#include "AliUA1JetHeaderV1.h"
#include "AliJetReaderHeader.h"
#include "AliJetReader.h"
-#include "AliJet.h"
+#include "AliJetHeader.h"
+
+
#include "AliAODJet.h"
+#include "AliLog.h"
ClassImp(AliUA1JetFinderV1)
-////////////////////////////////////////////////////////////////////////
-
-AliUA1JetFinderV1::AliUA1JetFinderV1()
+/////////////////////////////////////////////////////////////////////
+AliUA1JetFinderV1::AliUA1JetFinderV1() :
+ AliJetFinder(),
+ fLego(0)
{
// Constructor
- fHeader = 0x0;
- fLego = 0x0;
}
////////////////////////////////////////////////////////////////////////
{
// destructor
+ delete fLego;
+ fLego = 0;
}
////////////////////////////////////////////////////////////////////////
etaT[i] = lv->Eta();
phiT[i] = ((lv->Phi() < 0) ? (lv->Phi()) + 2 * TMath::Pi() : lv->Phi());
if (fReader->GetCutFlag(i) != 1) continue;
- fLego->Fill(etaT[i], phiT[i], ptT[i]);
+ fLego ->Fill(etaT[i], phiT[i], ptT[i]);
hPtTotal->Fill(ptT[i]);
etbgTotal+= ptT[i];
}
- fJets->SetNinput(nIn);
// calculate total energy and fluctuation in map
Double_t meanpt = hPtTotal->GetMean();
- Double_t ptRMS = hPtTotal->GetRMS();
- Double_t npart = hPtTotal->GetEntries();
+ Double_t ptRMS = hPtTotal->GetRMS();
+ Double_t npart = hPtTotal->GetEntries();
Double_t dEtTotal = (TMath::Sqrt(npart))*TMath::Sqrt(meanpt * meanpt + ptRMS*ptRMS);
// arrays to hold jets
etbgTotal = etbgTotalN; // update with new background estimation
} //end while
+ // add tracks to the jet if it wasn't yet done
+ if (header->GetBackgMode() == 0){
+ Float_t rc= header->GetRadius();
+ for(Int_t jpart = 0; jpart < nIn; jpart++){ // loop for all particles in array
+ for(Int_t ijet=0; ijet<nj; ijet++){
+ Float_t deta = etaT[jpart] - etaJet[ijet];
+ Float_t dphi = phiT[jpart] - phiJet[ijet];
+ if (dphi < -TMath::Pi()) dphi= -dphi - 2.0 * TMath::Pi();
+ if (dphi > TMath::Pi()) dphi = 2.0 * TMath::Pi() - dphi;
+ Float_t dr = TMath::Sqrt(deta * deta + dphi * dphi);
+ if(dr <= rc){ // particles inside this cone
+ injet[jpart] = ijet;
+ break;
+ }
+ }// end jets loop
+ } //end particle loop
+ }
+
// add jets to list
Int_t* idxjets = new Int_t[nj];
Int_t nselectj = 0;
- printf("Found %d jets \n", nj);
+// printf("Found %d jets \n", nj);
+ TRefArray *refs = 0;
+ Bool_t fromAod = !strcmp(fReader->ClassName(),"AliJetAODReader");
+ if (fromAod) refs = fReader->GetReferences();
for(Int_t kj=0; kj<nj; kj++){
if ((etaJet[kj] > (header->GetJetEtaMax())) ||
(etaJet[kj] < (header->GetJetEtaMin())) ||
py = etJet[kj] * TMath::Sin(phiJet[kj]);
pz = etJet[kj] / TMath::Tan(2.0 * TMath::ATan(TMath::Exp(-etaJet[kj])));
en = TMath::Sqrt(px * px + py * py + pz * pz);
- fJets->AddJet(px, py, pz, en);
+
AliAODJet jet(px, py, pz, en);
- jet.Print("");
+
+ if (fromAod){
+ for(Int_t jpart = 0; jpart < nIn; jpart++) // loop for all particles in array
+ if (injet[jpart] == kj && fReader->GetCutFlag(jpart) == 1)
+ jet.AddTrack(refs->At(jpart)); // check if the particle belongs to the jet and add the ref
+ }
+
+ //jet.Print("");
AddJet(jet);
idxjets[nselectj] = kj;
nselectj++;
- }
+ } //end particle loop
+
//add signal percentage and total signal in AliJets for analysis tool
Float_t* percentage = new Float_t[nselectj];
Int_t* ncells = new Int_t[nselectj];
}
if(bflag == 0) injet[bj] = -1; // set as background particle
}
- fJets->SetNCells(ncells);
- fJets->SetPtFromSignal(percentage);
- fJets->SetMultiplicities(mult);
- fJets->SetInJet(injet);
- fJets->SetEtaIn(etaT);
- fJets->SetPhiIn(phiT);
- fJets->SetPtIn(ptT);
- fJets->SetEtAvg(etbgTotal/(4*(header->GetLegoEtaMax())*TMath::Pi()));
-
//delete
- delete ptT;
- delete etaT;
- delete phiT;
- delete injet;
+ delete [] ptT;
+ delete [] etaT;
+ delete [] phiT;
+ delete [] injet;
delete hPtTotal;
- delete etaJet;
- delete phiJet;
- delete etJet;
- delete etsigJet;
- delete etallJet;
- delete ncellsJet;
- delete multJet;
- delete idxjets;
- delete percentage;
- delete ncells;
- delete mult;
+ delete [] etaJet;
+ delete [] phiJet;
+ delete [] etJet;
+ delete [] etsigJet;
+ delete [] etallJet;
+ delete [] ncellsJet;
+ delete [] multJet;
+ delete [] idxjets;
+ delete [] percentage;
+ delete [] ncells;
+ delete [] mult;
}
{
//dump lego
- // check enough space! *to be done*
AliUA1JetHeaderV1* header = (AliUA1JetHeaderV1*) fHeader;
- Float_t etCell[60000]; //! Cell Energy
- Float_t etaCell[60000]; //! Cell eta
- Float_t phiCell[60000]; //! Cell phi
- Int_t flagCell[60000]; //! Cell flag
+ const Int_t nBinsMax = 120000; // we use a fixed array not to fragment memory
+
+ const Int_t nBinEta = header->GetLegoNbinEta();
+ const Int_t nBinPhi = header->GetLegoNbinPhi();
+ if((nBinPhi*nBinEta)>nBinsMax){
+ AliError("Too many bins of the ETA-PHI histogram");
+ }
+
+ Float_t etCell[nBinsMax]; //! Cell Energy
+ Float_t etaCell[nBinsMax]; //! Cell eta
+ Float_t phiCell[nBinsMax]; //! Cell phi
+ Short_t flagCell[nBinsMax]; //! Cell flag
Int_t nCell = 0;
TAxis* xaxis = fLego->GetXaxis();
TAxis* yaxis = fLego->GetYaxis();
Float_t e = 0.0;
- for (Int_t i = 1; i <= header->GetLegoNbinEta(); i++) {
- for (Int_t j = 1; j <= header->GetLegoNbinPhi(); j++) {
+ for (Int_t i = 1; i <= nBinEta; i++) {
+ for (Int_t j = 1; j <= nBinPhi; j++) {
e = fLego->GetBinContent(i,j);
if (e < 0.0) continue; // don't include this cells
Float_t eta = xaxis->GetBinCenter(i);
etCell[nCell] = e;
etaCell[nCell] = eta;
phiCell[nCell] = phi;
- flagCell[nCell] = 0; //default
+ flagCell[nCell] = 0; //default
nCell++;
}
}
Int_t * index = new Int_t[nCell];
TMath::Sort(nCell, etCell, index);
// variable used in centroide loop
- Float_t eta = 0.0;
- Float_t phi = 0.0;
- Float_t eta0 = 0.0;
- Float_t phi0 = 0.0;
- Float_t etab = 0.0;
- Float_t phib = 0.0;
- Float_t etas = 0.0;
- Float_t phis = 0.0;
- Float_t ets = 0.0;
- Float_t deta = 0.0;
- Float_t dphi = 0.0;
- Float_t dr = 0.0;
- Float_t etsb = 0.0;
+ Float_t eta = 0.0;
+ Float_t phi = 0.0;
+ Float_t eta0 = 0.0;
+ Float_t phi0 = 0.0;
+ Float_t etab = 0.0;
+ Float_t phib = 0.0;
+ Float_t etas = 0.0;
+ Float_t phis = 0.0;
+ Float_t ets = 0.0;
+ Float_t deta = 0.0;
+ Float_t dphi = 0.0;
+ Float_t dr = 0.0;
+ Float_t etsb = 0.0;
Float_t etasb = 0.0;
Float_t phisb = 0.0;
-
+ Float_t dphib = 0.0;
+
for(Int_t icell = 0; icell < nCell; icell++){
Int_t jcell = index[icell];
phisb = 0.0;
for(Int_t kcell =0; kcell < nCell; kcell++){
Int_t lcell = index[kcell];
- if(lcell == jcell) continue; // cell itself
- if(flagCell[lcell] != 0) continue; // cell used before
- if(etCell[lcell] > etCell[jcell]) continue;
+ if(lcell == jcell) continue; // cell itself
+ if(flagCell[lcell] != 0) continue; // cell used before
+ if(etCell[lcell] > etCell[jcell]) continue; // can this happen
//calculate dr
deta = etaCell[lcell] - eta;
- dphi = phiCell[lcell] - phi;
- if (dphi < -TMath::Pi()) dphi= -dphi - 2.0 * TMath::Pi();
- if (dphi > TMath::Pi()) dphi = 2.0 * TMath::Pi() - dphi;
- dr = TMath::Sqrt(deta * deta + dphi * dphi);
+ dphi = TMath::Abs(phiCell[lcell] - phi);
+ if (dphi > TMath::Pi()) dphi = 2. * TMath::Pi() - dphi;
+ dr = TMath::Sqrt(deta * deta + dphi * dphi);
if(dr <= rc){
// calculate offset from initiate cell
deta = etaCell[lcell] - eta0;
dphi = phiCell[lcell] - phi0;
- if (dphi < -TMath::Pi()) dphi= -dphi - 2.0 * TMath::Pi();
- if (dphi > TMath::Pi()) dphi = 2.0 * TMath::Pi() - dphi;
+ if (dphi < - TMath::Pi()) dphi= dphi + 2.0 * TMath::Pi();
+ if (dphi > TMath::Pi()) dphi = dphi - 2.0 * TMath::Pi();
+
etas = etas + etCell[lcell]*deta;
phis = phis + etCell[lcell]*dphi;
ets = ets + etCell[lcell];
eta = eta0 + etas/ets;
phi = phi0 + phis/ets;
// if cone does not move much, just go to next step
- dr = TMath::Sqrt((eta-etab)*(eta-etab) + (phi-phib)*(phi-phib));
+ dphib = TMath::Abs(phi - phib);
+ if (dphib > TMath::Pi()) dphib = 2. * TMath::Pi() - dphib;
+ dr = TMath::Sqrt((eta-etab)*(eta-etab) + dphib * dphib);
if(dr <= minmove) break;
// cone should not move more than max_mov
dr = TMath::Sqrt((etas/ets)*(etas/ets) + (phis/ets)*(phis/ets));
if(dr > maxmove){
- eta = etab;
- phi = phib;
- ets = etsb;
- etas = etasb;
- phis = phisb;
- }else{ // store this loop information
- etab=eta;
- phib=phi;
- etsb = ets;
- etasb = etas;
- phisb = phis;
+ eta = etab;
+ phi = phib;
+ ets = etsb;
+ etas = etasb;
+ phis = phisb;
+ } else { // store this loop information
+ etab = eta;
+ phib = phi;
+ etsb = ets;
+ etasb = etas;
+ phisb = phis;
}
- }
+ } // inside cone
}//end of cells loop looking centroide
//avoid cones overloap (to be implemented in the future)
//delete
- delete index;
- delete idx;
+ delete[] index;
+ delete[] idx;
}
////////////////////////////////////////////////////////////////////////
-void AliUA1JetFinderV1::SubtractBackg(Int_t& nIn, Int_t&nJ, Float_t&etbgTotalN,
- Float_t* ptT, Float_t* etaT, Float_t* phiT,
- Float_t* etJet,Float_t* etaJet, Float_t* phiJet, Float_t* etsigJet,
- Int_t* multJet, Int_t* injet)
+void AliUA1JetFinderV1::SubtractBackg(const Int_t& nIn, const Int_t&nJ, Float_t&etbgTotalN,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT,
+ Float_t* etJet, const Float_t* etaJet, const Float_t* phiJet, Float_t* etsigJet,
+ Int_t* multJet, Int_t* injet)
{
//background subtraction using cone method but without correction in dE/deta distribution
////////////////////////////////////////////////////////////////////////
-void AliUA1JetFinderV1::SubtractBackgStat(Int_t& nIn, Int_t&nJ,Float_t&etbgTotalN,
- Float_t* ptT, Float_t* etaT, Float_t* phiT,
- Float_t* etJet,Float_t* etaJet, Float_t* phiJet, Float_t* etsigJet,
- Int_t* multJet, Int_t* injet)
+void AliUA1JetFinderV1::SubtractBackgStat(const Int_t& nIn, const Int_t&nJ,Float_t&etbgTotalN,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT,
+ Float_t* etJet, const Float_t* etaJet, const Float_t* phiJet, Float_t* etsigJet,
+ Int_t* multJet, Int_t* injet)
{
//background subtraction using statistical method
////////////////////////////////////////////////////////////////////////
-void AliUA1JetFinderV1::SubtractBackgCone(Int_t& nIn, Int_t&nJ,Float_t& etbgTotalN,
- Float_t* ptT, Float_t* etaT, Float_t* phiT,
- Float_t* etJet,Float_t* etaJet, Float_t* phiJet, Float_t* etsigJet,
- Int_t* multJet, Int_t* injet)
+void AliUA1JetFinderV1::SubtractBackgCone(const Int_t& nIn, const Int_t&nJ,Float_t& etbgTotalN,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT,
+ Float_t* etJet, const Float_t* etaJet, const Float_t* phiJet, Float_t* etsigJet,
+ Int_t* multJet, Int_t* injet)
{
// Cone background subtraction method taking into acount dEt/deta distribution
AliUA1JetHeaderV1* header = (AliUA1JetHeaderV1*) fHeader;
////////////////////////////////////////////////////////////////////////
-void AliUA1JetFinderV1::SubtractBackgRatio(Int_t& nIn, Int_t&nJ,Float_t& etbgTotalN,
- Float_t* ptT, Float_t* etaT, Float_t* phiT,
- Float_t* etJet,Float_t* etaJet, Float_t* phiJet, Float_t* etsigJet,
- Int_t* multJet, Int_t* injet)
+void AliUA1JetFinderV1::SubtractBackgRatio(const Int_t& nIn, const Int_t&nJ, Float_t& etbgTotalN,
+ const Float_t* ptT, const Float_t* etaT, const Float_t* phiT,
+ Float_t* etJet, const Float_t* etaJet, const Float_t* phiJet, Float_t* etsigJet,
+ Int_t* multJet, Int_t* injet)
{
// Ratio background subtraction method taking into acount dEt/deta distribution
AliUA1JetHeaderV1* header = (AliUA1JetHeaderV1*) fHeader;
void AliUA1JetFinderV1::Reset()
{
fLego->Reset();
- fJets->ClearJets();
- fNAODjets = 0;
+ AliJetFinder::Reset();
}
////////////////////////////////////////////////////////////////////////
{
// initializes some variables
AliUA1JetHeaderV1* header = (AliUA1JetHeaderV1*) fHeader;
- // book lego
fLego = new
TH2F("legoH","eta-phi",
header->GetLegoNbinEta(), header->GetLegoEtaMin(),
header->GetLegoEtaMax(), header->GetLegoNbinPhi(),
header->GetLegoPhiMin(), header->GetLegoPhiMax());
+ // Do not store in current dir
+ fLego->SetDirectory(0);
}