Jpp/v17.3.0-rc.1/JPlotPDF__L1_8cc_source.html

 #include <string>

 #include <iostream>

 #include <fstream>

 #include <iomanip>

 #include <vector>


 #include "TROOT.h"

 #include "TFile.h"

 #include "TH1D.h"


 #include "JTools/JFunction1D_t.hh"

 #include "JTools/JFunctionalMap_t.hh"

 #include "JTools/JAbstractHistogram.hh"

 #include "JPhysics/JPDFTransformer.hh"

 #include "JPhysics/JPDFTable.hh"

 #include "JPhysics/JPDFTypes.hh"

 #include "JPhysics/JPDFToolkit.hh"

 #include "JGeometry3D/JAngle3D.hh"

 #include "JGeometry3D/JRotation3D.hh"

 #include "JDetector/JModule.hh"

 #include "JDetector/JDetectorToolkit.hh"

 #include "Jeep/JPrint.hh"

 #include "Jeep/JParser.hh"

 #include "Jeep/JMessage.hh"


 /**

  * Auxiliary program to determine PDF of L1 hit.

  *

  * \author mdejong

  */

 int main(int argc, char **argv)

 {

   using namespace std;

   using namespace JPP;


   typedef JAbstractHistogram<double> JHistogram_t;


   string         inputFile;

   string         outputFile;

   double         E;

   double         R;

   double         R_Hz;

   JAngle3D       dir;

   double         T_ns;

   JHistogram_t   histogram;

   int            debug;


   try {


     JParser<> zap("Auxiliary program to determine PDF of L1 hit.");


     zap['f'] = make_field(inputFile);

     zap['o'] = make_field(outputFile)          = "pdf.root";

     zap['E'] = make_field(E,         "muon energy [GeV]")          = 1.0;

     zap['R'] = make_field(R,         "distance of approach [m]");

     zap['D'] = make_field(dir,       "(theta, phi) of PMT [rad]");

     zap['T'] = make_field(T_ns,      "time window [ns]")           = 10.0;          // [ns]

     zap['B'] = make_field(R_Hz,      "background rate [Hz]")       =  0.0;

     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);

   }


   typedef JSplineFunction1S_t                                     JFunction1D_t;

   typedef JMAPLIST<JPolint1FunctionalMap,

                    JPolint1FunctionalGridMap,

                    JPolint1FunctionalGridMap>::maplist            JMapList_t;

   typedef JPDFTable<JFunction1D_t, JMapList_t>                    JPDF_t;


   JFunction1D_t::JSupervisor supervisor(new JFunction1D_t::JDefaultResult(zero));


   const JPDFType_t pdf_t[] = { DIRECT_LIGHT_FROM_MUON,

                                SCATTERED_LIGHT_FROM_MUON,

                                DIRECT_LIGHT_FROM_DELTARAYS,

                                SCATTERED_LIGHT_FROM_DELTARAYS,

                                DIRECT_LIGHT_FROM_EMSHOWERS,

                                SCATTERED_LIGHT_FROM_EMSHOWERS };


   const int  N = sizeof(pdf_t) / sizeof(pdf_t[0]);


   JPDF_t pdf[N];


   for (int i = 0; i != N; ++i) {


     try {


       const string file_name = getFilename(inputFile, pdf_t[i]);


       NOTICE("loading input from file " << file_name << "... " << flush);


       pdf[i].load(file_name.c_str());


       NOTICE("OK" << endl);

     }

     catch(const JException& error) {

       FATAL(error.what() << endl);

     }


     pdf[i].setExceptionHandler(supervisor);

   }


   if (!histogram.is_valid()) {


     histogram = JHistogram_t(-50.0, +50.0);


     histogram.setBinWidth(0.1);

   }


   JModule module = getModule<JKM3NeT_t>(1);


   module.rotate(JRotation3D(dir));


   TFile out(outputFile.c_str(), "recreate");


   TH1D h0("h0", NULL, histogram.getNumberOfBins(), histogram.getLowerLimit(), histogram.getUpperLimit());


   JSplineFunction1S_t zsp;


   for (double t1 = histogram.getLowerLimit(); t1 <= histogram.getUpperLimit(); t1 += 0.1) {


     const double t2 = t1 + T_ns;


     JFunction1D_t::result_type y1;

     JFunction1D_t::result_type y2;


     for (int i = 0; i != N; ++i) {


       JFunction1D_t::result_type p1;

       JFunction1D_t::result_type p2;


       // add PMTs


       for (const auto& pmt : module) {

         p1 += pdf[i](R, pmt.getTheta(), pmt.getPhi(), t1);

         p2 += pdf[i](R, pmt.getTheta(), pmt.getPhi(), t2);

       }


       if        (is_deltarays(pdf_t[i])) {

         p1 *= getDeltaRaysFromMuon(E);

         p2 *= getDeltaRaysFromMuon(E);

       } else if (is_bremsstrahlung(pdf_t[i])) {

         p1 *= E;

         p2 *= E;

       }


       y1 += p1;

       y2 += p2;

     }


     // add background


     y1.f += R_Hz * 1e-9;                                         // function value

     y1.v += R_Hz * 1e-9 * (t1 - histogram.getLowerLimit());      // integral [Tmin,t1]

     y2.v += R_Hz * 1e-9 * (t2 - histogram.getLowerLimit());      // integral [Tmin,t2]


     zsp[t1] = y1.f * (1.0 - exp(y1.v - y2.v));                    // 1 - P(0)

   }


   zsp.compile();


   for (int ix = 1; ix <= h0.GetNbinsX(); ++ix) {


     const double t1 = h0.GetBinCenter(ix);


     try {


       const JFunction1D_t::result_type result = zsp(t1);


       const double W = exp(-result.v) * result.f / (1.0 - exp(-result.V));


       h0.SetBinContent(ix, W);

     }

     catch(const exception&) {}

   }


   out.Write();

   out.Close();

 }

JGEOMETRY3D::JAngle3D
Data structure for angles in three dimensions.
Definition: JAngle3D.hh:33

JPARSER::JParser
Utility class to parse command line options.
Definition: JParser.hh:1517

JTOOLS::JSplineFunction1S_t
Type definition of a spline interpolation method based on a JCollection with JResultPDF result type...
Definition: JFunction1D_t.hh:51

JLANG::JException
General exception.
Definition: JException.hh:23

main
int main(int argc, char *argv[])
Definition: Main.cc:15

p1
TPaveText * p1
Definition: JDrawModule3D.cc:35

JPDFToolkit.hh
Auxiliary methods for PDF calculations.

JDETECTOR::JModule
Data structure for a composite optical module.
Definition: JModule.hh:68

E
then usage E
Definition: JMuonPostfit.sh:35

JAbstractHistogram.hh

JRotation3D.hh

JGEOMETRY3D::JRotation3D
Rotation matrix.
Definition: JRotation3D.hh:111

JPHYSICS::DIRECT_LIGHT_FROM_EMSHOWERS
direct light from EM showers
Definition: JPDFTypes.hh:29

N
then JShowerPostfit f $INPUT_FILE o $OUTPUT_FILE N
Definition: JShowerPostfit.sh:95

JMATH::zero
static const JZero zero
Function object to assign zero value.
Definition: JZero.hh:105

JTOOLS::JAbstractHistogram
Simple data structure for histogram binning.
Definition: JAbstractHistogram.hh:24

outputFile
string outputFile
Definition: JDAQTimesliceSelector.cc:37

JPHYSICS::DIRECT_LIGHT_FROM_MUON
direct light from muon
Definition: JPDFTypes.hh:26

JFunctionalMap_t.hh
Various implementations of functional maps.

JPDFTypes.hh
Numbering scheme for PDF types.

JAngle3D.hh

JPHYSICS::is_bremsstrahlung
bool is_bremsstrahlung(const int pdf)
Test if given PDF type corresponds to Cherenkov light from Bremsstrahlung.
Definition: JPDFTypes.hh:137

JPHYSICS::SCATTERED_LIGHT_FROM_MUON
scattered light from muon
Definition: JPDFTypes.hh:27

JTOOLS::JPolint1FunctionalGridMap
Type definition of a 1st degree polynomial interpolation based on a JGridMap implementation.
Definition: JFunctionalMap_t.hh:91

JFunction1D_t.hh

JPrint.hh
I/O formatting auxiliaries.

make_field
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Definition: JParser.hh:1993

JTOOLS::JPolint1FunctionalMap
Type definition of a 1st degree polynomial interpolation based on a JMap implementation.
Definition: JFunctionalMap_t.hh:55

JPDFTable.hh

JPHYSICS::JPDFTable
Multi-dimensional PDF table for arrival time of Cherenkov light.
Definition: JPDFTable.hh:40

JTOOLS::result
return result
Definition: JPolint.hh:764

JPHYSICS::SCATTERED_LIGHT_FROM_DELTARAYS
scattered light from delta-rays
Definition: JPDFTypes.hh:33

NOTICE
#define NOTICE(A)
Definition: JMessage.hh:64

JPHYSICS::SCATTERED_LIGHT_FROM_EMSHOWERS
scattered light from EM showers
Definition: JPDFTypes.hh:30

JPHYSICS::JPDFType_t
JPDFType_t
PDF types.
Definition: JPDFTypes.hh:24

JTOOLS::JMAPLIST
Auxiliary class for recursive map list generation.
Definition: JMapList.hh:108

JDETECTOR::JModule::rotate
void rotate(const JRotation3D &R)
Rotate module.
Definition: JModule.hh:315

JMessage.hh
General purpose messaging.

FATAL
#define FATAL(A)
Definition: JMessage.hh:67

JPHYSICS::DIRECT_LIGHT_FROM_DELTARAYS
direct light from delta-rays
Definition: JPDFTypes.hh:32

p2
p2
Definition: module-Z:fit.sh:74

R
then JCookie sh JDataQuality D $DETECTOR_ID R
Definition: JDataQuality.sh:41

JLANG::JException::what
virtual const char * what() const override
Get error message.
Definition: JException.hh:48

JParser.hh
Utility class to parse command line options.

JDetectorToolkit.hh

JPHYSICS::is_deltarays
bool is_deltarays(const int pdf)
Test if given PDF type corresponds to Cherenkov light from delta-rays.
Definition: JPDFTypes.hh:151

JPHYSICS::getDeltaRaysFromMuon
double getDeltaRaysFromMuon(const double E)
Equivalent EM-shower energy due to delta-rays per unit muon track length.
Definition: JPDFToolkit.hh:67

JEEP::getFilename
std::string getFilename(const std::string &file_name)
Get file name part, i.e. part after last JEEP::PATHNAME_SEPARATOR if any.
Definition: JeepToolkit.hh:128

exp
then fatal Wrong number of arguments fi set_variable DETECTOR $argv[1] set_variable STRING $argv[2] set_array QUANTILES set_variable FORMULA *[0] exp(-0.5 *(x-[1])*(x-[1])/([2]*[2]))" set_variable MODULE `getModule -a $DETECTOR -L "$STRING 0"` source JAcousticsToolkit.sh typeset -A TRIPODS get_tripods $WORKDIR/tripod.txt TRIPODS XMEAN
Definition: toashort_monitor.sh:46

debug
int debug
debug level
Definition: archive-put-wiki-detectors.sh:92

JModule.hh
Data structure for optical module.

JPDFTransformer.hh