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JRandomL1.cc File Reference

Example program to test JTRIGGER::JBuildL1 and JTRIGGER::JBuildL2 hit coincidence building with random data. More...

#include <string>
#include <iostream>
#include <iomanip>
#include <vector>
#include "TROOT.h"
#include "TFile.h"
#include "TProfile.h"
#include "TRandom3.h"
#include "JDetector/JDetector.hh"
#include "JDetector/JDetectorToolkit.hh"
#include "JDetector/JDetectorSupportkit.hh"
#include "JDetector/JModuleRouter.hh"
#include "JDetector/JDetectorSimulator.hh"
#include "JDetector/JPMTParametersMap.hh"
#include "JDetector/JK40DefaultSimulator.hh"
#include "JDetector/JPMTDefaultSimulator.hh"
#include "JDetector/JCLBDefaultSimulator.hh"
#include "JTrigger/JHit.hh"
#include "JTrigger/JFrame.hh"
#include "JTrigger/JTimeslice.hh"
#include "JTrigger/JSuperFrame2D.hh"
#include "JTrigger/JHitL0.hh"
#include "JTrigger/JHitL1.hh"
#include "JTrigger/JBuildL1.hh"
#include "JTrigger/JBuildL2.hh"
#include "JTimeslice/JRandomTimeslice.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"

Go to the source code of this file.

Functions

int main (int argc, char **argv)
 

Detailed Description

Example program to test JTRIGGER::JBuildL1 and JTRIGGER::JBuildL2 hit coincidence building with random data.

Author
mdejong

Definition in file JRandomL1.cc.

Function Documentation

int main ( int  argc,
char **  argv 
)

Definition at line 94 of file JRandomL1.cc.

95 {
96  using namespace std;
97  using namespace JPP;
98 
99  string outputFile;
100  Long64_t numberOfEvents;
101  JPMTParametersMap pmtParameters;
102  JK40DefaultSimulator_t k40Simulator;
103  UInt_t seed;
104  double Tmax_ns;
105  int debug;
106 
107  try {
108 
109  JParser<> zap("Example program to test hit coincidence building with random data.");
110 
111  zap['o'] = make_field(outputFile) = "randomL2.root";
112  zap['n'] = make_field(numberOfEvents);
113  zap['P'] = make_field(pmtParameters) = JPARSER::initialised();
114  zap['B'] = make_field(k40Simulator) = JPARSER::initialised();
115  zap['S'] = make_field(seed) = 0;
116  zap['T'] = make_field(Tmax_ns) = 20.0; // [ns]
117  zap['d'] = make_field(debug) = 0;
118 
119  zap(argc, argv);
120  }
121  catch(const exception &error) {
122  FATAL(error.what() << endl);
123  }
124 
125  gRandom->SetSeed(seed);
126 
127  using namespace KM3NETDAQ;
128 
129 
130  JDetector detector;
131 
132  detector.push_back(getModule<JKM3NeT_t>(1001));
133 
134  JDetectorSimulator simbad(detector);
135 
136  simbad.reset(new JPMTDefaultSimulator(pmtParameters, detector));
137  simbad.reset(new JCLBDefaultSimulator());
138  simbad.reset(k40Simulator.clone());
139 
140 
141  TFile out(outputFile.c_str(), "recreate");
142 
143  TProfile hn("hn", NULL, 31, 0.5, +31.5);
144  TProfile hc("hc", NULL, 21, -1.05, +1.05);
145  TProfile ht("ht", NULL, 20, 0.5, +20.5);
146 
147 
148  const JModuleRouter moduleRouter(detector);
149 
150  typedef double hit_type;
151  typedef vector <hit_type> JFrameL1_t;
152  typedef JSuperFrame2D<hit_type> JSuperFrame2D_t;
153  typedef JBuildL1 <hit_type> JBuildL1_t;
154 
155 
156  const JBuildL1_t buildL1(JBuildL1Parameters((hit_type) Tmax_ns, true));
157  JSuperFrame2D_t buffer;
158 
159 
160  for (int event_count = 0; event_count < numberOfEvents; ++event_count) {
161 
162  STATUS("event: " << setw(10) << event_count << '\r'); DEBUG(endl);
163 
164  const int frame_index = 1;
165 
166  const JDAQChronometer chronometer(detector.getID(), 1, event_count, JDAQUTCExtended(getTimeOfFrame(frame_index)));
167 
168  JRandomTimeslice timeslice(chronometer, simbad);
169 
170  for (JDAQTimeslice::const_iterator super_frame = timeslice.begin(); super_frame != timeslice.end(); ++super_frame) {
171 
172  if (moduleRouter.hasModule(super_frame->getModuleID())) {
173 
174  // calibration
175 
176  const JModule& module = detector.getModule(moduleRouter.getAddress(super_frame->getModuleID()));
177 
178  buffer(*super_frame, module);
179 
180  JFrameL1_t dataL1;
181 
182  buildL1(buffer, back_inserter(dataL1));
183 
184 
185  if (!dataL1.empty()) {
186 
187  JBuildL2<hit_type> buildL2(JL2Parameters(1, Tmax_ns, -1.0));
188 
189  JFrameL1_t d1(dataL1);
190  JFrameL1_t d2;
191 
192  for (int i = 1; i <= hn.GetNbinsX(); ++i) {
193 
194  buildL2.numberOfHits = (int) hn.GetBinCenter(i);
195 
196  d2.clear();
197 
198  buildL2(buffer, d1, back_inserter(d2));
199 
200  hn.Fill((double) buildL2.numberOfHits, (double) d2.size() / (double) dataL1.size());
201 
202  d1.swap(d2);
203  }
204  }
205 
206 
207  if (!dataL1.empty()) {
208 
209  JBuildL2<hit_type> buildL2(JL2Parameters(2, Tmax_ns, -1.0));
210 
211  JFrameL1_t d1(dataL1);
212  JFrameL1_t d2;
213 
214  for (int i = 1; i <= hc.GetNbinsX(); ++i) {
215 
216  buildL2.ctMin = hc.GetBinCenter(i);
217 
218  d2.clear();
219 
220  buildL2(buffer, d1, back_inserter(d2));
221 
222  hc.Fill(buildL2.ctMin, (double) d2.size() / (double) dataL1.size());
223 
224  d1.swap(d2);
225  }
226  }
227 
228 
229  if (!dataL1.empty()) {
230 
231  JBuildL2<hit_type> buildL2(JL2Parameters(2, 0.0, -1.0));
232 
233  JFrameL1_t d1(dataL1);
234  JFrameL1_t d2;
235 
236  for (int i = ht.GetNbinsX(); i != 0; --i) {
237 
238  buildL2.TMaxLocal_ns = ht.GetBinCenter(i);
239 
240  d2.clear();
241 
242  buildL2(buffer, d1, back_inserter(d2));
243 
244  ht.Fill(buildL2.TMaxLocal_ns, (double) d2.size() / (double) dataL1.size());
245 
246  d1.swap(d2);
247  }
248  }
249  }
250  }
251  }
252  NOTICE(endl);
253 
254  out.Write();
255  out.Close();
256 
257 }
JACOUSTICS::hit_type
Acoustic hit.
Definition: JAcousticsTriggerProcessor.cc:58
JPARSER::JParser
Utility class to parse command line options.
Definition: JParser.hh:1711
JDETECTOR::JModule
Data structure for a composite optical module.
Definition: JModule.hh:67
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:36
JPARSER::initialised
Empty structure for specification of parser element that is initialised (i.e. does not require input)...
Definition: JParser.hh:84
outputFile
string outputFile
Definition: JDAQTimesliceSelector.cc:37
KM3NETDAQ::JDAQUTCExtended
Data structure for UTC time.
Definition: JDAQUTCExtended.hh:22
KM3NETDAQ::getTimeOfFrame
double getTimeOfFrame(const int frame_index)
Get start time of frame in ns since start of run for a given frame index.
Definition: JDAQClock.hh:185
JTRIGGER::JBuildL2
Template L2 builder.
Definition: JBuildL2.hh:45
JAANET::detector
Detector file.
Definition: JHead.hh:226
make_field
#define make_field(A,...)
macro to convert parameter to JParserTemplateElement object
Definition: JParser.hh:2158
NOTICE
#define NOTICE(A)
Definition: JMessage.hh:64
JDETECTOR::JPMTParametersMap
Auxiliary class for map of PMT parameters.
Definition: JPMTParametersMap.hh:89
JTRIGGER::JBuildL1
Template L1 hit builder.
Definition: JBuildL1.hh:85
FATAL
#define FATAL(A)
Definition: JMessage.hh:67
JTRIGGER::JL2Parameters
Data structure for L2 parameters.
Definition: JTrigger/JTriggerParameters.hh:33
JTRIGGER::JBuildL1Parameters
Auxiliary data structure for L1 build parameters.
Definition: JBuildL1.hh:37
JTRIGGER::JSuperFrame2D
2-dimensional frame with time calibrated data from one optical module.
Definition: JSuperFrame2D.hh:43
detector
do set_variable DETECTOR_TXT $WORKDIR detector
Definition: detector-XY:fit1d.sh:38
KM3NETDAQ::JRandomTimeslice
Timeslice with random data.
Definition: JRandomTimeslice.hh:30
debug
int debug
debug level
Definition: archive-put-wiki-detectors.sh:92
DEBUG
#define DEBUG(A)
Message macros.
Definition: JMessage.hh:62
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