Main program to trigger acoustic data. More...

#include <iostream>
#include <iomanip>
#include <vector>
#include <map>
#include <algorithm>
#include "TROOT.h"
#include "TFile.h"
#include "JLang/JComparator.hh"
#include "JDB/JToAshort.hh"
#include "JDB/JSupport.hh"
#include "JDetector/JDetector.hh"
#include "JDetector/JDetectorToolkit.hh"
#include "JDetector/JDetectorSupportkit.hh"
#include "JDetector/JTripod.hh"
#include "JDetector/JHydrophone.hh"
#include "JLang/JPredicate.hh"
#include "JTools/JRange.hh"
#include "JTools/JQuantile.hh"
#include "JTools/JHashMap.hh"
#include "JSupport/JMultipleFileScanner.hh"
#include "JSupport/JFileRecorder.hh"
#include "JSupport/JMeta.hh"
#include "JAcoustics/JEmitterID.hh"
#include "JAcoustics/JTransceiver.hh"
#include "JAcoustics/JTransmission.hh"
#include "JAcoustics/JAcousticsToolkit.hh"
#include "JAcoustics/JAcousticsSupportkit.hh"
#include "JAcoustics/JTriggerParameters.hh"
#include "JAcoustics/JEvent.hh"
#include "JAcoustics/JEventOverlap.hh"
#include "JAcoustics/JTriggerOutput.hh"
#include "JAcoustics/JSupport.hh"
#include "Jeep/JContainer.hh"
#include "Jeep/JPrint.hh"
#include "Jeep/JParser.hh"
#include "Jeep/JMessage.hh"

Functions
int	main (int argc, char **argv)

Detailed Description

Main program to trigger acoustic data.

An acoustic event is based on a coincidence of estimated times-of-emission from the same emitter.
If the number of coincident times-of-emission exceeds a preset minimum, the event is triggered and subsequently stored in the output file.
Note that an event counter is added which can be used to disambiguate the different cycles from the same emitter within one "super" event.
In this, a "super" event refers to the coincidence of events from a variety of emitters.

Author: mdejong

Definition in file JAcousticsEventBuilder.cc.

Function Documentation

int main	(	int	argc,
		char **	argv
	)

Definition at line 60 of file JAcousticsEventBuilder.cc.

 {
   using namespace std;
   using namespace JPP;
   
   typedef JTYPELIST<JEvent, JTriggerParameters, JMeta>::typelist  typelist;
 
   typedef JContainer< vector<JTripod> >      tripods_container;
   typedef JContainer< vector<JHydrophone> >  hydrophones_container;
 
   JMultipleFileScanner<JToAshort> inputFile;
   JLimit_t&                numberOfEvents = inputFile.getLimit();
   JTriggerParameters       parameters;
   JFileRecorder<typelist>  outputFile;
   JSoundVelocity           V = getSoundVelocity;   // default sound velocity
   string                   detectorFile;
   tripods_container        tripods;                // tripods
   hydrophones_container    hydrophones;            // hydrophones
   double                   precision;
   int                      debug;
 
   try {
 
     JParser<> zap("Main program to trigger acoustic data.");
     
     zap['f'] = make_field(inputFile,    "output of JConvertDB -q toashort");
     zap['n'] = make_field(numberOfEvents)                                    = JLimit::max();    
     zap['@'] = make_field(parameters,   "trigger parameters");
     zap['o'] = make_field(outputFile,   "output file")                       = "event.root";
     zap['V'] = make_field(V,            "sound velocity")                    = JPARSER::initialised();
     zap['a'] = make_field(detectorFile, "detector file");
     zap['T'] = make_field(tripods,      "tripod data");
     zap['H'] = make_field(hydrophones,  "hydrophone data")                   = JPARSER::initialised();
     zap['W'] = make_field(getEmitterID, "waveform identification data")      = JPARSER::initialised();
     zap['p'] = make_field(precision,    "precision time-of-arrival")         = 1.0e-6;
     zap['d'] = make_field(debug)                                             = 1;
 
     zap(argc, argv);
   }
   catch(const exception &error) {
     FATAL(error.what() << endl);
   }
 
 
   JDetector detector;
 
   try {
     load(detectorFile, detector);
   }
   catch(const JException& error) {
     FATAL(error);
   }
 
   V.set(detector.getUTMZ());
 
   JHashMap<int, JReceiver>   receivers;
   JHashMap<int, JEmitter>    emitters;
 
   for (JDetector::const_iterator i = detector.begin(); i != detector.end(); ++i) {
 
     JPosition3D pos(0.0, 0.0, 0.0);
 
     if (i->getFloor() == 0) {                    // get relative position of hydrophone
 
       try {
         pos = getPosition(hydrophones.begin(),
                           hydrophones.end(),
                           make_predicate(&JHydrophone::getString, i->getString()));
       }
       catch(const exception&) {
         continue;                                // if no position avialable, discard hydrophone
       }
     }
 
     receivers[i->getID()] = JReceiver(i->getID(), 
                                       i->getPosition() + pos, 
                                       i->getT0() * 1.0e-9);
   }
 
   for (tripods_container::const_iterator i = tripods.begin(); i != tripods.end(); ++i) {
     emitters[i->getID()]  = JEmitter(i->getID(),
                                      i->getUTMPosition() - detector.getUTMPosition());
   }
 
 
   outputFile.open();
 
   if (!outputFile.is_open()) {
     FATAL("Error opening file " << outputFile << endl);
   }
 
   outputFile.put(JMeta(argc, argv));
   outputFile.put(parameters);
 
   // statistics
 
   struct map_type :
    public map<int, JQuantile>
   {
     long long int sum() const 
     {
       long long int count = 0;
 
       for (const_iterator i = this->begin(); i != this->end(); ++i) {
         count += i->second.getCount();
       }
 
       return count;
     }
   };
 
   map_type number_of_entries;
   map_type number_of_triggers;
   map_type number_of_events;
 
   // input data
 
   string oid;                                    // detector identifier
 
   typedef vector<JTransmission> buffer_type;     // data type
 
   map<int, map< int, buffer_type > >  f1;        // emitter -> receiver -> data
 
   while (inputFile.hasNext()) {
 
     if (inputFile.getCounter()%1000 == 0) {
       STATUS("counter: " << setw(8) << inputFile.getCounter() << '\r' << flush); DEBUG(endl);
     }
 
     JToAshort* parameters = inputFile.next();
 
     if (oid == "") {
       oid = parameters->DETID;
     }
 
     if (oid != parameters->DETID) {              // consistency check
       FATAL("Invalid detector identifier " << parameters->DETID << " != " << oid << endl);
     }
 
     const int id = getEmitterID(parameters->EMITTERID);
 
     number_of_entries[parameters->EMITTERID].put(1);
 
     if (emitters.has(id) && receivers.has(parameters->DOMID)) {
 
       const JTransceiver transceiver(emitters[id], receivers[parameters->DOMID]);
 
       f1[transceiver.emitter.getID()][transceiver.receiver.getID()].push_back(transceiver.getTransmission(*parameters, V));
     }
   }
   STATUS(endl);
 
 
   // filter similar hits
 
   for (map<int, map< int, buffer_type> >::iterator i = f1.begin(); i != f1.end(); ++i) {
 
     for (map< int, buffer_type>::iterator receiver = i->second.begin(); receiver != i->second.end(); ++receiver) {
 
       buffer_type& buffer = receiver->second;
 
       sort(buffer.begin(), buffer.end(), JTransmission::compare(precision));
 
       buffer.erase(unique(buffer.begin(), buffer.end(), JTransmission::equals(precision)), buffer.end());
     }
   }
 
 
   // output events
 
   for (map<int, map< int, buffer_type> >::iterator i = f1.begin(); i != f1.end(); ++i) {
 
     buffer_type buffer;
 
     for (map< int, buffer_type>::iterator receiver = i->second.begin(); receiver != i->second.end(); ++receiver) {
 
       // selection based on quality
 
       buffer_type&    f2   = receiver->second;
       double          Qmin = parameters.Q;
 
       if (parameters.Q > 0.0 && parameters.Q < 1.0) {
 
         const JQuantile Q1("quality", make_array(f2.begin(), f2.end(), &JTransmission::getQ), true);
 
         Qmin = Q1.getQuantile(parameters.Q);
       }
 
       buffer_type::iterator __end = partition(f2.begin(), f2.end(), make_predicate(&JTransmission::getQ, Qmin, JComparison::gt()));
 
       copy(f2.begin(), __end, back_inserter(buffer));
     }
 
 
     sort(buffer.begin(), buffer.end());          // sort according time-of-emisson
 
 
     JTriggerOutput data;
 
     for (buffer_type::const_iterator p = buffer.begin(); p != buffer.end(); ++p) {
 
       buffer_type::const_iterator q = p;
 
       // basic correlator
 
       while (++q != buffer.end() && q->getToE() - p->getToE() <= parameters.TMax_s) {}
 
       if (distance(p,q) >= parameters.numberOfHits) {
 
         STATUS("trigger: " << setw(8) << number_of_triggers.sum() << '\r' << flush); DEBUG(endl);
 
         JEvent event(oid, number_of_triggers.sum(), i->first, p, q);
 
         number_of_triggers[i->first].put(event.size());
 
         DEBUG("trigger: " << endl << event);
 
         data.push_back(event);
       }
     }
 
     data.merge(JEventOverlap(parameters.TMax_s));
 
     for (JTriggerOutput::const_iterator event = data.begin(); event != data.end(); ++event) {
 
       number_of_events[event->getID()].put(event->size());
 
       outputFile.put(*event);
     }
   }
   STATUS(endl);
 
   for (map_type::const_iterator i = number_of_entries.begin();  i != number_of_entries.end();  ++i) {
     STATUS("number of entries:  " << setw(3) << i->first << ' ' << setw(8) << i->second.getCount() << endl);
   }
 
   for (map_type::const_iterator i = number_of_triggers.begin(); i != number_of_triggers.end(); ++i) {
     STATUS("number of triggers: " << setw(3) << i->first << ' ' << setw(8) << i->second.getCount() << endl);
   }
 
   for (map_type::const_iterator i = number_of_events.begin();   i != number_of_events.end();   ++i) {
     STATUS("number of events:   " << setw(3) << i->first << ' ' << setw(8) << i->second.getCount() << ' ' << FIXED(7,3) << i->second.getMean() << endl);
   }
 
   JMultipleFileScanner<JMeta> io(inputFile);
 
   io >> outputFile;
 
   outputFile.close();
 }

Functions

Detailed Description

Function Documentation