtrack*>(fTrack)));
- fCleanupTrack = kTRUE;
+ if (!track->FillTPCOnlyTrack(fTPCtrack))
+ {
+ fTrack=NULL;
+ fMCparticle=NULL;
+ fTrackLabel=-1;
+ return;
+ }
+ fTrack = &fTPCtrack;
//recalculate the label and mc particle, they may differ as TPClabel != global label
fTrackLabel = (fFakesAreOK)?TMath::Abs(fTrack->GetLabel()):fTrack->GetLabel();
if (fMCevent) fMCparticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(fTrackLabel));
break;
default:
fTrack = track;
- fCleanupTrack = kFALSE;
+ break;
}
}
+//-----------------------------------------------------------------------
+Int_t AliFlowTrackCuts::Count(AliVEvent* event)
+{
+ //calculate the number of track in given event.
+ //if argument is NULL(default) take the event attached
+ //by SetEvent()
+ Int_t multiplicity = 0;
+ if (!event)
+ {
+ for (Int_t i=0; i<GetNumberOfInputObjects(); i++)
+ {
+ if (IsSelected(GetInputObject(i))) multiplicity++;
+ }
+ }
+ else
+ {
+ for (Int_t i=0; i<event->GetNumberOfTracks(); i++)
+ {
+ if (IsSelected(event->GetTrack(i))) multiplicity++;
+ }
+ }
+ return multiplicity;
+}
+
+//-----------------------------------------------------------------------
+AliFlowTrackCuts* AliFlowTrackCuts::GetStandardGlobalTrackCuts2010()
+{
+ //get standard cuts
+ AliFlowTrackCuts* cuts = new AliFlowTrackCuts("standard Global flow cuts");
+ cuts->SetParamType(kGlobal);
+ cuts->SetPtRange(0.2,5.);
+ cuts->SetEtaRange(-0.8,0.8);
+ cuts->SetMinNClustersTPC(70);
+ cuts->SetMinChi2PerClusterTPC(0.1);
+ cuts->SetMaxChi2PerClusterTPC(4.0);
+ cuts->SetMinNClustersITS(2);
+ cuts->SetRequireITSRefit(kTRUE);
+ cuts->SetRequireTPCRefit(kTRUE);
+ cuts->SetMaxDCAToVertexXY(0.3);
+ cuts->SetMaxDCAToVertexZ(0.3);
+ cuts->SetAcceptKinkDaughters(kFALSE);
+ cuts->SetMinimalTPCdedx(10.);
+
+ return cuts;
+}
+
+//-----------------------------------------------------------------------
+AliFlowTrackCuts* AliFlowTrackCuts::GetStandardTPCOnlyTrackCuts2010()
+{
+ //get standard cuts
+ AliFlowTrackCuts* cuts = new AliFlowTrackCuts("standard TPConly flow cuts");
+ cuts->SetParamType(kESD_TPConly);
+ cuts->SetPtRange(0.2,5.);
+ cuts->SetEtaRange(-0.8,0.8);
+ cuts->SetMinNClustersTPC(70);
+ cuts->SetMinChi2PerClusterTPC(0.2);
+ cuts->SetMaxChi2PerClusterTPC(4.0);
+ cuts->SetMaxDCAToVertexXY(3.0);
+ cuts->SetMaxDCAToVertexZ(3.0);
+ cuts->SetDCAToVertex2D(kTRUE);
+ cuts->SetAcceptKinkDaughters(kFALSE);
+ cuts->SetMinimalTPCdedx(10.);
+
+ return cuts;
+}
+
//-----------------------------------------------------------------------
AliFlowTrackCuts* AliFlowTrackCuts::GetStandardTPCOnlyTrackCuts()
{
//get standard cuts
- AliFlowTrackCuts* cuts = new AliFlowTrackCuts();
- cuts->SetName("standard TPConly cuts");
- delete cuts->fAliESDtrackCuts;
- cuts->fAliESDtrackCuts = AliESDtrackCuts::GetStandardTPCOnlyTrackCuts();
+ AliFlowTrackCuts* cuts = new AliFlowTrackCuts("standard TPConly flow cuts");
cuts->SetParamType(kESD_TPConly);
+ cuts->SetPtRange(0.2,5.);
+ cuts->SetEtaRange(-0.8,0.8);
+ cuts->SetMinNClustersTPC(70);
+ cuts->SetMinChi2PerClusterTPC(0.2);
+ cuts->SetMaxChi2PerClusterTPC(4.0);
+ cuts->SetMaxDCAToVertexXY(3.0);
+ cuts->SetMaxDCAToVertexZ(3.0);
+ cuts->SetDCAToVertex2D(kTRUE);
+ cuts->SetAcceptKinkDaughters(kFALSE);
+ cuts->SetMinimalTPCdedx(10.);
+
return cuts;
}
AliFlowTrackCuts* AliFlowTrackCuts::GetStandardITSTPCTrackCuts2009(Bool_t selPrimaries)
{
//get standard cuts
- AliFlowTrackCuts* cuts = new AliFlowTrackCuts();
- cuts->SetName("standard global track cuts 2009");
+ AliFlowTrackCuts* cuts = new AliFlowTrackCuts("standard global track cuts 2009");
delete cuts->fAliESDtrackCuts;
cuts->fAliESDtrackCuts = AliESDtrackCuts::GetStandardITSTPCTrackCuts2009(selPrimaries);
cuts->SetParamType(kGlobal);
return cuts;
}
+//-----------------------------------------------------------------------
+AliFlowTrack* AliFlowTrackCuts::MakeFlowTrackSPDtracklet() const
+{
+ //make a flow track from tracklet
+ AliFlowTrack* flowtrack=NULL;
+ TParticle *tmpTParticle=NULL;
+ AliMCParticle* tmpAliMCParticle=NULL;
+ switch (fParamMix)
+ {
+ case kPure:
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ break;
+ case kTrackWithMCkine:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi( fMCparticle->Phi() );
+ flowtrack->SetEta( fMCparticle->Eta() );
+ flowtrack->SetPt( fMCparticle->Pt() );
+ break;
+ case kTrackWithMCpt:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ flowtrack->SetPt(fMCparticle->Pt());
+ break;
+ case kTrackWithPtFromFirstMother:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ tmpTParticle = fMCparticle->Particle();
+ tmpAliMCParticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(tmpTParticle->GetFirstMother()));
+ flowtrack->SetPt(tmpAliMCParticle->Pt());
+ break;
+ default:
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ break;
+ }
+ flowtrack->SetSource(AliFlowTrack::kFromTracklet);
+ return flowtrack;
+}
+
+//-----------------------------------------------------------------------
+AliFlowTrack* AliFlowTrackCuts::MakeFlowTrackVParticle() const
+{
+ //make flow track from AliVParticle (ESD,AOD,MC)
+ if (!fTrack) return NULL;
+ AliFlowTrack* flowtrack=NULL;
+ TParticle *tmpTParticle=NULL;
+ AliMCParticle* tmpAliMCParticle=NULL;
+ switch(fParamMix)
+ {
+ case kPure:
+ flowtrack = new AliFlowTrack(fTrack);
+ break;
+ case kTrackWithMCkine:
+ flowtrack = new AliFlowTrack(fMCparticle);
+ break;
+ case kTrackWithMCPID:
+ flowtrack = new AliFlowTrack(fTrack);
+ //flowtrack->setPID(...) from mc, when implemented
+ break;
+ case kTrackWithMCpt:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack(fTrack);
+ flowtrack->SetPt(fMCparticle->Pt());
+ break;
+ case kTrackWithPtFromFirstMother:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack(fTrack);
+ tmpTParticle = fMCparticle->Particle();
+ tmpAliMCParticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(tmpTParticle->GetFirstMother()));
+ flowtrack->SetPt(tmpAliMCParticle->Pt());
+ break;
+ default:
+ flowtrack = new AliFlowTrack(fTrack);
+ break;
+ }
+ if (fParamType==kMC) flowtrack->SetSource(AliFlowTrack::kFromMC);
+ else if (dynamic_cast<AliESDtrack*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromESD);
+ else if (dynamic_cast<AliAODTrack*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromAOD);
+ else if (dynamic_cast<AliMCParticle*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromMC);
+ return flowtrack;
+}
+
+//-----------------------------------------------------------------------
+AliFlowTrack* AliFlowTrackCuts::MakeFlowTrackPMDtrack() const
+{
+ //make a flow track from PMD track
+ AliFlowTrack* flowtrack=NULL;
+ TParticle *tmpTParticle=NULL;
+ AliMCParticle* tmpAliMCParticle=NULL;
+ switch (fParamMix)
+ {
+ case kPure:
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ flowtrack->SetWeight(fTrackWeight);
+ break;
+ case kTrackWithMCkine:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi( fMCparticle->Phi() );
+ flowtrack->SetEta( fMCparticle->Eta() );
+ flowtrack->SetWeight(fTrackWeight);
+ flowtrack->SetPt( fMCparticle->Pt() );
+ break;
+ case kTrackWithMCpt:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ flowtrack->SetWeight(fTrackWeight);
+ flowtrack->SetPt(fMCparticle->Pt());
+ break;
+ case kTrackWithPtFromFirstMother:
+ if (!fMCparticle) return NULL;
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ flowtrack->SetWeight(fTrackWeight);
+ tmpTParticle = fMCparticle->Particle();
+ tmpAliMCParticle = static_cast<AliMCParticle*>(fMCevent->GetTrack(tmpTParticle->GetFirstMother()));
+ flowtrack->SetPt(tmpAliMCParticle->Pt());
+ break;
+ default:
+ flowtrack = new AliFlowTrack();
+ flowtrack->SetPhi(fTrackPhi);
+ flowtrack->SetEta(fTrackEta);
+ flowtrack->SetWeight(fTrackWeight);
+ break;
+ }
+
+ flowtrack->SetSource(AliFlowTrack::kFromPMD);
+ return flowtrack;
+}
+
//-----------------------------------------------------------------------
AliFlowTrack* AliFlowTrackCuts::MakeFlowTrack() const
{
//get a flow track constructed from whatever we applied cuts on
//caller is resposible for deletion
- AliFlowTrack* flowtrack=NULL;
- if (fParamType==kESD_SPDtracklet)
+ //if construction fails return NULL
+ switch (fParamType)
{
- flowtrack = new AliFlowTrack();
- flowtrack->SetPhi(fTrackPhi);
- flowtrack->SetEta(fTrackEta);
- flowtrack->SetSource(AliFlowTrack::kFromTracklet);
+ case kESD_SPDtracklet:
+ return MakeFlowTrackSPDtracklet();
+ case kPMD:
+ return MakeFlowTrackPMDtrack();
+ default:
+ return MakeFlowTrackVParticle();
}
- else
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::IsPhysicalPrimary() const
+{
+ //check if current particle is a physical primary
+ if (!fMCevent) return kFALSE;
+ if (fTrackLabel<0) return kFALSE;
+ return IsPhysicalPrimary(fMCevent, fTrackLabel, fRequireTransportBitForPrimaries);
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::IsPhysicalPrimary(AliMCEvent* mcEvent, Int_t label, Bool_t requiretransported)
+{
+ //check if current particle is a physical primary
+ Bool_t physprim=mcEvent->IsPhysicalPrimary(label);
+ AliMCParticle* track = static_cast<AliMCParticle*>(mcEvent->GetTrack(label));
+ if (!track) return kFALSE;
+ TParticle* particle = track->Particle();
+ Bool_t transported = particle->TestBit(kTransportBit);
+ //printf("label: %i prim: %s, transp: %s, pass: %s\n",label, (physprim)?"YES":"NO ",(transported)?"YES":"NO ",
+ //(physprim && (transported || !requiretransported))?"YES":"NO" );
+ return (physprim && (transported || !requiretransported));
+}
+
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::DefineHistograms()
+{
+ //define qa histograms
+}
+
+//-----------------------------------------------------------------------
+Int_t AliFlowTrackCuts::GetNumberOfInputObjects() const
+{
+ //get the number of tracks in the input event according source
+ //selection (ESD tracks, tracklets, MC particles etc.)
+ AliESDEvent* esd=NULL;
+ switch (fParamType)
{
- switch(fParamMix)
+ case kESD_SPDtracklet:
+ esd = dynamic_cast<AliESDEvent*>(fEvent);
+ if (!esd) return 0;
+ return esd->GetMultiplicity()->GetNumberOfTracklets();
+ case kMC:
+ if (!fMCevent) return 0;
+ return fMCevent->GetNumberOfTracks();
+ case kPMD:
+ esd = dynamic_cast<AliESDEvent*>(fEvent);
+ if (!esd) return 0;
+ return esd->GetNumberOfPmdTracks();
+ default:
+ if (!fEvent) return 0;
+ return fEvent->GetNumberOfTracks();
+ }
+ return 0;
+}
+
+//-----------------------------------------------------------------------
+TObject* AliFlowTrackCuts::GetInputObject(Int_t i)
+{
+ //get the input object according the data source selection:
+ //(esd tracks, traclets, mc particles,etc...)
+ AliESDEvent* esd=NULL;
+ switch (fParamType)
+ {
+ case kESD_SPDtracklet:
+ esd = dynamic_cast<AliESDEvent*>(fEvent);
+ if (!esd) return NULL;
+ return const_cast<AliMultiplicity*>(esd->GetMultiplicity());
+ case kMC:
+ if (!fMCevent) return NULL;
+ return fMCevent->GetTrack(i);
+ case kPMD:
+ esd = dynamic_cast<AliESDEvent*>(fEvent);
+ if (!esd) return NULL;
+ return esd->GetPmdTrack(i);
+ default:
+ if (!fEvent) return NULL;
+ return fEvent->GetTrack(i);
+ }
+}
+
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::Clear(Option_t*)
+{
+ //clean up
+ fTrack=NULL;
+ fMCevent=NULL;
+ fMCparticle=NULL;
+ fTrackLabel=0;
+ fTrackWeight=0.0;
+ fTrackEta=0.0;
+ fTrackPhi=0.0;
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::PassesTOFbetaCut(AliESDtrack* track )
+{
+ //check if passes PID cut using timing in TOF
+ Bool_t goodtrack = (track) &&
+ (track->GetStatus() & AliESDtrack::kTOFpid) &&
+ (track->GetTOFsignal() > 12000) &&
+ (track->GetTOFsignal() < 100000) &&
+ (track->GetIntegratedLength() > 365) &&
+ !(track->GetStatus() & AliESDtrack::kTOFmismatch);
+
+ if (!goodtrack) return kFALSE;
+
+ const Float_t c = 2.99792457999999984e-02;
+ Float_t p = track->GetP();
+ Float_t L = track->GetIntegratedLength();
+ Float_t trackT0 = fESDpid.GetTOFResponse().GetStartTime(p);
+ Float_t timeTOF = track->GetTOFsignal()- trackT0;
+ Float_t beta = L/timeTOF/c;
+ Double_t integratedTimes[5] = {-1.0,-1.0,-1.0,-1.0,-1.0};
+ track->GetIntegratedTimes(integratedTimes);
+
+ //construct the pid index because it's not AliPID::EParticleType
+ Int_t pid = 0;
+ switch (fParticleID)
+ {
+ case AliPID::kPion:
+ pid=2;
+ break;
+ case AliPID::kKaon:
+ pid=3;
+ break;
+ case AliPID::kProton:
+ pid=4;
+ break;
+ default:
+ return kFALSE;
+ }
+
+ //signal to cut on
+ Float_t s = beta-L/integratedTimes[pid]/c;
+
+ Float_t* arr = fTOFpidCuts->GetMatrixArray();
+ Int_t col = TMath::BinarySearch(fTOFpidCuts->GetNcols(),arr,static_cast<Float_t>(p));
+ if (col<0) return kFALSE;
+ Float_t min = (*fTOFpidCuts)(1,col);
+ Float_t max = (*fTOFpidCuts)(2,col);
+
+ //printf("--------------TOF beta cut %s\n",(s>min && s<max)?"PASS":"FAIL");
+ return (s>min && s<max);
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::PassesTOFpidCut(AliESDtrack* track)
+{
+ //check if passes PID cut using default TOF pid
+ Double_t pidTOF[AliPID::kSPECIES];
+ track->GetTOFpid(pidTOF);
+ if (pidTOF[fParticleID]>=fParticleProbability) return kTRUE;
+ return kFALSE;
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::PassesTPCpidCut(AliESDtrack* track)
+{
+ //check if passes PID cut using default TPC pid
+ Double_t pidTPC[AliPID::kSPECIES];
+ track->GetTPCpid(pidTPC);
+ Double_t probablity = 0.;
+ switch (fParticleID)
+ {
+ case AliPID::kPion:
+ probablity = pidTPC[AliPID::kPion] + pidTPC[AliPID::kMuon];
+ break;
+ default:
+ probablity = pidTPC[fParticleID];
+ }
+ if (probablity >= fParticleProbability) return kTRUE;
+ return kFALSE;
+}
+
+//-----------------------------------------------------------------------
+Bool_t AliFlowTrackCuts::PassesTPCdedxCut(AliESDtrack* track)
+{
+ //check if passes PID cut using dedx signal in the TPC
+ if (!fTPCpidCuts)
+ {
+ printf("no TPCpidCuts\n");
+ return kFALSE;
+ }
+
+ const AliExternalTrackParam* tpcparam = track->GetInnerParam(); //tpc only params at the inner wall
+ if (!tpcparam) return kFALSE;
+ Float_t sigExp = fESDpid.GetTPCResponse().GetExpectedSignal(tpcparam->GetP(), fParticleID);
+ Float_t sigTPC = track->GetTPCsignal();
+ Float_t s = (sigTPC-sigExp)/sigExp;
+ Double_t pt = track->Pt();
+
+ Float_t* arr = fTPCpidCuts->GetMatrixArray();
+ Int_t col = TMath::BinarySearch(fTPCpidCuts->GetNcols(),arr,static_cast<Float_t>(pt));
+ if (col<0) return kFALSE;
+ Float_t min = (*fTPCpidCuts)(1,col);
+ Float_t max = (*fTPCpidCuts)(2,col);
+
+ //printf("------------TPC pid cut %s\n",(s>min && s<max)?"PASS":"FAIL");
+ return (s>min && s<max);
+}
+
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::InitPIDcuts()
+{
+ //init matrices with PID cuts
+ TMatrixF* t = NULL;
+ if (!fTPCpidCuts)
+ {
+ if (fParticleID==AliPID::kPion)
{
- case kPure:
- flowtrack = new AliFlowTrack(fTrack);
- break;
- case kTrackWithMCkine:
- flowtrack = new AliFlowTrack(fMCparticle);
- break;
- case kTrackWithMCPID:
- flowtrack = new AliFlowTrack(fTrack);
- break;
- default:
- flowtrack = new AliFlowTrack(fTrack);
+ t = new TMatrixF(3,10);
+ (*t)(0,0) = 0.20; (*t)(1,0) = -0.4; (*t)(2,0) = 0.2;
+ (*t)(0,1) = 0.25; (*t)(1,1) = -0.4; (*t)(2,1) = 0.2;
+ (*t)(0,2) = 0.30; (*t)(1,2) = -0.4; (*t)(2,2) = 0.25;
+ (*t)(0,3) = 0.35; (*t)(1,3) = -0.4; (*t)(2,3) = 0.25;
+ (*t)(0,4) = 0.40; (*t)(1,4) = -0.4; (*t)(2,4) = 0.3;
+ (*t)(0,5) = 0.45; (*t)(1,5) = -0.4; (*t)(2,5) = 0.3;
+ (*t)(0,6) = 0.50; (*t)(1,6) = -0.4; (*t)(2,6) = 0.25;
+ (*t)(0,7) = 0.55; (*t)(1,7) = -0.4; (*t)(2,7) = 0.15;
+ (*t)(0,8) = 0.60; (*t)(1,8) = -0.4; (*t)(2,8) = 0.1;
+ (*t)(0,9) = 0.65; (*t)(1,9) = 0; (*t)(2,9) = 0;
+ }
+ else
+ if (fParticleID==AliPID::kKaon)
+ {
+ t = new TMatrixF(3,7);
+ (*t)(0,0) = 0.20; (*t)(1,0) = -0.2; (*t)(2,0) = 0.4;
+ (*t)(0,1) = 0.25; (*t)(1,1) =-0.15; (*t)(2,1) = 0.4;
+ (*t)(0,2) = 0.30; (*t)(1,2) = -0.1; (*t)(2,2) = 0.4;
+ (*t)(0,3) = 0.35; (*t)(1,3) = -0.1; (*t)(2,3) = 0.4;
+ (*t)(0,4) = 0.40; (*t)(1,4) = -0.1; (*t)(2,4) = 0.6;
+ (*t)(0,5) = 0.45; (*t)(1,5) = -0.1; (*t)(2,5) = 0.6;
+ (*t)(0,6) = 0.50; (*t)(1,6) = 0; (*t)(2,6) = 0;
+ }
+ else
+ if (fParticleID==AliPID::kProton)
+ {
+ t = new TMatrixF(3,16);
+ (*t)(0,0) = 0.20; (*t)(1,0) = 0; (*t)(2,0) = 0;
+ (*t)(0,1) = 0.25; (*t)(1,1) = -0.2; (*t)(2,1) = 0.3;
+ (*t)(0,2) = 0.30; (*t)(1,2) = -0.2; (*t)(2,2) = 0.6;
+ (*t)(0,3) = 0.35; (*t)(1,3) = -0.2; (*t)(2,3) = 0.6;
+ (*t)(0,4) = 0.40; (*t)(1,4) = -0.2; (*t)(2,4) = 0.6;
+ (*t)(0,5) = 0.45; (*t)(1,5) = -0.15; (*t)(2,5) = 0.6;
+ (*t)(0,6) = 0.50; (*t)(1,6) = -0.1; (*t)(2,6) = 0.6;
+ (*t)(0,7) = 0.55; (*t)(1,7) = -0.05; (*t)(2,7) = 0.6;
+ (*t)(0,8) = 0.60; (*t)(1,8) = -0.05; (*t)(2,8) = 0.45;
+ (*t)(0,9) = 0.65; (*t)(1,9) = -0.05; (*t)(2,9) = 0.45;
+ (*t)(0,10) = 0.70; (*t)(1,10) = -0.05; (*t)(2,10) = 0.45;
+ (*t)(0,11) = 0.75; (*t)(1,11) = -0.05; (*t)(2,11) = 0.45;
+ (*t)(0,12) = 0.80; (*t)(1,12) = 0; (*t)(2,12) = 0.45;
+ (*t)(0,13) = 0.85; (*t)(1,13) = 0; (*t)(2,13) = 0.45;
+ (*t)(0,14) = 0.90; (*t)(1,14) = 0; (*t)(2,14) = 0.45;
+ (*t)(0,15) = 0.95; (*t)(1,15) = 0; (*t)(2,15) = 0;
}
- if (fParamType==kMC) flowtrack->SetSource(AliFlowTrack::kFromMC);
- else if (dynamic_cast<AliESDtrack*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromESD);
- else if (dynamic_cast<AliAODTrack*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromAOD);
- else if (dynamic_cast<AliMCParticle*>(fTrack)) flowtrack->SetSource(AliFlowTrack::kFromMC);
+ fTPCpidCuts=t;
+ }
+ t = NULL;
+ if (!fTOFpidCuts)
+ {
+ if (fParticleID==AliPID::kPion)
+ {
+ //TOF pions, 0.9 purity
+ t = new TMatrixF(3,61);
+ (*t)(0,0) = 0.000; (*t)(2,0) = 0.000; (*t)(2,0) = 0.000;
+ (*t)(0,1) = 0.050; (*t)(2,1) = 0.000; (*t)(2,1) = 0.000;
+ (*t)(0,2) = 0.100; (*t)(2,2) = 0.000; (*t)(2,2) = 0.000;
+ (*t)(0,3) = 0.150; (*t)(2,3) = 0.000; (*t)(2,3) = 0.000;
+ (*t)(0,4) = 0.200; (*t)(2,4) = 0.000; (*t)(2,4) = 0.000;
+ (*t)(0,5) = 0.250; (*t)(2,5) = -0.046; (*t)(2,5) = 0.046;
+ (*t)(0,6) = 0.300; (*t)(2,6) = -0.038; (*t)(2,6) = 0.038;
+ (*t)(0,7) = 0.350; (*t)(2,7) = -0.034; (*t)(2,7) = 0.034;
+ (*t)(0,8) = 0.400; (*t)(2,8) = -0.032; (*t)(2,8) = 0.032;
+ (*t)(0,9) = 0.450; (*t)(2,9) = -0.030; (*t)(2,9) = 0.030;
+ (*t)(0,10) = 0.500; (*t)(2,10) = -0.030; (*t)(2,10) = 0.030;
+ (*t)(0,11) = 0.550; (*t)(2,11) = -0.030; (*t)(2,11) = 0.030;
+ (*t)(0,12) = 0.600; (*t)(2,12) = -0.030; (*t)(2,12) = 0.030;
+ (*t)(0,13) = 0.650; (*t)(2,13) = -0.030; (*t)(2,13) = 0.030;
+ (*t)(0,14) = 0.700; (*t)(2,14) = -0.030; (*t)(2,14) = 0.030;
+ (*t)(0,15) = 0.750; (*t)(2,15) = -0.030; (*t)(2,15) = 0.030;
+ (*t)(0,16) = 0.800; (*t)(2,16) = -0.030; (*t)(2,16) = 0.030;
+ (*t)(0,17) = 0.850; (*t)(2,17) = -0.030; (*t)(2,17) = 0.030;
+ (*t)(0,18) = 0.900; (*t)(2,18) = -0.030; (*t)(2,18) = 0.030;
+ (*t)(0,19) = 0.950; (*t)(2,19) = -0.028; (*t)(2,19) = 0.028;
+ (*t)(0,20) = 1.000; (*t)(2,20) = -0.028; (*t)(2,20) = 0.028;
+ (*t)(0,21) = 1.100; (*t)(2,21) = -0.028; (*t)(2,21) = 0.028;
+ (*t)(0,22) = 1.200; (*t)(2,22) = -0.026; (*t)(2,22) = 0.028;
+ (*t)(0,23) = 1.300; (*t)(2,23) = -0.024; (*t)(2,23) = 0.028;
+ (*t)(0,24) = 1.400; (*t)(2,24) = -0.020; (*t)(2,24) = 0.028;
+ (*t)(0,25) = 1.500; (*t)(2,25) = -0.018; (*t)(2,25) = 0.028;
+ (*t)(0,26) = 1.600; (*t)(2,26) = -0.016; (*t)(2,26) = 0.028;
+ (*t)(0,27) = 1.700; (*t)(2,27) = -0.014; (*t)(2,27) = 0.028;
+ (*t)(0,28) = 1.800; (*t)(2,28) = -0.012; (*t)(2,28) = 0.026;
+ (*t)(0,29) = 1.900; (*t)(2,29) = -0.010; (*t)(2,29) = 0.026;
+ (*t)(0,30) = 2.000; (*t)(2,30) = -0.008; (*t)(2,30) = 0.026;
+ (*t)(0,31) = 2.100; (*t)(2,31) = -0.008; (*t)(2,31) = 0.024;
+ (*t)(0,32) = 2.200; (*t)(2,32) = -0.006; (*t)(2,32) = 0.024;
+ (*t)(0,33) = 2.300; (*t)(2,33) = -0.004; (*t)(2,33) = 0.024;
+ (*t)(0,34) = 2.400; (*t)(2,34) = -0.004; (*t)(2,34) = 0.024;
+ (*t)(0,35) = 2.500; (*t)(2,35) = -0.002; (*t)(2,35) = 0.024;
+ (*t)(0,36) = 2.600; (*t)(2,36) = -0.002; (*t)(2,36) = 0.024;
+ (*t)(0,37) = 2.700; (*t)(2,37) = 0.000; (*t)(2,37) = 0.024;
+ (*t)(0,38) = 2.800; (*t)(2,38) = 0.000; (*t)(2,38) = 0.026;
+ (*t)(0,39) = 2.900; (*t)(2,39) = 0.000; (*t)(2,39) = 0.024;
+ (*t)(0,40) = 3.000; (*t)(2,40) = 0.002; (*t)(2,40) = 0.026;
+ (*t)(0,41) = 3.100; (*t)(2,41) = 0.002; (*t)(2,41) = 0.026;
+ (*t)(0,42) = 3.200; (*t)(2,42) = 0.002; (*t)(2,42) = 0.026;
+ (*t)(0,43) = 3.300; (*t)(2,43) = 0.002; (*t)(2,43) = 0.026;
+ (*t)(0,44) = 3.400; (*t)(2,44) = 0.002; (*t)(2,44) = 0.026;
+ (*t)(0,45) = 3.500; (*t)(2,45) = 0.002; (*t)(2,45) = 0.026;
+ (*t)(0,46) = 3.600; (*t)(2,46) = 0.002; (*t)(2,46) = 0.026;
+ (*t)(0,47) = 3.700; (*t)(2,47) = 0.002; (*t)(2,47) = 0.026;
+ (*t)(0,48) = 3.800; (*t)(2,48) = 0.002; (*t)(2,48) = 0.026;
+ (*t)(0,49) = 3.900; (*t)(2,49) = 0.004; (*t)(2,49) = 0.024;
+ (*t)(0,50) = 4.000; (*t)(2,50) = 0.004; (*t)(2,50) = 0.026;
+ (*t)(0,51) = 4.100; (*t)(2,51) = 0.004; (*t)(2,51) = 0.026;
+ (*t)(0,52) = 4.200; (*t)(2,52) = 0.004; (*t)(2,52) = 0.024;
+ (*t)(0,53) = 4.300; (*t)(2,53) = 0.006; (*t)(2,53) = 0.024;
+ (*t)(0,54) = 4.400; (*t)(2,54) = 0.000; (*t)(2,54) = 0.000;
+ (*t)(0,55) = 4.500; (*t)(2,55) = 0.000; (*t)(2,55) = 0.000;
+ (*t)(0,56) = 4.600; (*t)(2,56) = 0.000; (*t)(2,56) = 0.000;
+ (*t)(0,57) = 4.700; (*t)(2,57) = 0.000; (*t)(2,57) = 0.000;
+ (*t)(0,58) = 4.800; (*t)(2,58) = 0.000; (*t)(2,58) = 0.000;
+ (*t)(0,59) = 4.900; (*t)(2,59) = 0.000; (*t)(2,59) = 0.000;
+ (*t)(0,60) = 5.900; (*t)(2,60) = 0.000; (*t)(2,60) = 0.000;
+ }
+ else
+ if (fParticleID==AliPID::kProton)
+ {
+ //TOF protons, 0.9 purity
+ t = new TMatrixF(3,61);
+ (*t)(0,0) = 0.000; (*t)(2,0) = 0.000; (*t)(2,0) = 0.000;
+ (*t)(0,1) = 0.050; (*t)(2,1) = 0.000; (*t)(2,1) = 0.000;
+ (*t)(0,2) = 0.100; (*t)(2,2) = 0.000; (*t)(2,2) = 0.000;
+ (*t)(0,3) = 0.150; (*t)(2,3) = 0.000; (*t)(2,3) = 0.000;
+ (*t)(0,4) = 0.200; (*t)(2,4) = 0.000; (*t)(2,4) = 0.000;
+ (*t)(0,5) = 0.250; (*t)(2,5) = 0.000; (*t)(2,5) = 0.000;
+ (*t)(0,6) = 0.300; (*t)(2,6) = 0.000; (*t)(2,6) = 0.000;
+ (*t)(0,7) = 0.350; (*t)(2,7) = 0.000; (*t)(2,7) = 0.000;
+ (*t)(0,8) = 0.400; (*t)(2,8) = 0.000; (*t)(2,8) = 0.000;
+ (*t)(0,9) = 0.450; (*t)(2,9) = 0.000; (*t)(2,9) = 0.000;
+ (*t)(0,10) = 0.500; (*t)(2,10) = 0.000; (*t)(2,10) = 0.000;
+ (*t)(0,11) = 0.550; (*t)(2,11) = 0.000; (*t)(2,11) = 0.000;
+ (*t)(0,12) = 0.600; (*t)(2,12) = 0.000; (*t)(2,12) = 0.000;
+ (*t)(0,13) = 0.650; (*t)(2,13) = 0.000; (*t)(2,13) = 0.000;
+ (*t)(0,14) = 0.700; (*t)(2,14) = 0.000; (*t)(2,14) = 0.000;
+ (*t)(0,15) = 0.750; (*t)(2,15) = 0.000; (*t)(2,15) = 0.000;
+ (*t)(0,16) = 0.800; (*t)(2,16) = 0.000; (*t)(2,16) = 0.000;
+ (*t)(0,17) = 0.850; (*t)(2,17) = -0.070; (*t)(2,17) = 0.070;
+ (*t)(0,18) = 0.900; (*t)(2,18) = -0.072; (*t)(2,18) = 0.072;
+ (*t)(0,19) = 0.950; (*t)(2,19) = -0.072; (*t)(2,19) = 0.072;
+ (*t)(0,20) = 1.000; (*t)(2,20) = -0.074; (*t)(2,20) = 0.074;
+ (*t)(0,21) = 1.100; (*t)(2,21) = -0.032; (*t)(2,21) = 0.032;
+ (*t)(0,22) = 1.200; (*t)(2,22) = -0.026; (*t)(2,22) = 0.026;
+ (*t)(0,23) = 1.300; (*t)(2,23) = -0.026; (*t)(2,23) = 0.026;
+ (*t)(0,24) = 1.400; (*t)(2,24) = -0.024; (*t)(2,24) = 0.024;
+ (*t)(0,25) = 1.500; (*t)(2,25) = -0.024; (*t)(2,25) = 0.024;
+ (*t)(0,26) = 1.600; (*t)(2,26) = -0.026; (*t)(2,26) = 0.026;
+ (*t)(0,27) = 1.700; (*t)(2,27) = -0.026; (*t)(2,27) = 0.026;
+ (*t)(0,28) = 1.800; (*t)(2,28) = -0.026; (*t)(2,28) = 0.026;
+ (*t)(0,29) = 1.900; (*t)(2,29) = -0.026; (*t)(2,29) = 0.026;
+ (*t)(0,30) = 2.000; (*t)(2,30) = -0.026; (*t)(2,30) = 0.026;
+ (*t)(0,31) = 2.100; (*t)(2,31) = -0.026; (*t)(2,31) = 0.026;
+ (*t)(0,32) = 2.200; (*t)(2,32) = -0.026; (*t)(2,32) = 0.024;
+ (*t)(0,33) = 2.300; (*t)(2,33) = -0.028; (*t)(2,33) = 0.022;
+ (*t)(0,34) = 2.400; (*t)(2,34) = -0.028; (*t)(2,34) = 0.020;
+ (*t)(0,35) = 2.500; (*t)(2,35) = -0.028; (*t)(2,35) = 0.018;
+ (*t)(0,36) = 2.600; (*t)(2,36) = -0.028; (*t)(2,36) = 0.016;
+ (*t)(0,37) = 2.700; (*t)(2,37) = -0.028; (*t)(2,37) = 0.016;
+ (*t)(0,38) = 2.800; (*t)(2,38) = -0.030; (*t)(2,38) = 0.014;
+ (*t)(0,39) = 2.900; (*t)(2,39) = -0.030; (*t)(2,39) = 0.012;
+ (*t)(0,40) = 3.000; (*t)(2,40) = -0.030; (*t)(2,40) = 0.012;
+ (*t)(0,41) = 3.100; (*t)(2,41) = -0.030; (*t)(2,41) = 0.010;
+ (*t)(0,42) = 3.200; (*t)(2,42) = -0.030; (*t)(2,42) = 0.010;
+ (*t)(0,43) = 3.300; (*t)(2,43) = -0.030; (*t)(2,43) = 0.010;
+ (*t)(0,44) = 3.400; (*t)(2,44) = -0.030; (*t)(2,44) = 0.008;
+ (*t)(0,45) = 3.500; (*t)(2,45) = -0.030; (*t)(2,45) = 0.008;
+ (*t)(0,46) = 3.600; (*t)(2,46) = -0.030; (*t)(2,46) = 0.008;
+ (*t)(0,47) = 3.700; (*t)(2,47) = -0.030; (*t)(2,47) = 0.006;
+ (*t)(0,48) = 3.800; (*t)(2,48) = -0.030; (*t)(2,48) = 0.006;
+ (*t)(0,49) = 3.900; (*t)(2,49) = -0.030; (*t)(2,49) = 0.006;
+ (*t)(0,50) = 4.000; (*t)(2,50) = -0.028; (*t)(2,50) = 0.004;
+ (*t)(0,51) = 4.100; (*t)(2,51) = -0.030; (*t)(2,51) = 0.004;
+ (*t)(0,52) = 4.200; (*t)(2,52) = -0.030; (*t)(2,52) = 0.004;
+ (*t)(0,53) = 4.300; (*t)(2,53) = -0.028; (*t)(2,53) = 0.002;
+ (*t)(0,54) = 4.400; (*t)(2,54) = -0.030; (*t)(2,54) = 0.002;
+ (*t)(0,55) = 4.500; (*t)(2,55) = -0.028; (*t)(2,55) = 0.002;
+ (*t)(0,56) = 4.600; (*t)(2,56) = -0.028; (*t)(2,56) = 0.002;
+ (*t)(0,57) = 4.700; (*t)(2,57) = -0.028; (*t)(2,57) = 0.000;
+ (*t)(0,58) = 4.800; (*t)(2,58) = -0.028; (*t)(2,58) = 0.002;
+ (*t)(0,59) = 4.900; (*t)(2,59) = 0.000; (*t)(2,59) = 0.000;
+ (*t)(0,60) = 5.900; (*t)(2,60) = 0.000; (*t)(2,60) = 0.000;
+ }
+ else
+ if (fParticleID==AliPID::kKaon)
+ {
+ //TOF kaons, 0.9 purity
+ t = new TMatrixF(3,61);
+ (*t)(0,0) = 0.000; (*t)(2,0) = 0.000; (*t)(2,0) = 0.000;
+ (*t)(0,1) = 0.050; (*t)(2,1) = 0.000; (*t)(2,1) = 0.000;
+ (*t)(0,2) = 0.100; (*t)(2,2) = 0.000; (*t)(2,2) = 0.000;
+ (*t)(0,3) = 0.150; (*t)(2,3) = 0.000; (*t)(2,3) = 0.000;
+ (*t)(0,4) = 0.200; (*t)(2,4) = 0.000; (*t)(2,4) = 0.000;
+ (*t)(0,5) = 0.250; (*t)(2,5) = 0.000; (*t)(2,5) = 0.000;
+ (*t)(0,6) = 0.300; (*t)(2,6) = 0.000; (*t)(2,6) = 0.000;
+ (*t)(0,7) = 0.350; (*t)(2,7) = 0.000; (*t)(2,7) = 0.000;
+ (*t)(0,8) = 0.400; (*t)(2,8) = 0.000; (*t)(2,8) = 0.000;
+ (*t)(0,9) = 0.450; (*t)(2,9) = 0.000; (*t)(2,9) = 0.000;
+ (*t)(0,10) = 0.500; (*t)(2,10) = 0.000; (*t)(2,10) = 0.000;
+ (*t)(0,11) = 0.550; (*t)(2,11) = -0.026; (*t)(2,11) = 0.026;
+ (*t)(0,12) = 0.600; (*t)(2,12) = -0.026; (*t)(2,12) = 0.026;
+ (*t)(0,13) = 0.650; (*t)(2,13) = -0.026; (*t)(2,13) = 0.026;
+ (*t)(0,14) = 0.700; (*t)(2,14) = -0.026; (*t)(2,14) = 0.026;
+ (*t)(0,15) = 0.750; (*t)(2,15) = -0.026; (*t)(2,15) = 0.026;
+ (*t)(0,16) = 0.800; (*t)(2,16) = -0.026; (*t)(2,16) = 0.026;
+ (*t)(0,17) = 0.850; (*t)(2,17) = -0.024; (*t)(2,17) = 0.024;
+ (*t)(0,18) = 0.900; (*t)(2,18) = -0.024; (*t)(2,18) = 0.024;
+ (*t)(0,19) = 0.950; (*t)(2,19) = -0.024; (*t)(2,19) = 0.024;
+ (*t)(0,20) = 1.000; (*t)(2,20) = -0.024; (*t)(2,20) = 0.024;
+ (*t)(0,21) = 1.100; (*t)(2,21) = -0.024; (*t)(2,21) = 0.024;
+ (*t)(0,22) = 1.200; (*t)(2,22) = -0.024; (*t)(2,22) = 0.022;
+ (*t)(0,23) = 1.300; (*t)(2,23) = -0.024; (*t)(2,23) = 0.020;
+ (*t)(0,24) = 1.400; (*t)(2,24) = -0.026; (*t)(2,24) = 0.016;
+ (*t)(0,25) = 1.500; (*t)(2,25) = -0.028; (*t)(2,25) = 0.014;
+ (*t)(0,26) = 1.600; (*t)(2,26) = -0.028; (*t)(2,26) = 0.012;
+ (*t)(0,27) = 1.700; (*t)(2,27) = -0.028; (*t)(2,27) = 0.010;
+ (*t)(0,28) = 1.800; (*t)(2,28) = -0.028; (*t)(2,28) = 0.010;
+ (*t)(0,29) = 1.900; (*t)(2,29) = -0.028; (*t)(2,29) = 0.008;
+ (*t)(0,30) = 2.000; (*t)(2,30) = -0.028; (*t)(2,30) = 0.006;
+ (*t)(0,31) = 2.100; (*t)(2,31) = -0.026; (*t)(2,31) = 0.006;
+ (*t)(0,32) = 2.200; (*t)(2,32) = -0.024; (*t)(2,32) = 0.004;
+ (*t)(0,33) = 2.300; (*t)(2,33) = -0.020; (*t)(2,33) = 0.002;
+ (*t)(0,34) = 2.400; (*t)(2,34) = -0.020; (*t)(2,34) = 0.002;
+ (*t)(0,35) = 2.500; (*t)(2,35) = -0.018; (*t)(2,35) = 0.000;
+ (*t)(0,36) = 2.600; (*t)(2,36) = -0.016; (*t)(2,36) = 0.000;
+ (*t)(0,37) = 2.700; (*t)(2,37) = -0.014; (*t)(2,37) = -0.002;
+ (*t)(0,38) = 2.800; (*t)(2,38) = -0.014; (*t)(2,38) = -0.004;
+ (*t)(0,39) = 2.900; (*t)(2,39) = -0.012; (*t)(2,39) = -0.004;
+ (*t)(0,40) = 3.000; (*t)(2,40) = -0.010; (*t)(2,40) = -0.006;
+ (*t)(0,41) = 3.100; (*t)(2,41) = 0.000; (*t)(2,41) = 0.000;
+ (*t)(0,42) = 3.200; (*t)(2,42) = 0.000; (*t)(2,42) = 0.000;
+ (*t)(0,43) = 3.300; (*t)(2,43) = 0.000; (*t)(2,43) = 0.000;
+ (*t)(0,44) = 3.400; (*t)(2,44) = 0.000; (*t)(2,44) = 0.000;
+ (*t)(0,45) = 3.500; (*t)(2,45) = 0.000; (*t)(2,45) = 0.000;
+ (*t)(0,46) = 3.600; (*t)(2,46) = 0.000; (*t)(2,46) = 0.000;
+ (*t)(0,47) = 3.700; (*t)(2,47) = 0.000; (*t)(2,47) = 0.000;
+ (*t)(0,48) = 3.800; (*t)(2,48) = 0.000; (*t)(2,48) = 0.000;
+ (*t)(0,49) = 3.900; (*t)(2,49) = 0.000; (*t)(2,49) = 0.000;
+ (*t)(0,50) = 4.000; (*t)(2,50) = 0.000; (*t)(2,50) = 0.000;
+ (*t)(0,51) = 4.100; (*t)(2,51) = 0.000; (*t)(2,51) = 0.000;
+ (*t)(0,52) = 4.200; (*t)(2,52) = 0.000; (*t)(2,52) = 0.000;
+ (*t)(0,53) = 4.300; (*t)(2,53) = 0.000; (*t)(2,53) = 0.000;
+ (*t)(0,54) = 4.400; (*t)(2,54) = 0.000; (*t)(2,54) = 0.000;
+ (*t)(0,55) = 4.500; (*t)(2,55) = 0.000; (*t)(2,55) = 0.000;
+ (*t)(0,56) = 4.600; (*t)(2,56) = 0.000; (*t)(2,56) = 0.000;
+ (*t)(0,57) = 4.700; (*t)(2,57) = 0.000; (*t)(2,57) = 0.000;
+ (*t)(0,58) = 4.800; (*t)(2,58) = 0.000; (*t)(2,58) = 0.000;
+ (*t)(0,59) = 4.900; (*t)(2,59) = 0.000; (*t)(2,59) = 0.000;
+ (*t)(0,60) = 5.900; (*t)(2,60) = 0.000; (*t)(2,60) = 0.000;
+ }
+ fTOFpidCuts=t;
}
- return flowtrack;
}
//-----------------------------------------------------------------------
-Bool_t AliFlowTrackCuts::IsPhysicalPrimary() const
+// part added by F. Noferini (some methods)
+Bool_t AliFlowTrackCuts::PassesTOFbayesianCut(AliESDtrack* track){
+
+ Bool_t goodtrack = track && (track->GetStatus() & AliESDtrack::kTOFpid) && (track->GetTOFsignal() > 12000) && (track->GetTOFsignal() < 100000) && (track->GetIntegratedLength() > 365) && !(track->GetStatus() & AliESDtrack::kTOFmismatch);
+
+ if (! goodtrack)
+ return kFALSE;
+
+ Int_t pdg = GetESDPdg(track,"bayesianALL");
+ // printf("pdg set to %i\n",pdg);
+
+ Int_t pid = 0;
+ Float_t prob = 0;
+ switch (fParticleID)
+ {
+ case AliPID::kPion:
+ pid=211;
+ prob = fProbBayes[2];
+ break;
+ case AliPID::kKaon:
+ pid=321;
+ prob = fProbBayes[3];
+ break;
+ case AliPID::kProton:
+ pid=2212;
+ prob = fProbBayes[4];
+ break;
+ case AliPID::kElectron:
+ pid=-11;
+ prob = fProbBayes[0];
+ break;
+ default:
+ return kFALSE;
+ }
+
+ // printf("pt = %f -- all prob = [%4.2f,%4.2f,%4.2f,%4.2f,%4.2f] -- prob = %f\n",track->Pt(),fProbBayes[0],fProbBayes[1],fProbBayes[2],fProbBayes[3],fProbBayes[4],prob);
+ if(TMath::Abs(pdg) == TMath::Abs(pid) && prob > 0.8){
+ if(!fCutCharge)
+ return kTRUE;
+ else if (fCutCharge && fCharge * track->GetSign() > 0)
+ return kTRUE;
+ }
+ return kFALSE;
+}
+//-----------------------------------------------------------------------
+Int_t AliFlowTrackCuts::GetESDPdg(AliESDtrack *track,Option_t *option,Int_t ipart,Float_t cPi,Float_t cKa,Float_t cPr){
+ Int_t pdg = 0;
+ Int_t pdgvalues[5] = {-11,-13,211,321,2212};
+ Float_t mass[5] = {5.10998909999999971e-04,1.05658000000000002e-01,1.39570000000000000e-01,4.93676999999999977e-01,9.38271999999999995e-01};
+
+ if(strstr(option,"bayesianTOF")){ // Bayesian TOF PID
+ Double_t c[5]={0.01, 0.01, 0.85, 0.1, 0.05};
+ Double_t rcc=0.;
+
+ Float_t pt = track->Pt();
+
+ Int_t iptesd = 0;
+ while(pt > fBinLimitPID[iptesd] && iptesd < fnPIDptBin-1) iptesd++;
+
+ if(cPi < 0){
+ c[0] = fC[iptesd][0];
+ c[1] = fC[iptesd][1];
+ c[2] = fC[iptesd][2];
+ c[3] = fC[iptesd][3];
+ c[4] = fC[iptesd][4];
+ }
+ else{
+ c[0] = 0.0;
+ c[1] = 0.0;
+ c[2] = cPi;
+ c[3] = cKa;
+ c[4] = cPr;
+ }
+
+ Double_t r1[10]; track->GetTOFpid(r1);
+
+ Int_t i;
+ for (i=0; i<5; i++) rcc+=(c[i]*r1[i]);
+
+ Double_t w[10];
+ for (i=0; i<5; i++){
+ w[i]=c[i]*r1[i]/rcc;
+ fProbBayes[i] = w[i];
+ }
+ if (w[2]>=w[3] && w[2]>=w[4] && w[2]>=w[1] && w[2]>=w[0]) {//pion
+ pdg = 211*Int_t(track->GetSign());
+ }
+ else if (w[4]>=w[3] && w[4]>=w[1] && w[4]>=w[0]) {//proton
+ pdg = 2212*Int_t(track->GetSign());
+ }
+ else if (w[3]>=w[1] && w[3]>=w[0]){//kaon
+ pdg = 321*Int_t(track->GetSign());
+ }
+ else if (w[0]>=w[1]) { //electrons
+ pdg = -11*Int_t(track->GetSign());
+ }
+ else{ // muon
+ pdg = -13*Int_t(track->GetSign());
+ }
+ }
+
+ else if(strstr(option,"bayesianTPC")){ // Bayesian TPC PID
+ Double_t c[5]={0.01, 0.01, 0.85, 0.1, 0.05};
+ Double_t rcc=0.;
+
+ Float_t pt = track->Pt();
+
+ Int_t iptesd = 0;
+ while(pt > fBinLimitPID[iptesd] && iptesd < fnPIDptBin-1) iptesd++;
+
+ if(cPi < 0){
+ c[0] = fC[iptesd][0];
+ c[1] = fC[iptesd][1];
+ c[2] = fC[iptesd][2];
+ c[3] = fC[iptesd][3];
+ c[4] = fC[iptesd][4];
+ }
+ else{
+ c[0] = 0.0;
+ c[1] = 0.0;
+ c[2] = cPi;
+ c[3] = cKa;
+ c[4] = cPr;
+ }
+
+ Double_t r1[10]; track->GetTPCpid(r1);
+
+ Int_t i;
+ for (i=0; i<5; i++) rcc+=(c[i]*r1[i]);
+
+ Double_t w[10];
+ for (i=0; i<5; i++){
+ w[i]=c[i]*r1[i]/rcc;
+ fProbBayes[i] = w[i];
+ }
+ if (w[2]>=w[3] && w[2]>=w[4] && w[2]>=w[1] && w[2]>=w[0]) {//pion
+ pdg = 211*Int_t(track->GetSign());
+ }
+ else if (w[4]>=w[3] && w[4]>=w[1] && w[4]>=w[0]) {//proton
+ pdg = 2212*Int_t(track->GetSign());
+ }
+ else if (w[3]>=w[1] && w[3]>=w[0]){//kaon
+ pdg = 321*Int_t(track->GetSign());
+ }
+ else if (w[0]>=w[1]) { //electrons
+ pdg = -11*Int_t(track->GetSign());
+ }
+ else{ // muon
+ pdg = -13*Int_t(track->GetSign());
+ }
+ }
+
+ else if(strstr(option,"bayesianALL")){
+ Double_t c[5]={0.01, 0.01, 0.85, 0.1, 0.05};
+ Double_t rcc=0.;
+
+ Float_t pt = track->Pt();
+
+ Int_t iptesd = 0;
+ while(pt > fBinLimitPID[iptesd] && iptesd < fnPIDptBin-1) iptesd++;
+
+ if(cPi < 0){
+ c[0] = fC[iptesd][0];
+ c[1] = fC[iptesd][1];
+ c[2] = fC[iptesd][2];
+ c[3] = fC[iptesd][3];
+ c[4] = fC[iptesd][4];
+ }
+ else{
+ c[0] = 0.0;
+ c[1] = 0.0;
+ c[2] = cPi;
+ c[3] = cKa;
+ c[4] = cPr;
+ }
+
+ Double_t r1[10]; track->GetTOFpid(r1);
+ Double_t r2[10]; track->GetTPCpid(r2);
+
+ Int_t i;
+ for (i=0; i<5; i++) rcc+=(c[i]*r1[i]*r2[i]);
+
+
+ Double_t w[10];
+ for (i=0; i<5; i++){
+ w[i]=c[i]*r1[i]*r2[i]/rcc;
+ fProbBayes[i] = w[i];
+ }
+
+ if (w[2]>=w[3] && w[2]>=w[4] && w[2]>=w[1] && w[2]>=w[0]) {//pion
+ pdg = 211*Int_t(track->GetSign());
+ }
+ else if (w[4]>=w[3] && w[4]>=w[1] && w[4]>=w[0]) {//proton
+ pdg = 2212*Int_t(track->GetSign());
+ }
+ else if (w[3]>=w[1] && w[3]>=w[0]){//kaon
+ pdg = 321*Int_t(track->GetSign());
+ }
+ else if (w[0]>=w[1]) { //electrons
+ pdg = -11*Int_t(track->GetSign());
+ }
+ else{ // muon
+ pdg = -13*Int_t(track->GetSign());
+ }
+ }
+
+ else if(strstr(option,"sigmacutTOF")){
+ printf("PID not implemented yet: %s\nNO PID!!!!\n",option);
+ Float_t p = track->P();
+
+ // Take expected times
+ Double_t exptimes[5];
+ track->GetIntegratedTimes(exptimes);
+
+ // Take resolution for TOF response
+ // like fESDpid.GetTOFResponse().GetExpectedSigma(p, exptimes[ipart], mass[ipart]);
+ Float_t resolution = fESDpid.GetTOFResponse().GetExpectedSigma(p, exptimes[ipart], mass[ipart]);
+
+ if(TMath::Abs(exptimes[ipart] - track->GetTOFsignal()) < 3 * resolution){
+ pdg = pdgvalues[ipart] * Int_t(track->GetSign());
+ }
+ }
+
+ else{
+ printf("Invalid PID option: %s\nNO PID!!!!\n",option);
+ }
+
+ return pdg;
+}
+//-----------------------------------------------------------------------
+void AliFlowTrackCuts::SetPriors(){
+ // set abbundancies
+ fBinLimitPID[0] = 0.30;
+ fC[0][0] = 0.015;
+ fC[0][1] = 0.015;
+ fC[0][2] = 1;
+ fC[0][3] = 0.0025;
+ fC[0][4] = 0.000015;
+ fBinLimitPID[1] = 0.35;
+ fC[1][0] = 0.015;
+ fC[1][1] = 0.015;
+ fC[1][2] = 1;
+ fC[1][3] = 0.01;
+ fC[1][4] = 0.001;
+ fBinLimitPID[2] = 0.40;
+ fC[2][0] = 0.015;
+ fC[2][1] = 0.015;
+ fC[2][2] = 1;
+ fC[2][3] = 0.026;
+ fC[2][4] = 0.004;
+ fBinLimitPID[3] = 0.45;
+ fC[3][0] = 0.015;
+ fC[3][1] = 0.015;
+ fC[3][2] = 1;
+ fC[3][3] = 0.026;
+ fC[3][4] = 0.004;
+ fBinLimitPID[4] = 0.50;
+ fC[4][0] = 0.015;
+ fC[4][1] = 0.015;
+ fC[4][2] = 1.000000;
+ fC[4][3] = 0.05;
+ fC[4][4] = 0.01;
+ fBinLimitPID[5] = 0.60;
+ fC[5][0] = 0.012;
+ fC[5][1] = 0.012;
+ fC[5][2] = 1;
+ fC[5][3] = 0.085;
+ fC[5][4] = 0.022;
+ fBinLimitPID[6] = 0.70;
+ fC[6][0] = 0.01;
+ fC[6][1] = 0.01;
+ fC[6][2] = 1;
+ fC[6][3] = 0.12;
+ fC[6][4] = 0.036;
+ fBinLimitPID[7] = 0.80;
+ fC[7][0] = 0.0095;
+ fC[7][1] = 0.0095;
+ fC[7][2] = 1;
+ fC[7][3] = 0.15;
+ fC[7][4] = 0.05;
+ fBinLimitPID[8] = 0.90;
+ fC[8][0] = 0.0085;
+ fC[8][1] = 0.0085;
+ fC[8][2] = 1;
+ fC[8][3] = 0.18;
+ fC[8][4] = 0.074;
+ fBinLimitPID[9] = 1;
+ fC[9][0] = 0.008;
+ fC[9][1] = 0.008;
+ fC[9][2] = 1;
+ fC[9][3] = 0.22;
+ fC[9][4] = 0.1;
+ fBinLimitPID[10] = 1.20;
+ fC[10][0] = 0.007;
+ fC[10][1] = 0.007;
+ fC[10][2] = 1;
+ fC[10][3] = 0.28;
+ fC[10][4] = 0.16;
+ fBinLimitPID[11] = 1.40;
+ fC[11][0] = 0.0066;
+ fC[11][1] = 0.0066;
+ fC[11][2] = 1;
+ fC[11][3] = 0.35;
+ fC[11][4] = 0.23;
+ fBinLimitPID[12] = 1.60;
+ fC[12][0] = 0.0075;
+ fC[12][1] = 0.0075;
+ fC[12][2] = 1;
+ fC[12][3] = 0.40;
+ fC[12][4] = 0.31;
+ fBinLimitPID[13] = 1.80;
+ fC[13][0] = 0.0062;
+ fC[13][1] = 0.0062;
+ fC[13][2] = 1;
+ fC[13][3] = 0.45;
+ fC[13][4] = 0.39;
+ fBinLimitPID[14] = 2.00;
+ fC[14][0] = 0.005;
+ fC[14][1] = 0.005;
+ fC[14][2] = 1;
+ fC[14][3] = 0.46;
+ fC[14][4] = 0.47;
+ fBinLimitPID[15] = 2.20;
+ fC[15][0] = 0.0042;
+ fC[15][1] = 0.0042;
+ fC[15][2] = 1;
+ fC[15][3] = 0.5;
+ fC[15][4] = 0.55;
+ fBinLimitPID[16] = 2.40;
+ fC[16][0] = 0.007;
+ fC[16][1] = 0.007;
+ fC[16][2] = 1;
+ fC[16][3] = 0.5;
+ fC[16][4] = 0.6;
+
+ for(Int_t i=17;i<fnPIDptBin;i++){
+ fBinLimitPID[i] = 2.0 + 0.2 * (i-14);
+ fC[i][0] = fC[13][0];
+ fC[i][1] = fC[13][1];
+ fC[i][2] = fC[13][2];
+ fC[i][3] = fC[13][3];
+ fC[i][4] = fC[13][4];
+ }
+}
+// end part added by F. Noferini
+//-----------------------------------------------------------------------
+
+
+//-----------------------------------------------------------------------
+const char* AliFlowTrackCuts::PIDsourceName(PIDsource s)
{
- //check if current particle is a physical primary
- return fMCevent->IsPhysicalPrimary(fTrackLabel);
+ //get the name of the particle id source
+ switch (s)
+ {
+ case kTPCdedx:
+ return "TPCdedx";
+ case kTOFbeta:
+ return "TOFbeta";
+ case kTPCpid:
+ return "TPCpid";
+ case kTOFpid:
+ return "TOFpid";
+ case kTOFbayesian:
+ return "TOFbayesianPID";
+ default:
+ return "NOPID";
+ }
}
//-----------------------------------------------------------------------
case kESD_TPConly:
return "TPC only";
case kESD_SPDtracklet:
- return "SPD tracklet";
+ return "SPD tracklet";
+ case kPMD:
+ return "PMD";
default:
- return "unknown";
+ return "unknown";
}
- return "unknown";
}
//-----------------------------------------------------------------------
-void AliFlowTrackCuts::DefineHistograms()
+Bool_t AliFlowTrackCuts::PassesPMDcuts(AliESDPmdTrack* /*track*/ )
{
+ //check PMD specific cuts
+ //clean up from last iteration, and init label
+
+ fTrack = NULL;
+ fMCparticle=NULL;
+ fTrackLabel=-1;
+
+ fTrackPhi = 0.;
+ fTrackEta = 0.;
+ fTrackWeight = 1.0;
+
+ Bool_t pass=kTRUE;
+ if (fCutEta) {if ( fTrackEta < fEtaMin || fTrackEta >= fEtaMax ) pass = kFALSE;}
+ if (fCutPhi) {if ( fTrackPhi < fPhiMin || fTrackPhi >= fPhiMax ) pass = kFALSE;}
+
+ return kFALSE;
}