BOSS 7.1.1
BESIII Offline Software System
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Gam4pikp Class Reference

#include <Gam4pikp.h>

+ Inheritance diagram for Gam4pikp:

Public Member Functions

 Gam4pikp (const std::string &name, ISvcLocator *pSvcLocator)
 
StatusCode initialize ()
 
StatusCode execute ()
 
StatusCode finalize ()
 

Detailed Description

Definition at line 9 of file Gam4pikp.h.

Constructor & Destructor Documentation

◆ Gam4pikp()

Gam4pikp::Gam4pikp ( const std::string & name,
ISvcLocator * pSvcLocator )

Definition at line 62 of file Gam4pikp.cxx.

62 :
63 Algorithm(name, pSvcLocator) {
64
65 //Declare the properties
66 declareProperty("skim4pi", m_skim4pi=false);
67 declareProperty("skim4k", m_skim4k=false);
68 declareProperty("skim2pi2pr", m_skim2pi2pr=false);
69 declareProperty("rootput", m_rootput=false);
70 declareProperty("Ecms", m_ecms=3.6862);
71 declareProperty("Vr0cut", m_vr0cut=1.0);
72 declareProperty("Vz0cut", m_vz0cut=5.0);
73 declareProperty("EnergyThreshold", m_energyThreshold=0.05);
74 declareProperty("GammaPhiCut", m_gammaPhiCut=20.0);
75 declareProperty("GammaThetaCut", m_gammaThetaCut=20.0);
76 declareProperty("GammaDangCut", m_gammadangcut=20.0);
77// declareProperty("Test4C", m_test4C = 1);
78// declareProperty("Test5C", m_test5C = 1);
79// declareProperty("CheckDedx", m_checkDedx = 1);
80// declareProperty("CheckTof", m_checkTof = 1);
81 }

Member Function Documentation

◆ execute()

StatusCode Gam4pikp::execute ( )

Definition at line 450 of file Gam4pikp.cxx.

450 {
451
452// std::cout << "execute()" << std::endl;
453 setFilterPassed(false);
454
455
456 MsgStream log(msgSvc(), name());
457 log << MSG::INFO << "in execute()" << endreq;
458
459 SmartDataPtr<Event::EventHeader> eventHeader(eventSvc(),"/Event/EventHeader");
460 int run=eventHeader->runNumber();
461 int event=eventHeader->eventNumber();
462 log << MSG::DEBUG <<"run, evtnum = "
463 << run << " , "
464 << event <<endreq;
465// cout<<"run "<<run<<endl;
466// cout<<"event "<<event<<endl;
467if(m_rootput)
468{
469 m_run=run;
470 m_rec=event;
471}
472 Ncut[0]++;
473 SmartDataPtr<EvtRecEvent> evtRecEvent(eventSvc(), EventModel::EvtRec::EvtRecEvent);
474 log << MSG::DEBUG <<"ncharg, nneu, tottks = "
475 << evtRecEvent->totalCharged() << " , "
476 << evtRecEvent->totalNeutral() << " , "
477 << evtRecEvent->totalTracks() <<endreq;
478
479 SmartDataPtr<EvtRecTrackCol> evtRecTrkCol(eventSvc(), EventModel::EvtRec::EvtRecTrackCol);
480
481 if(m_rootput)
482{
483 Gam4pikp::InitVar();
484}
485
486 // for MC topo analysis
487if(m_rootput)
488{
489 if (eventHeader->runNumber()<0)
490 {
491 SmartDataPtr<Event::McParticleCol> mcParticleCol(eventSvc(), "/Event/MC/McParticleCol");
492 int m_numParticle = 0;
493 if (!mcParticleCol)
494 {
495// std::cout << "Could not retrieve McParticelCol" << std::endl;
496 return StatusCode::FAILURE;
497 }
498 else
499 {
500 bool psipDecay = false;
501 int rootIndex = -1;
502 Event::McParticleCol::iterator iter_mc = mcParticleCol->begin();
503 for (; iter_mc != mcParticleCol->end(); iter_mc++)
504 {
505 if ((*iter_mc)->primaryParticle()) continue;
506 if (!(*iter_mc)->decayFromGenerator()) continue;
507 if ((*iter_mc)->particleProperty()==100443)
508 {
509 psipDecay = true;
510 rootIndex = (*iter_mc)->trackIndex();
511 }
512 if (!psipDecay) continue;
513 int mcidx = ((*iter_mc)->mother()).trackIndex() - rootIndex;
514 int pdgid = (*iter_mc)->particleProperty();
515 m_pdgid[m_numParticle] = pdgid;
516 m_motheridx[m_numParticle] = mcidx;
517 m_numParticle += 1;
518 }
519 }
520 m_idxmc = m_numParticle;
521 }
522}
523
524 Vint iGood, ipip, ipim;
525 iGood.clear();
526 ipip.clear();
527 ipim.clear();
528 Vp4 ppip, ppim;
529 ppip.clear();
530 ppim.clear();
531 int nCharge = 0;
532 int ngdcgx=0;
533 int ncgx=0;
534 Vdouble pTrkCh;
535 pTrkCh.clear();
536 Hep3Vector v(0,0,0);
537 Hep3Vector vv(0,0,0);
538
539 IVertexDbSvc* vtxsvc;
540 Gaudi::svcLocator()->service("VertexDbSvc", vtxsvc);
541 if(vtxsvc->isVertexValid())
542 {
543 double* vertex = vtxsvc->PrimaryVertex();
544 double* vertexsigma = vtxsvc->SigmaPrimaryVertex();
545 v.setX(vertex[0]);
546 v.setY(vertex[1]);
547 v.setZ(vertex[2]);
548 vv.setX(vertexsigma[0]);
549 vv.setY(vertexsigma[1]);
550 vv.setZ(vertexsigma[2]);
551 }
552
553
554 if(run<0)
555 {
556 v[0]=0.;
557 v[1]=0.;
558 v[2]=0.;
559 vv[0]=0.;
560 vv[1]=0.;
561 vv[2]=0.;
562
563 }
564
565
566 for(int i = 0; i < evtRecEvent->totalCharged(); i++){
567 if(i>=evtRecTrkCol->size()) break;
568 ncgx++;
569 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + i;
570 if(!(*itTrk)->isMdcTrackValid()) continue;
571 if (!(*itTrk)->isMdcKalTrackValid()) continue;
572 ngdcgx++;
573 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
574
575 HepVector a = mdcTrk->helix();
576 HepSymMatrix Ea = mdcTrk->err();
577 HepPoint3D pivot(0.,0.,0.);
578 HepPoint3D IP(v[0],v[1],v[2]);
579 VFHelix helixp(pivot,a,Ea);
580 helixp.pivot(IP);
581 HepVector vec = helixp.a();
582 pTrkCh.push_back(mdcTrk->p()*mdcTrk->charge());
583 iGood.push_back((*itTrk)->trackId());
584 nCharge += mdcTrk->charge();
585 }
586
587
588 int nGood = iGood.size();
589 log << MSG::DEBUG << "ngood, totcharge = " << nGood << " , " << nCharge << endreq;
590 if((nGood < 4))
591 {
592 return StatusCode::SUCCESS;
593 }
594
595 Ncut[1]++;
596 Vint iGam;
597 int ngamx=0;
598 int ngdgamx=0;
599 iGam.clear();
600 Vint iGamnofit;
601 iGamnofit.clear();
602 for(int i = evtRecEvent->totalCharged(); i< evtRecEvent->totalTracks(); i++) {
603 ngamx++;
604 if(i>=evtRecTrkCol->size()) break;
605 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + i;
606 if(!(*itTrk)->isEmcShowerValid()) continue;
607 RecEmcShower *emcTrk = (*itTrk)->emcShower();
608 Hep3Vector emcpos(emcTrk->x(), emcTrk->y(), emcTrk->z());
609 // find the nearest charged track
610// double dthe = 200.;
611// double dphi = 200.;
612// double dang = 200.;
613 double dthe = 200.;
614 double dphi = 200.;
615 double dang = 200.;
616
617 ngdgamx++;
618 for(int j = 0; j < evtRecEvent->totalCharged(); j++) {
619 if(j>=evtRecTrkCol->size()) break;
620 EvtRecTrackIterator jtTrk = evtRecTrkCol->begin() + j;
621 if(!(*jtTrk)->isExtTrackValid()) continue;
622 RecExtTrack *extTrk = (*jtTrk)->extTrack();
623 if(extTrk->emcVolumeNumber() == -1) continue;
624 Hep3Vector extpos = extTrk->emcPosition();
625 // double ctht = extpos.cosTheta(emcpos);
626 double angd = extpos.angle(emcpos);
627 double thed = extpos.theta() - emcpos.theta();
628 double phid = extpos.deltaPhi(emcpos);
629 thed = fmod(thed+CLHEP::twopi+CLHEP::twopi+pi, CLHEP::twopi) - CLHEP::pi;
630 phid = fmod(phid+CLHEP::twopi+CLHEP::twopi+pi, CLHEP::twopi) - CLHEP::pi;
631
632// if(fabs(thed) < fabs(dthe)) dthe = thed;
633// if(fabs(phid) < fabs(dphi)) dphi = phid;
634// if(angd < dang) dang = angd;
635
636 if(angd < dang){ dang=angd;
637 dthe=thed;
638 dphi=phid;
639 }
640
641 }
642 // if(dang>=200) continue;
643 double eraw = emcTrk->energy();
644 dthe = dthe * 180 / (CLHEP::pi);
645 dphi = dphi * 180 / (CLHEP::pi);
646 dang = dang * 180 / (CLHEP::pi);
647// dthert = dthert * 180 / (CLHEP::pi);
648// dphirt = dphirt * 180 / (CLHEP::pi);
649// dangrt = dangrt * 180 / (CLHEP::pi);
650 // if(eraw < m_energyThreshold) continue;
651 iGam.push_back((*itTrk)->trackId());
652 if(eraw < m_energyThreshold) continue;
653 if(dang < 20.0) continue;
654 iGamnofit.push_back((*itTrk)->trackId());
655
656 }
657 // Finish Good Photon Selection
658 //
659 int nGam = iGam.size();
660 int nGamnofit = iGamnofit.size();
661
662 log << MSG::DEBUG << "num Good Photon " << nGam << " , " <<evtRecEvent->totalNeutral()<<endreq;
663 if(nGam<1){
664 return StatusCode::SUCCESS;
665 }
666 Ncut[2]++;
667
668 if(nGood>20||nGam>30) return StatusCode::SUCCESS;
669
670if(m_rootput)
671{
672m_idxmdc = nGood;
673m_idxemc=nGam;
674}
675//
676 Vp4 pGam;
677 pGam.clear();
678 for(int i = 0; i < nGam; i++) {
679 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + iGam[i];
680 RecEmcShower* emcTrk = (*itTrk)->emcShower();
681 double eraw = emcTrk->energy();
682 double phi = emcTrk->phi();
683 double the = emcTrk->theta();
684 HepLorentzVector ptrk;
685 ptrk.setPx(eraw*sin(the)*cos(phi));
686 ptrk.setPy(eraw*sin(the)*sin(phi));
687 ptrk.setPz(eraw*cos(the));
688 ptrk.setE(eraw);
689
690 // ptrk = ptrk.boost(-0.011,0,0);// boost to cms
691
692 pGam.push_back(ptrk);
693 }
694 //
695 // Assign 4-momentum to each charged track
696 //
698
699
700 for(int i = 0; i < nGood; i++) {
701 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + iGood[i];
702 RecMdcTrack* mdcTrk = (*itTrk)->mdcTrack();
703
704 RecMdcKalTrack* mdcKalTrk = (*itTrk)->mdcKalTrack();//After ParticleID, use RecMdcKalTrack substitute RecMdcTrack
705 RecMdcKalTrack::setPidType (RecMdcKalTrack::pion);//PID can set to electron, muon, pion, kaon and proton;The default setting is pion
706
707 if(mdcKalTrk->charge() >0) {
708 ipip.push_back(iGood[i]);
709 HepLorentzVector ptrk;
710 ptrk.setPx(mdcKalTrk->px());
711 ptrk.setPy(mdcKalTrk->py());
712 ptrk.setPz(mdcKalTrk->pz());
713 double p3 = ptrk.mag();
714 ptrk.setE(sqrt(p3*p3+mpi*mpi));
715
716
717 ppip.push_back(ptrk);
718 } else {
719 ipim.push_back(iGood[i]);
720 HepLorentzVector ptrk;
721 ptrk.setPx(mdcKalTrk->px());
722 ptrk.setPy(mdcKalTrk->py());
723 ptrk.setPz(mdcKalTrk->pz());
724 double p3 = ptrk.mag();
725 ptrk.setE(sqrt(p3*p3+mpi*mpi));
726
727 // ptrk = ptrk.boost(-0.011,0,0);//boost to cms
728
729 ppim.push_back(ptrk);
730 }
731 }
732 int npip = ipip.size();
733 int npim = ipim.size();
734 // if(npip*npim != 4) return SUCCESS;
735 if((npip < 2)||(npim < 2)) return SUCCESS;
736
737 Ncut[3]++;
738
739 //
740 // Loop each gamma pair, check ppi0 and pTot
741 //
742
743 int icgp1=-1;
744 int icgp2=-1;
745 int icgm1=-1;
746 int icgm2=-1;
747 int igam=-1;
748 double chisqtrk = 9999.;
749 WTrackParameter wcgp1;
750 WTrackParameter wcgp2;
751 WTrackParameter wcgm1;
752 WTrackParameter wcgm2;
753 int ipip1js=-1;
754 int ipip2js=-1;
755 int ipim1js=-1;
756 int ipim2js=-1;
757 double mcompall=9999;
758 double mppreclst=9999;
759 double meelst=9999;;
760 double mchic2kpilst=9999;
761 double chis4c2kpilst=9999;
762 int type2kpilst=0;
763 double dtpr2kpilst[4]={9999,9999,9999,9999};
764
765 double mc1=mpi,mc2=mpi,mc3=mpi,mc4=mpi;
766 double mchic01=0.0;
767 //maqm HepLorentzVector pgam=(0,0,0,0);
768 HepLorentzVector pgam(0,0,0,0);
769 HepPoint3D xorigin(0.,0.,0.);
770 xorigin[0]=9999.;
771 xorigin[1]=9999.;
772 xorigin[2]=9999.;
773 HepSymMatrix xem(3,0);
774
775 int cl4pi=0;
776 int clajs=0;
777 HepLorentzVector p4psipjs(0.011*m_ecms, 0.0, 0.0, m_ecms);
778 double psipBetajs = (p4psipjs.vect()).mag()/(p4psipjs.e());
779 HepLorentzVector p4psip(0.011*m_ecms, 0.0, 0.0, m_ecms);
780 double psipBeta = (p4psip.vect()).mag()/(p4psip.e()); // beta = P/E
781
782 for(int ii = 0; ii < npip-1; ii++) {
783 RecMdcKalTrack *pip1Trk = (*(evtRecTrkCol->begin()+ipip[ii]))->mdcKalTrack();
784 for(int ij = ii+1; ij < npip; ij++) {
785 RecMdcKalTrack *pip2Trk = (*(evtRecTrkCol->begin()+ipip[ij]))->mdcKalTrack();
786 for(int ik = 0; ik < npim-1; ik++) {
787 RecMdcKalTrack *pim1Trk = (*(evtRecTrkCol->begin()+ipim[ik]))->mdcKalTrack();
788 for(int il = ik+1; il < npim; il++) {
789 RecMdcKalTrack *pim2Trk = (*(evtRecTrkCol->begin()+ipim[il]))->mdcKalTrack();
790 double squar[3]={9999.,9999.,9999.};
791 double squarkpi[6]={9999.,9999.,9999.,9999.,9999.,9999.};
792 WTrackParameter wvpip1Trk, wvpim1Trk, wvpip2Trk, wvpim2Trk;
793
794 Vint iGoodjs;
795 iGoodjs.clear();
796 Vdouble pTrkjs;
797 pTrkjs.clear();
798
799
800
801 pTrkjs.push_back(pip1Trk->p()*pip1Trk->charge());
802 pTrkjs.push_back(pip2Trk->p()*pip2Trk->charge());
803 pTrkjs.push_back(pim1Trk->p()*pim1Trk->charge());
804 pTrkjs.push_back(pim2Trk->p()*pim2Trk->charge());
805 iGoodjs.push_back(ipip[ii]);
806 iGoodjs.push_back(ipip[ij]);
807 iGoodjs.push_back(ipim[ik]);
808 iGoodjs.push_back(ipim[il]);
809
810 Gam4pikp::BubbleSort(pTrkjs, iGoodjs);
811 Vint jGoodjs;
812 jGoodjs.clear();
813 Vp4 p4chTrkjs;
814 p4chTrkjs.clear();
815 Vint i4cpip1js, i4cpip2js, i4cpim1js, i4cpim2js;
816 i4cpip1js.clear();
817 i4cpip2js.clear();
818 i4cpim1js.clear();
819 i4cpim2js.clear();
820 i4cpip1js.push_back(iGoodjs[2]);
821 i4cpip2js.push_back(iGoodjs[3]);
822 i4cpim1js.push_back(iGoodjs[1]);
823 i4cpim2js.push_back(iGoodjs[0]);
824 jGoodjs.push_back(i4cpip1js[0]);
825 jGoodjs.push_back(i4cpim1js[0]);
826 jGoodjs.push_back(i4cpip2js[0]);
827 jGoodjs.push_back(i4cpim2js[0]);
828
829 for (int i = 0; i < 4; i++)
830 {
831 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + jGoodjs[i];
832 if (!(*itTrk)->isMdcTrackValid()) continue;
833 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
834 if (!(*itTrk)->isMdcKalTrackValid()) continue;
835 RecMdcKalTrack *mdcKalTrk = (*itTrk)->mdcKalTrack();
836 double ptrk;
837 HepLorentzVector p4trk;
838 if (i<2)
839 {
841 ptrk = mdcKalTrk->p();
842 p4trk.setPx(mdcKalTrk->px());
843 p4trk.setPy(mdcKalTrk->py());
844 p4trk.setPz(mdcKalTrk->pz());
845 p4trk.setE(sqrt(ptrk*ptrk+mpi*mpi));
846 }
847 else{
849 ptrk = mdcKalTrk->p();
850 p4trk.setPx(mdcKalTrk->px());
851 p4trk.setPy(mdcKalTrk->py());
852 p4trk.setPz(mdcKalTrk->pz());
853 p4trk.setE(sqrt(ptrk*ptrk+xmass[0]*xmass[0]));
854 }
855 p4trk.boost(-1.0*psipBetajs, 0.0, 0.0);
856 p4chTrkjs.push_back(p4trk);
857 }
858 p4psipjs.boost(-1.0*psipBetajs, 0.0, 0.0);
859
860 HepLorentzVector p4pipijs = p4chTrkjs[0] + p4chTrkjs[1];
861 HepLorentzVector p4eejs = p4chTrkjs[2] + p4chTrkjs[3];
862 HepLorentzVector p4pipirecjs = p4psipjs - p4pipijs;
863 double mpprecjs=p4pipirecjs.m();
864 double mpipijs=p4pipijs.m();
865 double meejs=p4eejs.m();
866 double mcomp=sqrt((mpprecjs-3.097)*(mpprecjs-3.097)+(meejs-3.097)*(meejs-3.097));
867 if(mcomp<mcompall)
868 {
869 mcompall=mcomp;
870 ipip1js=i4cpip1js[0];
871 ipim1js=i4cpim1js[0];
872 ipip2js=i4cpip2js[0];
873 ipim2js=i4cpim2js[0];
874 mppreclst=mpprecjs;
875 meelst=meejs;
876 }
877
878if(m_rootput)
879{
880 m_mpprecall=mppreclst;
881 m_meeall=meelst;
882}
883 }
884
885 }
886 }
887 }
888
889 //{
890// HepLorentzVector p4psip(0.011*m_ecms, 0.0, 0.0, m_ecms);
891// double psipBeta = (p4psip.vect()).mag()/(p4psip.e()); // beta = P/E
892 Vint iGood4c;
893 iGood4c.clear();
894 Vdouble pTrk4c;
895 pTrk4c.clear();
896 Vint jGood;
897 jGood.clear();
898 Vint jsGood;
899 jsGood.clear();
900
901 if(mcompall>9997)
902 return StatusCode::SUCCESS;
903
904 jsGood.push_back(ipip1js);
905 jsGood.push_back(ipim1js);
906 jsGood.push_back(ipip2js);
907 jsGood.push_back(ipim2js);
908
909 for(int i = 0; i < evtRecEvent->totalCharged(); i++)
910 {
911 if(i>=evtRecTrkCol->size()) break;
912 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + i;
913 if(!(*itTrk)->isMdcTrackValid()) continue;
914 if (!(*itTrk)->isMdcKalTrackValid()) continue;
915 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
916 if((i!=ipip1js)&&(i!=ipim1js)&&(i!=ipip2js)&&(i!=ipim2js))
917 {
918 jsGood.push_back(i);
919 }
920 }
921
922 int njsGood=jsGood.size();
923 //ParticleID *pid = ParticleID::instance();
924if(m_rootput)
925{
926 for (int i = 0; i < njsGood; i++)
927 {
928 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + jsGood[i];
929 if (!(*itTrk)->isMdcTrackValid()) continue;
930 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
931 if (!(*itTrk)->isMdcKalTrackValid()) continue;
932 RecMdcKalTrack *mdcKalTrk = (*itTrk)->mdcKalTrack();
933 double ptrk;
934 ptrk = mdcKalTrk->p();
935 m_x0js[i] = mdcTrk->x();
936 m_y0js[i] = mdcTrk->y();
937 m_z0js[i] = mdcTrk->z();
938 m_r0js[i] = mdcTrk->r();
939 m_ppmdcjs[i] = mdcTrk->p();
940 m_pxmdcjs[i] = mdcTrk->px();
941 m_pymdcjs[i] = mdcTrk->py();
942 m_pzmdcjs[i] = mdcTrk->pz();
943 m_ppkaljs[i] = mdcKalTrk->p();
944 Hep3Vector p3jsi(mdcTrk->px(),mdcTrk->py(),mdcTrk->pz());
945 if(njsGood>4){
946 EvtRecTrackIterator itTrk5 = evtRecTrkCol->begin() + jsGood[4];
947 RecMdcTrack *mdcTrk5 = (*itTrk5)->mdcTrack();
948 Hep3Vector p3js5(mdcTrk5->px(),mdcTrk5->py(),mdcTrk5->pz());
949 m_angjs5[i]=p3jsi.angle(p3js5);
950 m_nearjs5[i]=p3jsi.howNear(p3js5);
951 }
952 if(njsGood>5){
953 EvtRecTrackIterator itTrk6 = evtRecTrkCol->begin() + jsGood[5];
954 RecMdcTrack *mdcTrk6 = (*itTrk6)->mdcTrack();
955 Hep3Vector p3js6(mdcTrk6->px(),mdcTrk6->py(),mdcTrk6->pz());
956 m_angjs6[i]=p3jsi.angle(p3js6);
957 m_nearjs6[i]=p3jsi.howNear(p3js6);
958 }
959
960
961 m_ptmdcjs[i] = mdcTrk->pxy();
962 m_ptkaljs[i] = mdcKalTrk->pxy();
963 double x0=mdcTrk->x();
964 double y0=mdcTrk->y();
965 double z0=mdcTrk->z();
966 double phi0=mdcTrk->helix(1);
967 double xv=v[0];
968 double yv=v[1];
969 double zv=v[2];
970 double Rxy=(x0-xv)*cos(phi0)+(y0-yv)*sin(phi0);
971 double Rz=z0-zv;
972 m_Rxyjs[i]=Rxy;
973 m_Rzjs[i]=Rz;
974 HepVector a = mdcTrk->helix();
975 HepSymMatrix Ea = mdcTrk->err();
976 HepPoint3D pivot(0.,0.,0.);
977 HepPoint3D IP(v[0],v[1],v[2]);
978 VFHelix helixp(pivot,a,Ea);
979 helixp.pivot(IP);
980 HepVector vec = helixp.a();
981 m_Rnxyjs[i]=vec[0];
982 m_Rnzjs[i]=vec[3];
983 m_phinjs[i]=vec[1];
984 //tof
985 if ((*itTrk)->isTofTrackValid())
986 { m_bjtofvaljs[i]=1;
987 m_cotof1js[i]=1;
988 SmartRefVector<RecTofTrack> tofTrkCol = (*itTrk)->tofTrack();
989 SmartRefVector<RecTofTrack>::iterator iter_tof=tofTrkCol.begin();
990 for (;iter_tof != tofTrkCol.end(); iter_tof++ ){
991 TofHitStatus *status = new TofHitStatus;
992 status->setStatus((*iter_tof)->status());
993 if(status->is_cluster()){
994 m_bjtofjs[i]=1;
995 m_counterjs[i] = status->is_counter();
996 m_barreljs[i] = status->is_barrel();
997 m_layertofjs[i] = status->layer();
998 m_readoutjs[i] = status->is_readout();
999 m_clusterjs[i] = status->is_cluster();
1000 m_cotof2js[i]=2;
1001 m_betajs[i]= (*iter_tof)->beta();
1002 m_tofjs[i] = (*iter_tof)->tof();
1003 m_tofpathjs[i] = (*iter_tof)->path();
1004 m_zhitjs[i]= (*iter_tof)->zrhit();
1005 m_texejs[i] = (*iter_tof)->texpElectron();
1006 m_texmujs[i] = (*iter_tof)->texpMuon();
1007 m_texpijs[i] = (*iter_tof)->texpPion();
1008 m_texkjs[i] = (*iter_tof)->texpKaon();
1009 m_texprjs[i] = (*iter_tof)->texpProton();
1010 m_dtejs[i] = m_tofjs[i] - m_texejs[i];
1011 m_dtmujs[i] = m_tofjs[i] - m_texmujs[i];
1012 m_dtpijs[i] = m_tofjs[i] - m_texpijs[i];
1013 m_dtkjs[i] = m_tofjs[i] - m_texkjs[i];
1014 m_dtprjs[i] = m_tofjs[i] - m_texprjs[i];
1015
1016 m_sigmaetofjs[i]=(*iter_tof)->sigma(0);
1017 m_sigmamutofjs[i]=(*iter_tof)->sigma(1);
1018 m_sigmapitofjs[i]=(*iter_tof)->sigma(2);
1019 m_sigmaktofjs[i]=(*iter_tof)->sigma(3);
1020 m_sigmaprtofjs[i]=(*iter_tof)->sigma(4);
1021 m_t0tofjs[i]=(*iter_tof)->t0();
1022 m_errt0tofjs[i]=(*iter_tof)->errt0();
1023
1024 m_tofIDjs[i]=(*iter_tof)->tofID();
1025 m_clusterIDjs[i]=(*iter_tof)->tofTrackID();
1026 }
1027 delete status;
1028 }
1029 }
1030 //dedx
1031 if ((*itTrk)->isMdcDedxValid())
1032 {
1033
1034 RecMdcDedx* dedxTrk = (*itTrk)->mdcDedx();
1035 m_chiejs[i] = dedxTrk->chiE();
1036 m_chimujs[i] = dedxTrk->chiMu();
1037 m_chipijs[i] = dedxTrk->chiPi();
1038 m_chikjs[i] = dedxTrk->chiK();
1039 m_chipjs[i] = dedxTrk->chiP();
1040 m_ghitjs[i] = dedxTrk->numGoodHits();
1041 m_thitjs[i] = dedxTrk->numTotalHits();
1042 m_probphjs[i] = dedxTrk->probPH();
1043 m_normphjs[i] = dedxTrk->normPH();
1044 }
1045
1046
1047
1048 //emc
1049 if ( (*itTrk)->isEmcShowerValid() )
1050 {
1051 RecEmcShower* emcTrk = (*itTrk)->emcShower();
1052 m_bjemcjs[i]=1;
1053 m_emcjs[i] = emcTrk->energy();
1054 m_evpjs[i] = emcTrk->energy()/ptrk;
1055 m_timecgjs[i] = emcTrk->time();
1056 // totalEnergy += emcTrk->energy();
1057 }
1058
1059 //muc
1060 if ( (*itTrk)->isMucTrackValid() )
1061 {
1062 RecMucTrack* mucTrk = (*itTrk)->mucTrack();
1063 double dpthp = mucTrk->depth()/25.0;//why?
1064 // m_depthmucjs[i] = dpthp<10.0 ? dpthp : 10.0;
1065 m_bjmucjs[i]=1;
1066 m_depthmucjs[i]=mucTrk->depth();
1067 m_layermucjs[i] = mucTrk->numLayers();
1068 }
1069
1070 m_cosmdcjs[i] = cos(mdcTrk->theta());
1071 m_phimdcjs[i] = mdcTrk->phi();
1072 //pid
1073 pid->init();
1074 pid->setMethod(pid->methodProbability());
1075 pid->setChiMinCut(4);
1076 pid->setRecTrack(*itTrk);
1077 pid->usePidSys(pid->useDedx() | pid->useTof1() | pid->useTof2());
1078 pid->identify(pid->onlyPion() | pid->onlyKaon() | pid->onlyProton());
1079 pid->identify(pid->onlyElectron() | pid->onlyMuon());
1080 pid->calculate();
1081 if(!(pid->IsPidInfoValid())) continue;
1082 // m_costpidjs[i] = cos(mdcTrk->theta());
1083 m_dedxpidjs[i] = pid->chiDedx(2);
1084 m_tof1pidjs[i] = pid->chiTof1(2);
1085 m_tof2pidjs[i] = pid->chiTof2(2);
1086 m_probejs[i] = pid->probElectron();
1087 m_probmujs[i] = pid->probMuon();
1088 m_probpijs[i] = pid->probPion();
1089 m_probkjs[i] = pid->probKaon();
1090 m_probprjs[i] = pid->probProton();
1091
1092
1093
1094 }
1095
1096}
1097
1098 Vint jGam2kpi;
1099 jGam2kpi.clear();
1100
1101 Vint iGood2kpi, ipip2kpi, ipim2kpi;
1102 iGood2kpi.clear();
1103 ipip2kpi.clear();
1104 ipim2kpi.clear();
1105 Vp4 ppip2kpi, ppim2kpi;
1106 ppip2kpi.clear();
1107 ppim2kpi.clear();
1108
1109 Vint ipipnofit, ipimnofit, ikpnofit, ikmnofit, ipropnofit, ipromnofit;
1110 ipipnofit.clear();
1111 ipimnofit.clear();
1112 ikpnofit.clear();
1113 ikmnofit.clear();
1114 ipropnofit.clear();
1115 ipromnofit.clear();
1116 Vp4 ppipnofit, ppimnofit, pkpnofit, pkmnofit, ppropnofit, ppromnofit;
1117 ppipnofit.clear();
1118 ppimnofit.clear();
1119 pkpnofit.clear();
1120 pkmnofit.clear();
1121 ppropnofit.clear();
1122 ppromnofit.clear();
1123
1124 Vdouble p3pip2kpi;
1125 p3pip2kpi.clear();
1126 Vdouble p3pim2kpi;
1127 p3pim2kpi.clear();
1128
1129 Vint itrak2kpi;
1130 itrak2kpi.clear();
1131 int cls2kpi;
1132 double chis2kpi=9999.;
1133 double m4piall=9999.;
1134 double m4kall=9999.;
1135 double mgam4piall=9999.;
1136 double mgam4kall=9999.;
1137 for(int i = 0; i < evtRecEvent->totalCharged(); i++){
1138 if(i>=evtRecTrkCol->size()) break;
1139 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + i;
1140 if(!(*itTrk)->isMdcTrackValid()) continue;
1141 if (!(*itTrk)->isMdcKalTrackValid()) continue;
1142 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
1143 double z02kpi = mdcTrk->z();
1144 double r02kpi = mdcTrk->r();
1145 HepVector a = mdcTrk->helix();
1146 HepSymMatrix Ea = mdcTrk->err();
1147 HepPoint3D pivot(0.,0.,0.);
1148 HepPoint3D IP(v[0],v[1],v[2]);
1149 VFHelix helixp(pivot,a,Ea);
1150 helixp.pivot(IP);
1151 HepVector vec = helixp.a();
1152 double Rnxy02kpi=vec[0];
1153 double Rnz02kpi=vec[3];
1154 // if(fabs(Rnxy02kpi>1.0)) continue;
1155 // if(fabs(Rnz02kpi>10.0)) continue;
1156 iGood2kpi.push_back((*itTrk)->trackId());
1157 }
1158 int nGood2kpi = iGood2kpi.size();
1159 if(nGood2kpi==4)
1160 {
1161 for(int i = 0; i < nGood2kpi; i++) {
1162 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + iGood2kpi[i];
1163 RecMdcTrack* mdcTrk = (*itTrk)->mdcTrack();
1164 RecMdcKalTrack* mdcKalTrk = (*itTrk)->mdcKalTrack();
1165 if(mdcKalTrk->charge() >0) {
1166 ipip2kpi.push_back(iGood2kpi[i]);
1167 p3pip2kpi.push_back(mdcKalTrk->p());
1168 HepLorentzVector ptrk;
1169 ptrk.setPx(mdcKalTrk->px());
1170 ptrk.setPy(mdcKalTrk->py());
1171 ptrk.setPz(mdcKalTrk->pz());
1172 double p3 = ptrk.mag();
1173 ptrk.setE(sqrt(p3*p3+mpi*mpi));
1174 ppip2kpi.push_back(ptrk);
1175 } else {
1176 ipim2kpi.push_back(iGood2kpi[i]);
1177 p3pim2kpi.push_back(mdcKalTrk->p());
1178 HepLorentzVector ptrk;
1179 ptrk.setPx(mdcKalTrk->px());
1180 ptrk.setPy(mdcKalTrk->py());
1181 ptrk.setPz(mdcKalTrk->pz());
1182 double p3 = ptrk.mag();
1183 ptrk.setE(sqrt(p3*p3+mpi*mpi));
1184 ppim2kpi.push_back(ptrk);
1185 }
1186 }
1187 int npip2kpi = ipip2kpi.size();
1188 int npim2kpi = ipim2kpi.size();
1189
1190
1191
1193
1194if(m_rootput)
1195{
1196 m_cy2kpi=6;
1197}
1198
1199 if((npip2kpi == 2)&&(npim2kpi == 2))
1200 {
1201 //if(nGamnofit>=1)
1202
1203
1204Ncut[4]++;
1205
1206 HepPoint3D xorigin2kpi(0.,0.,0.);
1207 xorigin2kpi[0]=9999.;
1208 xorigin2kpi[1]=9999.;
1209 xorigin2kpi[2]=9999.;
1210 HepSymMatrix xem2kpi(3,0);
1211
1212 Gam4pikp::BubbleSort(p3pip2kpi, ipip2kpi);
1213 Gam4pikp::BubbleSort(p3pim2kpi, ipim2kpi);
1214
1215 Mcut[1]++;
1216 RecMdcKalTrack *pip12kpiTrk = (*(evtRecTrkCol->begin()+ipip2kpi[0]))->mdcKalTrack();
1217 RecMdcKalTrack *pip22kpiTrk = (*(evtRecTrkCol->begin()+ipip2kpi[1]))->mdcKalTrack();
1218 RecMdcKalTrack *pim12kpiTrk = (*(evtRecTrkCol->begin()+ipim2kpi[0]))->mdcKalTrack();
1219 RecMdcKalTrack *pim22kpiTrk = (*(evtRecTrkCol->begin()+ipim2kpi[1]))->mdcKalTrack();
1220 double squar2kpi[10]={9999.,9999.,9999.,9999.,9999.,9999.,9999.,9999.,9999.,9999.};
1221 double mc12kpi,mc22kpi,mc32kpi,mc42kpi;
1222 // double chis2kpi=9999.;
1223 WTrackParameter wcgp12kpi;
1224 WTrackParameter wcgp22kpi;
1225 WTrackParameter wcgm12kpi;
1226 WTrackParameter wcgm22kpi;
1227 int icgp12kpi=-1;
1228 int icgp22kpi=-1;
1229 int icgm12kpi=-1;
1230 int icgm22kpi=-1;
1231 int igam2kpi=-1;
1232 double m2kpi=9999;
1233
1234 int n20=0;
1235 int n30=0;
1236 WTrackParameter wvpip12kpiTrk, wvpim12kpiTrk, wvpip22kpiTrk, wvpim22kpiTrk;
1237 for(int k=0;k<6;k++)
1238 {
1239 if(k==0){mc12kpi=mpi;mc22kpi=mpi;mc32kpi=mpi;mc42kpi=mpi;}
1240 if(k==1){mc12kpi=mk;mc22kpi=mk;mc32kpi=mk;mc42kpi=mk;}
1241 if(k==2){mc12kpi=mpi;mc22kpi=mpro;mc32kpi=mpi;mc42kpi=mpro;}
1242 if(k==3){mc12kpi=mpro;mc22kpi=mpi;mc32kpi=mpro;mc42kpi=mpi;}
1243 if(k==4){mc12kpi=mpi;mc22kpi=mpro;mc32kpi=mpro;mc42kpi=mpi; }
1244 if(k==5){mc12kpi=mpro;mc22kpi=mpi;mc32kpi=mpi;mc42kpi=mpro;}
1245
1246
1247
1248 wvpip12kpiTrk = WTrackParameter(mc12kpi, pip12kpiTrk->getZHelix(), pip12kpiTrk->getZError());
1249 wvpip22kpiTrk = WTrackParameter(mc22kpi, pip22kpiTrk->getZHelix(), pip22kpiTrk->getZError());
1250 wvpim12kpiTrk = WTrackParameter(mc32kpi, pim12kpiTrk->getZHelix(), pim12kpiTrk->getZError());
1251 wvpim22kpiTrk = WTrackParameter(mc42kpi, pim22kpiTrk->getZHelix(), pim22kpiTrk->getZError());
1252 HepPoint3D vx(0., 0., 0.);
1253 HepSymMatrix Evx(3, 0);
1254 double bx = 1E+6;
1255 double by = 1E+6;
1256 double bz = 1E+6;
1257 Evx[0][0] = bx*bx;
1258 Evx[1][1] = by*by;
1259 Evx[2][2] = bz*bz;
1260 VertexParameter vxpar;
1261 vxpar.setVx(vx);
1262 vxpar.setEvx(Evx);
1263 VertexFit* vtxfit = VertexFit::instance();
1264 vtxfit->init();
1265 vtxfit->AddTrack(0, wvpip12kpiTrk);
1266 vtxfit->AddTrack(1, wvpim12kpiTrk);
1267 vtxfit->AddTrack(2, wvpip22kpiTrk);
1268 vtxfit->AddTrack(3, wvpim22kpiTrk);
1269 vtxfit->AddVertex(0, vxpar,0, 1, 2, 3);
1270 if(!vtxfit->Fit(0)) continue;
1271 vtxfit->Swim(0);
1272 WTrackParameter wpip12kpi = vtxfit->wtrk(0);
1273 WTrackParameter wpim12kpi = vtxfit->wtrk(1);
1274 WTrackParameter wpip22kpi = vtxfit->wtrk(2);
1275 WTrackParameter wpim22kpi = vtxfit->wtrk(3);
1276 WTrackParameter wpip12kpiys = vtxfit->wtrk(0);
1277 WTrackParameter wpim12kpiys = vtxfit->wtrk(1);
1278 WTrackParameter wpip22kpiys = vtxfit->wtrk(2);
1279 WTrackParameter wpim22kpiys = vtxfit->wtrk(3);
1280 xorigin2kpi = vtxfit->vx(0);
1281 xem2kpi = vtxfit->Evx(0);
1283
1284 HepLorentzVector ecms(0.040547,0,0,3.68632);
1285
1286 double chisq = 9999.;
1287 int ig1 = -1;
1288 for(int i = 0; i < nGam; i++) {
1289 RecEmcShower *g1Trk = (*(evtRecTrkCol->begin()+iGam[i]))->emcShower();
1290 kmfit->init();
1291 kmfit->setBeamPosition(xorigin2kpi);
1292 kmfit->setVBeamPosition(xem2kpi);
1293 kmfit->AddTrack(0, wpip12kpi);
1294 kmfit->AddTrack(1, wpim12kpi);
1295 kmfit->AddTrack(2, wpip22kpi);
1296 kmfit->AddTrack(3, wpim22kpi);
1297 kmfit->AddTrack(4, 0.0, g1Trk);
1298 kmfit->AddFourMomentum(0, p4psip);
1299 // if(!kmfit->Fit(0)) continue;
1300 bool oksq = kmfit->Fit();
1301 if(oksq) {
1302 double chi2 = kmfit->chisq();
1303 if(chi2 < chisq) {
1304 chisq = chi2;
1305 squar2kpi[k]=chi2;
1306 ig1 = iGam[i];
1307
1308 }
1309 }
1310 }
1311 if(squar2kpi[k]<200&&squar2kpi[k]<chis2kpi)
1312 {
1313// m_comcs2kpi[k]=squar2kpi[k];
1314 chis2kpi=squar2kpi[k];
1315 if(squar2kpi[k]<20) n20=n20+1;
1316 if(squar2kpi[k]<30) n30=n30+1;
1317
1318 icgp12kpi=ipip2kpi[0];
1319 icgp22kpi=ipip2kpi[1];
1320 icgm12kpi=ipim2kpi[0];
1321 icgm22kpi=ipim2kpi[1];
1322 igam2kpi=ig1;
1323 wcgp12kpi=wpip12kpiys;
1324 wcgp22kpi=wpip22kpiys;
1325 wcgm12kpi=wpim12kpiys;
1326 wcgm22kpi=wpim22kpiys;
1327 cls2kpi=k;
1328
1329 if(k==0){
1330 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[0]);
1331 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[1]);
1332 }
1333
1334 if(k==1){
1335 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[0]);
1336 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[1]);
1337 }
1338
1339
1340 if(k==2){
1341 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[0]);
1342 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[1]);
1343 }
1344
1345 if(k==3){
1346 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[1]);
1347 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[0]);
1348 }
1349
1350 if(k==4){
1351 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[1]);
1352 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[0]);
1353 }
1354
1355 if(k==5){
1356 itrak2kpi.push_back(ipip2kpi[1]); itrak2kpi.push_back(ipim2kpi[0]);
1357 itrak2kpi.push_back(ipip2kpi[0]); itrak2kpi.push_back(ipim2kpi[1]);
1358 }
1359
1360
1361
1362
1363
1364 RecEmcShower *g1Trk = (*(evtRecTrkCol->begin()+igam2kpi))->emcShower();
1365 kmfit->init();
1366 kmfit->setBeamPosition(xorigin2kpi);
1367 kmfit->setVBeamPosition(xem2kpi);
1368 kmfit->AddTrack(0, wpip12kpi);
1369 kmfit->AddTrack(1, wpim12kpi);
1370 kmfit->AddTrack(2, wpip22kpi);
1371 kmfit->AddTrack(3, wpim22kpi);
1372 kmfit->AddTrack(4, 0.0, g1Trk);
1373 kmfit->AddFourMomentum(0, p4psip);
1374 bool oksq = kmfit->Fit();
1375 if(oksq){
1376 HepLorentzVector pchic2kpi = kmfit->pfit(0) + kmfit->pfit(1)+kmfit->pfit(2) + kmfit->pfit(3);
1377 HepLorentzVector ppsip2kpi = kmfit->pfit(0) + kmfit->pfit(1)+kmfit->pfit(2) + kmfit->pfit(3) + kmfit->pfit(4);
1378 mchic2kpilst=pchic2kpi.m();
1379 chis4c2kpilst=kmfit->chisq();
1380if(m_rootput)
1381{
1382 m_mchic2kpi = pchic2kpi.m();
1383 m_chis2kpi = kmfit->chisq();
1384 m_mpsip2kpi=ppsip2kpi.m();
1385}
1386
1387
1388
1389 }
1390
1391
1392 }
1393 }
1394
1395
1396 if(chis2kpi<200)
1397 {
1398Ncut[5]++;
1399 if(m_rootput)
1400 {
1401 m_ncy20=n20;
1402 m_ncy30=n30;
1403 m_cla2kpi=cls2kpi;
1404 }
1405 type2kpilst=cls2kpi;
1406
1407 Vp4 p2kpi;
1408 p2kpi.clear();
1409
1410 for (int i = 0; i < 4; i++)
1411 {
1412 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + itrak2kpi[i];
1413 if (!(*itTrk)->isMdcTrackValid()) continue;
1414 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
1415 if (!(*itTrk)->isMdcKalTrackValid()) continue;
1416 RecMdcKalTrack *mdcKalTrk = (*itTrk)->mdcKalTrack();
1417 double ptrk2kpi;
1418 HepLorentzVector p4trk2kpi;
1419 if(cls2kpi==1)
1420 {
1421 mdcKalTrk->setPidType(RecMdcKalTrack::kaon);
1422 ptrk2kpi = mdcKalTrk->p();
1423 p4trk2kpi.setPx(mdcKalTrk->px());
1424 p4trk2kpi.setPy(mdcKalTrk->py());
1425 p4trk2kpi.setPz(mdcKalTrk->pz());
1426 p4trk2kpi.setE(sqrt(ptrk2kpi*ptrk2kpi+mk*mk));
1427 p2kpi.push_back(p4trk2kpi);
1428 }
1429
1430 if(cls2kpi==2)
1431 {
1432 if (i<2)
1433 {
1434 mdcKalTrk->setPidType(RecMdcKalTrack::pion);
1435 ptrk2kpi = mdcKalTrk->p();
1436 p4trk2kpi.setPx(mdcKalTrk->px());
1437 p4trk2kpi.setPy(mdcKalTrk->py());
1438 p4trk2kpi.setPz(mdcKalTrk->pz());
1439 p4trk2kpi.setE(sqrt(ptrk2kpi*ptrk2kpi+mpi*mpi));
1440 p2kpi.push_back(p4trk2kpi);
1441
1442 }
1443 else{
1445 ptrk2kpi = mdcKalTrk->p();
1446 p4trk2kpi.setPx(mdcKalTrk->px());
1447 p4trk2kpi.setPy(mdcKalTrk->py());
1448 p4trk2kpi.setPz(mdcKalTrk->pz());
1449 p4trk2kpi.setE(sqrt(ptrk2kpi*ptrk2kpi+mpro*mpro));
1450 p2kpi.push_back(p4trk2kpi);
1451
1452 }
1453
1454 }
1455 if(cls2kpi!=1&&cls2kpi!=2)
1456 {
1457 mdcKalTrk->setPidType(RecMdcKalTrack::pion);
1458 ptrk2kpi = mdcKalTrk->p();
1459 p4trk2kpi.setPx(mdcKalTrk->px());
1460 p4trk2kpi.setPy(mdcKalTrk->py());
1461 p4trk2kpi.setPz(mdcKalTrk->pz());
1462 p4trk2kpi.setE(sqrt(ptrk2kpi*ptrk2kpi+mpi*mpi));
1463 p2kpi.push_back(p4trk2kpi);
1464 }
1465
1466
1467
1468
1469 }
1470
1471 for (int i = 0; i < 4; i++)
1472 {
1473 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + itrak2kpi[i];
1474 if (!(*itTrk)->isMdcTrackValid()) continue;
1475 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
1476 if (!(*itTrk)->isMdcKalTrackValid()) continue;
1477 RecMdcKalTrack *mdcKalTrk = (*itTrk)->mdcKalTrack();
1478 if ((*itTrk)->isTofTrackValid())
1479 {
1480 SmartRefVector<RecTofTrack> tofTrkCol = (*itTrk)->tofTrack();
1481 SmartRefVector<RecTofTrack>::iterator iter_tof=tofTrkCol.begin();
1482 for (;iter_tof != tofTrkCol.end(); iter_tof++ ){
1483 TofHitStatus *status = new TofHitStatus;
1484 status->setStatus((*iter_tof)->status());
1485 if(status->is_cluster()){ dtpr2kpilst[i]=((*iter_tof)->tof()-(*iter_tof)->texpProton());
1486 }
1487 delete status;
1488 }
1489 }
1490 }
1491
1492
1493 /*
1494 HepLorentzVector ecmsb(0.040547,0,0,3.68632);
1495 double chisq = 9999.;
1496 RecEmcShower *g1Trk = (*(evtRecTrkCol->begin()+igam2kpi))->emcShower();
1497 KalmanKinematicFit * kmfit = KalmanKinematicFit::instance();
1498 kmfit->init();
1499 kmfit->setBeamPosition(xorigin2kpi);
1500 kmfit->setVBeamPosition(xem2kpi);
1501 kmfit->AddTrack(0, wcgp12kpi);
1502 kmfit->AddTrack(1, wcgp22kpi);
1503 kmfit->AddTrack(2, wcgm12kpi);
1504 kmfit->AddTrack(3, wcgm22kpi);
1505 kmfit->AddTrack(4, 0.0, g1Trk);
1506 kmfit->AddFourMomentum(0, p4psip);
1507 bool oksq = kmfit->Fit();
1508 if(oksq) {
1509 Mcut[3]++;
1510 HepLorentzVector pchic4c2kpi = kmfit->pfit(0) + kmfit->pfit(1)+kmfit->pfit(2) + kmfit->pfit(3);
1511 HepLorentzVector ppsip4c2kpi = kmfit->pfit(0) + kmfit->pfit(1)+kmfit->pfit(2) + kmfit->pfit(3) + kmfit->pfit(4);
1512
1513 m_mchic4c2kpi = pchic4c2kpi.m();
1514// m2kpi=m_mchic4c2kpi;
1515 m_chis4c2kpi = kmfit->chisq();
1516 m_mpsip4c2kpi=ppsip4c2kpi.m();
1517
1518
1519
1520
1521 }
1522
1523*/
1524 Mcut[2]++;
1525if(m_rootput)
1526{
1527 for (int i = 0; i < 4; i++)
1528 {
1529 EvtRecTrackIterator itTrk = evtRecTrkCol->begin() + itrak2kpi[i];
1530 if (!(*itTrk)->isMdcTrackValid()) continue;
1531 RecMdcTrack *mdcTrk = (*itTrk)->mdcTrack();
1532 if (!(*itTrk)->isMdcKalTrackValid()) continue;
1533 RecMdcKalTrack *mdcKalTrk = (*itTrk)->mdcKalTrack();
1534 m_ppmdc2kpi[i]=mdcTrk->p();
1535 m_pxmdc2kpi[i]=mdcTrk->px();
1536 m_pymdc2kpi[i]=mdcTrk->py();
1537 m_pzmdc2kpi[i]=mdcTrk->pz();
1538 m_ppkal2kpi[i]=mdcKalTrk->p();
1539 m_charge2kpi[i]=mdcKalTrk->charge();
1540 double ptrk;
1541 ptrk=mdcKalTrk->p();
1542
1543 if (eventHeader->runNumber()<0)
1544 {double mcall=9999;
1545 SmartDataPtr<Event::McParticleCol> mcParticleCol(eventSvc(), "/Event/MC/McParticleCol");
1546 int m_numParticle = 0;
1547 if (!mcParticleCol)
1548 {
1549// std::cout << "Could not retrieve McParticelCol" << std::endl;
1550 return StatusCode::FAILURE;
1551 }
1552 else
1553 {
1554 Event::McParticleCol::iterator iter_mc = mcParticleCol->begin();
1555 for (; iter_mc != mcParticleCol->end(); iter_mc++)
1556 { double commc;
1557 int pdgcode = (*iter_mc)->particleProperty();
1558 float px,py,pz;
1559 px=(*iter_mc)->initialFourMomentum().x();
1560 py=(*iter_mc)->initialFourMomentum().y();
1561 pz=(*iter_mc)->initialFourMomentum().z();
1562
1563 commc=ptrk*ptrk-px*px-py*py-pz*pz;
1564 if(fabs(commc)<fabs(mcall))
1565 {
1566 mcall=commc;
1567 m_pdg[i]=pdgcode;
1568 m_cbmc[i]=commc;
1569 }
1570
1571 }
1572
1573 }
1574
1575 }
1576
1577 if ((*itTrk)->isTofTrackValid())
1578 { m_bjtofval2kpi[i]=1;
1579 m_cotof12kpi[i]=1;
1580 SmartRefVector<RecTofTrack> tofTrkCol = (*itTrk)->tofTrack();
1581 SmartRefVector<RecTofTrack>::iterator iter_tof=tofTrkCol.begin();
1582 for (;iter_tof != tofTrkCol.end(); iter_tof++ ){
1583 TofHitStatus *status = new TofHitStatus;
1584 status->setStatus((*iter_tof)->status());
1585
1586 if(status->is_cluster()){
1587
1588
1589 m_bjtof2kpi[i]=1;
1590 m_counter2kpi[i] = status->is_counter();
1591 m_barrel2kpi[i] = status->is_barrel();
1592 m_layertof2kpi[i] = status->layer();
1593 m_readout2kpi[i] = status->is_readout();
1594 m_cluster2kpi[i] = status->is_cluster();
1595 m_cotof22kpi[i]=2;
1596 m_beta2kpi[i]= (*iter_tof)->beta();
1597 m_tof2kpi[i] = (*iter_tof)->tof();
1598 m_tofpath2kpi[i] = (*iter_tof)->path();
1599 m_zhit2kpi[i]= (*iter_tof)->zrhit();
1600 m_texe2kpi[i] = (*iter_tof)->texpElectron();
1601 m_texmu2kpi[i] = (*iter_tof)->texpMuon();
1602 m_texpi2kpi[i] = (*iter_tof)->texpPion();
1603 m_texk2kpi[i] = (*iter_tof)->texpKaon();
1604 m_texpr2kpi[i] = (*iter_tof)->texpProton();
1605 m_dte2kpi[i] = m_tof2kpi[i] - m_texe2kpi[i];
1606 m_dtmu2kpi[i] = m_tof2kpi[i] - m_texmu2kpi[i];
1607 m_dtpi2kpi[i] = m_tof2kpi[i] - m_texpi2kpi[i];
1608 m_dtk2kpi[i] = m_tof2kpi[i] - m_texk2kpi[i];
1609 m_dtpr2kpi[i] = m_tof2kpi[i] - m_texpr2kpi[i];
1610 m_tofID2kpi[i]=(*iter_tof)->tofID();
1611 m_clusterID2kpi[i]=(*iter_tof)->tofTrackID();
1612 m_sigmaetof2kpi[i]=(*iter_tof)->sigma(0);
1613 m_sigmamutof2kpi[i]=(*iter_tof)->sigma(1);
1614 m_sigmapitof2kpi[i]=(*iter_tof)->sigma(2);
1615 m_sigmaktof2kpi[i]=(*iter_tof)->sigma(3);
1616 m_sigmaprtof2kpi[i]=(*iter_tof)->sigma(4);
1617 m_t0tof2kpi[i]=(*iter_tof)->t0();
1618 m_errt0tof2kpi[i]=(*iter_tof)->errt0();
1619
1620 }
1621 delete status;
1622 }
1623 }
1624
1625
1626
1627
1628
1629
1630 if ((*itTrk)->isMdcDedxValid())
1631 {
1632 RecMdcDedx* dedxTrk = (*itTrk)->mdcDedx();
1633 m_chie2kpi[i] = dedxTrk->chiE();
1634 m_chimu2kpi[i] = dedxTrk->chiMu();
1635 m_chipi2kpi[i] = dedxTrk->chiPi();
1636 m_chik2kpi[i] = dedxTrk->chiK();
1637 m_chip2kpi[i] = dedxTrk->chiP();
1638 m_ghit2kpi[i] = dedxTrk->numGoodHits();
1639 m_thit2kpi[i] = dedxTrk->numTotalHits();
1640 m_probph2kpi[i] = dedxTrk->probPH();
1641 m_normph2kpi[i] = dedxTrk->normPH();
1642 }
1643
1644 //emc
1645 if ( (*itTrk)->isEmcShowerValid() )
1646 {
1647 RecEmcShower* emcTrk = (*itTrk)->emcShower();
1648 m_bjemc2kpi[i]=1;
1649 m_emc2kpi[i] = emcTrk->energy();
1650 m_evp2kpi[i] = emcTrk->energy()/ptrk;
1651 m_timecg2kpi[i] = emcTrk->time();
1652 }
1653
1654
1655 //muc
1656 if ( (*itTrk)->isMucTrackValid() )
1657 {
1658 RecMucTrack* mucTrk = (*itTrk)->mucTrack();
1659 double dpthp = mucTrk->depth()/25.0;//why?
1660 m_bjmuc2kpi[i]=1;
1661 m_depthmuc2kpi[i]=mucTrk->depth();
1662 m_layermuc2kpi[i] = mucTrk->numLayers();
1663 }
1664
1665 m_cosmdc2kpi[i] = cos(mdcTrk->theta());
1666 m_phimdc2kpi[i] = mdcTrk->phi();
1667
1668 m_pidnum2kpi[i]=(*itTrk)->partId();
1669
1670 if(m_skim4pi)
1671 {
1672 if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==0)
1673 {
1674 if(i<4) (*itTrk)->setPartId(3);
1675 }
1676
1677if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==1)
1678 {
1679 if(i<4) (*itTrk)->setPartId(4);
1680 }
1681
1682
1683if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==2)
1684 {
1685 if(i==0||i==1) (*itTrk)->setPartId(3);
1686 if(i==2||i==3) (*itTrk)->setPartId(5);
1687 }
1688
1689 }
1690 //pid
1692 pid->init();
1693 pid->setMethod(pid->methodProbability());
1694 pid->setChiMinCut(4);
1695 pid->setRecTrack(*itTrk);
1696 pid->usePidSys(pid->useDedx() | pid->useTof1() | pid->useTof2());
1697 pid->identify(pid->onlyPion() | pid->onlyKaon() | pid->onlyProton());
1698 pid->identify(pid->onlyElectron() | pid->onlyMuon());
1699 pid->calculate();
1700 if(!(pid->IsPidInfoValid())) continue;
1701 m_costpid2kpi[i] = cos(mdcTrk->theta());
1702
1703
1704 m_probe2kpi[i] = pid->probElectron();
1705 m_probmu2kpi[i] = pid->probMuon();
1706 m_probpi2kpi[i] = pid->probPion();
1707 m_probk2kpi[i] = pid->probKaon();
1708 m_probpr2kpi[i] = pid->probProton();
1709
1710 m_chipidxpid2kpi[i] = pid->chiDedx(2);
1711 m_chipitof1pid2kpi[i] = pid->chiTof1(2);
1712 m_chipitof2pid2kpi[i] = pid->chiTof2(2);
1713 m_chipitofpid2kpi[i]=pid->chiTof(2);
1714 m_chipitofepid2kpi[i]=pid->chiTofE(2);
1715 m_chipitofqpid2kpi[i]=pid->chiTofQ(2);
1716 m_probpidxpid2kpi[i]=pid->probDedx(2);
1717 m_probpitofpid2kpi[i]=pid->probTof(2);
1718
1719 m_chikdxpid2kpi[i] = pid->chiDedx(3);
1720 m_chiktof1pid2kpi[i] = pid->chiTof1(3);
1721 m_chiktof2pid2kpi[i] = pid->chiTof2(3);
1722 m_chiktofpid2kpi[i]=pid->chiTof(3);
1723 m_chiktofepid2kpi[i]=pid->chiTofE(3);
1724 m_chiktofqpid2kpi[i]=pid->chiTofQ(3);
1725 m_probkdxpid2kpi[i]=pid->probDedx(3);
1726 m_probktofpid2kpi[i]=pid->probTof(3);
1727
1728 m_chiprdxpid2kpi[i] = pid->chiDedx(4);
1729 m_chiprtof1pid2kpi[i] = pid->chiTof1(4);
1730 m_chiprtof2pid2kpi[i] = pid->chiTof2(4);
1731 m_chiprtofpid2kpi[i]=pid->chiTof(4);
1732 m_chiprtofepid2kpi[i]=pid->chiTofE(4);
1733 m_chiprtofqpid2kpi[i]=pid->chiTofQ(4);
1734 m_probprdxpid2kpi[i]=pid->probDedx(4);
1735 m_probprtofpid2kpi[i]=pid->probTof(4);
1736
1737
1738 if ((*itTrk)->isTofTrackValid())
1739 {
1740 SmartRefVector<RecTofTrack> dstTofTrackCol = (*itTrk)->tofTrack();
1741 SmartRefVector<RecTofTrack>::iterator iter_tof = dstTofTrackCol.begin();
1742 for( ; iter_tof!=dstTofTrackCol.end(); iter_tof++ )
1743 {
1744
1745 m_trk_pidtype=0;
1746 m_trk_type=0;
1747 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==0&&m_probpi2kpi[i]>m_probk2kpi[i]&&m_probpi2kpi[i]>m_probpr2kpi[i]))
1748 m_trk_pidtype=1;
1749
1750 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==1&&m_probk2kpi[i]>m_probpi2kpi[i]&&m_probk2kpi[i]>m_probpr2kpi[i]))
1751 m_trk_pidtype=2;
1752
1753 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==2&&m_probpr2kpi[i]>m_probpi2kpi[i]&&m_probpr2kpi[i]>m_probk2kpi[i]&&(i==2||i==3)))
1754 m_trk_pidtype=3;
1755
1756 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==0))
1758 m_trk_type=1;
1759 }
1760 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==1))
1762 m_trk_type=2;
1763 }
1764 if((((m_mchic2kpi>3.39&&m_mchic2kpi<3.44)||(m_mchic2kpi>3.5&&m_mchic2kpi<3.57))&&m_chis2kpi<20&&m_mpprecall<3.06&&m_energy[0]<0.3&&m_energy[0]>0.1&&m_cla2kpi==2&&(i==2||i==3)))
1765 {
1767 m_trk_type=3;
1768
1769 }
1770 m_trk_trackid = (*iter_tof)->trackID();
1771 m_trk_tofid = (*iter_tof)->tofID();
1772 TofHitStatus* hitStatus = new TofHitStatus;
1773 hitStatus->setStatus( (*iter_tof)->status() );
1774
1775 m_trk_raw = hitStatus->is_raw();
1776 m_trk_readout = hitStatus->is_readout();
1777 m_trk_counter = hitStatus->is_counter();
1778 m_trk_cluster = hitStatus->is_cluster();
1779 m_trk_barrel = hitStatus->is_barrel();
1780 m_trk_east = hitStatus->is_east();
1781 m_trk_layer = hitStatus->layer();
1782 delete hitStatus;
1783 m_trk_path = (*iter_tof)->path();
1784 m_trk_zrhit = (*iter_tof)->zrhit();
1785 m_trk_ph = (*iter_tof)->ph();
1786 m_trk_tof = (*iter_tof)->tof();
1787 m_trk_beta = (*iter_tof)->beta();
1788 m_trk_texpe = (*iter_tof)->texpElectron();
1789 m_trk_texpmu = (*iter_tof)->texpMuon();
1790 m_trk_texppi = (*iter_tof)->texpPion();
1791 m_trk_texpk = (*iter_tof)->texpKaon();
1792 m_trk_texpp = (*iter_tof)->texpProton();
1793
1794 m_trk_offe = (*iter_tof)->toffsetElectron();
1795 m_trk_offmu = (*iter_tof)->toffsetMuon();
1796 m_trk_offpi = (*iter_tof)->toffsetPion();
1797 m_trk_offk = (*iter_tof)->toffsetKaon();
1798 m_trk_offp = (*iter_tof)->toffsetProton();
1799 m_trk_quality = (*iter_tof)->quality();
1800 m_trk_ppmdc=mdcTrk->p();
1801 m_trk_ppkal=mdcKalTrk->p();
1802 m_trk_cosmdc=cos(mdcTrk->theta());
1803 m_trk_phimdc=mdcTrk->phi();
1804 m_trk_coskal=cos(mdcKalTrk->theta());
1805 m_trk_phikal=mdcKalTrk->phi();
1806
1807 if(i==0||i==2)
1808 m_trk_charge=1;
1809 if(i==2||i==3)
1810 m_trk_charge=2;
1811 trk_tuple->write();
1812 }
1813 }
1814 }
1815}
1816
1817 }
1818// Ncut[10]++;
1819
1820if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==0)
1821{
1822 jGam2kpi.push_back(igam2kpi);
1823}
1824
1825 for(int i = evtRecEvent->totalCharged(); i< evtRecEvent->totalTracks(); i++) {
1826 if(i>=evtRecTrkCol->size()) break;
1827 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + i;
1828 if(!(*itTrk)->isEmcShowerValid()) continue;
1829if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==0)
1830 {
1831 if(i!=igam2kpi) jGam2kpi.push_back((*itTrk)->trackId());
1832 }
1833 else{
1834 jGam2kpi.push_back((*itTrk)->trackId());
1835 }
1836
1837 }
1838
1839int ngam2kpi=jGam2kpi.size();
1840
1841if(m_rootput)
1842{
1843for(int i = 0; i< ngam2kpi; i++) {
1844 if(i>=evtRecTrkCol->size()) break;
1845 EvtRecTrackIterator itTrk=evtRecTrkCol->begin() + jGam2kpi[i];
1846 if(!(*itTrk)->isEmcShowerValid()) continue;
1847 RecEmcShower *emcTrk = (*(evtRecTrkCol->begin()+jGam2kpi[i]))->emcShower();
1848 Hep3Vector emcpos(emcTrk->x(), emcTrk->y(), emcTrk->z());
1849 double dthe = 200.;
1850 double dphi = 200.;
1851 double dang = 200.;
1852// double dthert = 200.;
1853// double dphirt = 200.;
1854// double dangrt = 200.;
1855 for(int j = 0; j < evtRecEvent->totalCharged(); j++) {
1856 if(j>=evtRecTrkCol->size()) break;
1857 EvtRecTrackIterator jtTrk = evtRecTrkCol->begin() + j;
1858 if(!(*jtTrk)->isExtTrackValid()) continue;
1859 RecExtTrack *extTrk = (*jtTrk)->extTrack();
1860 if(extTrk->emcVolumeNumber() == -1) continue;
1861 Hep3Vector extpos = extTrk->emcPosition();
1862 double angd = extpos.angle(emcpos);
1863 double thed = extpos.theta() - emcpos.theta();
1864 double phid = extpos.deltaPhi(emcpos);
1865 thed = fmod(thed+CLHEP::twopi+CLHEP::twopi+pi, CLHEP::twopi) - CLHEP::pi;
1866 phid = fmod(phid+CLHEP::twopi+CLHEP::twopi+pi, CLHEP::twopi) - CLHEP::pi;
1867// if(fabs(thed) < fabs(dthe)) dthe = thed;
1868// if(fabs(phid) < fabs(dphi)) dphi = phid;
1869// if(angd < dang) dang = angd;
1870 if(angd < dang) { dang = angd;
1871 dthe = thed;
1872 dphi = phid;
1873 }
1874
1875 }
1876 if(dang>=200) continue;
1877 double eraw = emcTrk->energy();
1878 dthe = dthe * 180 / (CLHEP::pi);
1879 dphi = dphi * 180 / (CLHEP::pi);
1880 dang = dang * 180 / (CLHEP::pi);
1881// dthert = dthert * 180 / (CLHEP::pi);
1882// dphirt = dphirt * 180 / (CLHEP::pi);
1883// dangrt = dangrt * 180 / (CLHEP::pi);
1884 m_numHits[i]= emcTrk->numHits();
1885 m_secondmoment[i] = emcTrk->secondMoment();
1886 m_latmoment[i] = emcTrk->latMoment();
1887 m_timegm[i] = emcTrk->time();
1888 m_cellId[i]=emcTrk->cellId();
1889 m_module[i]=emcTrk->module();
1890 m_a20Moment[i]=emcTrk->a20Moment();
1891 m_a42Moment[i]=emcTrk->a42Moment();
1892 m_getShowerId[i]=emcTrk->getShowerId();
1893 m_getClusterId[i]=emcTrk->getClusterId();
1894 m_getEAll[i]=emcTrk->getEAll();
1895 m_x[i]= emcTrk->x();
1896 m_y[i]= emcTrk->y();
1897 m_z[i]= emcTrk->z();
1898 m_cosemc[i] = cos(emcTrk->theta());
1899 m_phiemc[i] = emcTrk->phi();
1900 m_energy[i] = emcTrk->energy();
1901 m_eSeed[i] = emcTrk->eSeed();
1902 m_e3x3[i] = emcTrk->e3x3();
1903 m_e5x5[i] = emcTrk->e5x5();
1904 m_dang4c[i] = dang;
1905 m_dthe4c[i] = dthe;
1906 m_dphi4c[i] = dphi;
1907// m_dang4crt[i] = dangrt;
1908// m_dthe4crt[i] = dthert;
1909// m_dphi4crt[i] = dphirt;
1910
1911}
1912}
1913}
1914
1915}
1916
1917
1918
1919
1920
1921 //4pi
1922 if(m_skim4pi)
1923 {
1924
1925if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==0)
1926 {m_subalg1->execute(); // save gam4pi data
1927 Ncut[6]++;
1928 }
1929 }
1930
1931 //4k
1932 if(m_skim4k)
1933 {
1934
1935if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==1&&dtpr2kpilst[0]<-0.4&&dtpr2kpilst[1]<-0.4&&dtpr2kpilst[2]<-0.4&&dtpr2kpilst[3]<-0.4)
1936 {m_subalg2->execute(); // save gam4k data
1937 Ncut[7]++;
1938 }
1939 }
1940
1941 if(m_skim2pi2pr)
1942 {
1943if(mppreclst<3.06&&chis4c2kpilst<20&&((mchic2kpilst>3.39&&mchic2kpilst<3.44)||(mchic2kpilst>3.5&&mchic2kpilst<3.57))&&type2kpilst==2)
1944 {m_subalg3->execute(); // save gam 2(pi p) data
1945 // pi+ pi- with low momentum and p pbar with high momentum.
1946 Ncut[8]++;
1947 }
1948 }
1949
1950
1951
1952//cout<<"chis4c2kpilst="<<chis4c2kpilst<<endl;
1953if(m_rootput)
1954{
1955
1956if((mppreclst<3.06&&chis4c2kpilst<40)||((meelst>3.06&&meelst<3.12)&&(fabs(mppreclst-3.097)<0.01)))
1957 { Ncut[9]++;
1958 m_tuple1->write();
1959
1960 }
1961}
1962
1963 return StatusCode::SUCCESS;
1964 }
double sin(const BesAngle a)
Definition BesAngle.h:210
double cos(const BesAngle a)
Definition BesAngle.h:213
EvtRecTrackCol::iterator EvtRecTrackIterator
std::vector< HepLorentzVector > Vp4
Definition Gam4pikp.cxx:53
const double xmass[5]
Definition Gam4pikp.cxx:50
const double mpro
Definition Gam4pikp.cxx:49
const double mk
Definition Gam4pikp.cxx:48
std::vector< double > Vdouble
Definition Gam4pikp.cxx:54
const double mpi
Definition Gam4pikp.cxx:47
std::vector< int > Vint
Definition Gam4pikp.cxx:52
**********Class see also m_nmax DOUBLE PRECISION m_amel DOUBLE PRECISION m_x2 DOUBLE PRECISION m_alfinv DOUBLE PRECISION m_Xenph INTEGER m_KeyWtm INTEGER m_idyfs DOUBLE PRECISION m_zini DOUBLE PRECISION m_q2 DOUBLE PRECISION m_Wt_KF DOUBLE PRECISION m_WtCut INTEGER m_KFfin *COMMON c_KarLud $ !Input CMS energy[GeV] $ !CMS energy after beam spread beam strahlung[GeV] $ !Beam energy spread[GeV] $ !z boost due to beam spread $ !electron beam mass *ff pair spectrum $ !minimum v
Definition KarLud.h:35
IMessageSvc * msgSvc()
int cellId() const
double latMoment() const
double a42Moment() const
double eSeed() const
double theta() const
int module() const
double e3x3() const
double phi() const
double secondMoment() const
double x() const
double e5x5() const
double time() const
double z() const
int numHits() const
double a20Moment() const
double energy() const
double y() const
const Hep3Vector emcPosition() const
const int emcVolumeNumber() const
double probPH() const
Definition DstMdcDedx.h:66
double chiE() const
Definition DstMdcDedx.h:59
int numTotalHits() const
Definition DstMdcDedx.h:65
int numGoodHits() const
Definition DstMdcDedx.h:64
double normPH() const
Definition DstMdcDedx.h:67
double chiPi() const
Definition DstMdcDedx.h:61
double chiK() const
Definition DstMdcDedx.h:62
double chiMu() const
Definition DstMdcDedx.h:60
double chiP() const
Definition DstMdcDedx.h:63
const double theta() const
const double phi() const
const double px() const
static void setPidType(PidType pidType)
const double pz() const
const double py() const
const double p() const
const int charge() const
const double pxy() const
const double theta() const
Definition DstMdcTrack.h:59
const double r() const
Definition DstMdcTrack.h:64
const double py() const
Definition DstMdcTrack.h:56
const HepSymMatrix err() const
const int charge() const
Definition DstMdcTrack.h:53
const double px() const
Definition DstMdcTrack.h:55
const double phi() const
Definition DstMdcTrack.h:60
const double pz() const
Definition DstMdcTrack.h:57
const double pxy() const
Definition DstMdcTrack.h:54
const HepVector helix() const
......
const double z() const
Definition DstMdcTrack.h:63
const double p() const
Definition DstMdcTrack.h:58
const double y() const
Definition DstMdcTrack.h:62
const double x() const
Definition DstMdcTrack.h:61
double depth() const
Definition DstMucTrack.h:45
int numLayers() const
Definition DstMucTrack.h:42
virtual bool isVertexValid()=0
virtual double * SigmaPrimaryVertex()=0
virtual double * PrimaryVertex()=0
void AddFourMomentum(int number, HepLorentzVector p4)
HepLorentzVector pfit(int n) const
static KalmanKinematicFit * instance()
int useTof2() const
int onlyProton() const
int methodProbability() const
int useDedx() const
int onlyMuon() const
int onlyKaon() const
int onlyElectron() const
int onlyPion() const
int useTof1() const
void setChiMinCut(const double chi=4)
void setRecTrack(EvtRecTrack *trk)
double probKaon() const
Definition ParticleID.h:124
void setMethod(const int method)
Definition ParticleID.h:94
double probTof(int n) const
double chiTof2(int n) const
double chiTofE(int n) const
void identify(const int pidcase)
Definition ParticleID.h:103
double probMuon() const
Definition ParticleID.h:122
double probElectron() const
Definition ParticleID.h:121
void usePidSys(const int pidsys)
Definition ParticleID.h:97
double chiTofQ(int n) const
static ParticleID * instance()
bool IsPidInfoValid() const
double probDedx(int n) const
double probPion() const
Definition ParticleID.h:123
double chiTof1(int n) const
void calculate()
void init()
double probProton() const
Definition ParticleID.h:125
double chiTof(int n) const
double chiDedx(int n) const
RecEmcID getClusterId() const
RecEmcID getShowerId() const
RecEmcEnergy getEAll() const
const HepVector & getZHelix() const
const HepSymMatrix & getZError() const
bool is_barrel() const
unsigned int layer() const
bool is_cluster() const
void setStatus(unsigned int status)
bool is_counter() const
bool is_east() const
bool is_readout() const
bool is_raw() const
void setVBeamPosition(const HepSymMatrix VBeamPosition)
Definition TrackPool.h:144
void AddTrack(const int number, const double mass, const RecMdcTrack *trk)
Definition TrackPool.cxx:22
void setBeamPosition(const HepPoint3D BeamPosition)
Definition TrackPool.h:143
WTrackParameter wtrk(int n) const
Definition VertexFit.h:79
void init()
Definition VertexFit.cxx:29
void AddVertex(int number, VertexParameter vpar, std::vector< int > lis)
Definition VertexFit.cxx:89
HepSymMatrix Evx(int n) const
Definition VertexFit.h:87
HepPoint3D vx(int n) const
Definition VertexFit.h:85
static VertexFit * instance()
Definition VertexFit.cxx:15
void Swim(int n)
Definition VertexFit.h:59
bool Fit()
void setEvx(const HepSymMatrix &eVx)
void setVx(const HepPoint3D &vx)
const double ecms
Definition inclkstar.cxx:42
_EXTERN_ std::string EvtRecEvent
Definition EventModel.h:116
_EXTERN_ std::string EvtRecTrackCol
Definition EventModel.h:117
float ptrk
double double * p3
Definition qcdloop1.h:76
const float pi
Definition vector3.h:133

◆ finalize()

StatusCode Gam4pikp::finalize ( )

Definition at line 1968 of file Gam4pikp.cxx.

1968 {
1969// cout<<"total number: "<<Ncut[0]<<endl;
1970// cout<<"nGood>=4, nCharge==0: "<<Ncut[1]<<endl;
1971// cout<<"nGam>=1: "<<Ncut[2]<<endl;
1972// cout<<"cgp>2 cgm>2: "<<Ncut[3]<<endl;
1973// cout<<"2+ 2-: "<<Ncut[4]<<endl;
1974// cout<<"all cg cycle, chisq<200: "<<Ncut[5]<<endl;
1975// cout<<"4pi ok: "<<Ncut[6]<<endl;
1976// cout<<"4k ok: "<<Ncut[7]<<endl;
1977// cout<<"2pi 2p ok: "<<Ncut[8]<<endl;
1978// cout<<"ntuple write: "<<Ncut[9]<<endl;
1979 MsgStream log(msgSvc(), name());
1980 log << MSG::INFO << "in finalize()" << endmsg;
1981 return StatusCode::SUCCESS;
1982 }

◆ initialize()

StatusCode Gam4pikp::initialize ( )

Definition at line 84 of file Gam4pikp.cxx.

84 {
85 MsgStream log(msgSvc(), name());
86
87 log << MSG::INFO << "in initialize()" << endmsg;
88 // setFilterPassed(false);
89 StatusCode status;
90
91 if(m_rootput)
92 {
93
94
95 NTuplePtr trk0(ntupleSvc(), "FILE1/toftrk");
96 if ( trk0 ) trk_tuple = trk0;
97 else { trk_tuple = ntupleSvc()->book ("FILE1/toftrk", CLID_ColumnWiseTuple, "ks N-Tuple example");
98 if ( trk_tuple ) {
99 status = trk_tuple->addItem ("trk_trackid", m_trk_trackid );
100 status = trk_tuple->addItem ("trk_tofid", m_trk_tofid );
101 status = trk_tuple->addItem ("trk_raw", m_trk_raw);
102 status = trk_tuple->addItem ("trk_readout", m_trk_readout);
103 status = trk_tuple->addItem ("trk_counter", m_trk_counter);
104 status = trk_tuple->addItem ("trk_cluster", m_trk_cluster );
105 status = trk_tuple->addItem ("trk_barrel", m_trk_barrel );
106 status = trk_tuple->addItem ("trk_east", m_trk_east );
107 status = trk_tuple->addItem ("trk_layer", m_trk_layer );
108 status = trk_tuple->addItem ("trk_path", m_trk_path );
109 status = trk_tuple->addItem ("trk_zrhit", m_trk_zrhit );
110 status = trk_tuple->addItem ("trk_ph", m_trk_ph );
111 status = trk_tuple->addItem ("trk_tof", m_trk_tof );
112 status = trk_tuple->addItem ("trk_beta", m_trk_beta );
113
114 status = trk_tuple->addItem ("trk_texpe", m_trk_texpe );
115 status = trk_tuple->addItem ("trk_texpmu", m_trk_texpmu );
116 status = trk_tuple->addItem ("trk_texppi", m_trk_texppi );
117 status = trk_tuple->addItem ("trk_texpk", m_trk_texpk );
118 status = trk_tuple->addItem ("trk_texpp", m_trk_texpp );
119 status = trk_tuple->addItem ("trk_offe", m_trk_offe );
120 status = trk_tuple->addItem ("trk_offmu", m_trk_offmu );
121 status = trk_tuple->addItem ("trk_offpi", m_trk_offpi );
122 status = trk_tuple->addItem ("trk_offk", m_trk_offk );
123 status = trk_tuple->addItem ("trk_offp", m_trk_offp );
124 status = trk_tuple->addItem ("trk_quality", m_trk_quality );
125 status = trk_tuple->addItem ("trk_type", m_trk_type );
126 status = trk_tuple->addItem ("trk_pidtype", m_trk_pidtype );
127 status = trk_tuple->addItem ("trk_ppmdc", m_trk_ppmdc );
128 status = trk_tuple->addItem ("trk_ppmdc", m_trk_ppmdc );
129 status = trk_tuple->addItem ("trk_ptmdc", m_trk_ptmdc );
130 status = trk_tuple->addItem ("trk_ppkal", m_trk_ppkal );
131 status = trk_tuple->addItem ("trk_ptkal", m_trk_ptkal );
132 status = trk_tuple->addItem ("trk_cosmdc", m_trk_cosmdc );
133 status = trk_tuple->addItem ("trk_phimdc", m_trk_phimdc );
134 status = trk_tuple->addItem ("trk_coskal", m_trk_coskal );
135 status = trk_tuple->addItem ("trk_phikal", m_trk_phikal );
136
137 status = trk_tuple->addItem ("trk_charge", m_trk_charge );
138
139 }
140 else {
141 log << MSG::ERROR << " Cannot book N-tuple:" << long(trk_tuple) << endmsg;
142 return StatusCode::FAILURE;
143 }
144 }
145
146
147
148
149 NTuplePtr nt1(ntupleSvc(), "FILE1/total4c");
150 if ( nt1 ) m_tuple1 = nt1;
151 else {
152 m_tuple1 = ntupleSvc()->book ("FILE1/total4c", CLID_ColumnWiseTuple, "ks N-Tuple example");
153 if ( m_tuple1 ) {
154
155 status = m_tuple1->addItem ("run", m_run );
156 status = m_tuple1->addItem ("rec", m_rec );
157 status = m_tuple1->addItem ("mpprecall", m_mpprecall );
158 status = m_tuple1->addItem ("meeall", m_meeall );
159 status = m_tuple1->addItem ("ncgjs", m_ncgjs );
160 status = m_tuple1->addItem ("cla2kpi", m_cla2kpi );
161 status = m_tuple1->addItem("indexmc", m_idxmc, 0, 100);
162 status = m_tuple1->addIndexedItem("pdgid", m_idxmc, m_pdgid);
163
164 status = m_tuple1->addIndexedItem("motheridx", m_idxmc, m_motheridx);
165 status = m_tuple1->addItem("indexmdc", m_idxmdc, 0, 5000);
166 status = m_tuple1->addIndexedItem ("x0js", m_idxmdc, m_x0js);
167 status = m_tuple1->addIndexedItem ("y0js", m_idxmdc, m_y0js);
168 status = m_tuple1->addIndexedItem ("z0js",m_idxmdc, m_z0js);
169 status = m_tuple1->addIndexedItem ("r0js",m_idxmdc, m_r0js);
170 status = m_tuple1->addIndexedItem ("Rxyjs",m_idxmdc, m_Rxyjs);
171 status = m_tuple1->addIndexedItem ("Rzjs",m_idxmdc, m_Rzjs);
172 status = m_tuple1->addIndexedItem ("Rnxyjs",m_idxmdc, m_Rnxyjs);
173 status = m_tuple1->addIndexedItem ("phinjs",m_idxmdc, m_phinjs);
174 status = m_tuple1->addIndexedItem ("Rnzjs",m_idxmdc, m_Rnzjs);
175 status = m_tuple1->addItem ("ncy20", m_ncy20);
176 status = m_tuple1->addItem ("ncy30", m_ncy30);
177 status = m_tuple1->addIndexedItem("angjs5", m_idxmdc, m_angjs5);
178 status = m_tuple1->addIndexedItem("nearjs5", m_idxmdc, m_nearjs5);
179 status = m_tuple1->addIndexedItem("angjs6", m_idxmdc, m_angjs6);
180 status = m_tuple1->addIndexedItem("nearjs6", m_idxmdc, m_nearjs6);
181 status = m_tuple1->addIndexedItem("ang4pi5", m_idxmdc, m_ang4pi5);
182 status = m_tuple1->addIndexedItem("near4pi5", m_idxmdc, m_near4pi5);
183 status = m_tuple1->addIndexedItem("ang4pi6", m_idxmdc, m_ang4pi6);
184 status = m_tuple1->addIndexedItem("near4pi6", m_idxmdc, m_near4pi6);
185 status = m_tuple1->addIndexedItem("ppmdcjs", m_idxmdc, m_ppmdcjs);
186 status = m_tuple1->addIndexedItem("pxmdcjs", m_idxmdc, m_pxmdcjs);
187 status = m_tuple1->addIndexedItem("pymdcjs", m_idxmdc, m_pymdcjs);
188 status = m_tuple1->addIndexedItem("pzmdcjs", m_idxmdc, m_pzmdcjs);
189 status = m_tuple1->addIndexedItem("ppkaljs", m_idxmdc, m_ppkaljs);
190 status = m_tuple1->addIndexedItem("ptmdcjs", m_idxmdc, m_ptmdcjs);
191 status = m_tuple1->addIndexedItem("ptkaljs", m_idxmdc, m_ptkaljs);
192 status = m_tuple1->addIndexedItem("ppmdc2kpi", m_idxmdc, m_ppmdc2kpi);
193 status = m_tuple1->addIndexedItem("pxmdc2kpi", m_idxmdc, m_pxmdc2kpi);
194 status = m_tuple1->addIndexedItem("pymdc2kpi", m_idxmdc, m_pymdc2kpi);
195 status = m_tuple1->addIndexedItem("pzmdc2kpi", m_idxmdc, m_pzmdc2kpi);
196 status = m_tuple1->addIndexedItem("ppkal2kpi", m_idxmdc, m_ppkal2kpi);
197 status = m_tuple1->addIndexedItem("ptmdc2kpi", m_idxmdc, m_ptmdc2kpi);
198 status = m_tuple1->addIndexedItem("charge2kpi", m_idxmdc, m_charge2kpi);
199 status = m_tuple1->addIndexedItem("ptkal2kpi", m_idxmdc, m_ptkal2kpi);
200 status = m_tuple1->addItem ("cy2pi", m_cy2kpi, 0, 100 );
201 status = m_tuple1->addIndexedItem("comcs2kpi", m_cy2kpi, m_comcs2kpi);
202 status = m_tuple1->addItem ("chiejs", m_idxmdc, m_chiejs);
203 status = m_tuple1->addItem ("chimujs", m_idxmdc, m_chimujs);
204 status = m_tuple1->addItem ("chipijs", m_idxmdc, m_chipijs);
205 status = m_tuple1->addItem ("chikjs", m_idxmdc, m_chikjs);
206 status = m_tuple1->addItem ("chipjs", m_idxmdc, m_chipjs);
207 status = m_tuple1->addItem ("ghitjs", m_idxmdc, m_ghitjs);
208 status = m_tuple1->addItem ("thitjs", m_idxmdc, m_thitjs);
209 status = m_tuple1->addIndexedItem("probphjs", m_idxmdc, m_probphjs);
210 status = m_tuple1->addIndexedItem("normphjs", m_idxmdc, m_normphjs);
211 status = m_tuple1->addItem ("pdg", m_idxmdc, m_pdg);
212 status = m_tuple1->addItem ("cbmc", m_idxmdc, m_cbmc);
213 status = m_tuple1->addIndexedItem("sigmaetof2kpi", m_idxmdc, m_sigmaetof2kpi);
214 status = m_tuple1->addIndexedItem("sigmamutof2kpi", m_idxmdc, m_sigmamutof2kpi);
215 status = m_tuple1->addIndexedItem("sigmapitof2kpi", m_idxmdc, m_sigmapitof2kpi);
216 status = m_tuple1->addIndexedItem("sigmaktof2kpi", m_idxmdc, m_sigmaktof2kpi);
217 status = m_tuple1->addIndexedItem("sigmaprtof2kpi", m_idxmdc, m_sigmaprtof2kpi);
218 status = m_tuple1->addIndexedItem("t0tof2kpi", m_idxmdc, m_t0tof2kpi);
219 status = m_tuple1->addIndexedItem("errt0tof2kpi", m_idxmdc, m_errt0tof2kpi);
220
221 status = m_tuple1->addItem ("chie2kpi", m_idxmdc, m_chie2kpi);
222 status = m_tuple1->addItem ("chimu2kpi", m_idxmdc, m_chimu2kpi);
223 status = m_tuple1->addItem ("chipi2kpi", m_idxmdc, m_chipi2kpi);
224 status = m_tuple1->addItem ("chik2kpi", m_idxmdc, m_chik2kpi);
225 status = m_tuple1->addItem ("chip2kpi", m_idxmdc, m_chip2kpi);
226 status = m_tuple1->addItem ("ghit2kpi", m_idxmdc, m_ghit2kpi);
227 status = m_tuple1->addItem ("thit2kpi", m_idxmdc, m_thit2kpi);
228 status = m_tuple1->addIndexedItem("probph2kpi", m_idxmdc, m_probph2kpi);
229 status = m_tuple1->addIndexedItem("normph2kpi", m_idxmdc, m_normph2kpi);
230 status = m_tuple1->addIndexedItem("pidnum2kpi", m_idxmdc, m_pidnum2kpi);
231 status = m_tuple1->addIndexedItem("bjmucjs", m_idxmdc, m_bjmucjs);
232 status = m_tuple1->addIndexedItem("bjmuc2kpi", m_idxmdc, m_bjmuc2kpi);
233 status = m_tuple1->addIndexedItem("bjemcjs", m_idxmdc, m_bjemcjs);
234 status = m_tuple1->addIndexedItem("bjemc2kpi", m_idxmdc, m_bjemc2kpi);
235 status = m_tuple1->addIndexedItem("bjtofjs", m_idxmdc, m_bjtofjs);
236 status = m_tuple1->addIndexedItem("bjtof2kpi", m_idxmdc, m_bjtof2kpi);
237 status = m_tuple1->addIndexedItem("bjtofvaljs", m_idxmdc, m_bjtofvaljs);
238 status = m_tuple1->addIndexedItem("bjtofval2kpi", m_idxmdc, m_bjtofval2kpi);
239
240 status = m_tuple1->addIndexedItem("emcjs", m_idxmdc, m_emcjs);
241 status = m_tuple1->addIndexedItem("evpjs", m_idxmdc, m_evpjs);
242 status = m_tuple1->addIndexedItem("timecgjs", m_idxmdc, m_timecgjs);
243 status = m_tuple1->addIndexedItem("depthjs", m_idxmdc, m_depthmucjs);
244 status = m_tuple1->addIndexedItem("layermucjs", m_idxmdc, m_layermucjs);
245
246 status = m_tuple1->addIndexedItem("emc2kpi", m_idxmdc, m_emc2kpi);
247 status = m_tuple1->addIndexedItem("evp2kpi", m_idxmdc, m_evp2kpi);
248 status = m_tuple1->addIndexedItem("timecg2kpi", m_idxmdc, m_timecg2kpi);
249 status = m_tuple1->addIndexedItem("depth2kpi", m_idxmdc, m_depthmuc2kpi);
250 status = m_tuple1->addIndexedItem("layermuc2kpi", m_idxmdc, m_layermuc2kpi);
251
252 status = m_tuple1->addIndexedItem("cotof1js", m_idxmdc, m_cotof1js);
253 status = m_tuple1->addIndexedItem("cotof2js", m_idxmdc, m_cotof2js);
254 status = m_tuple1->addIndexedItem("counterjs", m_idxmdc, m_counterjs);
255 status = m_tuple1->addIndexedItem("barreljs", m_idxmdc, m_barreljs);
256 status = m_tuple1->addIndexedItem("layertofjs", m_idxmdc, m_layertofjs);
257 status = m_tuple1->addIndexedItem("readoutjs", m_idxmdc, m_readoutjs);
258 status = m_tuple1->addIndexedItem("clusterjs", m_idxmdc, m_clusterjs);
259 status = m_tuple1->addIndexedItem("betajs", m_idxmdc, m_betajs);
260 status = m_tuple1->addIndexedItem("tofjs", m_idxmdc, m_tofjs);
261 status = m_tuple1->addIndexedItem("tofpathjs", m_idxmdc, m_tofpathjs);
262 status = m_tuple1->addIndexedItem("zhitjs", m_idxmdc, m_zhitjs);
263 status = m_tuple1->addIndexedItem("tofIDjs", m_idxmdc, m_tofIDjs);
264 status = m_tuple1->addIndexedItem("clusterIDjs", m_idxmdc, m_clusterIDjs);
265 status = m_tuple1->addIndexedItem("texejs", m_idxmdc, m_texejs);
266 status = m_tuple1->addIndexedItem("texmujs", m_idxmdc, m_texmujs);
267 status = m_tuple1->addIndexedItem("texpijs", m_idxmdc, m_texpijs);
268 status = m_tuple1->addIndexedItem("texkjs", m_idxmdc, m_texkjs);
269 status = m_tuple1->addIndexedItem("texprjs", m_idxmdc, m_texprjs);
270 status = m_tuple1->addIndexedItem("dtejs", m_idxmdc, m_dtejs);
271 status = m_tuple1->addIndexedItem("dtmujs", m_idxmdc, m_dtmujs);
272 status = m_tuple1->addIndexedItem("dtpijs", m_idxmdc, m_dtpijs);
273 status = m_tuple1->addIndexedItem("dtkjs", m_idxmdc, m_dtkjs);
274 status = m_tuple1->addIndexedItem("dtprjs", m_idxmdc, m_dtprjs);
275 status = m_tuple1->addIndexedItem("sigmaetofjs", m_idxmdc, m_sigmaetofjs);
276 status = m_tuple1->addIndexedItem("sigmamutofjs", m_idxmdc, m_sigmamutofjs);
277 status = m_tuple1->addIndexedItem("sigmapitofjs", m_idxmdc, m_sigmapitofjs);
278 status = m_tuple1->addIndexedItem("sigmaktofjs", m_idxmdc, m_sigmaktofjs);
279 status = m_tuple1->addIndexedItem("sigmaprtofjs", m_idxmdc, m_sigmaprtofjs);
280 status = m_tuple1->addIndexedItem("t0tofjs", m_idxmdc,m_t0tofjs);
281 status = m_tuple1->addIndexedItem("errt0tofjs", m_idxmdc,m_errt0tofjs);
282 status = m_tuple1->addIndexedItem("cotof12kpi", m_idxmdc, m_cotof12kpi);
283 status = m_tuple1->addIndexedItem("cotof22kpi", m_idxmdc, m_cotof22kpi);
284 status = m_tuple1->addIndexedItem("counter2kpi", m_idxmdc, m_counter2kpi);
285 status = m_tuple1->addIndexedItem("barrel2kpi", m_idxmdc, m_barrel2kpi);
286 status = m_tuple1->addIndexedItem("layertof2kpi", m_idxmdc, m_layertof2kpi);
287 status = m_tuple1->addIndexedItem("readout2kpi", m_idxmdc, m_readout2kpi);
288 status = m_tuple1->addIndexedItem("cluster2kpi", m_idxmdc, m_cluster2kpi);
289 status = m_tuple1->addIndexedItem("beta2kpi", m_idxmdc, m_beta2kpi);
290 status = m_tuple1->addIndexedItem("tof2kpi", m_idxmdc, m_tof2kpi);
291 status = m_tuple1->addIndexedItem("tofpath2kpi", m_idxmdc, m_tofpath2kpi);
292 status = m_tuple1->addIndexedItem("zhit2kpi", m_idxmdc, m_zhit2kpi);
293 status = m_tuple1->addIndexedItem("tofID2kpi", m_idxmdc, m_tofID2kpi);
294 status = m_tuple1->addIndexedItem("clusterID2kpi", m_idxmdc, m_clusterID2kpi);
295 status = m_tuple1->addIndexedItem("texe2kpi", m_idxmdc, m_texe2kpi);
296 status = m_tuple1->addIndexedItem("texmu2kpi", m_idxmdc, m_texmu2kpi);
297 status = m_tuple1->addIndexedItem("texpi2kpi", m_idxmdc, m_texpi2kpi);
298 status = m_tuple1->addIndexedItem("texk2kpi", m_idxmdc, m_texk2kpi);
299 status = m_tuple1->addIndexedItem("texpr2kpi", m_idxmdc, m_texpr2kpi);
300 status = m_tuple1->addIndexedItem("dte2kpi", m_idxmdc, m_dte2kpi);
301 status = m_tuple1->addIndexedItem("dtmu2kpi", m_idxmdc, m_dtmu2kpi);
302 status = m_tuple1->addIndexedItem("dtpi2kpi", m_idxmdc, m_dtpi2kpi);
303 status = m_tuple1->addIndexedItem("dtk2kpi", m_idxmdc, m_dtk2kpi);
304 status = m_tuple1->addIndexedItem("dtpr2kpi", m_idxmdc, m_dtpr2kpi);
305 status = m_tuple1->addIndexedItem("costpid2kpi", m_idxmdc, m_costpid2kpi);
306 status = m_tuple1->addIndexedItem("dedxpid2kpi", m_idxmdc, m_dedxpid2kpi);
307 status = m_tuple1->addIndexedItem("tof1pid2kpi", m_idxmdc, m_tof1pid2kpi);
308 status = m_tuple1->addIndexedItem("tof2pid2kpi", m_idxmdc, m_tof2pid2kpi);
309 status = m_tuple1->addIndexedItem("probe2kpi", m_idxmdc, m_probe2kpi);
310 status = m_tuple1->addIndexedItem("probmu2kpi", m_idxmdc, m_probmu2kpi);
311 status = m_tuple1->addIndexedItem("probpi2kpi", m_idxmdc, m_probpi2kpi);
312 status = m_tuple1->addIndexedItem("probk2kpi", m_idxmdc, m_probk2kpi);
313 status = m_tuple1->addIndexedItem("probpr2kpi", m_idxmdc, m_probpr2kpi);
314
315 status = m_tuple1->addIndexedItem("chipidxpid2kpi", m_idxmdc, m_chipidxpid2kpi);
316 status = m_tuple1->addIndexedItem("chipitof1pid2kpi", m_idxmdc, m_chipitof1pid2kpi);
317 status = m_tuple1->addIndexedItem("chipitof2pid2kpi", m_idxmdc, m_chipitof2pid2kpi);
318 status = m_tuple1->addIndexedItem("chipitofpid2kpi", m_idxmdc, m_chipitofpid2kpi);
319 status = m_tuple1->addIndexedItem("chipitofepid2kpi", m_idxmdc, m_chipitofepid2kpi);
320 status = m_tuple1->addIndexedItem("chipitofqpid2kpi", m_idxmdc, m_chipitofqpid2kpi);
321 status = m_tuple1->addIndexedItem("probpidxpid2kpi", m_idxmdc, m_probpidxpid2kpi);
322 status = m_tuple1->addIndexedItem("probpitofpid2kpi", m_idxmdc, m_probpitofpid2kpi);
323 status = m_tuple1->addIndexedItem("chikdxpid2kpi", m_idxmdc, m_chikdxpid2kpi);
324 status = m_tuple1->addIndexedItem("chiktof1pid2kpi", m_idxmdc, m_chiktof1pid2kpi);
325 status = m_tuple1->addIndexedItem("chiktof2pid2kpi", m_idxmdc, m_chiktof2pid2kpi);
326 status = m_tuple1->addIndexedItem("chiktofpid2kpi", m_idxmdc, m_chiktofpid2kpi);
327 status = m_tuple1->addIndexedItem("chiktofepid2kpi", m_idxmdc, m_chiktofepid2kpi);
328 status = m_tuple1->addIndexedItem("chiktofqpid2kpi", m_idxmdc, m_chiktofqpid2kpi);
329 status = m_tuple1->addIndexedItem("probkdxpid2kpi", m_idxmdc, m_probkdxpid2kpi);
330 status = m_tuple1->addIndexedItem("probktofpid2kpi", m_idxmdc, m_probktofpid2kpi);
331
332 status = m_tuple1->addIndexedItem("chiprdxpid2kpi", m_idxmdc, m_chiprdxpid2kpi);
333 status = m_tuple1->addIndexedItem("chiprtof1pid2kpi", m_idxmdc, m_chiprtof1pid2kpi);
334 status = m_tuple1->addIndexedItem("chiprtof2pid2kpi", m_idxmdc, m_chiprtof2pid2kpi);
335 status = m_tuple1->addIndexedItem("chiprtofpid2kpi", m_idxmdc, m_chiprtofpid2kpi);
336 status = m_tuple1->addIndexedItem("chiprtofepid2kpi", m_idxmdc, m_chiprtofepid2kpi);
337 status = m_tuple1->addIndexedItem("chiprtofqpid2kpi", m_idxmdc, m_chiprtofqpid2kpi);
338 status = m_tuple1->addIndexedItem("probprdxpid2kpi", m_idxmdc, m_probprdxpid2kpi);
339 status = m_tuple1->addIndexedItem("probprtofpid2kpi", m_idxmdc, m_probprtofpid2kpi);
340
341 status = m_tuple1->addIndexedItem("cosmdcjs", m_idxmdc, m_cosmdcjs);
342 status = m_tuple1->addIndexedItem("phimdcjs", m_idxmdc, m_phimdcjs);
343 status = m_tuple1->addIndexedItem("cosmdc2kpi", m_idxmdc, m_cosmdc2kpi);
344 status = m_tuple1->addIndexedItem("phimdc2kpi", m_idxmdc, m_phimdc2kpi);
345
346 status = m_tuple1->addIndexedItem("dedxpidjs", m_idxmdc, m_dedxpidjs);
347 status = m_tuple1->addIndexedItem("tof1pidjs", m_idxmdc, m_tof1pidjs);
348 status = m_tuple1->addIndexedItem("tof2pidjs", m_idxmdc, m_tof2pidjs);
349 status = m_tuple1->addIndexedItem("probejs", m_idxmdc, m_probejs);
350 status = m_tuple1->addIndexedItem("probmujs", m_idxmdc, m_probmujs);
351 status = m_tuple1->addIndexedItem("probpijs", m_idxmdc, m_probpijs);
352 status = m_tuple1->addIndexedItem("probkjs", m_idxmdc, m_probkjs);
353 status = m_tuple1->addIndexedItem("probprjs", m_idxmdc, m_probprjs);
354 status = m_tuple1->addItem ("mchic2kpi", m_mchic2kpi);
355 status = m_tuple1->addItem ("mpsip2kpi", m_mpsip2kpi);
356 status = m_tuple1->addItem ("chis2kpi", m_chis2kpi);
357 status = m_tuple1->addItem ("mchic4c2kpi", m_mchic4c2kpi);
358 status = m_tuple1->addItem ("mpsip4c2kpi", m_mpsip4c2kpi);
359 status = m_tuple1->addItem ("chis4c2kpi", m_chis4c2kpi);
360
361 status = m_tuple1->addItem("indexemc", m_idxemc, 0, 5000);
362 status = m_tuple1->addIndexedItem("numHits", m_idxemc, m_numHits);
363 status = m_tuple1->addIndexedItem("secmom", m_idxemc, m_secondmoment);
364 status = m_tuple1->addIndexedItem("latmom", m_idxemc, m_latmoment);
365 status = m_tuple1->addIndexedItem("timegm", m_idxemc, m_timegm);
366 status = m_tuple1->addIndexedItem("cellId", m_idxemc, m_cellId);
367 status = m_tuple1->addIndexedItem("module", m_idxemc, m_module);
368 status = m_tuple1->addIndexedItem("a20Moment", m_idxemc, m_a20Moment);
369 status = m_tuple1->addIndexedItem("a42Moment", m_idxemc, m_a42Moment);
370 status = m_tuple1->addIndexedItem("getEAll", m_idxemc, m_getEAll);
371 status = m_tuple1->addIndexedItem("getShowerId", m_idxemc, m_getShowerId);
372 status = m_tuple1->addIndexedItem("getClusterId", m_idxemc, m_getClusterId);
373 status = m_tuple1->addIndexedItem("x", m_idxemc, m_x);
374 status = m_tuple1->addIndexedItem("y", m_idxemc, m_y);
375 status = m_tuple1->addIndexedItem("z", m_idxemc, m_z);
376 status = m_tuple1->addIndexedItem("cosemc", m_idxemc, m_cosemc);
377 status = m_tuple1->addIndexedItem("phiemc", m_idxemc, m_phiemc);
378 status = m_tuple1->addIndexedItem("energy", m_idxemc, m_energy);
379 status = m_tuple1->addIndexedItem("e1", m_idxemc, m_eSeed);
380 status = m_tuple1->addIndexedItem("e9", m_idxemc, m_e3x3);
381 status = m_tuple1->addIndexedItem("e25", m_idxemc, m_e5x5);
382 status = m_tuple1->addIndexedItem("dang4c", m_idxemc, m_dang4c);
383 status = m_tuple1->addIndexedItem("dthe4c", m_idxemc, m_dthe4c);
384 status = m_tuple1->addIndexedItem("dphi4c", m_idxemc, m_dphi4c);
385 status = m_tuple1->addIndexedItem("dang4crt", m_idxemc, m_dang4crt);
386 status = m_tuple1->addIndexedItem("dthe4crt", m_idxemc, m_dthe4crt);
387 status = m_tuple1->addIndexedItem("dphi4crt", m_idxemc, m_dphi4crt);
388 status = m_tuple1->addIndexedItem("phtof", m_idxemc, 3, m_phgmtof,0.0,10000.0);
389 status = m_tuple1->addIndexedItem("phgmtof0", m_idxemc, m_phgmtof0);
390 status = m_tuple1->addIndexedItem("phgmtof1", m_idxemc, m_phgmtof1);
391 status = m_tuple1->addIndexedItem("phgmtof2", m_idxemc, m_phgmtof2);
392
393 }
394 else {
395 log << MSG::ERROR << " Cannot book N-tuple:" << long(m_tuple1) << endmsg;
396 return StatusCode::FAILURE;
397 }
398 }
399}
400
401StatusCode sc;
402
403 if(m_skim4pi)
404 {
405 sc = createSubAlgorithm( "EventWriter", "Selectgam4pi", m_subalg1);
406 if( sc.isFailure() ) {
407 log << MSG::ERROR << "Error creating Sub-Algorithm Selectgam4pi" <<endreq;
408 return sc;
409 } else {
410 log << MSG::INFO << "Success creating Sub-Algorithm Selectgam4pi" <<endreq;
411 }
412 }
413
414
415 if(m_skim4k)
416 {
417 sc = createSubAlgorithm( "EventWriter", "Selectgam4k", m_subalg2);
418 if( sc.isFailure() ) {
419 log << MSG::ERROR << "Error creating Sub-Algorithm Selectgam4k" <<endreq;
420 return sc;
421 } else {
422 log << MSG::INFO << "Success creating Sub-Algorithm Selectgam4k" <<endreq;
423 }
424 }
425
426 if(m_skim2pi2pr)
427 {
428 sc = createSubAlgorithm( "EventWriter", "Selectgam2pi2pr", m_subalg3);
429 if( sc.isFailure() ) {
430 log << MSG::ERROR << "Error creating Sub-Algorithm Selectgam2pi2pr" <<endreq;
431 return sc;
432 } else {
433 log << MSG::INFO << "Success creating Sub-Algorithm Selectgam2pi2pr" <<endreq;
434 }
435 }
436
437
438
439
440 //
441 //--------end of book--------
442 //
443
444 log << MSG::INFO << "successfully return from initialize()" <<endmsg;
445 return StatusCode::SUCCESS;
446
447}
INTupleSvc * ntupleSvc()

The documentation for this class was generated from the following files: