source: git/examples/ExampleClCount.C@ bfc6722

#include <iostream>
#include <TMath.h>
#include <TVectorD.h>
#include <TVector3.h>
#include <TH2.h>
#include <TF1.h>
#include <TGraph.h>
#include <TLine.h>
#include <TRandom.h>
#include <TCanvas.h>
#include <TStyle.h>
#include <TLegend.h>
#include "external/TrackCovariance/TrkUtil.h"


void ExampleClCount(Int_t Nev = 1000, Double_t ang = 90., Int_t Opt=0)
{
        //
        // Constants
        Double_t angRad = ang*TMath::Pi() / 180.;       // To radians
        Double_t KpMass = 0.493677;             // Charged Kaon mass
        Double_t PiMass = 0.13957018;   // Charged Pion mass
        Double_t Bz = 2.0;                              // Field
        TVector3 x(0.0, 0.0, 0.0);              // Track origin
        //
        Double_t pmin = 0.1;                            // Momentum range
        Double_t pmax = 50.;
        //
        // Setup chamber
        //
        TrkUtil *TU = new TrkUtil(Bz);
        //cout << "TU done" << endl;
        Double_t Rmin = 0.35;
        Double_t Rmax = 2.0;
        Double_t Zmin = -2.0;
        Double_t Zmax = 2.0;
        TU->SetDchBoundaries(Rmin, Rmax, Zmin, Zmax);
        TU->SetGasMix(Opt);     // gas selection
        char title[50];
        Double_t y_min = 0.0;
        Double_t y_max = 0.0;
        switch (Opt)
        {
        case 0:
        {
                sprintf(title, "Helium 90 - Isobutane 10");     // He-Isobutane
                y_min = 1500.; y_max = 3500;
                break;
        }
        case 1:
        {
                sprintf(title, "Helium 100");                           // pure He
                y_min = 400.; y_max = 1000;
                break;
        }
        case 2:
        {
                sprintf(title, "Argon 50 - Ethane 50");         // Argon - Ethane
                y_min = 6000.; y_max = 8500.;
                break;
        }
        case 3:
        {
                sprintf(title, "Argon 100");                            // pure Argon
                y_min = 4000.; y_max = 6000.;
                break;
        }
        }
        //cout << "DchBoundaries set" << endl;
        //
        // Histograms
        //
        TH2F *h_kaon = new TH2F("h_kaon", "Nclusters distribution", 200, 0., 50., 50, y_min, y_max);
        TH2F *h_pion = new TH2F("h_pion", "Nclusters distribution", 200, 0., 50., 50, y_min, y_max);
        //cout << "histograms booked" << endl;
        //
        // Fill plots
        //
        for (Int_t n = 0; n < Nev; n++)
        {
                Double_t R = gRandom->Rndm();
                Double_t pval = pmin + R*(pmax - pmin);
                Double_t px = pval*TMath::Sin(angRad);
                Double_t pz = pval*TMath::Cos(angRad);
                TVector3 p(px, 0.0, pz);
                Double_t Q = 1.0;
                TVectorD Par = TrkUtil::XPtoPar(x, p, Q, Bz);
                //cout << "Parameters done. pval = "<< pval << endl;
                //
                Double_t Ncl = 0.0;
                if (TU->IonClusters(Ncl, KpMass, Par))
                {
                        //cout << "Kaon extracted. pval = "<< pval << endl;
                        h_kaon->Fill(pval, Ncl);
                        //cout << "Kaon filled. Ncl = "<<Ncl << endl;
                }
                if (TU->IonClusters(Ncl, PiMass, Par))
                {
                        //cout << "Pion extracted. pval = "<<pval << endl;
                        h_pion->Fill(pval, Ncl);
                        //cout << "Pion filled. Ncl = "<<Ncl << endl;
                }
        }
        //
        // graph K/pi separation
        //
        const Int_t Nint = 501;
        Double_t pmom[Nint];
        Double_t pmn = 0.2; Double_t pmx = 100.;
        Double_t stp = (TMath::Log(pmx) - TMath::Log(pmn)) / (Double_t)(Nint - 1);
        for (Int_t i = 0; i < Nint; i++)pmom[i] = TMath::Exp(i * stp + TMath::Log(pmn));
        Double_t SigDiff[Nint];
        for (Int_t i = 0; i < Nint; i++)
        {
                Double_t bgK = pmom[i] / KpMass;
                Double_t bgP = pmom[i] / PiMass;
                Double_t px = pmom[i]*TMath::Sin(angRad);
                Double_t pz = pmom[i]*TMath::Cos(angRad);
                TVector3 p(px, 0.0, pz);
                Double_t Q = 1.0;
                TVectorD Par = TrkUtil::XPtoPar(x, p, Q, Bz);
                Double_t tLen = TU->TrkLen(Par);
                Double_t CluKp = TrkUtil::Nclusters(bgK,Opt)*tLen;
                Double_t CluKpErr = TMath::Sqrt(CluKp);
                Double_t CluPi = TrkUtil::Nclusters(bgP,Opt)*tLen;
                Double_t CluPiErr = TMath::Sqrt(CluPi);
                //cout << "Momentum = " << pmom[i] << ", length= " << tLen
                //      << ", CluKp = " << CluKp << ", CluPi = " << CluPi << endl;
                //if (CluKp + CluPi > 0.0)SigDiff[i] = TMath::Abs(CluPi - CluKp) / TMath::Sqrt(CluKp + CluPi);
                if (CluKp + CluPi > 0.0)SigDiff[i] = TMath::Abs(CluPi - CluKp) / (0.5*(CluKpErr + CluPiErr));
        }
        //
        // Plots
        //
        TCanvas *cnv = new TCanvas("cnv", title, 50, 50, 800, 500);
        cnv->Divide(2, 1);
        cnv->cd(1);
        gStyle->SetOptStat(0);
        h_kaon->SetMarkerColor(kRed);
        h_kaon->SetLineColor(kRed);
        h_kaon->GetXaxis()->SetTitle("Momentum (GeV)");
        h_kaon->Draw();
        h_pion->SetMarkerColor(kBlack);
        h_pion->SetLineColor(kBlack);
        h_pion->Draw("SAME");
        //
        TLegend* lg = new TLegend(0.1, 0.9, 0.3, 0.70);
        TString LgTitle = "Particle type:";
        lg->SetHeader(LgTitle);
        lg->AddEntry(h_pion, "#pi", "L");
        lg->AddEntry(h_kaon, "#color[2]{K}", "L");
        lg->Draw();
        cnv->cd(2);
        gPad->SetLogx();
        TGraph *gr = new TGraph(Nint, pmom, SigDiff);
        gr->SetMinimum(0.0);
        gr->SetMaximum(8.0);
        gr->GetXaxis()->SetLimits(0.,100.);
        gr->SetTitle("K/#pi separation in nr. of #sigma");
        gr->GetXaxis()->SetTitle("Momentum (GeV)");
        gr->SetLineColor(kBlue);
        gr->Draw("APC");
        TLine *line = new TLine(0.0, 3.0, 100., 3.0);
        line->Draw("SAME");
        //
        TCanvas* cnvf = new TCanvas("cnvf", "Interpolating function", 100, 100, 800, 500);
        cnvf->Divide(1, 1);
        cnvf->cd(1);
        gPad->SetLogx();
        TF1* f_ncl = new TF1("f_ncl", TU, &TrkUtil::funcNcl, 0.5, 1000., 1);
        f_ncl->SetNpx(500);
        f_ncl->Draw();
}