**************************************************************************/
/* $Id$ */
+/* History of cvs commits:
+ *
+ * $Log$
+ * Revision 1.12 2006/03/10 13:23:36 hristov
+ * Using AliESDCaloCluster instead of AliESDtrack
+ *
+ * Revision 1.11 2006/01/31 20:30:52 hristov
+ * Including TFile.h
+ *
+ * Revision 1.10 2006/01/23 18:04:08 hristov
+ * Removing meaningless const
+ *
+ * Revision 1.9 2006/01/12 16:23:26 schutz
+ * ESD is properly read with methods of macros/AliReadESD.C copied in it
+ *
+ * Revision 1.8 2005/12/20 07:08:32 schutz
+ * corrected error in call AliReadESD
+ *
+ * Revision 1.6 2005/05/28 14:19:04 schutz
+ * Compilation warnings fixed by T.P.
+ *
+ */
+
//_________________________________________________________________________
// Class for the analysis of gamma-jet correlations
-//
+// Basically it seaches for a prompt photon in the PHOS acceptance,
+// if so we construct a jet around the highest pt particle in the opposite
+// side in azimuth, inside the TPC and EMCAL acceptances. First the leading
+// particle and then the jet have to fullfill several conditions
+// (energy, direction ..) to be accepted. Then the fragmentation function
+// of this jet is constructed
//
//*-- Author: Gustavo Conesa & Yves Schutz (IFIC, CERN)
//////////////////////////////////////////////////////////////////////////////
// --- ROOT system ---
-#include "TString.h"
-#include "TFile.h"
-#include "TLorentzVector.h"
-#include "TList.h"
-#include "TTree.h"
-#include "TNtuple.h"
-#include "TParticle.h"
-#include "TCanvas.h"
-#include "TPaveLabel.h"
-#include "TPad.h"
-#include "TArrayC.h"
-#include "AliRun.h"
+#include <TFile.h>
+#include <TParticle.h>
+#include <TCanvas.h>
+#include <TPaveLabel.h>
+#include <TPad.h>
+#include <TH2.h>
+
#include "AliPHOSGammaJet.h"
#include "AliPHOSGetter.h"
#include "AliPHOSGeometry.h"
-#include "TF1.h"
+#include "AliPHOSFastGlobalReconstruction.h"
+#include "AliESD.h"
+#include "AliESDtrack.h"
+#include "AliESDCaloCluster.h"
#include "Riostream.h"
-#include "../PYTHIA6/AliGenPythia.h"
+
ClassImp(AliPHOSGammaJet)
// ctor
fAngleMaxParam.Set(4) ;
fAngleMaxParam.Reset(0.);
- fAnyConeOrPt = kFALSE ;
+ fAnyConeOrPt = 0 ;
fEtaCut = 0. ;
- fFastRec = 0 ;
+ fESDdata = 0 ;
+ fFastRec = 0 ;
fInvMassMaxCut = 0. ;
fInvMassMinCut = 0. ;
fJetRatioMaxCut = 0. ;
fJetTPCRatioMaxCut = 0. ;
fJetTPCRatioMinCut = 0. ;
fMinDistance = 0. ;
- fNEvent = 0 ;
- fNCone = 0 ;
- fNPt = 0 ;
- fOnlyCharged = kFALSE ;
- fOptFast = kFALSE ;
+ fNEvent = 0 ;
+ fNCone = 0 ;
+ fNPt = 0 ;
+ fOnlyCharged = 0 ;
+ fOptFast = 0 ;
fPhiMaxCut = 0. ;
fPhiMinCut = 0. ;
fPtCut = 0. ;
fRatioMinCut = 0. ;
fCone = 0 ;
fPtThreshold = 0 ;
- fTPCCutsLikeEMCAL = kFALSE ;
- fSelect = kFALSE ;
+ fTPCCutsLikeEMCAL = 0 ;
+ fSelect = 0 ;
+
+ fDirName = "" ;
+ fESDTree = "" ;
+ fPattern = "" ;
+
for(Int_t i = 0; i<10; i++){
fCones[i] = 0.0 ;
fNameCones[i] = "" ;
}
}
- fOption = "" ;
+ fOptionGJ = "" ;
fOutputFile = new TFile(gDirectory->GetName()) ;
fInputFileName = gDirectory->GetName() ;
fOutputFileName = gDirectory->GetName() ;
AliPHOSGammaJet::AliPHOSGammaJet(const TString inputfilename) :
TTask("GammaJet","Analysis of gamma-jet correlations")
{
- // ctor
+ // ctor
fInputFileName = inputfilename;
fFastRec = new AliPHOSFastGlobalReconstruction(fInputFileName);
AliPHOSGetter * gime = AliPHOSGetter::Instance(fInputFileName) ;
// cpy ctor
fAngleMaxParam = gj.fAngleMaxParam;
fAnyConeOrPt = gj.fAnyConeOrPt;
+ fESDdata = gj.fESDdata;
fEtaCut = gj.fEtaCut ;
fInvMassMaxCut = gj.fInvMassMaxCut ;
fInvMassMinCut = gj.fInvMassMinCut ;
fFastRec = gj.fFastRec ;
- fOption = gj.fOption ;
+ fOptionGJ = gj.fOptionGJ ;
fMinDistance = gj.fMinDistance ;
fOptFast = gj.fOptFast ;
fOnlyCharged = gj.fOnlyCharged ;
fCone = gj.fCone ;
fPtThreshold = gj.fPtThreshold ;
+ fDirName = gj.fDirName ;
+ fESDTree = gj.fESDTree ;
+ fPattern = gj.fPattern ;
+
SetName (gj.GetName()) ;
SetTitle(gj.GetTitle()) ;
void AliPHOSGammaJet::AddHIJINGToList(Int_t iEvent, TClonesArray * particleList,
TClonesArray * plCh,
TClonesArray * plNe,
- TClonesArray * plNePHOS,
- const AliPHOSGeometry * geom )
+ TClonesArray * plNePHOS)
{
// List of particles copied to a root file.
Char_t fi[100];
sprintf(fi,"bgrd/%d/list.root",iEvent);
TFile * f = TFile::Open(fi) ;
- cout<<f->GetName()<<endl;
+ //cout<<f->GetName()<<endl;
TParticle *particle = new TParticle();
- TTree *T = (TTree*) f->Get("T");
- TBranch *branch = T->GetBranch("primaries");
+ TTree *t = (TTree*) f->Get("T");
+ TBranch *branch = t->GetBranch("primaries");
branch->SetAddress(&particle);
Int_t index = particleList->GetEntries() ;
Int_t iParticle = 0 ;
Int_t m = 0;
Double_t x = 0., z = 0.;
- // cout<<"bkg entries "<<T->GetEntries()<<endl;
+ // cout<<"bkg entries "<<t->GetEntries()<<endl;
+
+ AliPHOSGetter * gime = AliPHOSGetter::Instance() ;
+ const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
+
if(!fOptFast){
- for (iParticle=0 ; iParticle < T->GetEntries() ; iParticle++) {
- T->GetEvent(iParticle) ;
+ for (iParticle=0 ; iParticle < t->GetEntries() ; iParticle++) {
+ t->GetEvent(iParticle) ;
m = 0 ;
x = 0. ;
(dynamic_cast<TParticle*>(plCh->At(indexCh)))->SetStatusCode(0) ;
indexCh++ ;
- if(strstr(fOption,"deb all")||strstr(fOption,"deb")){
+ if(strstr(fOptionGJ,"deb all")||strstr(fOptionGJ,"deb")){
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
}
if(m != 0)
{//Is in PHOS
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
if((particle->Phi()>fPhiEMCALCut[0]) &&
(particle->Phi()<fPhiEMCALCut[1]) && m == 0)
{//Is in EMCAL
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
// fFastRec = new AliPHOSFastGlobalReconstruction(fHIJINGFileName);
// fFastRec->FastReconstruction(iiEvent);
- for (iParticle=0 ; iParticle < T->GetEntries() ; iParticle++) {
- T->GetEvent(iParticle) ;
+ for (iParticle=0 ; iParticle < t->GetEntries() ; iParticle++) {
+ t->GetEvent(iParticle) ;
m = 0 ;
x = 0. ;
z = 0. ;
//Check if decay photons are too close for PHOS
cellDistance = angle*460; //cm
if (cellDistance < fMinDistance) {
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
indexNe++ ;
}
if(m != 0){
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
new((*plNePHOS)[indexNePHOS]) TParticle(*particle) ;
geom->ImpactOnEmc(photon1->Theta(),photon1->Phi(), m,z,x);
if( photon1->Phi()>fPhiEMCALCut[0] && photon1->Phi()<fPhiEMCALCut[1]
&& m == 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon1->Pt());
new((*particleList)[index]) TParticle(*photon1) ;
p1 = kTRUE;
}
if(m != 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon1->Pt());
new((*plNePHOS)[indexNePHOS]) TParticle(*photon1) ;
geom->ImpactOnEmc(photon2->Theta(),photon2->Phi(), m,z,x);
if(photon2->Phi()>fPhiEMCALCut[0] &&
photon2->Phi()<fPhiEMCALCut[1] && m == 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon2->Pt());
new((*particleList)[index]) TParticle(*photon2) ;
indexNe++ ;
}
if(m != 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon2->Pt());
new((*plNePHOS)[indexNePHOS]) TParticle(*photon2) ;
const Double_t *x) {
//Info("CalculateLimit","x1 %f, x2%f",x[0],x[1]);
- Double_t Epp = par[0] + par[1] * ptg ;
- Double_t Spp = par[2] + par[3] * ptg ;
+ Double_t epp = par[0] + par[1] * ptg ;
+ Double_t spp = par[2] + par[3] * ptg ;
Double_t f = x[0] + x[1] * ptg ;
- Double_t Epb = Epp + par[4] ;
- Double_t Spb = TMath::Sqrt(Spp*Spp+ par[5]*par[5]) ;
- Double_t rat = (Epb - Spb * f) / ptg ;
- //Info("CalculateLimit","Epp %f, Spp %f, f %f", Epp, Spp, f);
- //Info("CalculateLimit","Epb %f, Spb %f, rat %f", Epb, Spb, rat);
+ Double_t epb = epp + par[4] ;
+ Double_t spb = TMath::Sqrt(spp*spp+ par[5]*par[5]) ;
+ Double_t rat = (epb - spb * f) / ptg ;
+ //Info("CalculateLimit","epp %f, spp %f, f %f", epp, spp, f);
+ //Info("CalculateLimit","epb %f, spb %f, rat %f", epb, spb, rat);
return rat ;
}
TClonesArray * particleList,
TClonesArray * plCh,
TClonesArray * plNe,
- TClonesArray * plNePHOS,
- const AliPHOSGeometry * geom )
+ TClonesArray * plNePHOS)
{
//Info("CreateParticleList","Inside");
- AliPHOSGetter * gime = AliPHOSGetter::Instance(fInputFileName) ;
+ AliPHOSGetter * gime = AliPHOSGetter::Instance(fInputFileName) ;
+ const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
gime->Event(iEvent, "X") ;
+
Int_t index = particleList->GetEntries() ;
Int_t indexCh = plCh->GetEntries() ;
Int_t indexNe = plNe->GetEntries() ;
->GetParticle(particle->GetPdgCode())->Charge();
if((charge != 0) && (particle->Pt() > fChargedPtCut)){
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
new((*plCh)[indexCh++]) TParticle(*particle) ;
geom->ImpactOnEmc(particle->Theta(),particle->Phi(), m,z,x);
if(m != 0)
{//Is in PHOS
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
if((particle->Phi()>fPhiEMCALCut[0]) &&
(particle->Phi()<fPhiEMCALCut[1]) && m == 0)
{//Is in EMCAL
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
new((*plNe)[indexNe++]) TParticle(*particle) ;
if(part.Pt() > fNeutralPtCut){
if(particle->Phi()>fPhiEMCALCut[0] &&
particle->Phi()<fPhiEMCALCut[1] && m == 0){
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
indexNe++;
}//InEMCAL
if(m != 0){
- if(strstr(fOption,"deb all")|| strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all")|| strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(particle->Pt());
new((*plNePHOS)[indexNePHOS]) TParticle(*particle) ;
geom->ImpactOnEmc(photon1->Theta(),photon1->Phi(), m,z,x);
if( photon1->Phi()>fPhiEMCALCut[0] && photon1->Phi()<fPhiEMCALCut[1]
&& m == 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon1->Pt());
new((*plNe)[indexNe++]) TParticle(*photon1) ;
p1 = kTRUE;
}
if(m != 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon1->Pt());
new((*plNePHOS)[indexNePHOS++]) TParticle(*photon1) ;
geom->ImpactOnEmc(photon2->Theta(),photon2->Phi(), m,z,x);
if(photon2->Phi()>fPhiEMCALCut[0] &&
photon2->Phi()<fPhiEMCALCut[1] && m == 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon2->Pt());
new((*plNe)[indexNe++]) TParticle(*photon2) ;
new((*particleList)[index++]) TParticle(*photon2) ;
}
if(m != 0){
- if(strstr(fOption,"deb all") || strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb all") || strstr(fOptionGJ,"deb"))
dynamic_cast<TH1F*>(fListHistos->FindObject("PtSpectra"))->
Fill(photon2->Pt());
new((*plNePHOS)[indexNePHOS++]) TParticle(*photon2) ;
}//OptFast
//gime->Delete() ;
}
+//____________________________________________________________________________
+void AliPHOSGammaJet::CreateParticleListFromESD(TClonesArray * pl,
+ TClonesArray * plCh,
+ TClonesArray * plNe,
+ TClonesArray * plNePHOS,
+ const AliESD * esd){
+
+ //Create a list of particles from the ESD. These particles have been measured
+ //by the Central Tracking system (TPC), PHOS and EMCAL
+ //(EMCAL not available for the moment).
+ //Info("CreateParticleListFromESD","Inside");
+
+ Int_t index = pl->GetEntries() ;
+ Int_t npar = 0 ;
+ Float_t *pid = new Float_t[AliPID::kSPECIESN];
+
+ //########### PHOS ##############
+ //Info("CreateParticleListFromESD","Fill ESD PHOS list");
+ Int_t begphos = esd->GetFirstPHOSCluster();
+ Int_t endphos = esd->GetFirstPHOSCluster() +
+ esd->GetNumberOfPHOSClusters() ;
+ Int_t indexNePHOS = plNePHOS->GetEntries() ;
+ if(strstr(fOptionGJ,"deb all"))
+ Info("CreateParticleListFromESD","PHOS: first particle %d, last particle %d",
+ begphos,endphos);
+
+ for (npar = begphos; npar < endphos; npar++) {//////////////PHOS track loop
+ AliESDCaloCluster * clus = esd->GetCaloCluster(npar) ; // retrieve track from esd
+
+ //Create a TParticle to fill the particle list
+
+ Float_t en = clus->GetClusterEnergy() ;
+ Float_t *p = new Float_t();
+ clus->GetGlobalPosition(p) ;
+ TVector3 pos(p[0],p[1],p[2]) ;
+ Double_t phi = pos.Phi();
+ Double_t theta= pos.Theta();
+ Double_t px = en*TMath::Cos(phi)*TMath::Sin(theta);;
+ Double_t py = en*TMath::Sin(phi)*TMath::Sin(theta);
+ Double_t pz = en*TMath::Cos(theta);
+
+ TParticle * particle = new TParticle() ;
+ particle->SetMomentum(px,py,pz,en) ;
+
+ //Select only photons
+
+ pid=clus->GetPid();
+ //cout<<"pid "<<pid[AliPID::kPhoton]<<endl ;
+ if( pid[AliPID::kPhoton] > 0.75)
+ new((*plNePHOS)[indexNePHOS++]) TParticle(*particle) ;
+ }
+
+ //########### TPC #####################
+ //Info("CreateParticleListFromESD","Fill ESD TPC list");
+ Int_t begtpc = 0 ;
+ Int_t endtpc = esd->GetNumberOfTracks() ;
+ Int_t indexCh = plCh->GetEntries() ;
+ if(strstr(fOptionGJ,"deb all"))
+ Info("CreateParticleListFromESD","TPC: first particle %d, last particle %d",
+ begtpc,endtpc);
+
+ for (npar = begtpc; npar < endtpc; npar++) {////////////// track loop
+ AliESDtrack * track = esd->GetTrack(npar) ; // retrieve track from esd
+
+ Double_t en = track ->GetTPCsignal() ;
+ Double_t mom[3];
+ track->GetPxPyPz(mom) ;
+ Double_t px = mom[0];
+ Double_t py = mom[1];
+ Double_t pz = mom[2]; //Check with TPC people if this is correct.
+
+ //cout<<"TPC signal "<<en<<endl;
+ //cout<<"px "<<px<<"; py "<<py<<"; pz "<<pz<<endl;
+ TParticle * particle = new TParticle() ;
+ particle->SetMomentum(px,py,pz,en) ;
+
+ new((*plCh)[indexCh++]) TParticle(*particle) ;
+ new((*pl)[index++]) TParticle(*particle) ;
+
+ }
+
+ //################ EMCAL ##############
+ Double_t v[3] ; //vertex ;
+ esd->GetVertex()->GetXYZ(v) ;
+ //##########Uncomment when ESD for EMCAL works ##########
+ //Info("CreateParticleListFromESD","Fill ESD EMCAL list");
+
+ Int_t begem = esd->GetFirstEMCALCluster();
+ Int_t endem = esd->GetFirstEMCALCluster() +
+ esd->GetNumberOfEMCALClusters() ;
+ Int_t indexNe = plNe->GetEntries() ;
+ if(strstr(fOptionGJ,"deb all"))
+ Info("CreateParticleListFromESD","EMCAL: first particle %d, last particle %d",
+ begem,endem);
+
+ for (npar = begem; npar < endem; npar++) {//////////////EMCAL track loop
+ AliESDCaloCluster * clus = esd->GetCaloCluster(npar) ; // retrieve track from esd
+
+ Float_t en = clus->GetClusterEnergy() ;
+ Float_t *p = new Float_t();
+ clus->GetGlobalPosition(p) ;
+ TVector3 pos(p[0],p[1],p[2]) ;
+ Double_t phi = pos.Phi();
+ Double_t theta= pos.Theta();
+ Double_t px = en*TMath::Cos(phi)*TMath::Sin(theta);;
+ Double_t py = en*TMath::Sin(phi)*TMath::Sin(theta);
+ Double_t pz = en*TMath::Cos(theta);
+ //cout<<"EMCAL signal "<<en<<endl;
+ //cout<<"px "<<px<<"; py "<<py<<"; pz "<<pz<<endl;
+ //TParticle * particle = new TParticle() ;
+ //particle->SetMomentum(px,py,pz,en) ;
+
+ Int_t pdg = 0;
+ // //Uncomment if PID IS WORKING, photon and pi0 idenitification.
+ // //if( pid[AliPID::kPhoton] > 0.75) //This has to be fixen.
+ // //pdg = 22;
+ // //else if( pid[AliPID::kPi0] > 0.75)
+ // //pdg = 111;
+ pdg = 22; //No PID, assume all photons
+ TParticle * particle = new TParticle(pdg, 1, -1, -1, -1, -1,
+ px, py, pz, en, v[0], v[1], v[2], 0);
+
+ new((*plNe)[indexNe++]) TParticle(*particle) ;
+ new((*pl)[index++]) TParticle(*particle) ;
+ }
+
+ // Info("CreateParticleListFromESD","End Inside");
+
+}
void AliPHOSGammaJet::Exec(Option_t *option)
{
// does the job
- fOption = option;
+ fOptionGJ = option;
MakeHistos() ;
+
+ AliESD * esd = 0;
+ TChain * t = 0 ;
+
+ if(fESDdata){
+ // Create chain of esd trees
+ const UInt_t kNevent = static_cast<UInt_t>(GetNEvent()) ;
+ t = ReadESD(kNevent, fDirName, fESDTree, fPattern) ;
+ if(!t) {
+ AliError("Could not create the TChain") ;
+ //break ;
+ }
+
+ // ESD
+ t->SetBranchAddress("ESD",&esd); // point to the container esd where to put the event from the esdTree
- AliPHOSGetter * gime = AliPHOSGetter::Instance() ;
- const AliPHOSGeometry * geom = gime->PHOSGeometry() ;
-
+ }
+
// AliGenPythia* pyth = (AliGenPythia*) gAlice->Generator();
// pyth->Init();
TClonesArray * plNePHOS = new TClonesArray("TParticle",1000);
for (Int_t iEvent = 0 ; iEvent < fNEvent ; iEvent++) {
- if(strstr(fOption,"deb")||strstr(fOption,"deb all"))
+ if(strstr(fOptionGJ,"deb")||strstr(fOptionGJ,"deb all"))
Info("Exec", "Event %d", iEvent) ;
fRan.SetSeed(0);
TLorentzVector jet (0,0,0,0);
TLorentzVector jettpc(0,0,0,0);
-
- CreateParticleList(iEvent, particleList, plCh,plNe,plNePHOS, geom );
-// TLorentzVector pyjet(0,0,0,0);
+ if(fESDdata){
-// Int_t nJ, nJT;
-// Float_t jets[4][10];
-// pyth->SetJetReconstructionMode(1);
-// pyth->LoadEvent();
-// pyth->GetJets(nJ, nJT, jets);
-
-// Float_t pxJ = jets[0][0];
-// Float_t pyJ = jets[1][0];
-// Float_t pzJ = jets[2][0];
-// Float_t eJ = jets[3][0];
-// pyjet.SetPxPyPzE(pxJ,pyJ,pzJ,eJ ) ;
-
-// if(nJT > 1){
-// //Info("Exec",">>>>>>>>>>Number of jets !!!! %d",nJT);
-// for (Int_t iJ = 1; iJ < nJT; iJ++) {
-// Float_t pxJ = jets[0][iJ];
-// Float_t pyJ = jets[1][iJ];
-// Float_t pzJ = jets[2][iJ];
-// Float_t eJ = jets[3][iJ];
-// pyjet.SetPxPyPzE(pxJ,pyJ,pzJ,eJ ) ;
-// //Info("Exec",">>>>>Pythia Jet: %d, Phi %f, Eta %f, Pt %f",
-// // iJ,pyjet.Phi(),pyjet.Eta(),pyjet.Pt());
-// }
+ Int_t iNbytes = t->GetEntry(iEvent); // store event in esd
+ //cout<<"nbytes "<<iNbytes<<endl;
+ if ( iNbytes == 0 ) {
+ AliError("Empty TChain") ;
+ break ;
+ }
+ CreateParticleListFromESD(particleList, plCh,plNe,plNePHOS, esd); //,iEvent);
+ }
+ else{
+ CreateParticleList(iEvent, particleList, plCh,plNe,plNePHOS);
+
+ // TLorentzVector pyjet(0,0,0,0);
+
+ // Int_t nJ, nJT;
+ // Float_t jets[4][10];
+ // pyth->SetJetReconstructionMode(1);
+ // pyth->LoadEvent();
+ // pyth->GetJets(nJ, nJT, jets);
+
+ // Float_t pxJ = jets[0][0];
+ // Float_t pyJ = jets[1][0];
+ // Float_t pzJ = jets[2][0];
+ // Float_t eJ = jets[3][0];
+ // pyjet.SetPxPyPzE(pxJ,pyJ,pzJ,eJ ) ;
-// }
+ // if(nJT > 1){
+ // //Info("Exec",">>>>>>>>>>Number of jets !!!! %d",nJT);
+ // for (Int_t iJ = 1; iJ < nJT; iJ++) {
+ // Float_t pxJ = jets[0][iJ];
+ // Float_t pyJ = jets[1][iJ];
+ // Float_t pzJ = jets[2][iJ];
+ // Float_t eJ = jets[3][iJ];
+ // pyjet.SetPxPyPzE(pxJ,pyJ,pzJ,eJ ) ;
+ // //Info("Exec",">>>>>Pythia Jet: %d, Phi %f, Eta %f, Pt %f",
+ // // iJ,pyjet.Phi(),pyjet.Eta(),pyjet.Pt());
+ // }
+
+ // }
+
+ if(fHIJING)
+ AddHIJINGToList(iEvent, particleList, plCh,plNe, plNePHOS);
+ }
- if(fHIJING)
- AddHIJINGToList(iEvent, particleList, plCh,plNe, plNePHOS, geom);
-
-
- Bool_t IsInPHOS = kFALSE ;
- GetGammaJet(plNePHOS, ptg, phig, etag, IsInPHOS) ;
+ Bool_t iIsInPHOS = kFALSE ;
+ GetGammaJet(plNePHOS, ptg, phig, etag, iIsInPHOS) ;
- if(IsInPHOS){
+ if(iIsInPHOS){
//Info("Exec"," In PHOS") ;
dynamic_cast<TH1F*>(fListHistos->FindObject("NGamma"))->Fill(ptg);
->Fill(ptg,phig);
dynamic_cast<TH2F*>(fListHistos->FindObject("EtaGamma"))
->Fill(ptg,etag);
- if(strstr(fOption,"deb")||strstr(fOption,"deb all"))
+ if(strstr(fOptionGJ,"deb")||strstr(fOptionGJ,"deb all"))
Info("Exec", "Gamma: pt %f, phi %f, eta %f", ptg,
phig,etag) ;
->Fill(ptg,phig-phich);
dynamic_cast<TH2F*>(fListHistos->FindObject("DeltaEtaCharge"))
->Fill(ptg,etag-etach);
- if(strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb"))
Info("Exec"," Charged Leading") ;
}
if((ptpi > ptch) && insidepi){
dynamic_cast<TH2F*>(fListHistos->FindObject("DeltaEtaPi0"))
->Fill(ptg,etag-etapi);
- if(ptpi > 0. && strstr(fOption,"deb"))
+ if(ptpi > 0. && strstr(fOptionGJ,"deb"))
Info("Exec"," Pi0 Leading") ;
}
- if(strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb"))
Info("Exec","Leading pt %f, phi %f",ptl,phil);
if(insidech || insidepi){
if(!fAnyConeOrPt){
MakeJet(particleList, ptg, phig, ptl, phil, etal, "", jet);
- if(strstr(fOption,"deb")){
+ if(strstr(fOptionGJ,"deb")){
// Info("Exec","Pythia Jet: Phi %f, Eta %f, Pt %f",
// pyjet.Phi(),pyjet.Eta(),pyjet.Pt());
Info("Exec","TPC+EMCAL Jet: Phi %f, Eta %f, Pt %f",
//TPC
if(fOnlyCharged && ptch > 0.)
{
- if(strstr(fOption,"deb"))
+ if(strstr(fOptionGJ,"deb"))
Info("Exec","Leading TPC pt %f, phi %f",ptch,phich);
dynamic_cast<TH2F*>(fListHistos->FindObject("TPCRatio"))
MakeJet(plCh, ptg, phig, ptch, phich, etach, "TPC",jettpc);
- if(strstr(fOption,"deb")){
+ if(strstr(fOptionGJ,"deb")){
// Info("Exec","Pythia Jet: Phi %f, Eta %f, Pt %f",
// pyjet.Phi(),pyjet.Eta(),pyjet.Pt());
Info("Exec","TPC Jet: Phi %f, Eta %f, Pt %f",
void AliPHOSGammaJet::FillJetHistos(TClonesArray * pl, Double_t ptg,
TString conf, TString type)
{
-
+ //Fill jet fragmentation histograms if !fAnyCone,
+ //only for fCone and fPtThres
TParticle * particle = 0 ;
Int_t ipr = -1 ;
Float_t charge = 0;
TString conf, TString type,
TString cone, TString ptcut)
{
-
+ //Fill jet fragmentation histograms if fAnyCone,
+ //for several cones and pt thresholds
TParticle *particle = 0;
Int_t ipr=-1;
Float_t charge = 0;
//____________________________________________________________________________
void AliPHOSGammaJet::GetGammaJet(TClonesArray * pl, Double_t &pt,
- Double_t &phi, Double_t &eta, Bool_t &Is)
-
+ Double_t &phi, Double_t &eta, Bool_t &Is) const
{
+ //Search for the prompt photon in PHOS with pt > fPtCut
pt = -10.;
eta = -10.;
phi = -10.;
for(Int_t ipr = 0;ipr < pl->GetEntries() ; ipr ++ ){
TParticle * particle = dynamic_cast<TParticle *>(pl->At(ipr)) ;
- if( (particle->Pt() > fPtCut ) && ( particle->GetStatusCode() == 1)
- && ( particle->GetPdgCode() == 22 || particle->GetPdgCode() == 111) ){
-
- if (particle->Pt() > pt) {
- pt = particle->Pt();
- phi = particle->Phi() ;
- eta = particle->Eta() ;
- Is = kTRUE;
- }
+ if((particle->Pt() > fPtCut) && (particle->Pt() > pt)){
+
+ pt = particle->Pt();
+ phi = particle->Phi() ;
+ eta = particle->Eta() ;
+ Is = kTRUE;
}
}
}
//____________________________________________________________________________
void AliPHOSGammaJet::GetLeadingCharge(TClonesArray * pl,
Double_t ptg, Double_t phig,
- Double_t &pt, Double_t &eta, Double_t &phi)
+ Double_t &pt, Double_t &eta, Double_t &phi) const
{
-
+ //Search for the charged particle with highest with
+ //Phi=Phi_gamma-Pi and pT=0.1E_gamma
pt = -100.;
eta = -100;
phi = -100;
//____________________________________________________________________________
void AliPHOSGammaJet::GetLeadingPi0(TClonesArray * pl,
Double_t ptg, Double_t phig,
- Double_t &pt, Double_t &eta, Double_t &phi)
+ Double_t &pt, Double_t &eta, Double_t &phi)
{
+
+ //Search for the neutral pion with highest with
+ //Phi=Phi_gamma-Pi and pT=0.1E_gamma
pt = -100.;
eta = -100.;
phi = -100.;
while ( (particle = (TParticle*)next()) ) {
iPrimary++;
- // if(particle->GetStatusCode() == 1){
-
+
ksPdg = particle->GetPdgCode();
ptl = particle->Pt();
if(ksPdg == 111){ //2 gamma
//____________________________________________________________________________
void AliPHOSGammaJet::InitParameters()
{
+
+ //Initialize the parameters of the analysis.
+
fAngleMaxParam.Set(4) ;
fAngleMaxParam.AddAt(0.4,0);//={0.4,-0.25,0.025,-2e-4};
fAngleMaxParam.AddAt(-0.25,1) ;
fAngleMaxParam.AddAt(-2e-4,3) ;
fAnyConeOrPt = kFALSE ;
fOutputFileName = "GammaJet.root" ;
- fOption = "";
+ fOptionGJ = "";
fHIJINGFileName = "galice.root" ;
fHIJING = kFALSE ;
fMinDistance = 3.6 ;
fInvMassMinCut = 0.12 ;
fOnlyCharged = kFALSE ;
fOptFast = kFALSE ;
+ fESDdata = kTRUE ;
fPhiEMCALCut[0] = 60. *TMath::Pi()/180.;
fPhiEMCALCut[1] = 180.*TMath::Pi()/180.;
fPhiMaxCut = 3.4 ;
fJetTPCRatioMinCut = 0.3 ;
fSelect = kFALSE ;
+ fDirName = "./" ;
+ fESDTree = "esdTree" ;
+ fPattern = "." ;
+
//Cut depending on gamma energy
fPtJetSelectionCut = 20.; //For Low pt jets+BKG, another limits applyed
}
//__________________________________________________________________________-
-Bool_t AliPHOSGammaJet::IsAngleInWindow(const Float_t angle,const Float_t e){
+Bool_t AliPHOSGammaJet::IsAngleInWindow(const Float_t angle,const Float_t e) {
+ //Check if the opening angle of the candidate pairs is inside
+ //our selection windowd
Bool_t result = kFALSE;
Double_t mpi0 = 0.1349766;
Double_t max = fAngleMaxParam.At(0)*TMath::Exp(fAngleMaxParam.At(1)*e)
//__________________________________________________________________________-
Bool_t AliPHOSGammaJet::IsJetSelected(const Double_t ptg, const Double_t ptj,
const TString type ){
+ //Check if the energy of the reconstructed jet is within an energy window
Double_t par[6];
Double_t xmax[2];
Double_t ptl, Double_t phil, Double_t etal,
TString conf, TLorentzVector & jet)
{
-
+ //Fill the jet with the particles around the leading particle with
+ //R=fCone and pt_th = fPtThres. Calculate the energy of the jet and
+ //check if we select it. Fill jet histograms
Float_t ptcut = 0. ;
if(fHIJING){
if(ptg > fPtJetSelectionCut) ptcut = 2. ;
ptjet = jet.Pt();
ptbkg = bkg.Pt();
- if(strstr(fOption,"deb") || strstr(fOption,"deb all"))
+ if(strstr(fOptionGJ,"deb") || strstr(fOptionGJ,"deb all"))
Info("MakeJet","Gamma pt %f, Jet pt %f, Bkg pt %f",ptg,ptjet,ptbkg);
if(IsJetSelected(ptg,ptjet,conf) || fSelect){
- if(strstr(fOption,"deb") || strstr(fOption,"deb all"))
+ if(strstr(fOptionGJ,"deb") || strstr(fOptionGJ,"deb all"))
Info("MakeJet","JetSelected");
dynamic_cast<TH1F*>(fListHistos->FindObject("N"+conf+"Jet"))->
Fill(ptg);
Double_t phig, Double_t ptl,
Double_t phil, Double_t etal,
TString conf){
+
+ //Fill the jet with the particles around the leading particle with
+ //R=fCone(i) and pt_th = fPtThres(i). Calculate the energy of the jet and
+ //check if we select it. Fill jet i histograms
TClonesArray * jetList = new TClonesArray("TParticle",1000);
TClonesArray * bkgList = new TClonesArray("TParticle",1000);
//Fill histograms
if(ptjet > 0.) {
- if(strstr(fOption,"deb")){
+ if(strstr(fOptionGJ,"deb")){
Info("MakeJetAnyPt","cone %f, ptcut %f",fCones[icone],fPtThres[ipt]);
Info("MakeJetAnyPt","pT: Gamma %f, Jet %f, Bkg %f",ptg,ptjet,ptbkg);
}
//____________________________________________________________________________
void AliPHOSGammaJet::MakePhoton(TLorentzVector & particle)
{
-
+ //Fast reconstruction for photons
Double_t energy = particle.E() ;
Double_t modenergy = MakeEnergy(energy) ;
//Info("MakePhoton","Energy %f, Modif %f",energy,modenergy);
//____________________________________________________________________________
void AliPHOSGammaJet::Plot(TString what, Option_t * option) const
{
+ //Plot some relevant histograms of the analysis
TH2F * h = dynamic_cast<TH2F*>(fOutputFile->Get(what));
if(h){
h->Draw();
}
//____________________________________________________________________________
-void AliPHOSGammaJet::Print(char * opt)
+void AliPHOSGammaJet::Print(const Option_t * opt) const
{
+
+ //Print some relevant parameters set for the analysis
if(! opt)
return;
- // Print
Info("Print", "%s %s", GetName(), GetTitle() ) ;
printf("Eta cut : %f\n", fEtaCut) ;
}
+//__________________________________________________________________________
+TChain * AliPHOSGammaJet::ReadESDfromdisk(const UInt_t eventsToRead,
+ const TString dirName,
+ const TString esdTreeName,
+ const char * pattern)
+{
+ // Reads ESDs from Disk
+ TChain * rv = 0;
+
+ AliInfo( Form("\nReading files in %s \nESD tree name is %s \nReading %d events",
+ dirName.Data(), esdTreeName.Data(), eventsToRead) ) ;
+
+ // create a TChain of all the files
+ TChain * cESDTree = new TChain(esdTreeName) ;
+
+ // read from the directory file until the require number of events are collected
+ void * from = gSystem->OpenDirectory(dirName) ;
+ if (!from) {
+ AliError( Form("Directory %s does not exist") ) ;
+ rv = 0 ;
+ }
+ else{ // reading file names from directory
+ const char * subdir ;
+ // search all subdirectories witch matching pattern
+ while( (subdir = gSystem->GetDirEntry(from)) &&
+ (cESDTree->GetEntries() < eventsToRead)) {
+ if ( strstr(subdir, pattern) != 0 ) {
+ char file[200] ;
+ sprintf(file, "%s%s/AliESDs.root", dirName.Data(), subdir);
+ AliInfo( Form("Adding %s\n", file) );
+ cESDTree->Add(file) ;
+ }
+ } // while file
+
+ AliInfo( Form(" %d events read", cESDTree->GetEntriesFast()) ) ;
+ rv = cESDTree ;
+
+ } // reading file names from directory
+ return rv ;
+}
+
+//__________________________________________________________________________
+TChain * AliPHOSGammaJet::ReadESD(const UInt_t eventsToRead,
+ const TString dirName,
+ const TString esdTreeName,
+ const char * pattern)
+{
+ // Read AliESDs files and return a Chain of events
+
+ if ( dirName == "" ) {
+ AliError("Give the name of the DIR where to find files") ;
+ return 0 ;
+ }
+ if ( esdTreeName == "" )
+ return ReadESDfromdisk(eventsToRead, dirName) ;
+ else if ( strcmp(pattern, "") == 0 )
+ return ReadESDfromdisk(eventsToRead, dirName, esdTreeName) ;
+ else
+ return ReadESDfromdisk(eventsToRead, dirName, esdTreeName, pattern) ;
+}
+
//___________________________________________________________________
void AliPHOSGammaJet::SetJet(TParticle * part, Bool_t & b, Float_t cone,
Double_t eta, Double_t phi)
{
-
+
+ //Check if the particle is inside the cone defined by the leading particle
b = kFALSE;
if(phi > TMath::TwoPi())