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JDrawPDE.cc
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1 
2 #include <string>
3 #include <iostream>
4 #include <iomanip>
5 
6 #include "TROOT.h"
7 #include "TFile.h"
8 #include "TH1D.h"
9 
10 #include "JPhysics/JPDF.hh"
11 #include "JPhysics/Antares.hh"
12 #include "JPhysics/KM3NeT.hh"
13 #include "JTools/JSpline.hh"
14 #include "JTools/JQuantiles.hh"
15 #include "JTools/JAbstractHistogram.hh"
16 #include "JGeometry3D/JAngle3D.hh"
17 #include "Jeep/JPrint.hh"
18 #include "Jeep/JParser.hh"
19 #include "Jeep/JMessage.hh"
20 
21 
22 /**
23  * Scaling of absorption and scattering length.
24  */
25 double absorptionLengthFactor;
26 double scatteringLengthFactor;
27 
28 inline double getAbsorptionLength(const double lambda)
29 {
30  return absorptionLengthFactor * NAMESPACE::getAbsorptionLength(lambda);
31 }
32 
33 
34 inline double getScatteringLength(const double lambda)
35 {
36  return scatteringLengthFactor * NAMESPACE::getScatteringLength(lambda);
37 }
38 
39 
40 /**
41  * \file
42  *
43  * Auxiliary program to draw PDF of Cherenkov light from EM-shower including shower profile.
44  * \author mdejong
45  */
46 int main(int argc, char **argv)
47 {
48  using namespace std;
49  using namespace JPP;
50 
51  typedef JAbstractHistogram<double> JHistogram_t;
52 
53  string outputFile;
54  int numberOfPoints;
55  double epsilon;
56  double E;
57  double D;
58  double cd;
59  JAngle3D dir;
60  vector<int> function;
61  JHistogram_t histogram;
62  int debug;
63 
64  try {
65 
66  JParser<> zap("Auxiliary program to draw PDF of Cherenkov light from EM-shower including shower profile.");
67 
68  zap['o'] = make_field(outputFile) = "pde.root";
69  zap['n'] = make_field(numberOfPoints, "points for integration") = 25;
70  zap['e'] = make_field(epsilon, "precision for integration") = 1.0e-10;
71  zap['A'] = make_field(absorptionLengthFactor, "scaling factor") = 1.0;
72  zap['S'] = make_field(scatteringLengthFactor, "scaling factor") = 1.0;
73  zap['E'] = make_field(E, "shower energy [GeV]");
74  zap['R'] = make_field(D, "distance [m]");
75  zap['c'] = make_field(cd, "cosine emission angle");
76  zap['D'] = make_field(dir, "(theta, phi) of PMT [rad]");
77  zap['F'] = make_field(function, "PDF type");
78  zap['H'] = make_field(histogram, "histogram binning") = JHistogram_t();
79  zap['d'] = make_field(debug) = 0;
80 
81  zap(argc, argv);
82  }
83  catch(const exception &error) {
84  FATAL(error.what() << endl);
85  }
86 
87 
88  const JPDF_C
89  pdf(NAMESPACE::getPhotocathodeArea(),
90  NAMESPACE::getQE,
91  NAMESPACE::getAngularAcceptance,
92  getAbsorptionLength,
93  getScatteringLength,
94  NAMESPACE::getScatteringProbability,
95  NAMESPACE::getAmbientPressure(),
96  getMinimalWavelength(),
97  getMaximalWavelength(),
98  numberOfPoints,
99  epsilon);
100 
101 
102  if (outputFile == "") {
103 
104  for (double dt; cin >> dt; ) {
105 
106  for (vector<int>::const_iterator F = function.begin(); F != function.end(); ++F) {
107 
108  cout << setw(2) << *F << ' '
109  << SCIENTIFIC(7,1) << E << ' '
110  << FIXED(5,1) << D << ' '
111  << FIXED(5,2) << cd << ' '
112  << FIXED(5,2) << dir.getTheta() << ' '
113  << FIXED(5,2) << dir.getPhi() << ' '
114  << FIXED(5,1) << dt << ' '
115  << SCIENTIFIC(9,3) << pdf.getLightFromEMshower(*F, E, D, cd, dir.getTheta(), dir.getPhi(), dt) * E << endl;
116  }
117  }
118 
119  return 0;
120  }
121 
122 
123  TFile out(outputFile.c_str(), "recreate");
124 
125  const double t0 = D * getIndexOfRefraction() / C; // time [ns]
126  //const double t0 = 0.0; // time [ns]
127 
128  if (!histogram.is_valid()) {
129 
130  if (function.size() == 1 && function[0] == DIRECT_LIGHT_FROM_EMSHOWER) {
131 
132  histogram = JHistogram_t(t0 - 20.0, t0 + 50.0);
133 
134  histogram.setBinWidth(0.1);
135 
136  } else {
137 
138  histogram = JHistogram_t(t0 - 20.0, t0 + 500.0);
139 
140  histogram.setBinWidth(0.5);
141  }
142  }
143 
144  TH1D h0("h0", NULL, histogram.getNumberOfBins(), histogram.getLowerLimit(), histogram.getUpperLimit());
145 
146  JSplineFunction1D_t f1;
147 
148  for (int i = 1; i <= h0.GetNbinsX(); ++i) {
149 
150  const double dt = h0.GetBinCenter(i) - t0;
151 
152  double value = 0.0;
153 
154  for (vector<int>::const_iterator F = function.begin(); F != function.end(); ++F) {
155  value += pdf.getLightFromEMshower(*F, E, D, cd, dir.getTheta(), dir.getPhi(), dt);
156  }
157 
158  h0.SetBinContent(i, value);
159 
160  f1[dt] = value;
161  }
162 
163  f1.compile();
164 
165  JQuantiles quantiles(f1);
166 
167  DEBUG("int " << quantiles.getIntegral() << endl);
168  DEBUG("x " << quantiles.getX() << endl);
169  DEBUG("y " << quantiles.getY() << endl);
170  DEBUG("FWHM " << quantiles.getFWHM() << endl);
171 
172 
173  out.Write();
174  out.Close();
175 }
Antares.hh
Properties of Antares PMT and deep-sea water.
outputFile
string outputFile
Definition: JDAQTimesliceSelector.cc:37
getAngularAcceptance
double getAngularAcceptance(const double x)
Angular acceptence of PMT.
Definition: JDrawLED.cc:68
main
int main(int argc, char **argv)
Definition: JDrawPDE.cc:46
getAbsorptionLength
double getAbsorptionLength(const double lambda)
Definition: JDrawPDE.cc:28
getScatteringLength
double getScatteringLength(const double lambda)
Definition: JDrawPDE.cc:34
absorptionLengthFactor
double absorptionLengthFactor
Scaling of absorption and scattering length.
Definition: JDrawPDE.cc:25
scatteringLengthFactor
double scatteringLengthFactor
Definition: JDrawPDE.cc:26
JMessage.hh
General purpose messaging.
DEBUG
#define DEBUG(A)
Message macros.
Definition: JMessage.hh:62
FATAL
#define FATAL(A)
Definition: JMessage.hh:67
debug
int debug
debug level
Definition: JSirene.cc:69
JParser.hh
Utility class to parse command line options.
make_field
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Definition: JParser.hh:2142
JPrint.hh
I/O formatting auxiliaries.
numberOfPoints
int numberOfPoints
Definition: JResultPDF.cc:22
KM3NeT.hh
Properties of KM3NeT PMT and deep-sea water.
JGEOMETRY3D::JAngle3D
Data structure for angles in three dimensions.
Definition: JAngle3D.hh:35
JGEOMETRY3D::JAngle3D::getTheta
double getTheta() const
Get theta angle.
Definition: JAngle3D.hh:86
JGEOMETRY3D::JAngle3D::getPhi
double getPhi() const
Get phi angle.
Definition: JAngle3D.hh:97
JPARSER::JParser
Utility class to parse command line options.
Definition: JParser.hh:1698
JPHYSICS::JPDF_C
Probability Density Functions of the time response of a PMT with an implementation of the JAbstractPM...
Definition: JPDF.hh:2185
JPHYSICS::JPDF::getLightFromEMshower
double getLightFromEMshower(const int type, const double D_m, const double cd, const double theta, const double phi, const double t_ns) const
Probability density function for light from EM-shower.
Definition: JPDF.hh:1820
JTOOLS::JQuantiles
Quantile calculator for a given function.
Definition: JQuantiles.hh:108
JTOOLS::JQuantiles::getIntegral
double getIntegral() const
Get integral of function.
Definition: JQuantiles.hh:346
JTOOLS::JQuantiles::getY
double getY() const
Get value of maximum.
Definition: JQuantiles.hh:324
JTOOLS::JQuantiles::getX
double getX() const
Get position of maximum.
Definition: JQuantiles.hh:313
JTOOLS::JQuantiles::getFWHM
double getFWHM() const
Get Full Width at Half Maximum.
Definition: JQuantiles.hh:335
JTOOLS::JRange::getLowerLimit
T getLowerLimit() const
Get lower limit.
Definition: JRange.hh:202
JTOOLS::JRange::getUpperLimit
T getUpperLimit() const
Get upper limit.
Definition: JRange.hh:213
ANTARES::getAmbientPressure
double getAmbientPressure()
Get ambient pressure.
Definition: Antares.hh:40
ANTARES::getScatteringProbability
double getScatteringProbability(const double x)
Function to describe light scattering in water.
Definition: Antares.hh:210
ANTARES::getPhotocathodeArea
double getPhotocathodeArea()
Get photo-cathode area of PMT.
Definition: Antares.hh:51
GAUSS_LEGENDRE::f1
const JPolynome f1(1.0, 2.0, 3.0)
Function.
GAUSS_LEGENDRE::epsilon
const double epsilon
Definition: JQuadrature.cc:21
JACOUSTICS::JHistogram_t
JAbstractHistogram< double > JHistogram_t
Type definition for scan along axis.
Definition: JBillabong.cc:61
JDETECTOR::getQE
double getQE(const double R, const double mu)
Get QE for given ratio of hit probabilities and expectation value of the number of photo-electrons.
Definition: JPMTParametersToolkit.hh:89
JPHYSICS::getIndexOfRefraction
double getIndexOfRefraction()
Get average index of refraction of water corresponding to group velocity.
Definition: JPhysics/JConstants.hh:134
JPHYSICS::getMinimalWavelength
double getMinimalWavelength()
Get minimal wavelength for PDF evaluations.
Definition: JPDFToolkit.hh:35
JPHYSICS::DIRECT_LIGHT_FROM_EMSHOWER
@ DIRECT_LIGHT_FROM_EMSHOWER
direct light from EM shower
Definition: JPDFTypes.hh:37
JPHYSICS::getMaximalWavelength
double getMaximalWavelength()
Get maximal wavelength for PDF evaluations.
Definition: JPDFToolkit.hh:46
JPHYSICS::C
static const double C
Physics constants.
Definition: JPhysics/JConstants.hh:25
JPP
This name space includes all other name spaces (except KM3NETDAQ, KM3NET and ANTARES).
Definition: JAAnetToolkit.hh:43
std
Definition: JSTDTypes.hh:14
FIXED
Auxiliary data structure for floating point format specification.
Definition: JManip.hh:448
JTOOLS::JAbstractHistogram
Simple data structure for histogram binning.
Definition: JAbstractHistogram.hh:26
JTOOLS::JAbstractHistogram::setBinWidth
void setBinWidth(const abscissa_type dx, int option=0)
Set bin width.
Definition: JAbstractHistogram.hh:99
JTOOLS::JAbstractHistogram::is_valid
bool is_valid() const
Check validity of histogram binning.
Definition: JAbstractHistogram.hh:113
JTOOLS::JAbstractHistogram::getNumberOfBins
int getNumberOfBins() const
Get number of bins.
Definition: JAbstractHistogram.hh:74
JTOOLS::JSplineFunction1D_t
Type definition of a spline interpolation method based on a JCollection with double result type.
Definition: JFunction1D_t.hh:37
SCIENTIFIC
Auxiliary data structure for floating point format specification.
Definition: JManip.hh:488
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