JDrawPDG.cc File Reference

Auxiliary program to draw PDF of Cherenkov light from EM-shower or scattered light from muon. More...

#include <string>
#include <iostream>
#include <iomanip>
#include "TROOT.h"
#include "TFile.h"
#include "TH1D.h"
#include "JPhysics/JPDF.hh"
#include "JPhysics/Antares.hh"
#include "JPhysics/KM3NeT.hh"
#include "JTools/JSpline.hh"
#include "JTools/JQuantiles.hh"
#include "JTools/JAbstractHistogram.hh"
#include "JGeometry3D/JAngle3D.hh"
#include "Jeep/JPrint.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"

Go to the source code of this file.

Functions
double	getAbsorptionLength (const double lambda)
double	getScatteringLength (const double lambda)
int	main (int argc, char **argv)

Variables
double	absorptionLengthFactor
	Scaling of absorption and scattering length.
double	scatteringLengthFactor

Detailed Description

Auxiliary program to draw PDF of Cherenkov light from EM-shower or scattered light from muon.

Author

mdejong

Definition in file JDrawPDG.cc.

Function Documentation

getAbsorptionLength()

double getAbsorptionLength ( const double lambda )

inline

Definition at line 28 of file JDrawPDG.cc.

{
  return absorptionLengthFactor * NAMESPACE::getAbsorptionLength(lambda);
}

getScatteringLength()

double getScatteringLength ( const double lambda )

inline

Definition at line 34 of file JDrawPDG.cc.

{
  return scatteringLengthFactor * NAMESPACE::getScatteringLength(lambda);
}

main()

int main	(	int	argc,
		char **	argv )

Definition at line 46 of file JDrawPDG.cc.

{
  using namespace std;
  using namespace JPP;
 
  typedef JAbstractHistogram<double> JHistogram_t;
 
  string        outputFile;
  int           numberOfPoints;
  double        epsilon;
  double        E;
  double        D;
  double        cd;
  JAngle3D      dir;
  vector<int>   function;
  JHistogram_t  histogram;
  int           debug;
 
  try { 
 
    JParser<> zap("Auxiliary program to draw PDF of Cherenkov light from EM-shower or scattered light from muon.");
 
    zap['o'] = make_field(outputFile)                                           = "";
    zap['n'] = make_field(numberOfPoints,         "points for integration")     = 25;
    zap['e'] = make_field(epsilon,                "precision for integration")  = 1.0e-10;
    zap['A'] = make_field(absorptionLengthFactor, "scaling factor")             = 1.0;
    zap['S'] = make_field(scatteringLengthFactor, "scaling factor")             = 1.0;
    zap['E'] = make_field(E,                      "shower energy [GeV]")        = 1.0;
    zap['R'] = make_field(D,                      "distance [m]");
    zap['c'] = make_field(cd,                     "cosine emission angle");
    zap['D'] = make_field(dir,                    "(theta, phi) of PMT [rad]");
    zap['F'] = make_field(function,               "PDF type");
    zap['H'] = make_field(histogram,              "histogram binning")          = JHistogram_t();
    zap['d'] = make_field(debug)                  = 0;
 
    zap(argc, argv);
  }
  catch(const exception &error) {
    FATAL(error.what() << endl);
  }
 
 
  const JPDF_C
    pdf(NAMESPACE::getPhotocathodeArea(),
        NAMESPACE::getQE,
        NAMESPACE::getAngularAcceptance,
        getAbsorptionLength,
        getScatteringLength,
        NAMESPACE::getScatteringProbability,
        NAMESPACE::getAmbientPressure(),
        getMinimalWavelength(),
        getMaximalWavelength(),
        numberOfPoints,
        epsilon);
 
  
  if (outputFile == "") {
 
    for (double dt; cin >> dt; ) {
 
      for (vector<int>::const_iterator F = function.begin(); F != function.end(); ++F) {
 
        cout << setw(2)         << *F             << ' '
             << SCIENTIFIC(7,1) << E              << ' '
             << FIXED(5,1)      << D              << ' '
             << FIXED(5,2)      << cd             << ' '
             << FIXED(5,2)      << dir.getTheta() << ' '
             << FIXED(5,2)      << dir.getPhi()   << ' '
             << FIXED(5,1)      << dt             << ' '
             << SCIENTIFIC(9,3) << pdf.getLightFromEMshower(*F, E, D, cd, dir.getTheta(), dir.getPhi(), dt) * E << endl;
      }
    }
 
    return 0;
  }
 
  
  TFile out(outputFile.c_str(), "recreate");
 
  //const double t0   =  D * getIndexOfRefraction() / C;        // time [ns]
  const double t0   =  0.0;                                   // time [ns]
 
  if (!histogram.is_valid()) {
 
    if (function.size() == 1 && function[0] == DIRECT_LIGHT_FROM_MUON) {
 
      histogram = JHistogram_t(t0 - 20.0, t0 + 50.0);
 
      histogram.setBinWidth(0.1);
 
    } else {
 
      histogram = JHistogram_t(t0 - 20.0, t0 + 1000.0);
 
      histogram.setBinWidth(0.5);
    }
  }
 
  TH1D h0("h0", NULL, histogram.getNumberOfBins(), histogram.getLowerLimit(), histogram.getUpperLimit());
 
  JSplineFunction1S_t f1;
 
  for (int i = 1; i <= h0.GetNbinsX(); ++i) {
 
    const double dt = h0.GetBinCenter(i) - t0;
 
    double value = 0.0;
 
    for (vector<int>::const_iterator F = function.begin(); F != function.end(); ++F) {
      if (*F == SCATTERED_LIGHT_FROM_MUON_5D)
        value += pdf.getScatteredLightFromMuon(D, cd, dir.getTheta(), dir.getPhi(), dt);
      else
        value += pdf.getLightFromEMshower(*F, D, cd, dir.getTheta(), dir.getPhi(), dt) * E;
    }
 
    h0.SetBinContent(i, value);
 
    f1[dt] = value;
  }
 
  f1.setExceptionHandler(new JSplineFunction1S_t::JDefaultResult(JMATH::zero));
  f1.compile();
 
  JQuantiles quantiles(f1);
 
  DEBUG("int  " << quantiles.getIntegral() << endl);
  DEBUG("x    " << quantiles.getX()        << endl);
  DEBUG("y    " << quantiles.getY()        << endl);
  DEBUG("FWHM " << quantiles.getFWHM()     << endl);
 
  out.Write();
  out.Close();
}

Variable Documentation

absorptionLengthFactor

double absorptionLengthFactor

Scaling of absorption and scattering length.

Definition at line 25 of file JDrawPDG.cc.

scatteringLengthFactor

double scatteringLengthFactor

Definition at line 26 of file JDrawPDG.cc.