#include "AliOADBContainer.h"
// initialize static members
-TH2F* AliPIDCombined::fDefaultPriorsTPC[5];
+TH2F* AliPIDCombined::fDefaultPriorsTPC[]={0x0};
+TH2F* AliPIDCombined::fDefaultPriorsTPCpPb[]={0x0};
+Float_t AliPIDCombined::fTOFmismProb = 0;
ClassImp(AliPIDCombined);
//
// default constructor
//
- for (Int_t i=0;i<AliPID::kSPECIES+AliPID::kSPECIESLN;i++) fPriorsDistributions[i]=NULL;
+ for (Int_t i=0;i<AliPID::kSPECIESC;i++) fPriorsDistributions[i]=NULL;
AliLog::SetClassDebugLevel("AliPIDCombined",10);
}
//
// default constructor with name and title
//
- for (Int_t i=0;i<AliPID::kSPECIES+AliPID::kSPECIESLN;i++) fPriorsDistributions[i]=NULL;
+ for (Int_t i=0;i<AliPID::kSPECIESC;i++) fPriorsDistributions[i]=NULL;
AliLog::SetClassDebugLevel("AliPIDCombined",10);
}
//-------------------------------------------------------------------------------------------------
AliPIDCombined::~AliPIDCombined() {
- for(Int_t i=0;i < AliPID::kSPECIES+AliPID::kSPECIESLN;i++){
+ for(Int_t i=0;i < AliPID::kSPECIESC;i++){
if(fPriorsDistributions[i])
delete fPriorsDistributions[i];
}
//-------------------------------------------------------------------------------------------------
void AliPIDCombined::SetPriorDistribution(AliPID::EParticleType type,TH1F *prior) {
- if ( (type < 0) || ( type >= (AliPID::kSPECIESN+AliPID::kSPECIESLN) ) ){
+ if ( (type < 0) || ( type >= ((AliPID::EParticleType)AliPID::kSPECIESC) ) ){
AliError(Form("Invalid EParticleType setting prior (offending type: %d)",type));
return;
}
if(prior) {
Int_t i = (Int_t)type;
- if (i >= AliPID::kSPECIES ) {
- if (i < (Int_t)AliPID::kDeuteron) {
- AliError(Form("Invalid EParticleType setting prior. Type: %d (neutral) not supported",i));
- return;
- } else i -= (AliPID::kSPECIESN-AliPID::kSPECIES);
- }
- if (i>(AliPID::kSPECIES+AliPID::kSPECIESLN)) { // coverity fix (to put it mildly....)
- AliError(Form("Unexpected EParticleType setting prior. Type: %d (neutral) not supported",i));
- return;
- }
if (fPriorsDistributions[i]) {
delete fPriorsDistributions[i];
}
}
//-------------------------------------------------------------------------------------------------
-UInt_t AliPIDCombined::ComputeProbabilities(const AliVTrack *track, const AliPIDResponse *response, Double_t* bayesProbabilities) const {
- Double_t pITS[fSelectedSpecies];
- Double_t pTPC[fSelectedSpecies];
- Double_t pTRD[fSelectedSpecies];
- Double_t pTOF[fSelectedSpecies];
- Double_t pHMPID[fSelectedSpecies];
- Double_t pEMCAL[fSelectedSpecies];
- Double_t pPHOS[fSelectedSpecies];
- for (Int_t i=0;i<fSelectedSpecies;i++) {
- pITS[i]=1.;
- pTPC[i]=1.;
- pTRD[i]=1.;
- pTOF[i]=1.;
- pHMPID[i]=1.;
- pEMCAL[i]=1.;
- pPHOS[i]=1.;
- }
- UInt_t usedMask=0;
- AliPIDResponse::EDetPidStatus status=AliPIDResponse::kDetNoSignal;
- Double_t p[fSelectedSpecies];
- memset(p,0,sizeof(Double_t)*fSelectedSpecies);
-
- // getting probability distributions for selected detectors only
- if (fDetectorMask & AliPIDResponse::kDetITS) {
- status = response->ComputeITSProbability(track, fSelectedSpecies, pITS);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetITS,pITS);
- }
-
- if (fDetectorMask & AliPIDResponse::kDetTPC) {
- status = response->ComputeTPCProbability(track, fSelectedSpecies, pTPC);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetTPC,pTPC);
- }
+UInt_t AliPIDCombined::ComputeProbabilities(const AliVTrack *track, const AliPIDResponse *response, Double_t* bayesProbabilities,Double_t *priorsOwn) const {
+ //
+ // (1) Get raw probabilities of requested detectors and combine
+ // (2) priors passed as argument
+ // (3) Compute Bayes probabilities
+ //
- if (fDetectorMask & AliPIDResponse::kDetTRD) {
- status = response->ComputeTRDProbability(track, fSelectedSpecies, pTRD);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetTRD,pTRD);
+ // (1) Get raw probabilities of selected detectors and combine
+ UInt_t usedMask=0; // detectors actually used for track
+ fTOFmismProb = 0; // reset TOF mismatch weights
+
+ AliPIDResponse::EDetPidStatus status=AliPIDResponse::kDetNoSignal;
+ Double_t p[AliPID::kSPECIESC]; // combined probabilities of selected detectors
+ Double_t pMismTOF[AliPID::kSPECIESC]; // combined TOF mismatch probabilities using selected detectors
+ for (Int_t i=0;i<fSelectedSpecies;i++){ p[i]=1.;pMismTOF[i]=1.;} // no decision
+ for (Int_t ibit = 0; ibit < 7 ; ibit++) {
+ AliPIDResponse::EDetCode detBit = (AliPIDResponse::EDetCode)(1<<ibit);
+ if (fDetectorMask & detBit) { // getting probabilities for requested detectors only
+ Double_t detProb[AliPID::kSPECIESC];
+ status = response->ComputePIDProbability(detBit,track,fSelectedSpecies,detProb);
+ if (status == AliPIDResponse::kDetPidOk) {
+ if (fRejectMismatchMask & detBit) { // mismatch check (currently just for TOF)
+ if (detBit == AliPIDResponse::kDetTOF) {
+ fTOFmismProb = response->GetTOFMismatchProbability(); // mismatch weights computed with TOF probs (no arguments)
+ //Float_t probMis = response->GetTOFMismatchProbability(track); // mismatch compatibility TPC-TOF cut
+ SetCombinedStatus(status,&usedMask,detBit,detProb,fTOFmismProb);
+ } else {
+ SetCombinedStatus(status,&usedMask,detBit);
+ }
+ } else {
+ SetCombinedStatus(status,&usedMask,detBit);
}
-
- if (fDetectorMask & AliPIDResponse::kDetTOF) {
- status = response->ComputeTOFProbability(track, fSelectedSpecies, pTOF);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetTOF,pTOF);
+ for (Int_t i=0;i<fSelectedSpecies;i++){
+ p[i] *= detProb[i];
+ if(detBit == AliPIDResponse::kDetTOF){
+ Double_t pt = track->Pt();
+ Double_t mismPropagationFactor[] = {1.,1.,1.,1. + TMath::Exp(1. - 1.12*pt),
+ 1. + 1./(4.71114 - 5.72372*pt + 2.94715*pt*pt),1.,1.,1.,1.,1.}; // correction for kaons and protons which has to be alligned with the one in AliPIDResponse
+ pMismTOF[i] *= fTOFmismProb*mismPropagationFactor[i];
+ }
+ else pMismTOF[i] *= detProb[i];
}
+ }
+ }
+ }
+ // if no detectors available there is no point to go further
+ if (usedMask == 0) return usedMask;
- if (fDetectorMask & AliPIDResponse::kDetHMPID) {
- status = response->ComputeHMPIDProbability(track, fSelectedSpecies, pHMPID);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetHMPID,pHMPID);
- }
+ // (2) Get priors and propagate depending on detectors used
+ Double_t priors[AliPID::kSPECIESC];
+ memset(priors,0,fSelectedSpecies*sizeof(Double_t));
+ if(priorsOwn){
+ for(Int_t ipr=0;ipr < fSelectedSpecies;ipr++)
+ priors[ipr] = priorsOwn[ipr];
+ }
- if (fDetectorMask & AliPIDResponse::kDetEMCAL) {
- status = response->ComputeEMCALProbability(track, fSelectedSpecies, pEMCAL);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetEMCAL,pEMCAL);
+ else if (fEnablePriors){
+ Bool_t isPPB = (response->GetBeamType() == AliPIDResponse::kPPB);
+ GetPriors(track,priors,response->GetCurrentCentrality(),isPPB);
+
+ // We apply the propagation factors of the more external detector
+ //
+ // TPC+HMPID --> apply HMPID propagation factors (TRD and TOF may be present)
+ // TPC+EMCAL --> apply EMCAL propagation factors (TRD and TOF may be present)
+ // TPC+TOF --> apply TOF propagation factors (TRD may be present, HMPID and EMCAL not (if requested))
+ // TPC+TRD --> apply TRD propagation factors (TOF, HMPID and EMCAL not present (if requested) )
+ //
+ if(fUseDefaultTPCPriors) {
+
+ Double_t pt=TMath::Abs(track->Pt());
+ if ( ( (usedMask & AliPIDResponse::kDetEMCAL)==AliPIDResponse::kDetEMCAL) || ( (usedMask & AliPIDResponse::kDetHMPID)==AliPIDResponse::kDetHMPID) ) {
+ // we assume EMCAL and HMPID cannot be simultaneously present
+ if ( (usedMask & AliPIDResponse::kDetEMCAL)==AliPIDResponse::kDetEMCAL ) {
+ // EMCal case (for the moment only in combination with TPC)
+ // propagation factors determined from LHC11d MC (LHC12a15f)
+ // v2 clusterizer, dEta < 0.015, dPhi < 0.03, NonLinearityFunction = 6
+
+ Float_t electronEMCALfactor=0.1;
+ Float_t kaonEMCALfactor = 0.1;
+ Float_t protonEMCALfactor = 0.1;
+
+ if(track->Charge() > 0){
+ // positiv charge (start parametrization at 0.75 GeV/c and stop at 20 GeV/c for the moment)
+ if(pt > 0.75 && pt < 20.0){
+ electronEMCALfactor = ( 0.214159 * ( 1 - TMath::Exp(-TMath::Power(pt,0.484512)/0.700499)*TMath::Power(pt,-0.669644)) ) / ( 0.210436 * ( 1 - TMath::Exp(-TMath::Power(pt,-0.219228)/0.947432)*TMath::Power(pt,-0.700792)) );
+ kaonEMCALfactor = ( 0.208686 * ( 1 - TMath::Exp(-TMath::Power(pt,-3.98149e-05)/1.28447)*TMath::Power(pt,-0.629191)) ) / ( 0.210436 * ( 1 - TMath::Exp(-TMath::Power(pt,-0.219228)/0.947432)*TMath::Power(pt,-0.700792)) );
+ protonEMCALfactor = ( 0.27555 * ( 1 - TMath::Exp(-TMath::Power(pt,-1.97226e-05)/1.52719)*TMath::Power(pt,-0.209068)) ) / ( 0.210436 * ( 1 - TMath::Exp(-TMath::Power(pt,-0.219228)/0.947432)*TMath::Power(pt,-0.700792)) );
+
+ }
}
-
-
- if (fDetectorMask & AliPIDResponse::kDetPHOS) {
- status = response->ComputePHOSProbability(track, fSelectedSpecies, pPHOS);
- SetCombinedStatus(status,&usedMask,AliPIDResponse::kDetPHOS,pPHOS);
+
+ if(track->Charge() < 0){
+ // negative charge (start parametrization at 0.75 GeV/c and stop at 20 GeV/c for the moment)
+ if(pt > 0.75 && pt < 20.0){
+ electronEMCALfactor = ( 0.216895 * ( 1 - TMath::Exp(-TMath::Power(pt,0.000105924)/0.865938)*TMath::Power(pt,-1.32787)) ) / ( 0.210385 * ( 1 - TMath::Exp(-TMath::Power(pt,4.41206e-07)/1.08984)*TMath::Power(pt,-0.544375)) );
+ kaonEMCALfactor = ( 0.204117 * ( 1 - TMath::Exp(-TMath::Power(pt,-1.6853e-05)/1.61765)*TMath::Power(pt,-0.738355)) ) / ( 0.210385 * ( 1 - TMath::Exp(-TMath::Power(pt,4.41206e-07)/1.08984)*TMath::Power(pt,-0.544375)) );
+ protonEMCALfactor = ( 0.215679 * ( 1 - TMath::Exp(-TMath::Power(pt,-4.10015e-05)/1.40921)*TMath::Power(pt,-0.533752)) ) / ( 0.210385 * ( 1 - TMath::Exp(-TMath::Power(pt,4.41206e-07)/1.08984)*TMath::Power(pt,-0.544375)) );
+ }
+ }
+ priors[0] *= electronEMCALfactor;
+ priors[3] *= kaonEMCALfactor;
+ priors[4] *= protonEMCALfactor;
+ } // end of EMCAL case
+
+ else if ( (usedMask & AliPIDResponse::kDetHMPID)==AliPIDResponse::kDetHMPID ) { // HMPID case
+
+ Float_t kaonHMPIDfactor = 0.;
+ Float_t protonHMPIDfactor = 0.;
+ if(pt>1. && pt<6.) kaonHMPIDfactor = (-0.0729337 + pt*0.0999531 - pt*pt*0.0371803 + pt*pt*pt*0.00706436 - pt*pt*pt*pt*0.000643619 + pt*pt*pt*pt*pt*2.21853e-05)/(-0.00896231+ pt*0.0330702 - pt*pt*0.0109562+ pt*pt*pt*0.00232895 - pt*pt*pt*pt*0.000246143 + pt*pt*pt*pt*pt*9.59812e-06);
+ if(pt>1.4 && pt<6.) protonHMPIDfactor = (-0.0444188 + pt*0.0681506 - pt*pt*0.0231819 + pt*pt*pt*0.00400771 - pt*pt*pt*pt*0.000339315 + pt*pt*pt*pt*pt*1.12616e-05)/(-0.00896231+ pt*0.0330702 - pt*pt*0.0109562+ pt*pt*pt*0.00232895 - pt*pt*pt*pt*0.000246143 + pt*pt*pt*pt*pt*9.59812e-06);
+ if(pt>6. && pt<8.) kaonHMPIDfactor = (-0.0729337 + pt*0.0999531 - pt*pt*0.0371803 + pt*pt*pt*0.00706436 - pt*pt*pt*pt*0.000643619 + pt*pt*pt*pt*pt*2.21853e-05)/0.0530456;
+ if(pt>8.) kaonHMPIDfactor = 0.0550432/0.0530456;
+ if(pt>6. && pt<8.5) protonHMPIDfactor = (-0.0444188 + pt*0.0681506 - pt*pt*0.0231819 + pt*pt*pt*0.00400771 - pt*pt*pt*pt*0.000339315 + pt*pt*pt*pt*pt*1.12616e-05)/0.0530456;
+ if(pt>8.5) protonHMPIDfactor = 0.0530071/0.0530456;
+
+ if(track->Charge() < 0){
+ if(pt>0.4 && pt<6.) protonHMPIDfactor = (-0.0351485 + pt*0.0473821 - pt*pt*0.0147947 + pt*pt*pt*0.00254811- pt*pt*pt*pt*0.000224724 + pt*pt*pt*pt*pt*7.9303e-06)/(-0.00896231+ pt*0.0330702 - pt*pt*0.0109562+ pt*pt*pt*0.00232895 - pt*pt*pt*pt*0.000246143 + pt*pt*pt*pt*pt*9.59812e-06);
+ if(pt>6. && pt<8.5) protonHMPIDfactor = (-0.0351485 + pt*0.0473821 - pt*pt*0.0147947 + pt*pt*pt*0.00254811- pt*pt*pt*pt*0.000224724 + pt*pt*pt*pt*pt*7.9303e-06)/0.0530456;
+ if(pt>8.5) protonHMPIDfactor = 0.0457756/0.0530456;
+ }
+
+ priors[3] *= kaonHMPIDfactor;
+ priors[4] *= protonHMPIDfactor;
+
+ }
+
+ } // end of outer cases: EMCAL/HMPID
+ else if ( (usedMask & AliPIDResponse::kDetTOF) == AliPIDResponse::kDetTOF ){
+ Float_t kaonTOFfactor = 0.1;
+ if(pt > 0.29){
+ kaonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,4.19618E-07)/4.96502e-01)*TMath::Power(pt,-1.50705);
}
+ Float_t protonTOFfactor = 0.1;
+ if(pt > 0.4) protonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,3.30978)/8.57396E-02)*TMath::Power(pt,-4.42661E-01);
- for (Int_t i =0; i<fSelectedSpecies; i++){
- p[i] = pITS[i]*pTPC[i]*pTRD[i]*pTOF[i]*pHMPID[i]*pEMCAL[i]*pPHOS[i];
+ if(track->Charge() < 0){ // for negative tracks
+ kaonTOFfactor *= 1 - TMath::Exp(-TMath::Power(pt,4.87912E-07)/3.26431E-01)*TMath::Power(pt,-1.22893);
+ protonTOFfactor *= 1 - TMath::Exp(-TMath::Power(pt,2.00575E-07)/4.95605E-01)*TMath::Power(pt,-6.71305E-01);
}
- Double_t priors[fSelectedSpecies];
- memset(priors,0,fSelectedSpecies*sizeof(Double_t));
- if (fEnablePriors){
- GetPriors(track,priors,response->GetCurrentCentrality());
-
- // apply tof matching efficiency to priors if TOF joined PID for this track
- if(fUseDefaultTPCPriors && (usedMask & AliPIDResponse::kDetTOF)){
- Double_t pt=TMath::Abs(track->Pt());
- Float_t kaonTOFfactor = 0.1;
- if(pt > 0.35) kaonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,4.19618E-07)/5.68017E-01)*TMath::Power(pt,-1.50705);
- Float_t protonTOFfactor = 0.1;
- if(pt > 0.4) protonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,3.30978)/8.57396E-02)*TMath::Power(pt,-4.42661E-01);
-
- if(track->Charge() < 0){ // for negative tracks
- kaonTOFfactor *= 1 - TMath::Exp(-TMath::Power(pt,4.87912E-07)/3.26431E-01)*TMath::Power(pt,-1.22893);
- protonTOFfactor *= 1 - TMath::Exp(-TMath::Power(pt,2.00575E-07)/4.95605E-01)*TMath::Power(pt,-6.71305E-01);
- }
-
- p[3] *= kaonTOFfactor;
- p[4] *= protonTOFfactor;
- }
+ // TODO: we may need an electron factor for TOF as well, especially if TRD is present!
+ priors[3] *= kaonTOFfactor;
+ priors[4] *= protonTOFfactor;
+ } // end of TOF case
+ else if ( (usedMask & AliPIDResponse::kDetTRD)==AliPIDResponse::kDetTRD ) {
+ Float_t electronTRDfactor=0.1;
+ Float_t kaonTRDfactor = 0.1;
+ Float_t protonTRDfactor = 0.1;
+
+ if(track->Charge() > 0){
+ // positiv charge
+ if(pt > 0.25) electronTRDfactor = 1 - TMath::Exp(-TMath::Power(pt,5.13315e-03)/2.11145e-01)*TMath::Power(pt,-2.97659e+00);
+ if(pt > 0.35) kaonTRDfactor = 1 - TMath::Exp(-TMath::Power(pt,-4.29549e-02)/4.87989e-01)*TMath::Power(pt,-1.54270e+00);
+ if(pt > 0.35) protonTRDfactor = 1 - TMath::Exp(-TMath::Power(pt,2.81238e+00)/7.57082e-02)*TMath::Power(pt,-8.12595e-01);
+ }
+
+ if(track->Charge() < 0){
+ // negative charge
+ if(pt > 0.25) electronTRDfactor = 1 - TMath::Exp(-TMath::Power(pt,2.45537e-02)/1.90397e-01)*TMath::Power(pt,-3.33121e+00);
+ if(pt > 0.35) kaonTRDfactor = 1 - TMath::Exp(-TMath::Power(pt, -3.42831e-03)/5.57013e-01)*TMath::Power(pt,-1.39202e+00);
+ if(pt > 0.35) protonTRDfactor = 1 - TMath::Exp(-TMath::Power(pt,3.36631e+00)/7.18819e-02)*TMath::Power(pt,-2.00577e-01);
}
- else { for (Int_t i=0;i<fSelectedSpecies;i++) priors[i]=1.;}
- ComputeBayesProbabilities(bayesProbabilities,p,priors);
- return usedMask;
+ // what about electrons
+ priors[0] *= electronTRDfactor;
+ priors[3] *= kaonTRDfactor;
+ priors[4] *= protonTRDfactor;
+ } // end of TRD case
+ } // end of fUseDefaultTPCPriors
+ } // end of use priors
+ else { for (Int_t i=0;i<fSelectedSpecies;i++) priors[i]=1.;}
+
+ // Compute Bayes probabilities
+ ComputeBayesProbabilities(bayesProbabilities,p,priors,pMismTOF);
+
+ // compute TOF probability contribution from mismatch
+ fTOFmismProb = 0;
+ for (Int_t i=0;i<fSelectedSpecies;i++) fTOFmismProb += pMismTOF[i];
+
+ return usedMask;
}
//-------------------------------------------------------------------------------------------------
-void AliPIDCombined::GetPriors(const AliVTrack *track, Double_t* p,Float_t centrality) const {
+void AliPIDCombined::GetPriors(const AliVTrack *track, Double_t* p,Float_t centrality,Bool_t isPPB) const {
//
// get priors from distributions
//
+
Double_t pt=TMath::Abs(track->Pt());
if(fUseDefaultTPCPriors){ // use default priors if requested
else if(usedCentr > 99) usedCentr = 99;
if(pt > 9.99) pt = 9.99;
else if(pt < 0.01) pt = 0.01;
-
- for(Int_t i=0;i<5;i++) p[i] = fDefaultPriorsTPC[i]->Interpolate(usedCentr,pt);
+
+ if(! isPPB)
+ for(Int_t i=0;i<AliPID::kSPECIESC;i++) p[i] = fDefaultPriorsTPC[i]->Interpolate(usedCentr,pt);
+ else
+ for(Int_t i=0;i<AliPID::kSPECIESC;i++) p[i] = fDefaultPriorsTPCpPb[i]->Interpolate(usedCentr,pt);
return;
}
if(pt > 9.99) pt = 9.99;
else if(pt < 0.01) pt = 0.01;
- for(Int_t i=0;i<5;i++) p[i] = fDefaultPriorsTPC[i]->Interpolate(usedCentr,pt);
+ for(Int_t i=0;i<AliPID::kSPECIESC;i++) p[i] = fDefaultPriorsTPC[i]->Interpolate(usedCentr,pt);
// Extra factor if TOF matching was required
if(detUsed & AliPIDResponse::kDetTOF){
Float_t kaonTOFfactor = 0.1;
- if(pt > 0.35) kaonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,4.19618E-07)/5.68017E-01)*TMath::Power(pt,-1.50705);
+ if(pt > 0.29){
+ kaonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,4.19618E-07)/4.96502e-01)*TMath::Power(pt,-1.50705);
+ }
Float_t protonTOFfactor = 0.1;
if(pt > 0.4) protonTOFfactor = 1 - TMath::Exp(-TMath::Power(pt,3.30978)/8.57396E-02)*TMath::Power(pt,-4.42661E-01);
return;
}
//-------------------------------------------------------------------------------------------------
-void AliPIDCombined::ComputeBayesProbabilities(Double_t* probabilities, const Double_t* probDensity, const Double_t* prior) const {
+void AliPIDCombined::ComputeBayesProbabilities(Double_t* probabilities, const Double_t* probDensity, const Double_t* prior, Double_t* probDensityMism) const {
//
if (sum <= 0) {
AliError("Invalid probability densities or priors");
- for (Int_t i = 0; i < fSelectedSpecies; i++) probabilities[i] = -1;
+ for (Int_t i = 0; i < fSelectedSpecies; i++) probabilities[i] = 1./fSelectedSpecies;
return;
}
for (Int_t i = 0; i < fSelectedSpecies; i++) {
probabilities[i] = probDensity[i] * prior[i] / sum;
+ if(probDensityMism) probDensityMism[i] *= prior[i] / sum;
}
}
+
//----------------------------------------------------------------------------------------
-void AliPIDCombined::SetCombinedStatus(AliPIDResponse::EDetPidStatus status, UInt_t *maskDetIn, AliPIDResponse::EDetCode bit, Double_t* p) const {
+void AliPIDCombined::SetCombinedStatus(AliPIDResponse::EDetPidStatus status, UInt_t *maskDetIn, AliPIDResponse::EDetCode bit) const {
switch (status) {
+ case AliPIDResponse::kDetNoParams:
case AliPIDResponse::kDetNoSignal:
+ case AliPIDResponse::kDetMismatch: // for backward compatibilty, we need then to remove kDetMismatch from AliPIDResponse
break;
case AliPIDResponse::kDetPidOk:
*maskDetIn = *maskDetIn | bit;
break;
- case AliPIDResponse::kDetMismatch:
- if ( fRejectMismatchMask & bit) for (Int_t j=0;j<fSelectedSpecies;j++) p[j]=1./fSelectedSpecies;
- else *maskDetIn = *maskDetIn | bit;
+ }
+
+}
+
+//----------------------------------------------------------------------------------------
+void AliPIDCombined::SetCombinedStatus(AliPIDResponse::EDetPidStatus status, UInt_t *maskDetIn, AliPIDResponse::EDetCode bit, Double_t* /*p*/, const Float_t /*probMis*/) const {
+ switch (status) {
+ case AliPIDResponse::kDetNoParams:
+ case AliPIDResponse::kDetNoSignal:
+ case AliPIDResponse::kDetMismatch: // for backward compatibility, we need then to remove kDeteMismatch from AliPIDResponse
+ break;
+ case AliPIDResponse::kDetPidOk:
+ // if (probMis > 0.5) for (Int_t j=0;j<fSelectedSpecies;j++) p[j]=1./fSelectedSpecies; // no longer used because mismatch is in the framework now
+ //else
+ *maskDetIn = *maskDetIn | bit;
break;
}
}
+
+
//----------------------------------------------------------------------------------------
void AliPIDCombined::SetDefaultTPCPriors(){
fEnablePriors=kTRUE;
fUseDefaultTPCPriors = kTRUE;
+ //check if priors are already initialized
+ if (fDefaultPriorsTPC[0]) return;
+
TString oadbfilename("$ALICE_ROOT/OADB/COMMON/PID/data/");
oadbfilename += "/PIDdefaultPriors.root";
TFile * foadb = TFile::Open(oadbfilename.Data());
- if(!foadb->IsOpen()) AliFatal(Form("Cannot open OADB file %s", oadbfilename.Data()));
+ if(!foadb || !foadb->IsOpen()) {
+ delete foadb;
+ AliFatal(Form("Cannot open OADB file %s", oadbfilename.Data()));
+ return;
+ }
AliOADBContainer * priorsContainer = (AliOADBContainer*) foadb->Get("priorsTPC");
if (!priorsContainer) AliFatal("Cannot fetch OADB container for Priors");
- const char *namespecies[5] = {"El","Mu","Pi","Ka","Pr"};
+ const char *namespecies[AliPID::kSPECIESC] = {"El","Mu","Pi","Ka","Pr","De","Tr","He3","He3"};
char name[100];
- for(Int_t i=0;i < 5;i++){
+ for(Int_t i=0;i < AliPID::kSPECIESC;i++){
snprintf(name,99,"hDefault%sPriors",namespecies[i]);
fDefaultPriorsTPC[i] = (TH2F*) priorsContainer->GetDefaultObject(name);
if (!fDefaultPriorsTPC[i]) AliFatal(Form("Cannot find priors for %s", namespecies[i]));
+ snprintf(name,99,"hDefault%sPriorsPPb",namespecies[i]);
+ fDefaultPriorsTPCpPb[i] = (TH2F*) priorsContainer->GetDefaultObject(name);
+ if (!fDefaultPriorsTPCpPb[i]) {
+ fDefaultPriorsTPCpPb[i] = fDefaultPriorsTPC[i]; // use PbPb ones
+ }
}
+
+ delete foadb;
}