// ---------------------------------------------------------------------------- // $Id: root_readMultF.C,v 1.4 2001/06/19 16:52:08 toshi Exp $ // ---------------------------------------------------------------------------- // $Log: root_readMultF.C,v $ // Revision 1.4 2001/06/19 16:52:08 toshi // Use gSystem->Getenv() to get Parfiles directory. // // Revision 1.3 2001/05/11 21:52:44 toshi // Remove .so suffix from gSystem->Load("...") in order to call macros from // Windows system. // // Revision 1.2 2001/05/09 22:10:11 toshi // Add $Id: root_readMultF.C,v 1.4 2001/06/19 16:52:08 toshi Exp $. // // // Run Fast MC interactively with Root // read multi root files // // 04/26/2001 Toshi // // :: How to run :: // // 1) to call the root, type // // root // // 2) // root [0] .x root_readMultiF.C // // .. that's it. // // For example, if you like to run 300 events, type like // root [0] .x root_readMultiF.C(300) // Int_t root_readMultF(Int_t nEvent=500) { gROOT->Reset(); TString parfile_dir; parfile_dir += gSystem->Getenv("LCDROOT") ;parfile_dir += "/"; parfile_dir += gSystem->Getenv("LCDVERSION");parfile_dir += "/"; parfile_dir += "ParFiles/"; // In order to refer to shareable libraries in this simple form, // include their paths in a .rootrc file. gSystem->Load("libLCDEvent"); gSystem->Load("libLCDRootAppsUtil"); gSystem->Load("libLCDFastMC"); LCDEvent* event=new LCDEvent(); //--->SetUp... TChain chain("T"); // Please input your root file(s) here // For example, using chain, so as to add one or more root files chain.Add("test.root"); //chain.Add("test1.root"); //chain.Add("test2.root"); chain.SetBranchAddress("LCDEvent", &event); // Open detector parameter file Char_t* geomFile = "Silicon.par"; //Silicon //"Large.par"; // Large //"Small.par"; // Small TString s_geomFile(parfile_dir); s_geomFile += geomFile; FILE* m_geomfile = fopen(s_geomFile.Data(),"r"); LCDGetParameters gp(m_geomfile); fclose(m_geomfile); // Tracking smearing parameter file Char_t* smearFile = "lookup_silicon.nobmcon"; //"lookup_large.nobmcon"; //"lookup_small.nobmcon"; TString s_smearFile(parfile_dir); s_smearFile += smearFile; // Initialize FastMC LCDFastMC fmc(&gp,s_smearFile.Data(),event); // If you don't want the Cluster merging //fmc.SetNoClusterMerge(); // Define a histogram or two TH1F *ClsMult = new TH1F("ClsMult","Cluster Multiplicity",50, 0.0, 200.0); TH1F *ClsE = new TH1F("ClsE","Cluster Energy",50, 0.0, 50.0); TH1F *TrkMult = new TH1F("TrkMult","Track Multiplicity",50, 0.0, 100.0); TH1F *TrkE = new TH1F("TrkE","Track Energy",50, 0.0, 50.0); // Event loop Int_t iEvent; for (iEvent=0 ; iEvent < nEvent ; iEvent++) { if(!T.GetEvent(iEvent)) break; // Read an event from root file(s) fmc.Doit(); // Through FastMC // Look at CLusters. Can access them by the [] operator. Int_t nClusters = event->ClusterLst()->GetEntries(); ClsMult->Fill(nClusters); for (Int_t iClus = 0; iClus < nClusters; iClus++) { LCDCluster* cls = (LCDCluster*)event->ClusterLst()->At(iClus); if (cls) { Double_t eClus = cls->GetEnergy(); // Histogram energies ClsE->Fill(eClus); } } // Look at tracks. Can access them by the [] operator. Int_t nTracks = event->Tracks()->GetEntries(); TrkMult->Fill(nTracks); // Track loop for (Int_t ntrk=0; ntrkTracks()->At(ntrk); if(trk) { TVector3 tP3 = trk->GetMomentum(); // Histogram energies TrkE->Fill(TMath::Sqrt(tP3.Mag2() + 0.1396*0.1396)); } } } ClsMult->SetFillColor(4); ClsE->SetFillColor(4); TrkMult->SetFillColor(4); TrkE->SetFillColor(4); TCanvas *c1 = new TCanvas("c1", "c1", 600, 600); c1->Divide(2,2); c1->cd(1); ClsMult->Draw("B"); c1->cd(2); ClsE->Draw("B"); c1->cd(3); TrkMult->Draw("B"); c1->cd(4); TrkE->Draw("B"); return iEvent; }