//*-- AUTHOR : Ilse Koenig
//*-- Modified : 18/06/99 by Ilse Koenig
//_HADES_CLASS_DESCRIPTION
///////////////////////////////////////////////////////////////////////////////
//
// HMdcCal2Sim
//
// Data object for a Mdc cell containing distances to the wires for simulated
// events
// This class inherits from the class HMdcCal1 used for real data.
//
// As additional data elements the track numbers of the two hits are stored
// and a status number.
// The track number of the hits can be accessed via the inline functions
// void setNTrack1(const Int_t nTrack1) of dist1
// void setNTrack2(const Int_t nTrack2) of dist2
// Int_t getNTrack1(void) const of dist1
// Int_t getNTrack2(void) const of dist2
// and the status via the inline functions
// void setStatus1(const Int_t flag) of dist1
// Int_t getStatus1() const of dist1
// void setStatus2(const Int_t flag) of dist2
// Int_t getStatus2() const of dist2
// void setTrackList(Int_t* array) array of tracks[5] can be coppied
// to TrackList
// void getTrackList(Int_t* array) array of tracks[5] can be filled
// from TrackList
// void setStatusList(Int_t* array) array of status[5] can be coppied
// to StatusList
// void getStatusList(Int_t* array) array of status[5] can be filled
// from StatusList
// Int_t getNTracks() returns number of tracks in track list,
// can be used for loops
// for(Int_t i=0;i<(HMdcCal1Sim*)cal->getNTracks();i++)
// { (HMdcCal1Sim*)cal->getTrackFromList(i);}
// Int_t* getStatusList(){return (Int_t*)listStatus;}
// Int_t* getTrackList() {return (Int_t*)listTrack;}
// Int_t getTrackFromList (Int_t element){return listTrack [element];}
// Int_t getStatusFromList(Int_t element){return listStatus[element];}
//
// According to the two different TDC modes the HMdcCal1Sim category is filled.
//
// MODE 1 (two times LEADING EDGE of the TDC signal)
// nHits == -2 for 2 valid hits
// == -1 for 1 valid hit
// == 0 for a not filled hit (e.g. 1 hit was kicked out by efficiency)
// status1 == 1 for a valid first hit
// == 2 for a valid first hit caused by noise
// == -3 for a not valid hit
// == 0 for REAL data (embedding) or no hit
// status2 == 1 for a valid second hit
// == 2 for a valid first hit caused by noise
// == -3 for a not valid hit
// == 0 for REAL data (embedding) or no hit
// nTrack1 == track number of the first valid hit
// == -99 if not filled
// nTrack2 == track number of the second valid hit
// == -99 if not filled
// dist1 == distance from sense wire of irst valid hit
// == -99 if not filled
// dist2 == distance from sense wire of the second valid hit
// == -99 if not filled
// listTrack[5] : contains the track number of the first 5 hits per cell
// == -99 if no hit was filled
// listStatus[5]: contains the status flags of the first 5 hits per cell
// == -1 if hit was kicked out by cell efficiency cut
// == -2 if hit was kicked out by layer efficiency cut
// == 1 if hit is valid
// == 2 if hit is noise
// == 3 if hit is REAL data (embedding)
// == 0 if no hit was filled
// both lists will be filled even if no vaild hit was found
//
// MODE 2 (LEADING AND TRAILING EDGE of the TDC signal)
// nHits == +2 for 2 valid hits
// == 0 for not filled hit (e.g. 1 hit was kicked out by efficiency)
// status1 == 1 for a valid first hit
// == 2 for a valid first hit caused by noise
// == -3 for a not valid hit
// == 0 for REAL data (embedding) or no hit
// status2 == 1 for a valid first hit
// == 2 for a valid first hit caused by noise
// == -3 for a not valid hit
// == 0 for REAL data (embedding) or no hit
// nTrack1 == track number of first valid hit
// == -99 if not filled
// nTrack2 == track number of first valid hit
// == -99 if not filled
// dist1 == distance from sense wire of the first valid hit
// == -99 if not filled
// dist2 == -99 if not filled
// listTrack[5] : contains the track number of the first 5 hits per cell
// == -99 if no hit was filled
// listStatus[5]: contains the status flags of the first 5 hits per cell
// == -1 if hit was kicked out by cell efficiency cut
// == -2 if hit was kicked out by layer efficiency cut
// == 1 if hit is valid
// == 2 if hit is noise
// == 3 if hit is REAL data (embedding)
// == 0 if no hit was filled
// both lists will be filled even if no vaild hit was found
//
////////////////////////////////////////////////////////////////////////////////
#include "hmdccal2sim.h"
ClassImp(HMdcCal2Sim)
void HMdcCal2Sim::clear() {
// clears the object
HMdcCal2::clear();
nTrack1=nTrack2=-99;
status1=0;
status2=0;
for(Int_t i=0;i<5;i++)
{
listTrack[i]=-99;
listStatus[i]=0;
}
}
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