d9/d02/TofRec_8cxx_source.html

//  Package: TofRec

//  BESIII Tof Reconstruction Algorithm.

//  Created by Sun Shengsen (EPC IHEP)

//

#include "GaudiKernel/MsgStream.h"

#include "GaudiKernel/AlgFactory.h"

#include "GaudiKernel/ISvcLocator.h"

#include "GaudiKernel/SmartDataPtr.h"

#include "GaudiKernel/SmartDataLocator.h"

#include "GaudiKernel/IDataProviderSvc.h"

#include "GaudiKernel/PropertyMgr.h"

#include "EventModel/EventHeader.h"

#include "EventModel/EventModel.h"

#include "ReconEvent/ReconEvent.h"

#include "McTruth/McParticle.h"

#include "McTruth/TofMcHit.h"

#include "McTruth/McParticle.h"

#include "EvTimeEvent/RecEsTime.h"

#include "ExtEvent/RecExtTrack.h"

#include "DstEvent/TofHitStatus.h"

#include "TofRecEvent/RecTofTrack.h"

#include "TofRecEvent/RecBTofCalHit.h"

#include "TofRecEvent/RecETofCalHit.h"

#include "TofGeomSvc/ITofGeomSvc.h"

#include "TofCaliSvc/ITofCaliSvc.h"

#include "RawDataProviderSvc/IRawDataProviderSvc.h"

#include "RawDataProviderSvc/TofData.h"

#include "TofRec/TofRec.h"

#include "TofRec/TofTrack.h"

#include "TofRec/TofCheckDigi.h"

#include "TofRec/TofCount.h"

#include "TofRec/TofRecTDS.h"

#include <iostream>


#include "MdcRecEvent/RecMdcTrack.h"

#include "EmcRecEventModel/RecEmcShower.h"


#include "CalibData/EsTime/EsTimeCalibData.h"


using namespace std;

using namespace Event;


/////////////////////////////////////////////////////////////////////////////


ITofGeomSvc* tofGeomSvc;

ITofCaliSvc* tofCaliSvc;

// ITofQCorrSvc* tofQCorrSvc;

// ITofQElecSvc* tofQElecSvc;

IRawDataProviderSvc* tofDigiSvc;


TofRec::TofRec(const std::string& name, ISvcLocator* pSvcLocator) :

  Algorithm(name, pSvcLocator)

{

  declareProperty( "AcceleratorStatus", m_acceleratorStatus );

  declareProperty( "MagneticField",     m_magneticField     );

  declareProperty( "ForCalibration",    m_forCalibration    );

  declareProperty( "Data",              m_data              );

  declareProperty( "CalibData",         m_calibData         );

  //  declareProperty( "CalibDataBarrel",   m_calibDataBarrel   );

  declareProperty( "FirstIteration",    m_firstIteration    );

  declareProperty( "CheckTrigger",      m_checkTrigger      );

  declareProperty( "SaveRootFile4Rec",  m_saveRootFile      );

  declareProperty( "PrintOutInfo",      m_printOutInfo      );

  declareProperty( "CheckDigi",         m_checkDigi         );

  declareProperty( "CheckDigiRaw",      m_checkDigiRaw      );

  declareProperty( "CheckDigiExt",      m_checkDigiExt      );

  declareProperty( "CheckMcTruth",      m_checkMcTruth      );

}


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *


StatusCode TofRec::initialize(){


  MsgStream log(msgSvc(), name());

  log << MSG::INFO << "TofRec in initialize()" << endreq;


  //Get TOF Geomertry Service

  StatusCode scg = service("TofGeomSvc", tofGeomSvc);

  if (scg==  StatusCode::SUCCESS) {

    log << MSG::INFO << "TofRec Get Geometry Service Sucessfully!" << endreq;

  }else {

    log << MSG::ERROR << "TofRec Get Geometry Service Failed !" << endreq;

    return StatusCode::FAILURE;

  }


  //Get TOF Calibtration Service

  StatusCode scc = service("TofCaliSvc", tofCaliSvc);

  if (scc ==  StatusCode::SUCCESS) {

    log << MSG::INFO << "TofRec Get Calibration Service Sucessfully!" << endreq;

  } else {

    log << MSG::ERROR << "TofRec Get Calibration Service Failed !" << endreq;

    return StatusCode::FAILURE;

  }


  //Get TOF Raw Data Provider Service

  StatusCode scd = service("RawDataProviderSvc", tofDigiSvc);

  if (scd ==  StatusCode::SUCCESS) {

    log << MSG::INFO << "TofRec Get Tof Raw Data Service Sucessfully!" << endreq;

  } else {

    log << MSG::ERROR << "TofRec Get Tof Raw Data Service Failed !" << endreq;

    return StatusCode::FAILURE;

  }


  if( m_checkDigi ) {

    NTuplePtr nt11(ntupleSvc(),"FILE203/digi");

    NTuplePtr nt12(ntupleSvc(),"FILE203/barrel");

    NTuplePtr nt13(ntupleSvc(),"FILE203/endcap");

    NTuplePtr nt14(ntupleSvc(),"FILE203/mrpc");

    NTuplePtr nt15(ntupleSvc(),"FILE203/ext");

    NTuplePtr nt16(ntupleSvc(),"FILE203/tof");

    NTuplePtr nt17(ntupleSvc(),"FILE203/bb");


    if( nt11 || nt12 || nt13 || nt14 || nt15 || nt16 || nt17) {

      m_tuple_digi   = nt11;

      m_tuple_barrel = nt12;

      m_tuple_endcap = nt13;

      m_tuple_endcap = nt14;

      m_tuple_ext    = nt15;

      m_tuple_tof    = nt16;

      m_tuple_bb     = nt17;

    }

    else {

      m_tuple_digi   = ntupleSvc()->book("FILE203/digi",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_barrel = ntupleSvc()->book("FILE203/barrel",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_endcap = ntupleSvc()->book("FILE203/endcap",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_mrpc   = ntupleSvc()->book("FILE203/mrpc",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_ext    = ntupleSvc()->book("FILE203/ext",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_tof    = ntupleSvc()->book("FILE203/tof",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_bb     = ntupleSvc()->book("FILE203/bb",CLID_ColumnWiseTuple,"TofRec");


      if( m_tuple_digi || m_tuple_barrel || m_tuple_endcap || m_tuple_mrpc || m_tuple_ext || m_tuple_tof || m_tuple_bb ) {

    m_checkdigi_tuple = new TofCheckDigi( m_tuple_digi, m_tuple_barrel, m_tuple_endcap, m_tuple_mrpc, m_tuple_ext, m_tuple_tof, m_tuple_bb );

      }

      else {

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_digi) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_barrel) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_endcap) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_mrpc) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_ext) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_tof) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_bb) <<endmsg;

    return StatusCode::FAILURE;

      }

    }

  }


  if( m_saveRootFile ) {

    NTuplePtr nt21(ntupleSvc(),"FILE201/trk");

    NTuplePtr nt22(ntupleSvc(),"FILE201/cbtrk");

    NTuplePtr nt23(ntupleSvc(),"FILE201/cetrk");

    NTuplePtr nt24(ntupleSvc(),"FILE201/cetftrk");


    if( nt21 || nt22 || nt23 || nt24 ) {

      m_tuple_trk     = nt21;

      m_tuple_cbtrk   = nt22;

      m_tuple_cetrk   = nt23;

      m_tuple_cetftrk = nt24;

    }

    else {

      m_tuple_trk   = ntupleSvc()->book("FILE201/trk",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_cbtrk = ntupleSvc()->book("FILE201/cbtrk",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_cetrk = ntupleSvc()->book("FILE201/cetrk",CLID_ColumnWiseTuple,"TofRec");

      m_tuple_cetftrk = ntupleSvc()->book("FILE201/cetftrk",CLID_ColumnWiseTuple,"TofRec");

      if( m_tuple_trk || m_tuple_cbtrk || m_tuple_cetrk || m_tuple_cetftrk) {

    m_checkdata_tuple = new TofCheckData( m_tuple_trk, m_tuple_cbtrk, m_tuple_cetrk, m_tuple_cetftrk );

      }

      else {

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_trk) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cbtrk) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cetrk) <<endmsg;

    log << MSG::ERROR <<"Cannot book N-tuple:" << long(m_tuple_cetftrk) <<endmsg;

    return StatusCode::FAILURE;

      }

    }

  }


  if( m_printOutInfo ) { m_printOut = new TofCount; }


  return StatusCode::SUCCESS;

}


StatusCode TofRec::beginRun(){

  MsgStream log(msgSvc(), name());

  log << MSG::INFO <<"TofRec begin_run!"<< endreq;

  return StatusCode::SUCCESS;

}


// * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *


StatusCode TofRec::execute() {


  MsgStream log(msgSvc(), name());

  log << MSG::INFO << "TofRec in execute()!" << endreq;


  SmartDataPtr<Event::EventHeader> eventHeader(eventSvc(),"/Event/EventHeader");

  if( !eventHeader ) {

    log << MSG::FATAL << "TofRec could not find Event Header!" << endreq;

    return StatusCode::FAILURE;

  }

  int run = eventHeader->runNumber();

  int event = eventHeader->eventNumber();

  if( ( event % 1000 == 0 ) && m_printOutInfo ) {

    std::cout << "run:" << run << "  event: " << event << std::endl;

  }

  log << MSG::INFO << "run= " << run << "  event= " << event << endreq;

  if( tofCaliSvc->chooseConstants(run, event) == StatusCode:: FAILURE ) { return StatusCode:: FAILURE; }


  TofRecTDS tds;

  tds.RegisterNullRecTofTrackCol();


  // Magnetic Field: Colliding data and Cosmic Ray

  if( m_acceleratorStatus == "Colliding" ) {

    // Retrieve Event Start Time

    SmartDataPtr<RecEsTimeCol> estimeCol(eventSvc(),"/Event/Recon/RecEsTimeCol");

    if( !estimeCol || ( estimeCol->size() == 0 ) ) {

      log << MSG::WARNING << "TofRec Could not find RecEsTimeCol!   Run = " << run << " Event = " << event << endreq;

      return StatusCode::SUCCESS;

    }

    RecEsTimeCol::iterator iter_ESTime=estimeCol->begin();

    double t0  = (*iter_ESTime)->getTest();

    int t0Stat = (*iter_ESTime)->getStat();

    log << MSG::INFO << "t0= " << t0 << "  t0Stat= " << t0Stat << endreq;


    // Read Offset of barrel and endcap for Event Start Time

    IDataProviderSvc* m_pCalibDataSvc;

    StatusCode sc = service("CalibDataSvc", m_pCalibDataSvc, true);

    std::string fullpath = "/Calib/EsTimeCal";

    SmartDataPtr<CalibData::EsTimeCalibData> Est( m_pCalibDataSvc, fullpath );


    if( ( event % 1000 == 0 ) && m_printOutInfo ) {

      if( !Est ) {

    std::cout << "         t0 = " << t0 << "   t0stat = " << t0Stat << std::endl;

      }

      else {

    std::cout << "         t0 = " << t0 << "   t0stat = " << t0Stat << "   bunch = " << Est->getBunchTime() << "   offset_b = " << Est->getToffsetb() << "   offset_e = " << Est->getToffsete() << std::endl;

      }

    }


    // Kalman Filter Track

    SmartDataPtr<RecMdcKalTrackCol> mdcKalTrackCol(eventSvc(),"/Event/Recon/RecMdcKalTrackCol");

    if( !mdcKalTrackCol ) {

      log << MSG::WARNING << "No MdcKalTrackCol in TDS!   Run = " << run << "  Event = " << event << endreq;

      return StatusCode::SUCCESS;

    }

    SmartDataPtr<RecMdcTrackCol> mdcTrackCol(eventSvc(),"/Event/Recon/RecMdcTrackCol");

    if( !mdcTrackCol ) {

      log << MSG::FATAL << "Could NOT find RecMdcTrackCol in TDS!   Run = " << run << "  Event = " << event << endreq;

      return StatusCode::SUCCESS;

    }


    // Tof Get Extrapolated Track

    SmartDataPtr<RecExtTrackCol> extTrackCol(eventSvc(),"/Event/Recon/RecExtTrackCol");

    if( !extTrackCol ) {

      log << MSG::WARNING << "No ExtTrackCol in TDS!   Run = " << run << "  Event = " << event << endreq;

      return StatusCode::SUCCESS;

    }

    else {

      if( m_printOutInfo ) { m_printOut->setExtTrackNum( extTrackCol->size() ); }

      if( m_checkDigi && m_checkDigiExt ) { m_checkdigi_tuple->FillCol( *eventHeader, mdcTrackCol, mdcKalTrackCol, extTrackCol ); }

    }


    //sunss add 08/9/17

    if( m_forCalibration ) {            // Bhabha Events Selection

      if( m_printOutInfo ) { m_printOut->addNumber(0); }

      //      if( t0Stat != 111 && t0Stat != 121 ) return StatusCode::SUCCESS;

      if( t0Stat%10 != 1 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(1); }


      if( extTrackCol->size() != 2 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(2); }


      if( mdcTrackCol->size() != 2 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(3); }


      SmartDataPtr<RecEmcShowerCol> emcShowerCol(eventSvc(),"/Event/Recon/RecEmcShowerCol");

      if( !emcShowerCol ) {

    log << MSG::FATAL << "Could NOT find EmcRecShowerCol in TDS!   Run = " << run << "  Event = " << event << endreq;

    return StatusCode::SUCCESS;

      }

      if( m_printOutInfo ) { m_printOut->addNumber(4); }


      if( emcShowerCol->size() < 2 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(5); }


      RecMdcTrackCol::iterator iter_mdc1 = mdcTrackCol->begin();

      RecMdcTrackCol::iterator iter_mdc2 = mdcTrackCol->begin() + 1;


      RecMdcKalTrackCol::iterator iter_kal1 = mdcKalTrackCol->begin();

      RecMdcKalTrackCol::iterator iter_kal2 = mdcKalTrackCol->begin() + 1;


      RecExtTrackCol::iterator iter_ext1 = extTrackCol->begin();

      RecExtTrackCol::iterator iter_ext2 = extTrackCol->begin() + 1;

      Hep3Vector extPos1 = (*iter_ext1)->emcPosition();

      Hep3Vector extPos2 = (*iter_ext2)->emcPosition();


      RecEmcShowerCol::iterator iter_emc1 = emcShowerCol->begin();

      RecEmcShowerCol::iterator iter_emc2 = emcShowerCol->begin() + 1;

      Hep3Vector emcPos1((*iter_emc1)->x(),(*iter_emc1)->y(),(*iter_emc1)->z());

      Hep3Vector emcPos2((*iter_emc2)->x(),(*iter_emc2)->y(),(*iter_emc2)->z());


      Hep3Vector pep = (*iter_mdc1)->p3();

      Hep3Vector pem = (*iter_mdc2)->p3();

      double delta_angle = 180.0 - pep.angle( pem.unit() )*180.0/pi;

      double delta_phi = abs( (*iter_mdc1)->phi() - (*iter_mdc2)->phi() )*180.0/pi;


      Hep3Vector distant1 = extPos1 - emcPos1;

      Hep3Vector distant2 = extPos2 - emcPos1;

      if( distant1.r() > distant2.r() ) {

    RecEmcShowerCol::iterator iter_tmp = iter_emc1;

    iter_emc1 = iter_emc2;

    iter_emc2 = iter_tmp;

    Hep3Vector emc_tmp = emcPos1;

    emcPos1 = emcPos2;

    emcPos2 = emc_tmp;

      }

      distant1 = extPos1 - emcPos1;

      distant2 = extPos2 - emcPos2;


      double p1 = (*iter_mdc1)->p();

      double p2 = (*iter_mdc2)->p();

      double e1 = (*iter_emc1)->energy();

      double e2 = (*iter_emc2)->energy();

      double etot = 0.0;

      RecEmcShowerCol::iterator iter_emc = emcShowerCol->begin();

      for( ; iter_emc != emcShowerCol->end(); iter_emc++ ) {

    etot += (*iter_emc)->energy();

      }


      if( m_checkDigi ) { m_checkdigi_tuple->FillCol( *eventHeader, extTrackCol, mdcTrackCol, emcShowerCol, mdcKalTrackCol ); }


      if( ( (*iter_mdc1)->charge() + (*iter_mdc2)->charge() )!= 0 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(6); }


      if( delta_angle > 10.0 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(7); }


      if( (*iter_kal1)->getStat(1,0)!=0 || (*iter_kal2)->getStat(1,0)!=0 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(8); }


      if( distant1.r()>6.0 || distant2.r()>6.0 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(9); }


      // Jpsi data taken in 2009

      if( m_data == "jpsi09" ) {

    if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.5 || (*iter_mdc1)->y()>0.1 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.5 || (*iter_mdc2)->y()>0.1 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<174.0 || delta_phi>186.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.1 || e2 < 1.1 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Psi prime data taken in 2009

      else if( m_data == "psip09" ) {

    if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.5 || (*iter_mdc1)->y()>0.1 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.5 || (*iter_mdc2)->y()>0.1 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<174.0 || delta_phi>183.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.4 || e2 < 1.4 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Psi double prime data taken in first half of 2010

      else if( m_data == "psipp10" ) {

    if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>1.2 || (*iter_mdc1)->y()<-0.9 || (*iter_mdc1)->y()>0.5 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>1.2 || (*iter_mdc2)->y()<-0.9 || (*iter_mdc2)->y()>0.5 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<174.0 || delta_phi>186.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.4 || e2 < 1.4 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Psi double prime data taken in end of 2010 and 2011

      else if( m_data == "psipp11" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.3 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.3 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<174.0 || delta_phi>184.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.4 || e2 < 1.4 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Psi prime data taken in end of 2011 and 2012

      else if( m_data == "psip12" ) {

    if( (*iter_mdc1)->x()<-0.25 || (*iter_mdc1)->x()>0.3 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.25 || (*iter_mdc2)->x()>0.3 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>6.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.4 || e2 < 1.4 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Jpsi data taken in 2012

      else if( m_data == "jpsi12" ) {

    if( (*iter_mdc1)->x()<-0.2 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.4 || (*iter_mdc1)->y()>0.2 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.2 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.4 || (*iter_mdc2)->y()>0.2 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.1 || e2 < 1.1 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      // Y(4260) and Y(4360) taken in 2013

      else if( m_data == "psi13" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<172.0 || delta_phi>188.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1 < 1.5 || e2 < 1.5 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "rxyz14" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<175.0 || delta_phi>185.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "r15" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.15 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.15 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<175.0 || delta_phi>185.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "data16" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.35 || (*iter_mdc1)->y()>0.2 || abs((*iter_mdc1)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.35 || (*iter_mdc2)->y()>0.2 || abs((*iter_mdc2)->z())>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "data17" ) {

    if( (*iter_mdc1)->x()<-0.15 || (*iter_mdc1)->x()>0.35 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.5 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.15 || (*iter_mdc2)->x()>0.35 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.5 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "jpsi18" ) {

    if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }

      else if( m_data == "jpsi19" ) {

    if( (*iter_mdc1)->x()<-0.1 || (*iter_mdc1)->x()>0.4 || (*iter_mdc1)->y()<-0.3 || (*iter_mdc1)->y()>0.2 || (*iter_mdc1)->z()<-3.5 || (*iter_mdc1)->z()>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(10); }

    if( (*iter_mdc2)->x()<-0.1 || (*iter_mdc2)->x()>0.4 || (*iter_mdc2)->y()<-0.3 || (*iter_mdc2)->y()>0.2 || (*iter_mdc2)->z()<-3.5 || (*iter_mdc2)->z()>4.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(11); }

    if( delta_phi<170.0 || delta_phi>190.0 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(12); }

    if(  m_calibData == "Bhabha" ) {

      if( e1/p1 < 0.75 || e2/p2 < 0.75 ) return StatusCode::SUCCESS;

      if( m_printOutInfo ) { m_printOut->addNumber(13); }

    }

      }


      if(  m_calibData == "Bhabha" ) {

    if( ( etot - e1 - e2 ) > 0.3 ) return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(14); }

      }

      else if( m_calibData == "Dimu" ) {

    if( e1 > 0.5 || e2 > 0.5 )return StatusCode::SUCCESS;

    if( m_printOutInfo ) { m_printOut->addNumber(13); }

      }

    }

    //sunss add 08/9/17


    TofTrackVec* tofTrackVec = new TofTrackVec;

    RecExtTrackCol::iterator iter_track = extTrackCol->begin();

    for( ; iter_track < extTrackCol->end(); iter_track++ ) {

      RecMdcTrackCol::iterator iter_mdc = mdcTrackCol->begin();

      for( ; iter_mdc != mdcTrackCol->end(); iter_mdc++ ) {

    if( (*iter_mdc)->trackId() == (*iter_track)->trackId() ) break;

      }

      double costheta = cos( (*iter_mdc)->theta() );

      RecMdcKalTrackCol::iterator iter_kal = mdcKalTrackCol->begin();

      for( ; iter_kal != mdcKalTrackCol->end(); iter_kal++ ) {

    if( (*iter_kal)->trackId() == (*iter_track)->trackId() ) break;

      }

      double p[5]   = {-1.0};

      int    kal[5] = {-1};

      if( iter_kal != mdcKalTrackCol->end() ) {

    for( unsigned int i=0; i<5; i++ ) {

      if( i==0 )      { (*iter_kal)->setPidType(RecMdcKalTrack::electron); }

      else if( i==1 ) { (*iter_kal)->setPidType(RecMdcKalTrack::muon); }

      else if( i==2 ) { (*iter_kal)->setPidType(RecMdcKalTrack::pion); }

      else if( i==3 ) { (*iter_kal)->setPidType(RecMdcKalTrack::kaon); }

      else if( i==4 ) { (*iter_kal)->setPidType(RecMdcKalTrack::proton); }

      p[i]   = (*iter_kal)->p3().mag();

      kal[i] = (*iter_kal)->getStat(0,i);

    }

      }

      TofTrack* tof = new TofTrack( run, event );

      tof->setExtTrack( (*iter_track), costheta, p, kal, t0, t0Stat );


      if( tofTrackVec->size()>0 ) {

    std::vector<TofTrack*>::iterator iterExt = tofTrackVec->begin();

    for( ; iterExt < tofTrackVec->end(); iterExt++ ) {

      if( (*iterExt)->isNoHit() ) continue;

      tof->getMultiHit( *iterExt );

    }

      }


      tofTrackVec->push_back( tof );

    }


    if( m_printOutInfo ) {

      m_printOut->setTrack1Col( tofTrackVec );

    }


    // Retrieve Tof Digi Data

    TofDataMap tofDataMap = tofDigiSvc->tofDataMapTof( t0 );

    if( tofDataMap.empty() ) {

      log << MSG::WARNING << "No Tof Data Map in RawDataProviderSvc!   Run=" << run << " Event=" << event << endreq;

    }


    if( m_checkDigi && m_checkDigiRaw ) {

      SmartDataPtr<TofDigiCol> tofDigiCol(eventSvc(),"/Event/Digi/TofDigiCol");

      if( !tofDigiCol ) {

    log << MSG::ERROR << "TofRec could not find Tof digi! Event = " << event << endreq;

      }

      else { m_checkdigi_tuple->FillCol( *eventHeader, tofDigiCol, t0, t0Stat ); }


      m_checkdigi_tuple->FillCol( *eventHeader, tofDataMap, t0, t0Stat );

    }


    std::vector<int> deadId;

    if( m_forCalibration ) {

      for( unsigned int i=0; i<5; i++ ) {

    int identmp = tofCaliSvc->BrEast(i);

    if( identmp != 0x2fffffff ) {

      deadId.push_back( identmp );

    }

    identmp = tofCaliSvc->BrWest(i);

    if( identmp != 0x2fffffff ) {

      deadId.push_back( identmp );

    }

    identmp = tofCaliSvc->Endcap(i);

    if( identmp != 0x2fffffff ) {

      deadId.push_back( identmp );

    }

      }

    }


    std::vector<TofTrack*>::iterator iter = tofTrackVec->begin();

    for( ; iter < tofTrackVec->end(); iter++ ) {

      if( (*iter)->isNoHit() ) continue;

      (*iter)->setTofData( tofDataMap );

      if( m_printOutInfo ) { m_printOut->setTrack2( (*iter) ); }

      if( (*iter)->isNoHit() ) continue;

      (*iter)->match( m_forCalibration, deadId, tofTrackVec );

      if( m_printOutInfo ) { m_printOut->setTrack3( (*iter) ); }

    }


    iter = tofTrackVec->begin();

    for( ; iter < tofTrackVec->end(); iter++ ) {


      (*iter)->setCalibration();


      if( m_checkDigi ) {

    if( m_checkTrigger ) {

      // retrieve trigger data for physics analysis

      SmartDataPtr<TrigData> trigData(eventSvc(), "/Event/Trig/TrigData");

      if (!trigData) {

        log << MSG::FATAL << "Could not find Trigger Data for physics analysis" << endreq;

        m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat );

      }

      else {

        m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat, trigData );

      }

    }

    else {

      if( ( run < 0 ) && m_checkMcTruth ) {

        SmartDataPtr<TofMcHitCol> tofMcCol(eventSvc(),"/Event/MC/TofMcHitCol");

        SmartDataPtr<McParticleCol> mcParticleCol(eventSvc(),"/Event/MC/McParticleCol");

        if ( !tofMcCol || !mcParticleCol ) {

          m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat, mdcKalTrackCol );

        }

        else {

          m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat, mdcKalTrackCol, tofMcCol, mcParticleCol, m_calibData );

        }

      }

      else {

        m_checkdigi_tuple->Fill_TofTrack( *eventHeader, *iter, t0, t0Stat, mdcKalTrackCol );

      }

    }

      }

    }


    tds.RegisterTDS( eventHeader->runNumber(), eventHeader->eventNumber(), tofTrackVec, m_forCalibration, m_calibData );


    clearTofTrackVec( tofTrackVec );


// Check RecTofTrackCol Registered

    SmartDataPtr<RecTofTrackCol> tofTrackCol(eventSvc(),"/Event/Recon/RecTofTrackCol");

    if (!tofTrackCol) {

      log << MSG::FATAL << "TofRec could not find RecTofTrackCol!" << endreq;

      return StatusCode::FAILURE;

    }

    else{

      if( m_saveRootFile ) {

    m_checkdata_tuple->FillCol( *eventHeader, tofTrackCol, mdcKalTrackCol );

      }

    }


    if( m_forCalibration ) {

      SmartDataPtr<RecBTofCalHitCol> bhitCol(eventSvc(),"/Event/Recon/RecBTofCalHitCol");

      if (!bhitCol) {

    log << MSG::WARNING << "TofRec could not find RecBTofCalHitCol!" << endreq;

      }

      else {

    if( m_saveRootFile ) {

      m_checkdata_tuple->FillCol( *eventHeader, bhitCol );

    }

      }


      SmartDataPtr<RecETofCalHitCol> ehitCol(eventSvc(),"/Event/Recon/RecETofCalHitCol");

      if (!ehitCol) {

    log << MSG::WARNING << "TofRec could not find RecETofCalHitCol!" << endreq;

      }

      else {

    if( m_saveRootFile ) {

      m_checkdata_tuple->FillCol( *eventHeader, ehitCol );

    }

      }

    }


  }

  else {

    log << MSG::FATAL << "In TofRec: AcceleratorStatus is NOT correct! m_acceleratorStatus = " << m_acceleratorStatus << endreq;

    return StatusCode::FAILURE;

  }


  return StatusCode::SUCCESS;


}


//   * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * *


StatusCode TofRec::finalize() {

  if( m_printOutInfo ) {

    if( m_forCalibration ) {

      m_printOut->finalBhabha( m_calibData );

    }

    m_printOut->final();

    delete m_printOut;

  }

  if( m_checkDigi ) delete m_checkdigi_tuple;

  if( m_saveRootFile ) delete m_checkdata_tuple;

  return StatusCode::SUCCESS;

}


//----------------------------------------------------------------------------


void TofRec::clearTofTrackVec( std::vector<TofTrack*>*& tofTrackVec) {

  if( tofTrackVec ) {

    std::vector<TofTrack*>::iterator iter = tofTrackVec->begin();

    for( ; iter < tofTrackVec->end(); iter++ ) {

      delete (*iter);

    }

    tofTrackVec->clear();

    delete tofTrackVec;

  }

  return;

}

cos
double cos(const BesAngle a)
Definition: BesAngle.h:213

etot
Double_t etot
Definition: DataBase/tau_mode.c:7

e1
Double_t e1
Definition: DataBase/tau_mode.c:7

e2
Double_t e2
Definition: DataBase/tau_mode.c:7

abs
#define abs(x)
Definition: Eepipi/Eepipi-00-00-06/src/ee2eepp/basesv5.1/f2c.h:151

EsTimeCalibData.h

EventHeader.h

EventModel.h

IRawDataProviderSvc.h

ITofCaliSvc.h

ITofGeomSvc.h

McParticle.h

RecBTofCalHit.h

RecETofCalHit.h

RecEmcShower.h

RecEsTime.h

RecExtTrack.h

RecMdcTrack.h

RecTofTrack.h

ReconEvent.h

ntupleSvc
INTupleSvc * ntupleSvc()
Definition: ServiceAccessor.h:55

msgSvc
IMessageSvc * msgSvc()
Definition: ServiceAccessor.h:13

TofCheckDigi.h

TofCount.h

TofData.h

TofDataMap
std::multimap< unsigned int, TofData * > TofDataMap
Definition: TofData.h:244

tofDigiSvc
IRawDataProviderSvc * tofDigiSvc
Definition: TofEnergyRec.cxx:43

TofHitStatus.h

TofMcHit.h

tofCaliSvc
ITofCaliSvc * tofCaliSvc
Definition: TofRawDataProvider.cxx:32

TofRecTDS.h

tofGeomSvc
ITofGeomSvc * tofGeomSvc
Definition: TofRec.cxx:45

tofCaliSvc
ITofCaliSvc * tofCaliSvc
Definition: TofRec.cxx:46

tofDigiSvc
IRawDataProviderSvc * tofDigiSvc
Definition: TofRec.cxx:49

TofRec.h

TofTrack.h

TofTrackVec
std::vector< TofTrack * > TofTrackVec
Definition: TofTrack.h:220

iter
EvtStreamInputIterator< typename Generator::result_type > iter(Generator gen, int N=0)
Definition: bak-BesEvtGen-00-04-08/src/EvtGen/EvtGenBase/EvtStreamInputIterator.hh:100

DstMdcKalTrack::electron
@ electron
Definition: DstMdcKalTrack.h:52

DstMdcKalTrack::pion
@ pion
Definition: DstMdcKalTrack.h:54

DstMdcKalTrack::kaon
@ kaon
Definition: DstMdcKalTrack.h:55

DstMdcKalTrack::proton
@ proton
Definition: DstMdcKalTrack.h:56

DstMdcKalTrack::muon
@ muon
Definition: DstMdcKalTrack.h:53

IRawDataProviderSvc
Definition: IRawDataProviderSvc.h:16

IRawDataProviderSvc::tofDataMapTof
virtual TofDataMap & tofDataMapTof(double estime=0)=0

ITofCaliSvc
Definition: ITofCaliSvc.h:17

ITofCaliSvc::BrWest
virtual const int BrWest(unsigned int No)=0

ITofCaliSvc::BrEast
virtual const int BrEast(unsigned int No)=0

ITofCaliSvc::chooseConstants
virtual StatusCode chooseConstants(int run, int event)=0

ITofCaliSvc::Endcap
virtual const int Endcap(unsigned int No)=0

ITofGeomSvc
Definition: ITofGeomSvc.h:14

TofCheckData
Definition: TofCheckData.h:11

TofCheckData::FillCol
void FillCol(Event::EventHeader &, RecTofTrackCol &, RecMdcKalTrackCol &)
Definition: TofCheckData.cxx:286

TofCheckDigi
Definition: TofCheckDigi.h:21

TofCheckDigi::Fill_TofTrack
void Fill_TofTrack(Event::EventHeader &, TofTrack *&, double, int)
Definition: TofCheckDigi.cxx:819

TofCheckDigi::FillCol
void FillCol(Event::EventHeader &, TofDigiCol &, double, int)
Definition: TofCheckDigi.cxx:427

TofCount
Definition: TofCount.h:9

TofCount::finalBhabha
void finalBhabha(std::string calibData)
Definition: TofCount.cxx:215

TofCount::setExtTrackNum
void setExtTrackNum(unsigned int ntrk)
Definition: TofCount.cxx:92

TofCount::final
void final()
Definition: TofCount.cxx:182

TofCount::setTrack1Col
void setTrack1Col(std::vector< TofTrack * > *&tofTrackVec)
Definition: TofCount.cxx:111

TofCount::addNumber
void addNumber(unsigned int i)
Definition: TofCount.cxx:207

TofCount::setTrack3
void setTrack3(TofTrack *&tof)
Definition: TofCount.cxx:135

TofCount::setTrack2
void setTrack2(TofTrack *&tof)
Definition: TofCount.cxx:120

TofRecTDS
Definition: TofRecTDS.h:7

TofRecTDS::RegisterTDS
StatusCode RegisterTDS(int runNumber, int eventNumber, std::vector< TofTrack * > *&tofTrackVec, bool m_forCalibration, std::string m_calibData)
Definition: TofRecTDS.cxx:58

TofRecTDS::RegisterNullRecTofTrackCol
StatusCode RegisterNullRecTofTrackCol()
Definition: TofRecTDS.cxx:22

TofRec::initialize
StatusCode initialize()
Definition: TofRec.cxx:72

TofRec::finalize
StatusCode finalize()
Definition: TofRec.cxx:691

TofRec::TofRec
TofRec(const std::string &name, ISvcLocator *pSvcLocator)
Definition: TofRec.cxx:51

TofRec::execute
StatusCode execute()
Definition: TofRec.cxx:190

TofRec::clearTofTrackVec
void clearTofTrackVec(std::vector< TofTrack * > *&tofTrackVec)
Definition: TofRec.cxx:707

TofRec::beginRun
StatusCode beginRun()
Definition: TofRec.cxx:182

TofTrack
Definition: TofTrack.h:22

TofTrack::getMultiHit
void getMultiHit(TofTrack *&)
Definition: TofTrack.cxx:426

TofTrack::setExtTrack
void setExtTrack(RecExtTrack *extTrack, double costheta, double p[5], int kal[5], double t0, int t0Stat)
Definition: TofTrack.cxx:157

Event
Definition: Event.h:21

std
Definition: RootEventData_rootcint.cxx:16

costheta
float costheta
Definition: prepare_data.cxx:28

pi
const float pi
Definition: vector3.h:133