/************************************************************************* * Copyright(c) 1998-2009, 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. * **************************************************************************/ /////////////////////////////////////////////////////////////////////////// // Dielectron TrackCuts // // // // // /* Detailed description */ // // /////////////////////////////////////////////////////////////////////////// #include #include "AliDielectronTrackCuts.h" #include "AliVTrack.h" #include "AliAODTrack.h" ClassImp(AliDielectronTrackCuts) AliDielectronTrackCuts::AliDielectronTrackCuts() : AliAnalysisCuts(), fV0DaughterCut(0), fNegateV0DauterCut(kFALSE), fITSclusterBitMap(0), fITSclusterCutType(kOneOf), fRequireITSRefit(kFALSE), fRequireTPCRefit(kFALSE), fTPCNclRobustCut(-1), fTPCcrossedOverFindable(-1.), fAODFilterBit(kSwitchOff), fWaiveITSNcls(-1) { // // Default Constructor // for (Int_t i = 0; i < 3; i++) fCutClusterRequirementITS[i] = kOff; } //______________________________________________ AliDielectronTrackCuts::AliDielectronTrackCuts(const char* name, const char* title) : AliAnalysisCuts(name, title), fV0DaughterCut(0), fNegateV0DauterCut(kFALSE), fITSclusterBitMap(0), fITSclusterCutType(kOneOf), fRequireITSRefit(kFALSE), fRequireTPCRefit(kFALSE), fTPCNclRobustCut(-1), fTPCcrossedOverFindable(-1.), fAODFilterBit(kSwitchOff), fWaiveITSNcls(-1) { // // Named Constructor // for (Int_t i = 0; i < 3; i++) fCutClusterRequirementITS[i] = kOff; } //______________________________________________ AliDielectronTrackCuts::~AliDielectronTrackCuts() { // // Default Destructor // } //______________________________________________ Bool_t AliDielectronTrackCuts::IsSelected(TObject* track) { // // Apply configured cuts // AliVTrack *vtrack=dynamic_cast(track); if (!vtrack) return kFALSE; Bool_t accept=kTRUE; if (fV0DaughterCut) { Bool_t isV0=track->TestBit(BIT(fV0DaughterCut)); if (fNegateV0DauterCut) isV0=!isV0; accept*=isV0; } //ESD track cut like ITS cluster cut for (Int_t i=0;i<3;++i){ Bool_t layer1=TESTBIT(vtrack->GetITSClusterMap(),i*2); Bool_t layer2=TESTBIT(vtrack->GetITSClusterMap(),i*2+1); accept*=CheckITSClusterRequirement(fCutClusterRequirementITS[i], layer1, layer2); } //more flexible ITS cluster cut if (fITSclusterBitMap) accept*=CheckITSClusterCut(vtrack->GetITSClusterMap()); //different its cluster cut if (fWaiveITSNcls > -1) { Int_t nITScls = 0; Int_t requiredNcls = 7; for(Int_t i=5; i>=0; i--) { if(TESTBIT(vtrack->GetITSClusterMap(),i)) { nITScls++; requiredNcls=6-fWaiveITSNcls-i; } } accept*=(requiredNcls<=nITScls); } //its and tpc refit if (fRequireITSRefit) accept*=(vtrack->GetStatus()&AliVTrack::kITSrefit)>0; if (fRequireTPCRefit) accept*=(vtrack->GetStatus()&AliVTrack::kTPCrefit)>0; Int_t nclr=0; if (fTPCNclRobustCut>0){ nclr=TMath::Nint(vtrack->GetTPCClusterInfo(2,1)); accept*=(nclr>fTPCNclRobustCut); } if (fTPCcrossedOverFindable > 0.) { if(fTPCNclRobustCut<=0) nclr=TMath::Nint(vtrack->GetTPCClusterInfo(2,1)); Int_t tpcNclsF = vtrack->GetTPCNclsF(); accept*=(tpcNclsF); //ESDtrackCut would return here true if (tpcNclsF != 0) {//'accept' already negated above in this case above accept*=(((Double_t)nclr/(Double_t)vtrack->GetTPCNclsF()) >= fTPCcrossedOverFindable); } } // use filter bit to speed up the AOD analysis (track pre-filter) // relevant filter bits are: // kTPCqual==1 -> TPC quality cuts // kTPCqualSPDany==4 -> + SPD any // kTPCqualSPDanyPIDele==8 -> + nSigmaTPCele +-3 (inclusion) if (track->IsA()==AliAODTrack::Class() && fAODFilterBit!=kSwitchOff) { accept*=((AliAODTrack*)track)->TestFilterBit(fAODFilterBit); } return accept; } //______________________________________________ void AliDielectronTrackCuts::SetV0DaughterCut(AliPID::EParticleType type, Bool_t negate/*=kFALSE*/) { // // Set V0 Daughter cut bit // const Int_t bitMap[5] = {14, -1, 15, -1, 16}; // convert the AliPID to bit positions fV0DaughterCut=bitMap[type]; fNegateV0DauterCut=negate; } //____________________________________________________________________ Bool_t AliDielectronTrackCuts::CheckITSClusterRequirement(ITSClusterRequirement req, Bool_t clusterL1, Bool_t clusterL2) const { // checks if the cluster requirement is fullfilled (in this case: return kTRUE) switch (req) { case kOff: return kTRUE; case kNone: return !clusterL1 && !clusterL2; case kAny: return clusterL1 || clusterL2; case kFirst: return clusterL1; case kOnlyFirst: return clusterL1 && !clusterL2; case kSecond: return clusterL2; case kOnlySecond: return clusterL2 && !clusterL1; case kBoth: return clusterL1 && clusterL2; } return kFALSE; } //______________________________________________ Bool_t AliDielectronTrackCuts::CheckITSClusterCut(UChar_t itsBits) const { // check the its cluster cut switch (fITSclusterCutType){ case kOneOf: return itsBits & fITSclusterBitMap; case kAtLeast: return (itsBits & fITSclusterBitMap)==fITSclusterBitMap; case kExact: return (itsBits==fITSclusterBitMap); } return kTRUE; }