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JReconstruction/JShowerNPE.cc File Reference

Program to evaluate hit probabilities. More...

#include <string>
#include <iostream>
#include <iomanip>
#include <vector>
#include <algorithm>
#include "JDAQ/JDAQEventIO.hh"
#include "JDAQ/JDAQSummarysliceIO.hh"
#include "JDetector/JDetector.hh"
#include "JDetector/JDetectorToolkit.hh"
#include "JDetector/JModuleRouter.hh"
#include "JTrigger/JHitL0.hh"
#include "JTrigger/JBuildL0.hh"
#include "JSupport/JSupport.hh"
#include "JSupport/JParallelFileScanner.hh"
#include "JSupport/JSummaryFileRouter.hh"
#include "JPhysics/JNPE_t.hh"
#include "JPhysics/JPDF_t.hh"
#include "JFit/JPoint4D.hh"
#include "JFit/JModel.hh"
#include "JReconstruction/JHitW0.hh"
#include "JReconstruction/JEvt.hh"
#include "JReconstruction/JEvtToolkit.hh"
#include "JReconstruction/JShowerFitParameters_t.hh"
#include "Jeep/JPrint.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"
#include "JTools/JResult.hh"

Go to the source code of this file.

Functions

int main (int argc, char **argv)
 

Detailed Description

Program to evaluate hit probabilities.

Author
mdejong and adomi

Definition in file JReconstruction/JShowerNPE.cc.

Function Documentation

int main ( int  argc,
char **  argv 
)

Definition at line 74 of file JReconstruction/JShowerNPE.cc.

75 {
76  using namespace std;
77  using namespace JPP;
78  using namespace KM3NETDAQ;
79 
80  typedef JParallelFileScanner< JTypeList<JDAQEvent, JEvt> > JParallelFileScanner_t;
81  typedef JParallelFileScanner_t::multi_pointer_type multi_pointer_type;
82 
83  JParallelFileScanner_t inputFile;
84  JLimit_t& numberOfEvents = inputFile.getLimit();
85  string detectorFile;
86  string pdfFile;
87  JShowerFitParameters_t parameters;
88  int debug;
89 
90  try {
91 
92  parameters.numberOfPrefits = 1;
93 
94  JParser<> zap("Program to evaluate hit probabilities.");
95 
96  zap['f'] = make_field(inputFile);
97  zap['a'] = make_field(detectorFile);
98  zap['n'] = make_field(numberOfEvents) = JLimit::max();
99  zap['P'] = make_field(pdfFile);
100  zap['@'] = make_field(parameters) = JPARSER::initialised();
101  zap['d'] = make_field(debug) = 1;
102 
103  zap(argc, argv);
104  }
105  catch(const exception& error) {
106  FATAL(error.what() << endl);
107  }
108 
109  //setDAQLongprint(debug >= JEEP::debug_t);
110 
111  cout.tie(&cerr);
112 
113  if (parameters.numberOfPrefits != 1) {
114  WARNING("Number of prefits " << parameters.numberOfPrefits << " != " << 1 << endl);
115  }
116 
117  JDetector detector;
118 
119  try {
120  load(detectorFile, detector);
121  }
122  catch(const JException& error) {
123  FATAL(error);
124  }
125 
126  const JModuleRouter router(detector);
127 
128  JSummaryFileRouter summary(inputFile, parameters.R_Hz);
129 
130  const JShowerNPE_t npe(pdfFile);
131 
132  const JTimeRange T_ns(parameters.TMin_ns, parameters.TMax_ns);
133 
134  typedef vector<JHitL0> JDataL0_t;
135  typedef vector<JHitW0> JDataW0_t;
136 
137  const JBuildL0<JHitL0> buildL0;
138 
139  while (inputFile.hasNext()) {
140 
141  STATUS("event: " << setw(10) << inputFile.getCounter() << '\r'); DEBUG(endl);
142 
143  multi_pointer_type ps = inputFile.next();
144 
145  JDAQEvent* tev = ps;
146  JEvt* in = ps;
147 
148  DEBUG("event: " << *tev << endl);
149 
150  summary.update(*tev);
151 
152  in->select(parameters.numberOfPrefits, qualitySorter);
153 
154  JDataL0_t dataL0;
155 
156  buildL0(*tev, router, true, back_inserter(dataL0));
157 
158  for (JEvt::const_iterator shower = in->begin(); shower != in->end(); ++shower) {
159 
160  DEBUG("shower: " << *shower << endl);
161 
162  JRotation3D R (getDirection(*shower));
163  JPoint4D vx(getPosition(*shower).rotate(R), shower->getT());
164 
165  const JModel<JPoint4D> match(vx, parameters.roadWidth_m, T_ns);
166 
167  // hit selection based on start value
168 
169  JDataW0_t data;
170 
171  for (JDataL0_t::const_iterator i = dataL0.begin(); i != dataL0.end(); ++i) {
172 
173  double rate_Hz = summary.getRate(*i);
174 
175  if (rate_Hz <= 0.0) {
176  rate_Hz = summary.getRate();
177  }
178 
179  JHitW0 hit(*i, rate_Hz);
180 
181  hit.rotate(R);
182 
183  if (match(hit)) {
184  data.push_back(hit);
185  }
186  }
187 
188  // select first hit in PMT
189 
190  sort(data.begin(), data.end(), compare);
191 
192  JDataW0_t::iterator __end = unique(data.begin(), data.end(), equal_to<JDAQPMTIdentifier>());
193 
194  DEBUG("point4d: "
195  << FIXED(12,3) << vx.getX() << ' '
196  << FIXED(12,3) << vx.getY() << ' '
197  << FIXED(12,3) << vx.getZ() << ' '
198  << FIXED(12,3) << vx.getT() << ' '
199  << FIXED( 8,3) << shower->getQ() << endl);
200 
201  double Q = 0.0;
202 
203  for (JDataW0_t::const_iterator hit = data.begin(); hit != __end; ++hit) {
204 
205  JPosition3D D(hit->getPosition());
206  D.sub(vx);
207 
208  const double x = hit->getX() - vx.getX();
209  const double y = hit->getY() - vx.getY();
210  const double z = hit->getZ() - vx.getZ();
211  const double cd = z/D.getLength(); // Delta = angle between shower direction and PMT position
212 
213  const double t1 = vx.getT() + (D.getLength() * getIndexOfRefraction() * getInverseSpeedOfLight());
214 
215  JDirection3D u(hit->getDX(), hit->getDY(), hit->getDZ()); // PMT orientation
216 
217  u.rotate(JRotation3Z(-atan2(y,x))); // rotate PMT axis to x-z plane
218 
219  const double theta = u.getTheta();
220  const double phi = fabs(u.getPhi()); // rotational symmetry of Cherenkov cone
221 
222  const double E = shower->getE();
223  const double dt = T_ns.constrain(hit->getT() - t1);
224 
225  double H1 = npe.calculate(E, D.getLength(), cd, theta, phi);
226  double H0 = hit->getR() * 1e-9 * T_ns.getLength();
227 
228  double Vmax_npe = 20.0;
229  if (H1 >= Vmax_npe) {
230  H1 *= Vmax_npe / H1;
231  }
232 
233  H1 += H0; // signal + background
234 
235  const double chi2 = getChi2(H1, true); // -log(lik)
236 
237  DEBUG("hit: "
238  << setw(10) << hit->getModuleID() << ':' << setw( 2) << setfill('0') << hit->getPMTAddress() << setfill(' ') << ' '
239  << FIXED(12,1) << E << ' '
240  << FIXED( 9,1) << R << ' '
241  << FIXED( 6,4) << theta << ' '
242  << FIXED( 6,4) << phi << ' '
243  << FIXED( 8,3) << dt << ' '
244  << FIXED(12,3) << chi2 << endl);
245 
246  Q += getQuality(chi2);
247  }
248 
249  DEBUG("quality: " << FIXED(8,3) << Q << ' ' << distance(data.begin(), __end) << endl);
250  }
251  }
252  STATUS(endl);
253 }
JPARSER::JParser
Utility class to parse command line options.
Definition: JParser.hh:1500
JLANG::JException
General exception.
Definition: JException.hh:23
WARNING
#define WARNING(A)
Definition: JMessage.hh:65
Q
Q(UTCMax_s-UTCMin_s)-livetime_s
JGEOMETRY3D::JDirection3D
Data structure for direction in three dimensions.
Definition: JDirection3D.hh:33
JACOUSTICS::getQuality
double getQuality(const double chi2, const int NDF)
Get quality of fit.
Definition: JAcoustics/JEvtToolkit.hh:29
distance
std::vector< T >::difference_type distance(typename std::vector< T >::const_iterator first, typename PhysicsEvent::const_iterator< T > second)
Specialisation of STL distance.
Definition: PhysicsEvent.hh:434
JTRIGGER::JBuildL0< JHitL0 >
Template specialisation of L0 builder for JHitL0 data type.
Definition: JBuildL0.hh:102
JPHYSICS::getIndexOfRefraction
double getIndexOfRefraction()
Get average index of refraction of water corresponding to group velocity.
Definition: JPhysics/JConstants.hh:127
H1
do rm f tmp H1
Definition: plot-equalizer.sh:40
JFIT::JPoint4D
Data structure for vertex fit.
Definition: JPoint4D.hh:22
STATUS
#define STATUS(A)
Definition: JMessage.hh:63
JDETECTOR::JDetector
Detector data structure.
Definition: JDetector.hh:89
JDETECTOR::JModuleRouter
Router for direct addressing of module data in detector data structure.
Definition: JModuleRouter.hh:34
JGEOMETRY3D::JRotation3D
Rotation matrix.
Definition: JRotation3D.hh:111
JShowerNPE_t
Auxiliary data structure for shower PDF.
Definition: JNPE_t.hh:175
parameters
*fatal Wrong number of arguments esac JCookie sh typeset Z DETECTOR typeset Z SOURCE_RUN typeset Z TARGET_RUN set_variable PARAMETERS_FILE $WORKDIR parameters
Definition: diff-Tuna.sh:38
JSUPPORT::JParallelFileScanner
General purpose class for parallel reading of objects from a single file or multiple files...
Definition: JParallelFileScanner.hh:33
JPARSER::initialised
Empty structure for specification of parser element that is initialised (i.e. does not require input)...
Definition: JParser.hh:66
FIXED
Auxiliary data structure for floating point format specification.
Definition: JManip.hh:446
E
then usage E
Definition: JMuonPostfit.sh:35
JRECONSTRUCTION::qualitySorter
bool qualitySorter(const JFit &first, const JFit &second)
Comparison of fit results.
Definition: JReconstruction/JEvtToolkit.hh:243
JGEOMETRY3D::JRotation3Z
Rotation around Z-axis.
Definition: JRotation3D.hh:85
JSUPPORT::JLimit
Auxiliary class for defining the range of iterations of objects.
Definition: JLimit.hh:41
JAANET::detector
Detector file.
Definition: JHead.hh:196
JAANET::getDirection
JDirection3D getDirection(const Vec &dir)
Get direction.
Definition: JAAnetToolkit.hh:198
JACOUSTICS::JEvt
Acoustic event fit.
Definition: JAcoustics/JEvt.hh:154
make_field
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Definition: JParser.hh:1961
JAANET::getPosition
JPosition3D getPosition(const Vec &pos)
Get position.
Definition: JAAnetToolkit.hh:162
JSUPPORT::JSummaryFileRouter
File router for fast addressing of summary data.
Definition: JSummaryFileRouter.hh:34
debug
int debug
debug level
Definition: JSirene.cc:63
R
then usage $script[distance] fi case set_variable R
Definition: JDrawLED.sh:43
FATAL
#define FATAL(A)
Definition: JMessage.hh:67
JRECONSTRUCTION::JHitW0
Auxiliary class for a hit with background rate value.
Definition: JHitW0.hh:21
JDETECTOR::load
void load(const std::string &file_name, JDetector &detector)
Load detector from input file.
Definition: JDetectorToolkit.hh:478
JRECONSTRUCTION::JShowerFitParameters_t
Data structure for fit parameters.
Definition: JShowerFitParameters_t.hh:16
JPHYSICS::getInverseSpeedOfLight
const double getInverseSpeedOfLight()
Get inverse speed of light.
Definition: JPhysics/JConstants.hh:116
DEBUG
then usage $script< input_file >< detector_file > fi set_variable OUTPUT_DIR set_variable SELECTOR JDAQTimesliceL1 set_variable DEBUG case set_variable DEBUG
Definition: JCalibratePMT.sh:21
JGEOMETRY3D::JPosition3D
Data structure for position in three dimensions.
Definition: JPosition3D.hh:36
JSUPPORT::JLimit::getLimit
const JLimit & getLimit() const
Get limit.
Definition: JLimit.hh:73
detector
do set_variable DETECTOR_TXT $WORKDIR detector
Definition: detector-XY:fit1d.sh:38
JTOOLS::u
double u[N+1]
Definition: JPolint.hh:739
JFIT::JModel< JPoint4D >
Template specialisation of class JModel to match hit with bright point.
Definition: JFit/JModel.hh:121
JFIT::getChi2
double getChi2(const double P)
Get chi2 corresponding to given probability.
Definition: JFitToolkit.hh:70
in
then fatal Wrong number of arguments fi set_variable DETECTOR $argv[1] set_variable INPUT_FILE $argv[2] eval JPrintDetector a $DETECTOR O IDENTIFIER eval JPrintDetector a $DETECTOR O SUMMARY source JAcoustics sh $DETECTOR_ID CHECK_EXIT_CODE typeset A TRIPODS get_tripods $WORKDIR tripod txt TRIPODS for EMITTER in
Definition: JCanberra.sh:41
JGEOMETRY3D::JPosition3D::rotate
JPosition3D & rotate(const JRotation3D &R)
Rotate.
Definition: JPosition3D.hh:186
D
do echo Generating $dir eval D
Definition: JDrawLED.sh:53
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