/* $Id: $ */ /* $Log$ */ //------------------------------------ // Configuration macro example: // // Do photon identification analysis with ESDs // Gamma in PHOS. For EMCAL clusters change // PHOS by EMCAL where necessary // // Author : Gustavo Conesa Balbastre (INFN-LNF) //------------------------------------ AliAnaPartCorrMaker* ConfigAnalysis() { // // Configuration goes here // printf("======================== \n"); printf("ConfigAnalysis() \n"); printf("======================== \n"); //Detector Fidutial Cuts AliFidutialCut * fidCut = new AliFidutialCut(); fidCut->DoCTSFidutialCut(kFALSE) ; fidCut->DoEMCALFidutialCut(kFALSE) ; fidCut->DoPHOSFidutialCut(kFALSE) ; //fidCut->SetSimpleCTSFidutialCut(0.9,0.,360.); //fidCut->SetSimpleEMCALFidutialCut(0.7,80.,190.); //fidCut->SetSimplePHOSFidutialCut(0.13,220.,320.); fidCut->Print(""); //----------------------------------------------------------- // Reader //----------------------------------------------------------- AliCaloTrackESDReader *reader = new AliCaloTrackESDReader(); reader->SetDebug(-1); //Switch on or off the detectors information that you want reader->SwitchOffEMCAL(); reader->SwitchOffCTS(); reader->SwitchOnPHOS(); //Min particle pT //reader->SetEMCALPtMin(0.5); reader->SetPHOSPtMin(0.5); //reader->SetCTSPtMin(0.2); reader->SetFidutialCut(fidCut); reader->Print(""); //--------------------------------------------------------------------- // Analysis algorithm //--------------------------------------------------------------------- //Detector Fidutial Cuts for analysis part AliFidutialCut * fidCut2 = new AliFidutialCut(); fidCut2->DoCTSFidutialCut(kFALSE) ; fidCut2->DoEMCALFidutialCut(kFALSE) ; fidCut2->DoPHOSFidutialCut(kFALSE) ; //fidCut2->SetSimpleCTSFidutialCut(0.9,0.,360.); //fidCut2->SetSimpleEMCALFidutialCut(0.7,80.,190.); //fidCut2->SetSimplePHOSFidutialCut(0.13,220.,320.); fidCut2->Print(""); AliCaloPID * pid = new AliCaloPID(); // use selection with simple weights pid->SetPHOSPhotonWeight(0.7); pid->SetPHOSPi0Weight(0.7); // use more complicated selection, particle weight depending on cluster energy // pid->UsePHOSPIDWeightFormula(kTRUE); // TFormula * photonF = new TFormula("photonWeight","0.98*(x<40)+ 0.68*(x>=100)+(x>=40 && x<100)*(0.98+x*(6e-3)-x*x*(2e-04)+x*x*x*(1.1e-06))"); // TFormula * pi0F = new TFormula("pi0Weight","0.98*(x<65)+ 0.915*(x>=100)+(x>=65 && x-x*(1.95e-3)-x*x*(4.31e-05)+x*x*x*(3.61e-07))"); // pid->SetPHOSPhotonWeightFormula(photonF); // pid->SetPHOSPi0WeightFormula(pi0F); pid->SetDispersionCut(1.5); pid->SetTOFCut(5.e-9); pid->SetDebug(-1); pid->Print(""); AliAnaPhoton *ana = new AliAnaPhoton(); ana->SetDebug(-1); ana->SetMinPt(5.); ana->SetMinDistanceToBadChannel(2, 4, 5); ana->SetCaloPID(pid); ana->SetFidutialCut(fidCut2); ana->SetCalorimeter("PHOS"); ana->SwitchOnDataMC() ;//Access MC stack and fill more histograms ana->SwitchOffCaloPID(); ana->SwitchOffCaloPIDRecalculation(); //recommended for EMCAL ana->SwitchOnTrackMatchRejection(); //Only in use when OnCaloPID ana->SwitchOffFidutialCut(); ana->SetOutputAODName("Photons"); ana->SetOutputAODClassName("AliAODPWG4Particle"); //Set Histrograms bins and ranges // ana->SetHistoPtRangeAndNBins(0, 50, 100) ; // ana->SetHistoPhiRangeAndNBins(0, TMath::TwoPi(), 100) ; // ana->SetHistoEtaRangeAndNBins(-0.7, 0.7, 100) ; ana->Print(""); //--------------------------------------------------------------------- // Set analysis algorithm and reader //--------------------------------------------------------------------- maker = new AliAnaPartCorrMaker(); maker->SetReader(reader);//pointer to reader maker->AddAnalysis(ana,0); maker->SetAnaDebug(-1) ; maker->SwitchOnHistogramsMaker() ; maker->SwitchOnAODsMaker() ; maker->Print(""); // printf("======================== \n"); printf("END ConfigAnalysis() \n"); printf("======================== \n"); return maker ; }