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It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id: AliFiducialCut.cxx 21839 2007-10-29 13:49:42Z gustavo $ */ //_________________________________________________________________________ // Class for track/cluster acceptance selection // Selection in Central barrel, EMCAL and PHOS // // Several selection regions possible for the different // detectors // //*-- Author: Gustavo Conesa (LNF-INFN) ////////////////////////////////////////////////////////////////////////////// // --- ROOT system --- #include #include #include //#include //---- ANALYSIS system ---- #include "AliFiducialCut.h" ClassImp(AliFiducialCut) //____________________________________________________________________________ AliFiducialCut::AliFiducialCut() : TObject(), fEMCALFiducialCut(0), fPHOSFiducialCut(0), fCTSFiducialCut(0), fCTSFidCutMinEta(0x0),fCTSFidCutMinPhi(0x0),fCTSFidCutMaxEta(0x0), fCTSFidCutMaxPhi(0x0), fEMCALFidCutMinEta(0x0),fEMCALFidCutMinPhi(0x0),fEMCALFidCutMaxEta(0x0), fEMCALFidCutMaxPhi(0x0), fPHOSFidCutMinEta(0x0),fPHOSFidCutMinPhi(0x0),fPHOSFidCutMaxEta(0x0), fPHOSFidCutMaxPhi(0x0) { //Ctor //Initialize parameters InitParameters(); } /* //____________________________________________________________________________ AliFiducialCut::AliFiducialCut(const AliFiducialCut & g) : TObject(g), fEMCALFiducialCut(g.fEMCALFiducialCut), fPHOSFiducialCut(g.fPHOSFiducialCut), fCTSFiducialCut(g. fCTSFiducialCut), fCTSFidCutMinEta(g.fCTSFidCutMinEta?new TArrayF(*g.fCTSFidCutMinEta):0x0), fCTSFidCutMinPhi(g.fCTSFidCutMinPhi?new TArrayF(*g.fCTSFidCutMinPhi):0x0), fCTSFidCutMaxEta(g.fCTSFidCutMaxEta?new TArrayF(*g.fCTSFidCutMaxEta):0x0), fCTSFidCutMaxPhi(g.fCTSFidCutMaxPhi?new TArrayF(*g.fCTSFidCutMaxPhi):0x0), fEMCALFidCutMinEta(g.fEMCALFidCutMinEta?new TArrayF(*g.fEMCALFidCutMinEta):0x0), fEMCALFidCutMinPhi(g.fEMCALFidCutMinPhi?new TArrayF(*g.fEMCALFidCutMinPhi):0x0), fEMCALFidCutMaxEta(g.fEMCALFidCutMaxEta?new TArrayF(*g.fEMCALFidCutMaxEta):0x0), fEMCALFidCutMaxPhi(g.fEMCALFidCutMaxPhi?new TArrayF(*g.fEMCALFidCutMaxPhi):0x0), fPHOSFidCutMinEta(g.fPHOSFidCutMinEta?new TArrayF(*g.fPHOSFidCutMinEta):0x0), fPHOSFidCutMinPhi(g.fPHOSFidCutMinPhi?new TArrayF(*g.fPHOSFidCutMinPhi):0x0), fPHOSFidCutMaxEta(g.fPHOSFidCutMaxEta?new TArrayF(*g.fPHOSFidCutMaxEta):0x0), fPHOSFidCutMaxPhi(g.fPHOSFidCutMaxPhi?new TArrayF(*g.fPHOSFidCutMaxPhi):0x0) { // cpy ctor } //_________________________________________________________________________ AliFiducialCut & AliFiducialCut::operator = (const AliFiducialCut & source) { // assignment operator if(&source == this) return *this; fEMCALFiducialCut = source.fEMCALFiducialCut; fPHOSFiducialCut = source.fPHOSFiducialCut; fCTSFiducialCut = source.fCTSFiducialCut; fCTSFidCutMinEta = source.fCTSFidCutMinEta?new TArrayF(*source.fCTSFidCutMinEta):0x0; fCTSFidCutMinPhi = source.fCTSFidCutMinPhi?new TArrayF(*source.fCTSFidCutMinPhi):0x0; fCTSFidCutMaxEta = source.fCTSFidCutMaxEta?new TArrayF(*source.fCTSFidCutMaxEta):0x0; fCTSFidCutMaxPhi = source.fCTSFidCutMaxPhi?new TArrayF(*source.fCTSFidCutMaxPhi):0x0; fEMCALFidCutMinEta = source.fEMCALFidCutMinEta?new TArrayF(*source.fEMCALFidCutMinEta):0x0; fEMCALFidCutMinPhi = source.fEMCALFidCutMinPhi?new TArrayF(*source.fEMCALFidCutMinPhi):0x0; fEMCALFidCutMaxEta = source.fEMCALFidCutMaxEta?new TArrayF(*source.fEMCALFidCutMaxEta):0x0; fEMCALFidCutMaxPhi = source.fEMCALFidCutMaxPhi?new TArrayF(*source.fEMCALFidCutMaxPhi):0x0; fPHOSFidCutMinEta = source.fPHOSFidCutMinEta?new TArrayF(*source.fPHOSFidCutMinEta):0x0; fPHOSFidCutMinPhi = source.fPHOSFidCutMinPhi?new TArrayF(*source.fPHOSFidCutMinPhi):0x0; fPHOSFidCutMaxEta = source.fPHOSFidCutMaxEta?new TArrayF(*source.fPHOSFidCutMaxEta):0x0; fPHOSFidCutMaxPhi = source.fPHOSFidCutMaxPhi?new TArrayF(*source.fPHOSFidCutMaxPhi):0x0; return *this; } */ //_________________________________ AliFiducialCut::~AliFiducialCut() { //Dtor delete fCTSFidCutMinEta ; delete fCTSFidCutMinPhi ; delete fCTSFidCutMaxEta ; delete fCTSFidCutMaxPhi ; delete fEMCALFidCutMinEta ; delete fEMCALFidCutMinPhi ; delete fEMCALFidCutMaxEta ; delete fEMCALFidCutMaxPhi ; delete fPHOSFidCutMinEta ; delete fPHOSFidCutMinPhi ; delete fPHOSFidCutMaxEta ; delete fPHOSFidCutMaxPhi ; } //_______________________________________________________________ Bool_t AliFiducialCut::IsInFiducialCut(const TLorentzVector momentum, const TString det) const { //Selects EMCAL or PHOS cluster or CTS track if it is inside eta-phi defined regions if(det == "CTS"){ if(!fCTSFiducialCut) return kTRUE; //Fiducial cut not requested, accept all tracks else return CheckFiducialRegion(momentum, fCTSFidCutMinPhi , fCTSFidCutMaxPhi , fCTSFidCutMinEta , fCTSFidCutMaxEta ); } else if(det == "EMCAL") { if(!fEMCALFiducialCut) return kTRUE; //Fiducial cut not requested, accept all clusters else return CheckFiducialRegion(momentum, fEMCALFidCutMinPhi, fEMCALFidCutMaxPhi, fEMCALFidCutMinEta, fEMCALFidCutMaxEta); } else if(det == "PHOS") { if(!fPHOSFiducialCut) return kTRUE; //Fiducial cut not requested, accept all clusters else return CheckFiducialRegion(momentum, fPHOSFidCutMinPhi , fPHOSFidCutMaxPhi , fPHOSFidCutMinEta , fPHOSFidCutMaxEta ); } else{ printf("AliFiducialCut::IsInFiducialCut() - Wrong detector name = %s\n", det.Data()); return kFALSE; } } //_______________________________________________________________ Bool_t AliFiducialCut::CheckFiducialRegion(const TLorentzVector momentum, const TArrayF* minphi, const TArrayF* maxphi, const TArrayF* mineta, const TArrayF* maxeta) const { //Given the selection regions in Eta and Phi, check if particle is in this region. Double_t phi = momentum.Phi(); if(phi < 0) phi+=TMath::TwoPi() ; Double_t eta = momentum.Eta(); //printf("IsInFiducialCut::Det: %s, phi = %f, eta = %f\n", det.Data(),phi*TMath::RadToDeg(), eta); Int_t netaregions = maxeta->GetSize(); Int_t nphiregions = maxphi->GetSize(); if(netaregions != mineta->GetSize() || nphiregions != minphi->GetSize()) printf("AliFiducialCut::IsInFiducialCut() - Wrong number of fiducial cut regions: nmaxeta %d != nmineta %d; nmaxphi %d != nminphi %d\n", netaregions, mineta->GetSize(), nphiregions, minphi->GetSize()); //Eta fiducial cut Bool_t bInEtaFidCut = kFALSE; for(Int_t ieta = 0; ieta < netaregions; ieta++) if(eta > mineta->GetAt(ieta) && eta < maxeta->GetAt(ieta)) bInEtaFidCut = kTRUE; if(bInEtaFidCut){ //printf("Eta cut passed\n"); //Phi fiducial cut Bool_t bInPhiFidCut = kFALSE; for(Int_t iphi = 0; iphi < nphiregions; iphi++) if(phi > minphi->GetAt(iphi) *TMath::DegToRad()&& phi < maxphi->GetAt(iphi)*TMath::DegToRad()) bInPhiFidCut = kTRUE ; if(bInPhiFidCut) { //printf("IsInFiducialCut:: %s cluster/track accepted\n",det.Data()); return kTRUE; } else return kFALSE; }//In eta fid cut else return kFALSE; } //_______________________________________________________________ void AliFiducialCut::InitParameters() { //Initialize the parameters of the analysis. fEMCALFiducialCut = kTRUE ; fPHOSFiducialCut = kTRUE ; fCTSFiducialCut = kTRUE ; fCTSFidCutMinEta = new TArrayF(1); fCTSFidCutMinEta->SetAt(-0.9,0); fCTSFidCutMaxEta = new TArrayF(1); fCTSFidCutMaxEta->SetAt(0.9,0); fCTSFidCutMinPhi = new TArrayF(1); fCTSFidCutMinPhi->SetAt(0,0); fCTSFidCutMaxPhi = new TArrayF(1); fCTSFidCutMaxPhi->SetAt(360.,0); fEMCALFidCutMinEta = new TArrayF(1); fEMCALFidCutMinEta->SetAt(-0.7,0); fEMCALFidCutMaxEta = new TArrayF(1); fEMCALFidCutMaxEta->SetAt(0.7,0); fEMCALFidCutMinPhi = new TArrayF(1); fEMCALFidCutMinPhi->SetAt(80.,0); fEMCALFidCutMaxPhi = new TArrayF(1); fEMCALFidCutMaxPhi->SetAt(190.,0); fPHOSFidCutMinEta = new TArrayF(1); fPHOSFidCutMinEta->SetAt(-0.13,0); fPHOSFidCutMaxEta = new TArrayF(1); fPHOSFidCutMaxEta->SetAt(0.13,0); fPHOSFidCutMinPhi = new TArrayF(1); fPHOSFidCutMinPhi->SetAt(220.,0); fPHOSFidCutMaxPhi = new TArrayF(1); fPHOSFidCutMaxPhi->SetAt(320.,0); } //________________________________________________________________ void AliFiducialCut::Print(const Option_t * opt) const { //Print some relevant parameters set for the analysis if(! opt) return; printf("***** Print: %s %s ******\n", GetName(), GetTitle() ) ; if(fCTSFiducialCut){ Int_t netaregions = fCTSFidCutMaxEta->GetSize(); Int_t nphiregions = fCTSFidCutMaxPhi->GetSize(); printf(">> CTS Fiducial regions : phi %d eta %d\n", netaregions, nphiregions) ; for(Int_t ieta = 0; ieta < netaregions; ieta++) printf(" region %d : %3.2f < eta < %3.2f\n", ieta, fCTSFidCutMinEta->GetAt(ieta), fCTSFidCutMaxEta->GetAt(ieta)) ; for(Int_t iphi = 0; iphi < nphiregions; iphi++) printf(" region %d : %3.1f < phi < %3.1f\n", iphi, fCTSFidCutMinPhi->GetAt(iphi), fCTSFidCutMaxPhi->GetAt(iphi)) ; } else printf(">>No fiducial cuts in CTS\n"); if(fEMCALFiducialCut){ Int_t netaregions = fEMCALFidCutMaxEta->GetSize(); Int_t nphiregions = fEMCALFidCutMaxPhi->GetSize(); printf(">>EMCAL Fiducial regions : phi %d eta %d\n", netaregions, nphiregions) ; for(Int_t ieta = 0; ieta < netaregions; ieta++) printf(" region %d : %3.2f < eta < %3.2f\n", ieta, fEMCALFidCutMinEta->GetAt(ieta), fEMCALFidCutMaxEta->GetAt(ieta)) ; for(Int_t iphi = 0; iphi < nphiregions; iphi++) printf(" region %d : %3.1f < phi < %3.1f\n", iphi, fEMCALFidCutMinPhi->GetAt(iphi), fEMCALFidCutMaxPhi->GetAt(iphi)) ; } else printf(">>No fiducial cuts in EMCAL\n"); if(fPHOSFiducialCut){ Int_t netaregions = fPHOSFidCutMaxEta->GetSize(); Int_t nphiregions = fPHOSFidCutMaxPhi->GetSize(); printf(">>PHOS Fiducial regions : phi %d eta %d\n", netaregions, nphiregions) ; for(Int_t ieta = 0; ieta < netaregions; ieta++) printf(" region %d : %3.2f < eta < %3.2f\n", ieta, fPHOSFidCutMinEta->GetAt(ieta), fPHOSFidCutMaxEta->GetAt(ieta)) ; for(Int_t iphi = 0; iphi < nphiregions; iphi++) printf(" region %d : %3.1f < phi < %3.1f\n", iphi, fPHOSFidCutMinPhi->GetAt(iphi), fPHOSFidCutMaxPhi->GetAt(iphi)) ; } else printf(">>No fiducial cuts in PHOS\n"); printf(" \n") ; } //_______________________________________________________________ void AliFiducialCut::SetSimpleCTSFiducialCut(const Float_t eta, const Float_t minphi, const Float_t maxphi){ //Method to set simple acceptance cut to CTS fCTSFidCutMinEta->Set(1); fCTSFidCutMaxEta->Set(1); fCTSFidCutMinPhi->Set(1); fCTSFidCutMaxPhi->Set(1); fCTSFidCutMinEta->SetAt(-eta,0); fCTSFidCutMaxEta->SetAt(eta,0); fCTSFidCutMinPhi->SetAt(minphi,0); fCTSFidCutMaxPhi->SetAt(maxphi,0); } //_______________________________________________________________ void AliFiducialCut::SetSimpleEMCALFiducialCut(const Float_t eta, const Float_t minphi, const Float_t maxphi){ //Method to set simple acceptance cut to EMCAL fEMCALFidCutMinEta->Set(1); fEMCALFidCutMaxEta->Set(1); fEMCALFidCutMinPhi->Set(1); fEMCALFidCutMaxPhi->Set(1); fEMCALFidCutMinEta->SetAt(-eta,0); fEMCALFidCutMaxEta->SetAt(eta,0); fEMCALFidCutMinPhi->SetAt(minphi,0); fEMCALFidCutMaxPhi->SetAt(maxphi,0); } //_______________________________________________________________ void AliFiducialCut::SetSimplePHOSFiducialCut(const Float_t eta, const Float_t minphi, const Float_t maxphi){ //Method to set simple acceptance cut to PHOS fPHOSFidCutMinEta->Set(1); fPHOSFidCutMaxEta->Set(1); fPHOSFidCutMinPhi->Set(1); fPHOSFidCutMaxPhi->Set(1); fPHOSFidCutMinEta->SetAt(-eta,0); fPHOSFidCutMaxEta->SetAt(eta,0); fPHOSFidCutMinPhi->SetAt(minphi,0); fPHOSFidCutMaxPhi->SetAt(maxphi,0); }