Jpp/pmt_effective_area_update/JShowerPrefit_8hh_source.html

 #ifndef JSHOWERPREFIT_INCLUDE

 #define JSHOWERPREFIT_INCLUDE


 #include <iostream>

 #include <vector>

 #include <algorithm>

 #include <functional>


 #include "km3net-dataformat/online/JDAQTimeslice.hh"

 #include "km3net-dataformat/online/JDAQEvent.hh"


 #include "JTrigger/JHit.hh"

 #include "JTrigger/JHitR1.hh"

 #include "JTrigger/JBuildL0.hh"

 #include "JTrigger/JBuildL2.hh"

 #include "JTrigger/JAlgorithm.hh"

 #include "JTrigger/JMatch3G.hh"

 #include "JTrigger/JBind2nd.hh"


 #include "JFit/JFitToolkit.hh"

 #include "JFit/JPoint4DEstimator.hh"

 #include "JFit/JEstimator.hh"

 #include "JFit/JPoint4D.hh"


 #include "JDetector/JModuleRouter.hh"


 #include "JReconstruction/JEvt.hh"

 #include "JReconstruction/JEvtToolkit.hh"

 #include "JReconstruction/JShowerParameters.hh"


 #include "JLang/JComparator.hh"


 #include "JGeometry3D/JTrack3D.hh"


 /**

  * \author adomi, gmaggi

  */


 namespace JRECONSTRUCTION

 {


   using JLANG::JSharedPointer;

   using JDETECTOR::JModuleRouter;


   /**

    * class to handle first step of the shower reconstruction in ORCA:

    * it reconstructs the shower vertex, intended as the shower brightest point, as the barycenter of the hits

    */


   class JShowerPrefit : public JShowerPrefitParameters_t

   {


   public:


     /**

      * Parameterized constructor

      *

      * \param parameters    struct that holds default-optimized parameters for the reconstruction.

      * \param router        module router, this is built via detector file.

      * \param debug         debug

      */


     JShowerPrefit(const JShowerPrefitParameters_t&  parameters,

                   const JModuleRouter&              router,

                   const int                         debug = 0):

       JShowerPrefitParameters_t(parameters),

       router(router)

     {}


     /**

      * Declaration of the operator that performs the reconstruction

      *

      * \param event which is a JDAQEvent

      */


     JEvt operator()(const KM3NETDAQ::JDAQEvent &event) const

     {


       using namespace std;

       using namespace JPP;


       const double STANDARD_DEVIATIONS       = 3.0;


       typedef JHitR1           hit_type;

       typedef vector<hit_type> buffer_type;


       typedef JEstimator<JPoint4D> JEstimator_t;


       const JBuildL0<hit_type> buildL0;

       const JBuildL2<hit_type> buildL2(JL2Parameters(2, TMaxLocal_ns, ctMin));

       const JMatch3G<hit_type> match3G(roadWidth_m, TMaxLocal_ns);  // causality relation for showers

       const JHitL1Comparator compare;


       //define empty vectors to be filled with JHitL0 and JHitL1

       buffer_type dataL0;

       buffer_type dataL1;


       JEvt out;


       buffer_type buffer;


       buildL0(JDAQTimeslice(event, true),  router, back_inserter(buffer));  // true = snapshot

       buildL2(JDAQTimeslice(event, false), router, back_inserter(dataL1));  // false = triggered


       copy(dataL1.begin(), dataL1.end(), back_inserter(dataL0));


       for (buffer_type::const_iterator i = buffer.begin(); i != buffer.end(); ++i) {


         if (find_if(dataL1.begin(), dataL1.end(), match_t(*i, TMaxLocal_ns)) == dataL1.end()) {

           dataL0.push_back(*i);

         }

       }


       for (buffer_type::const_iterator root = dataL1.begin(); root != dataL1.end(); ++root) {


         buffer_type data(1, *root);


         JBinder2nd<hit_type> matching = JBind2nd(match3G, *root);


         for (buffer_type::const_iterator i = dataL0.begin(); i != dataL0.end(); ++i) {


           if(( root->getModuleIdentifier() != i->getModuleIdentifier() ) && matching(*i)){

             data.push_back(*i);

           }

         }


         buffer_type::iterator __end1 = clusterizeWeight(data.begin() + 1, data.end(), match3G);


         // 4D fit

         JEstimator_t fit;

         JPoint4D  vx;

         double    chi2 = numeric_limits<double>::max();

         int       NDF  = distance(data.begin(), __end1) - JEstimator_t::NUMBER_OF_PARAMETERS;

         int       N    = getCount(data.begin(), __end1);


         if(distance(data.begin(), __end1) <= factoryLimit){


           double ymin = numeric_limits<double>::max();


           buffer_type::iterator __end2 = __end1;


           for (int n = 0; n <= numberOfOutliers && distance(data.begin(), __end2) >=

                  JEstimator_t::NUMBER_OF_PARAMETERS; ++n, --__end2) {


             sort(data.begin() + 1, __end1, compare);


             do {

               try {


                 fit(data.begin(), __end2);


                 double y = getChi2(fit, data.begin(), __end2, sigma_ns);


                 if (y < ymin) {

                   ymin = y;

                   vx   = fit;

                   chi2 = ymin;

                   NDF  = distance(data.begin(), __end2) - JEstimator_t::NUMBER_OF_PARAMETERS;

                   N    = getCount(data.begin(), __end2);

                 }

               }

               catch(JException& error) { }


             } while (next_permutation(data.begin() + 1, __end2, __end1, compare));


             ymin -= STANDARD_DEVIATIONS * STANDARD_DEVIATIONS;

           }


         } else {


           const int number_of_outliers = distance(data.begin(), __end1) - JEstimator_t::NUMBER_OF_PARAMETERS - 1;


           buffer_type::iterator __end2 = __end1;


           for (int n = 0; n <= number_of_outliers; ++n) {


             try{


               fit(data.begin(), __end2);

               vx   = fit;

               chi2 = getChi2(fit, data.begin(), __end2, sigma_ns);

               NDF  = distance(data.begin(), __end2) - JEstimator_t::NUMBER_OF_PARAMETERS;

               N    = getCount(data.begin(), __end2);


             }

             catch(const JException& error){ }


             double                ymax = 0;

             buffer_type::iterator imax = __end2;


             for (buffer_type::iterator i = data.begin() + 1; i != __end2; ++i) {


               double y = getChi2(fit, *i, sigma_ns);


               if (y > ymax) {

                 ymax = y;

                 imax = i;

               }

             }


             if (ymax > STANDARD_DEVIATIONS * STANDARD_DEVIATIONS) {

               --__end2;

               swap(*imax, *__end2);

             } else {

               break;

             }

           }

         }


         if (NDF >= 0 && chi2 > numeric_limits<double>::lowest()) {


           const JGEOMETRY3D::JTrack3D fitResult(vx, JGEOMETRY3D::JVersor3Z());


           out.push_back(getFit(JHistory(JSHOWERPREFIT), fitResult, getQuality(chi2, N), NDF));


           out.rbegin()->setW(13, chi2);

           out.rbegin()->setW(14, N);

         }

       }


       return out;


     }


     const JModuleRouter& router;


     struct match_t {


     match_t(const JHitR1& root, const double TMax_ns) :

       root(root),

       TMax_ns(TMax_ns)

     {}


     bool operator()(const JHitR1& hit) const

     {

       return root.getModuleID() == hit.getModuleID() && fabs(root.getT() - hit.getT()) <= TMax_ns;

     }


     const JHitR1& root;

     double TMax_ns;

   };


   };

 }


 #endif


JFitToolkit.hh
Auxiliary methods to evaluate Poisson probabilities and chi2.

JACOUSTICS::hit_type
Acoustic hit.
Definition: JAcousticsTriggerProcessor.cc:59

JRECONSTRUCTION::JShowerPrefitParameters_t::factoryLimit
int factoryLimit
Definition: JShowerPrefitParameters_t.hh:67

JEstimator.hh
Linear fit methods.

JTRIGGER::JHit::getT
double getT() const
Get calibrated time of hit.
Definition: JTrigger/JHit.hh:143

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

JTRIGGER::JMatch3G
3G match criterion.
Definition: JMatch3G.hh:29

JRECONSTRUCTION::JShowerPrefitParameters_t::numberOfOutliers
int numberOfOutliers
Definition: JShowerPrefitParameters_t.hh:70

JRECONSTRUCTION::JShowerPrefitParameters_t::sigma_ns
double sigma_ns
Definition: JShowerPrefitParameters_t.hh:69

KM3NETDAQ::JDAQModuleIdentifier::getModuleID
int getModuleID() const
Get module identifier.
Definition: JDAQModuleIdentifier.hh:72

JTRIGGER::JBind2nd
JBinder2nd< JHit_t > JBind2nd(const JMatch< JHit_t > &match, const JHit_t &second)
Auxiliary method to create JBinder2nd object.
Definition: JBind2nd.hh:70

JFIT::JEstimator< JPoint4D >
Linear fit of bright point (position and time) between hits (objects with position and time)...
Definition: JPoint4DEstimator.hh:69

JAlgorithm.hh
Algorithms for hit clustering and sorting.

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

JFIT::JPoint4D
Data structure for vertex fit.
Definition: JPoint4D.hh:22

root
then JPlot1D f $WORKDIR postfit[prefit\] root
Definition: JMuonPostfit.sh:139

JTrack3D.hh

JDETECTOR::JModuleRouter
Router for direct addressing of module data in detector data structure.
Definition: JModuleRouter.hh:34

JShowerParameters.hh

JDAQEvent.hh

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

JTRIGGER::JBinder2nd
Auxiliary class to convert binary JMatch operator and given hit to unary match operator.
Definition: JBind2nd.hh:26

JPoint4D.hh

JRECONSTRUCTION::JShowerPrefit
class to handle first step of the shower reconstruction in ORCA: it reconstructs the shower vertex...
Definition: JShowerPrefit.hh:50

JHit.hh
Basic data structure for time and time over threshold information of hit.

JRECONSTRUCTION::JShowerPrefitParameters_t
Data structure for fit parameters.
Definition: JShowerPrefitParameters_t.hh:15

JBuildL0.hh

JRECONSTRUCTION::getQuality
double getQuality(const double chi2, const int N, const int NDF)
Get quality of fit.
Definition: JReconstruction/JEvtToolkit.hh:209

std::vector< hit_type >

JRECONSTRUCTION::JShowerPrefit::JShowerPrefit
JShowerPrefit(const JShowerPrefitParameters_t &parameters, const JModuleRouter &router, const int debug=0)
Parameterized constructor.
Definition: JShowerPrefit.hh:63

JRECONSTRUCTION::JShowerPrefit::operator()
JEvt operator()(const KM3NETDAQ::JDAQEvent &event) const
Declaration of the operator that performs the reconstruction.
Definition: JShowerPrefit.hh:76

JRECONSTRUCTION::JShowerPrefit::match_t::root
const JHitR1 & root
Definition: JShowerPrefit.hh:239

JRECONSTRUCTION::JShowerPrefit::match_t::operator()
bool operator()(const JHitR1 &hit) const
Definition: JShowerPrefit.hh:234

JSHOWERPREFIT
static const int JSHOWERPREFIT
Definition: definitions/reconstruction.hh:22

JEvt.hh

JTRIGGER::JBuildL2
Template L2 builder.
Definition: JBuildL2.hh:45

JLANG::JSharedPointer
The template JSharedPointer class can be used to share a pointer to an object.
Definition: JSharedPointer.hh:28

JRECONSTRUCTION::JShowerPrefit::router
const JModuleRouter & router
Definition: JShowerPrefit.hh:225

KM3NETDAQ::JDAQEvent
DAQ Event.
Definition: JDAQEvent.hh:30

JBuildL2.hh

JRECONSTRUCTION::JShowerPrefit::match_t::TMax_ns
double TMax_ns
Definition: JShowerPrefit.hh:240

JGEOMETRY3D::JTrack3D
3D track.
Definition: JTrack3D.hh:30

JRECONSTRUCTION::JShowerPrefitParameters_t::ctMin
double ctMin
Definition: JShowerPrefitParameters_t.hh:72

KM3NETDAQ::JDAQTimeslice
Data time slice.
Definition: JDAQTimeslice.hh:30

debug
int debug
debug level
Definition: JSirene.cc:63

JModuleRouter.hh
Direct access to module in detector data structure.

JComparator.hh

JTRIGGER::JL2Parameters
Data structure for L2 parameters.
Definition: JTrigger/JTriggerParameters.hh:33

JRECONSTRUCTION::getFit
JFit getFit(const JHistory &history, const JTrack3D &track, const double Q, const int NDF, const double energy=0.0, const int status=0)
Get fit.
Definition: JReconstruction/JEvtToolkit.hh:129

JHitR1.hh
Reduced data structure for L1 hit.

JPoint4DEstimator.hh
Linear fit of JFIT::JPoint4D.

JRECONSTRUCTION::JHitL1Comparator
Auxiliary class for permutations of L1 hits.
Definition: JReconstruction/JEvtToolkit.hh:557

JRECONSTRUCTION::JHistory
JFIT::JHistory JHistory
Definition: JHistory.hh:283

JFIT::JEvt
Data structure for set of track fit results.
Definition: JReconstruction/JEvt.hh:363

n
alias put_queue eval echo n
Definition: qlib.csh:19

JDAQTimeslice.hh

JTRIGGER::getCount
int getCount(const T &hit)
Get hit count.
Definition: JTrigger/JHit.hh:277

JAANET::copy
void copy(const Head &from, JHead &to)
Copy header from from to to.
Definition: JHead.cc:139

JEvtToolkit.hh

JRECONSTRUCTION::JShowerPrefit::match_t::match_t
match_t(const JHitR1 &root, const double TMax_ns)
Definition: JShowerPrefit.hh:229

JTRIGGER::JHitR1
Reduced data structure for L1 hit.
Definition: JHitR1.hh:31

JRECONSTRUCTION::JShowerPrefitParameters_t::roadWidth_m
double roadWidth_m
Definition: JShowerPrefitParameters_t.hh:73

JTOOLS::next_permutation
bool next_permutation(T __begin, T __last, T __end, JComparator_t compare, std::bidirectional_iterator_tag)
Implementation of method next_permutation for bidirectional iterators.
Definition: JPermutation.hh:20

JTRIGGER::clusterizeWeight
static struct JTRIGGER::@78 clusterizeWeight
Anonymous struct for weighed clustering of hits.

JTRIGGER::JBuildL0
Template L0 hit builder.
Definition: JBuildL0.hh:35

JFIT::getChi2
double getChi2(const double P)
Get chi2 corresponding to given probability.
Definition: JFitToolkit.hh:70

JGEOMETRY3D::JVersor3Z
Data structure for normalised vector in positive z-direction.
Definition: JVersor3Z.hh:39

N
then usage $script[input file[working directory[option]]] nWhere option can be N
Definition: JMuonPostfit.sh:36

JBind2nd.hh

JRECONSTRUCTION::JShowerPrefit::match_t
Definition: JShowerPrefit.hh:227

JMatch3G.hh
Match operator for Cherenkov light from shower in any direction.

JRECONSTRUCTION::JShowerPrefitParameters_t::TMaxLocal_ns
double TMaxLocal_ns
Definition: JShowerPrefitParameters_t.hh:71