#include ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// void GPamela::Clear(){ Irun = 0; Ievnt = 0; Ipa = 0; X0 = 0.; Y0 = 0.; Z0 = 0.; Theta = 0.; Phi = 0.; P0 = 0.; Nthtof = 0; Nthcat = 0; Nthcas = 0; Nthspe = 0; Nstrpx = 0; Nstrpy = 0; Nthcali = 0; Nthcal = 0; Nthnd = 0; Nthcard = 0; } void GPamela::Delete(){ Clear(); delete [] Ipltof; delete [] Ipaddle; delete [] Ipartof; delete [] Xintof; delete [] Yintof; delete [] Zintof; delete [] Xouttof; delete [] Youttof; delete [] Zouttof; delete [] Ereltof; delete [] Timetof; delete [] Pathtof; delete [] P0tof; delete [] Iparcat; delete [] Icat; delete [] Xincat; delete [] Yincat; delete [] Zincat; delete [] Xoutcat; delete [] Youtcat; delete [] Zoutcat; delete [] Erelcat; delete [] Timecat; delete [] Pathcat; delete [] P0cat; delete [] Iparcas; delete [] Icas; delete [] Xincas; delete [] Yincas; delete [] Zincas; delete [] Xoutcas; delete [] Youtcas; delete [] Zoutcas; delete [] Erelcas; delete [] Timecas; delete [] Pathcas; delete [] P0cas; delete [] Iparspe; delete [] Itrpb; delete [] Itrsl; delete [] Itspa; delete [] Xinspe; delete [] Yinspe; delete [] Zinspe; delete [] Xoutspe; delete [] Youtspe; delete [] Zoutspe; delete [] Xavspe; delete [] Yavspe; delete [] Zavspe; delete [] Erelspe; delete [] Pathspe; delete [] P0spe; delete [] Nxmult; delete [] Nymult; delete [] Npstripx; delete [] Ntstripx; delete [] Istripx; delete [] Qstripx; delete [] Xstripx; delete [] Npstripy; delete [] Ntstripy; delete [] Istripy; delete [] Qstripy; delete [] Ystripy; delete [] Icaplane; delete [] Icastrip; delete [] Icamod; delete [] Enestrip; delete [] Icapl; delete [] Icasi; delete [] Icast; delete [] Xincal; delete [] Yincal; delete [] Zincal; delete [] Erelcal; delete [] Itubend; delete [] Iparnd; delete [] Xinnd; delete [] Yinnd; delete [] Zinnd; delete [] Xoutnd; delete [] Youtnd; delete [] Zoutnd; delete [] Erelnd; delete [] Timend; delete [] Pathnd; delete [] P0nd; delete [] Iparcard; delete [] Icard; delete [] Xincard; delete [] Yincard; delete [] Zincard; delete [] Xoutcard; delete [] Youtcard; delete [] Zoutcard; delete [] Erelcard; delete [] Timecard; delete [] Pathcard; delete [] P0card; }; void GPamela::SetBranchAddress( TChain* fhBookTree ){ // cout << "fhBookTree "<SetBranchAddress("Irun",&Irun); fhBookTree->SetBranchAddress("Ievnt",&Ievnt); fhBookTree->SetBranchAddress("Ipa",&Ipa); fhBookTree->SetBranchAddress("X0",&X0); fhBookTree->SetBranchAddress("Y0",&Y0); fhBookTree->SetBranchAddress("Z0",&Z0); fhBookTree->SetBranchAddress("Theta",&Theta); fhBookTree->SetBranchAddress("Phi",&Phi); fhBookTree->SetBranchAddress("P0",&P0); fhBookTree->SetBranchAddress("Nthtof",&Nthtof); fhBookTree->SetBranchAddress("Ipltof",Ipltof); fhBookTree->SetBranchAddress("Ipaddle",Ipaddle); fhBookTree->SetBranchAddress("Ipartof",Ipartof); fhBookTree->SetBranchAddress("Xintof",Xintof); fhBookTree->SetBranchAddress("Yintof",Yintof); fhBookTree->SetBranchAddress("Zintof",Zintof); fhBookTree->SetBranchAddress("Xouttof",Xouttof); fhBookTree->SetBranchAddress("Youttof",Youttof); fhBookTree->SetBranchAddress("Zouttof",Zouttof); fhBookTree->SetBranchAddress("Ereltof",Ereltof); fhBookTree->SetBranchAddress("Timetof",Timetof); fhBookTree->SetBranchAddress("Pathtof",Pathtof); fhBookTree->SetBranchAddress("P0tof",P0tof); fhBookTree->SetBranchAddress("Nthcat",&Nthcat); fhBookTree->SetBranchAddress("Iparcat",Iparcat); fhBookTree->SetBranchAddress("Icat",Icat); fhBookTree->SetBranchAddress("Xincat",Xincat); fhBookTree->SetBranchAddress("Yincat",Yincat); fhBookTree->SetBranchAddress("Zincat",Zincat); fhBookTree->SetBranchAddress("Xoutcat",Xoutcat); fhBookTree->SetBranchAddress("Youtcat",Youtcat); fhBookTree->SetBranchAddress("Zoutcat",Zoutcat); fhBookTree->SetBranchAddress("Erelcat",Erelcat); fhBookTree->SetBranchAddress("Timecat",Timecat); fhBookTree->SetBranchAddress("Pathcat",Pathcat); fhBookTree->SetBranchAddress("P0cat",P0cat); fhBookTree->SetBranchAddress("Nthcas",&Nthcas); fhBookTree->SetBranchAddress("Iparcas",Iparcas); fhBookTree->SetBranchAddress("Icas",Icas); fhBookTree->SetBranchAddress("Xincas",Xincas); fhBookTree->SetBranchAddress("Yincas",Yincas); fhBookTree->SetBranchAddress("Zincas",Zincas); fhBookTree->SetBranchAddress("Xoutcas",Xoutcas); fhBookTree->SetBranchAddress("Youtcas",Youtcas); fhBookTree->SetBranchAddress("Zoutcas",Zoutcas); fhBookTree->SetBranchAddress("Erelcas",Erelcas); fhBookTree->SetBranchAddress("Timecas",Timecas); fhBookTree->SetBranchAddress("Pathcas",Pathcas); fhBookTree->SetBranchAddress("P0cas",P0cas); fhBookTree->SetBranchAddress("Nthspe",&Nthspe); fhBookTree->SetBranchAddress("Iparspe",Iparspe); fhBookTree->SetBranchAddress("Itrpb",Itrpb); fhBookTree->SetBranchAddress("Itrsl",Itrsl); fhBookTree->SetBranchAddress("Itspa",Itspa); fhBookTree->SetBranchAddress("Xinspe",Xinspe); fhBookTree->SetBranchAddress("Yinspe",Yinspe); fhBookTree->SetBranchAddress("Zinspe",Zinspe); fhBookTree->SetBranchAddress("Xoutspe",Xoutspe); fhBookTree->SetBranchAddress("Youtspe",Youtspe); fhBookTree->SetBranchAddress("Zoutspe",Zoutspe); fhBookTree->SetBranchAddress("Xavspe",Xavspe); fhBookTree->SetBranchAddress("Yavspe",Yavspe); fhBookTree->SetBranchAddress("Zavspe",Zavspe); fhBookTree->SetBranchAddress("Erelspe",Erelspe); fhBookTree->SetBranchAddress("Pathspe",Pathspe); fhBookTree->SetBranchAddress("P0spe",P0spe); fhBookTree->SetBranchAddress("Nxmult",Nxmult); fhBookTree->SetBranchAddress("Nymult",Nymult); fhBookTree->SetBranchAddress("Nstrpx",&Nstrpx); fhBookTree->SetBranchAddress("Npstripx",Npstripx); fhBookTree->SetBranchAddress("Ntstripx",Ntstripx); fhBookTree->SetBranchAddress("Istripx",Istripx); fhBookTree->SetBranchAddress("Qstripx",Qstripx); fhBookTree->SetBranchAddress("Xstripx",Xstripx); fhBookTree->SetBranchAddress("Nstrpy",&Nstrpy); fhBookTree->SetBranchAddress("Npstripy",Npstripy); fhBookTree->SetBranchAddress("Ntstripy",Ntstripy); fhBookTree->SetBranchAddress("Istripy",Istripy); fhBookTree->SetBranchAddress("Qstripy",Qstripy); fhBookTree->SetBranchAddress("Ystripy",Ystripy); fhBookTree->SetBranchAddress("Nthcali",&Nthcali); fhBookTree->SetBranchAddress("Icaplane",Icaplane); fhBookTree->SetBranchAddress("Icastrip",Icastrip); fhBookTree->SetBranchAddress("Icamod",Icamod); fhBookTree->SetBranchAddress("Enestrip",Enestrip); fhBookTree->SetBranchAddress("Nthcal",&Nthcal); fhBookTree->SetBranchAddress("Icapl",Icapl); fhBookTree->SetBranchAddress("Icasi",Icasi); fhBookTree->SetBranchAddress("Icast",Icast); fhBookTree->SetBranchAddress("Xincal",Xincal); fhBookTree->SetBranchAddress("Yincal",Yincal); fhBookTree->SetBranchAddress("Zincal",Zincal); fhBookTree->SetBranchAddress("Erelcal",Erelcal); fhBookTree->SetBranchAddress("Nthnd",&Nthnd); fhBookTree->SetBranchAddress("Itubend",Itubend); fhBookTree->SetBranchAddress("Iparnd",Iparnd); fhBookTree->SetBranchAddress("Xinnd",Xinnd); fhBookTree->SetBranchAddress("Yinnd",Yinnd); fhBookTree->SetBranchAddress("Zinnd",Zinnd); fhBookTree->SetBranchAddress("Xoutnd",Xoutnd); fhBookTree->SetBranchAddress("Youtnd",Youtnd); fhBookTree->SetBranchAddress("Zoutnd",Zoutnd); fhBookTree->SetBranchAddress("Erelnd",Erelnd); fhBookTree->SetBranchAddress("Timend",Timend); fhBookTree->SetBranchAddress("Pathnd",Pathnd); fhBookTree->SetBranchAddress("P0nd",P0nd); fhBookTree->SetBranchAddress("Nthcard",&Nthcard); fhBookTree->SetBranchAddress("Iparcard",Iparcard); fhBookTree->SetBranchAddress("Icard",Icard); fhBookTree->SetBranchAddress("Xincard",Xincard); fhBookTree->SetBranchAddress("Yincard",Yincard); fhBookTree->SetBranchAddress("Zincard",Zincard); fhBookTree->SetBranchAddress("Xoutcard",Xoutcard); fhBookTree->SetBranchAddress("Youtcard",Youtcard); fhBookTree->SetBranchAddress("Zoutcard",Zoutcard); fhBookTree->SetBranchAddress("Erelcard",Erelcard); fhBookTree->SetBranchAddress("Timecard",Timecard); fhBookTree->SetBranchAddress("Pathcard",Pathcard); fhBookTree->SetBranchAddress("P0card",P0card); // fhBookTree->SetBranchStatus("*",0); } ClassImp(GPamela); ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// ///////////////////////////////////////////////////////////////////////////// //-------------------------------------- // // //-------------------------------------- /** * Default constructor */ PamTrack::PamTrack(){ trk_track = 0; calo_track = 0; tof_track = 0; orb_track = 0; candeleteobj = 0; pscore = 0; iscore = 0; }; //-------------------------------------- // // //-------------------------------------- /** * Constructor */ PamTrack::PamTrack(TrkTrack* t, CaloTrkVar* c, ToFTrkVar* o, OrbitalInfoTrkVar *r){ trk_track = 0; calo_track = 0; tof_track = 0; orb_track = 0; // if(t)trk_track = new TrkTrack(*t); // if(c)calo_track = new CaloTrkVar(*c); // if(o)tof_track = new ToFTrkVar(*o); if(t)trk_track = t; if(c)calo_track = c; if(o)tof_track = o; if(r) orb_track = r; candeleteobj = 0; }; PamTrack::PamTrack(const PamTrack& track){ TrkTrack *t = track.trk_track; CaloTrkVar *c = track.calo_track; ToFTrkVar *o = track.tof_track; OrbitalInfoTrkVar *r = track.orb_track; trk_track = 0; calo_track = 0; tof_track = 0; orb_track = 0; if(t)trk_track = new TrkTrack(*t); if(c)calo_track = new CaloTrkVar(*c); if(o)tof_track = new ToFTrkVar(*o); if(r)orb_track = new OrbitalInfoTrkVar(*r); candeleteobj = 1; } void PamTrack::Clear(){ // cout << "PamTrack::Clear() "<TrkTrack::Clear(); if(calo_track) calo_track->CaloTrkVar::Clear();//??? if(tof_track) tof_track->ToFTrkVar::Clear();//??? if(orb_track) orb_track->OrbitalInfoTrkVar::Clear();//??? }else{ trk_track = 0; calo_track = 0; tof_track = 0; orb_track = 0; } pscore = 0; iscore = 0; } void PamTrack::Delete(){ // cout << "PamTrack::Delete() "<TrkTrack::Clear(); delete trk_track; } if(calo_track){ calo_track->CaloTrkVar::Clear();//??? delete calo_track; } if(tof_track){ tof_track->ToFTrkVar::Clear();//??? delete tof_track; } if(orb_track){ orb_track->OrbitalInfoTrkVar::Clear();//??? delete orb_track; } }else{ Clear(); } } //-------------------------------------- // // //-------------------------------------- /** * Default Constructor */ PamLevel2::PamLevel2(){ Initialize(); }; /** * Constructor * @param ddir Name of directory where level2 files are stored. * @param list Name of an ascii file containing the list of file names * @param detlist Options to chose what to load. * Possible options are: * +AUTO --> load all trees/branches in the input files * +(-)ALL --> inlcude(exclude) all trees/branches * +(-)TRK1+(-)TRK2+(-)CAL1+(-)CAL2+(-)TOF+(-)TRG+(-)ND+(-)S4+(-)ORB+(-)AC --> inlcude(exclude) trees and branches * +(-)TRK0 --> include(exclude) tracker level0 tree * +(-)GP --> include exclude GPAMELA output tree * If no options are specified, the default is assumed. Default is: * +TRK2+CAL2+CAL1+TOF+TRG+ND+AC+S4+ORB */ PamLevel2::PamLevel2(TString ddir,TString llist,TString detlist){ Initialize(); TList* listf = GetListOfLevel2Files(ddir,llist); if(listf)GetPamTree(listf,detlist); if(listf)GetRunTree(listf); }; PamLevel2::PamLevel2(TString ddir,TList *llist,TString detlist){ Initialize(); GetPamTree(llist,detlist); GetRunTree(llist); }; /** * Constructor * @param ddir Name of directory where level2 files are stored. * @param list Name of an ascii file containing the list of file names * Default trees/branches are loaded. Default is: * +TRK2+CAL2+CAL1+TOF+TRG+ND+AC+S4+ORB */ PamLevel2::PamLevel2(TString ddir,TString llist){ Initialize(); TList* listf = GetListOfLevel2Files(ddir,llist); GetPamTree(listf,""); GetRunTree(listf); }; void PamLevel2::Initialize(){ h0_obj = 0; trk0_obj = 0; calo0_obj = 0; trk2_obj = 0; trk1_obj = 0; trkh_obj = 0; calo1_obj = 0; calo2_obj = 0; tof_obj = 0; trig_obj = 0; s4_obj = 0; nd_obj = 0; ac_obj = 0; orb_obj = 0; gp_obj = 0; run_obj = 0;//new GL_RUN(); soft_obj = 0;// Emiliano irun = -1LL; irunt = -1LL; runfirstentry = 0LL; runlastentry = 0LL; gltsync = 0; // Emiliano l0_file = NULL; l0_tree = NULL; iroot = -1; dbc = 0; prevshift = 0; maxshift = 10; //EMILIANO run_tree = NULL; run_tree_clone = NULL; sel_tree = NULL; sel_tree_clone = NULL; irunentry = -1LL; pam_tree = NULL; for(Int_t i=0; iGetenv("PAM_DBHOST"); const char *pamdbuser=gSystem->Getenv("PAM_DBUSER"); const char *pamdbpsw=gSystem->Getenv("PAM_DBPSW"); if ( !pamdbhost ) pamdbhost = ""; if ( !pamdbuser ) pamdbuser = ""; if ( !pamdbpsw ) pamdbpsw = ""; if ( strcmp(pamdbhost,"") ) host = pamdbhost; if ( strcmp(pamdbuser,"") ) user = pamdbuser; if ( strcmp(pamdbpsw,"") ) psw = pamdbpsw; // sorted_tracks = 0;//new TRefArray(); CAL0 = false; CAL1 = true; CAL2 = true; TRK2 = true; TRK1 = false; TRK0 = false; TRKh = false; TRG = true; TOF = true; TOF0 = false; S4 = true; ND = true; AC = true; ORB = true; GP = false; RUN = true; SELLI = -1; ISGP = false; DBG = false; tsorted=0; timage=0; howtosort = "+CAL+TOF"; //howtosort = "+TOF"; sortthr = 100.; }; /** * Delete the event (act as Dtor) */ void PamLevel2::Delete(){ if(run_obj)delete run_obj; if(soft_obj)delete soft_obj; //Emiliano // cout << "void PamLevel2::Clear()"<Delete(); delete tsorted; } if(timage){ timage->Delete(); delete timage; } if(dbc){ dbc->Close(); delete dbc; } if ( gltsync ) delete gltsync; if(l0_file)l0_file->Close(); // if(pam_tree)pam_tree->Delete();; if ( pam_tree ){ // // we have first to find which chains we have to delete, then delete the main chain and only after delete the friend chains. Any other order causes a segfault... // TList *temp = pam_tree->GetListOfFriends(); TList *contents = new TList; // create chain friend list contents->SetOwner(); TIter next(temp); TChain *questo = 0; while ( (questo = (TChain*) next()) ){ TString name = questo->GetName(); contents->Add((TChain*)gROOT->FindObject(name.Data()));// add object to the list }; // // deleting the main chain // pam_tree->Delete(); // // deleting the friends... // TIter next2(contents); TChain *questa = 0; while ( questa = (TChain*)next2() ){ TString name = questa->GetName(); questa->Delete(); questa=NULL; }; // }; pam_tree = NULL; if(run_tree)run_tree->Delete();; if(sel_tree)sel_tree->Delete();; for(Int_t i=0; iDelete();; if(run_tree_clone)run_tree_clone->Delete();; if(sel_tree_clone)sel_tree_clone->Delete();; if(irunoffset) delete [] irunoffset; }; /** * Clear the event (NB! does not deallocate objects) */ void PamLevel2::Clear(){ // cout << "void PamLevel2::Clear()"<Clear(); // Emiliano: Do not deallocate run_obj here, it will give segmentation fault! call clear instead // if(soft_obj) soft_obj->Clear(); if(h0_obj) h0_obj->Clear(); // if(trk0_obj) trk0_obj->Clear(); if(trk1_obj) trk1_obj->Clear(); if(trk2_obj) trk2_obj->Clear(); if(trkh_obj) trkh_obj->Clear(); if(calo0_obj) calo0_obj->Clear(); if(calo1_obj)calo1_obj->Clear(); if(calo2_obj)calo2_obj->Clear(); if(tof_obj) tof_obj->Clear(); if(trig_obj) trig_obj->Clear(); if(s4_obj) s4_obj->Clear(); if(nd_obj) nd_obj->Clear(); if(ac_obj) ac_obj->Clear(); if(orb_obj) orb_obj->Clear(); if(gp_obj) gp_obj->Clear(); // if(sorted_tracks)sorted_tracks->Clear(); // sorted_tracks.Clear(); if(tsorted){ tsorted->Delete(); } if(timage){ timage->Delete(); } }; void PamLevel2::Reset(){ // // First of all clear everything // Clear(); // // close and reset chains and pointers // if ( pam_tree ){ // // we have first to find which chains we have to delete, then delete the main chain and only after delete the friend chains. Any other order causes a segfault... // TList *temp = pam_tree->GetListOfFriends(); TList *contents = new TList; // create chain friend list contents->SetOwner(); TIter next(temp); TChain *questo = 0; while ( (questo = (TChain*) next()) ){ TString name = questo->GetName(); contents->Add((TChain*)gROOT->FindObject(name.Data()));// add object to the list }; // // deleting the main chain // pam_tree->Delete(); // // deleting the friends... // TIter next2(contents); TChain *questa = 0; while ( questa = (TChain*)next2() ){ TString name = questa->GetName(); questa->Delete(); questa=NULL; }; // }; pam_tree = NULL; // if(run_tree)run_tree->Delete();; run_tree = NULL; if(sel_tree)sel_tree->Delete();; sel_tree = NULL; // // Close file // if(l0_file)l0_file->Close("R"); l0_file = NULL; // h0_obj = 0; trk0_obj = 0; calo0_obj = 0; // trk2_obj = 0; trk1_obj = 0; trkh_obj = 0; calo1_obj = 0; calo2_obj = 0; tof_obj = 0; trig_obj = 0; s4_obj = 0; nd_obj = 0; ac_obj = 0; orb_obj = 0; gp_obj = 0; // // Reset run pointers // run_obj = 0;//new GL_RUN(); soft_obj = 0;// Emiliano irun = -1; irunt = -1; runfirstentry = 0ULL; runlastentry = 0ULL; // totdltime[0] = 0LL; totdltime[1] = 0LL; totdltime[2] = 0LL; // }; Bool_t PamLevel2::IsGood(Bool_t strict){ Bool_t goodev=true; // if(calo2_obj && !calo2_obj->IsGood(strict) ) goodev = false; // if ( strict ){ if(trk2_obj && trk2_obj->UnpackError() != 0 ) goodev = false; if(tof_obj && tof_obj->unpackError != 0) goodev = false; if(trig_obj && trig_obj->unpackError != 0) goodev = false; if(s4_obj && s4_obj->unpackError != 0) goodev = false; if(nd_obj && nd_obj->unpackError != 0) goodev = false; if(ac_obj && (ac_obj->unpackError != 0 || ((ac_obj->status[0]>>2)&1) || ((ac_obj->status[1]>>2)&1)) ) goodev = false; // if(orb_obj) } else { if(nd_obj && nd_obj->unpackError != 0) goodev = false; if(ac_obj && (ac_obj->unpackError != 0 || ((ac_obj->status[0]>>2)&1) || ((ac_obj->status[1]>>2)&1)) ) goodev = false; }; return(goodev); }; //-------------------------------------- // // //-------------------------------------- void *PamLevel2::GetPointerTo(const char* c ){ TString objname = c; if(!objname.CompareTo("TrkLevel1")) { if(!trk1_obj){ trk1_obj = new TrkLevel1(); trk1_obj->Set(); } return &trk1_obj; }; if(!objname.CompareTo("TrkLevel2")) { if(!trk2_obj){ trk2_obj = new TrkLevel2(); trk2_obj->Set(); } return &trk2_obj; }; if(!objname.CompareTo("TrkHough")) { if(!trkh_obj) { trkh_obj = new TrkHough(); trkh_obj->Set(); } return &trkh_obj; }; if(!objname.CompareTo("CaloLevel1")) { if(!calo1_obj) calo1_obj = new CaloLevel1(); return &calo1_obj; }; if(!objname.CompareTo("CaloLevel2")) { if(!calo2_obj){ calo2_obj = new CaloLevel2(); calo2_obj->Set(); }; return &calo2_obj; }; if(!objname.CompareTo("ToFLevel2")) { if(!tof_obj){ tof_obj = new ToFLevel2(); tof_obj->Set(); } return &tof_obj; }; if(!objname.CompareTo("TrigLevel2")) { if(!trig_obj) trig_obj = new TrigLevel2(); return &trig_obj; }; if(!objname.CompareTo("S4Level2")) { if(!s4_obj) s4_obj = new S4Level2(); return &s4_obj; }; if(!objname.CompareTo("NDLevel2")) { if(!nd_obj) nd_obj = new NDLevel2(); return &nd_obj; }; if(!objname.CompareTo("AcLevel2")) { if(!ac_obj) ac_obj = new AcLevel2(); return &ac_obj; }; if(!objname.CompareTo("OrbitalInfo")) { if(!orb_obj){ orb_obj = new OrbitalInfo(); orb_obj->Set(); } return &orb_obj; }; // if(!objname.CompareTo("OrbitalInfo")){ // if(!orb_obj) orb_obj = new OrbitalInfo(); // return &orb_obj; // }; if(!objname.CompareTo("GPamela")){ if(!gp_obj) gp_obj = new GPamela(); return &gp_obj; }; if(!objname.CompareTo("RunInfo"))return &run_obj; if(!objname.CompareTo("SoftInfo"))return &soft_obj; // Emiliano return NULL; }; //-------------------------------------- // // //-------------------------------------- /** * Retrieves the calorimeter track matching the seqno-th tracker stored track. * (If seqno = -1 retrieves the self-trigger calorimeter track) */ CaloTrkVar *PamLevel2::GetCaloStoredTrack(int seqno){ if( !calo2_obj )return 0; if( calo2_obj->CaloLevel2::ntrk()==0 ){ cout << "PamLevel2::GetCaloStoredTrack(int) : requested tracker SeqNo "<< seqno <<" but no Calorimeter tracks are stored"<CaloLevel2::GetCaloTrkVar(it_calo); it_calo++; } while( c && seqno != c->trkseqno && it_calo < calo2_obj->CaloLevel2::ntrk()); if(!c || seqno != c->trkseqno){ c = 0; if(seqno!=-1)cout << "PamLevel2::GetCaloStoredTrack(int) : requested tracker SeqNo "<< seqno <<" does not match Calorimeter stored tracks"<ToFLevel2::ntrk()==0 ){ cout << "PamLevel2::GetToFStoredTrack(int) : requested tracker SeqNo "<< seqno <<" but no ToF tracks are stored"<ToFLevel2::GetToFTrkVar(it_tof); it_tof++; } while( c && seqno != c->trkseqno && it_tof < tof_obj->ToFLevel2::ntrk()); if(!c || seqno != c->trkseqno){ c = 0; if(seqno!=-1)cout << "PamLevel2::GetToFStoredTrack(int) : requested tracker SeqNo "<< seqno <<" does not match ToF stored tracks"<OrbitalInfo::ntrk()==0 ){ // // TRICK BEGIN // OrbitalInfoTrkVar *r = new OrbitalInfoTrkVar(); // TEMPORARY TRICK // Int_t nn = 0; // TClonesArray &tor = *orb_obj->OrbitalInfoTrk; // for(Int_t nt=0; nt < tof_obj->ToFLevel2::ntrk(); nt++){ // // // ToFTrkVar *ptt = tof_obj->ToFLevel2::GetToFTrkVar(nt); // if ( ptt->trkseqno != -1 ){ // // // r->trkseqno = ptt->trkseqno; // // // r->Eij = 0; // // // r->Sij = 0; // // // r->pitch = -1000.; // // // r->cutoff = -1000.; // // // new(tor[nn]) OrbitalInfoTrkVar(*r); // nn++; // // // r->Clear(); // // // }; // }; // delete r; // OrbitalInfoTrkVar *c = 0; // c = orb_obj->OrbitalInfo::GetOrbitalInfoTrkVar(0); // return c; // //TRICK END cout << "PamLevel2::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo "<< seqno <<" but no OrbitalInfo tracks are stored"<OrbitalInfo::GetOrbitalInfoTrkVar(it_tof); it_tof++; } while( c && seqno != c->trkseqno && it_tof < orb_obj->OrbitalInfo::ntrk()); if(!c || seqno != c->trkseqno){ c = 0; if(seqno!=-1)cout << "PamLevel2::GetOrbitalInfoStoredTrack(int) : requested tracker SeqNo "<< seqno <<" does not match OrbitalInfo stored tracks"<GetSeqNo()); if(TOF) o = GetToFStoredTrack(t->GetSeqNo()); if(ORB) r = GetOrbitalInfoStoredTrack(t->GetSeqNo()); // if(t && c && o)track = new PamTrack(t,c,o); PamTrack *track = new PamTrack(t,c,o,r); return track; }; //-------------------------------------- // // //-------------------------------------- /** * Retrieves the it-th stored track. * It override TrkLevel2::GetTrack(int it). * @param itrk Track number, ranging from 0 to GetNTracks(). */ PamTrack* PamLevel2::GetStoredTrack(Int_t itrk){ cout <<"PamLevel2::GetStoredTrack(Int_t itrk) **to-be-updated** "<=0 && itrk < trk2_obj->TrkLevel2::ntrk() ){ TrkTrack *t = trk2_obj->TrkLevel2::GetStoredTrack(itrk); track = GetPamTrackAlong(t); }else{ cout << "PamLevel2::GetStoredTrack(int) : tracker track SeqNo "<< itrk <<" does not exist (GetNTracks() = "<TrkLevel2::GetNTracks()<<")"<GetNTracks()); tsorted->Delete(); TClonesArray &ttsorted = *tsorted; if(!timage)timage = new TClonesArray("PamTrack",trk2_obj->GetNTracks()); timage->Delete(); TClonesArray &ttimage = *timage; //-------------------------------------------------- // retrieve sorting method //-------------------------------------------------- Bool_t use_TRK = how.Contains("TRK", TString::kIgnoreCase); Bool_t use_CAL = how.Contains("CAL", TString::kIgnoreCase); Bool_t use_TOF = how.Contains("TOF", TString::kIgnoreCase); Bool_t use_S1 = how.Contains("S1", TString::kIgnoreCase); Bool_t use_S2 = how.Contains("S2", TString::kIgnoreCase); Bool_t use_S3 = how.Contains("S3", TString::kIgnoreCase); Bool_t use_GP = how.Contains("GP", TString::kIgnoreCase); if ( use_TOF ){ use_S1 = true; use_S2 = true; use_S3 = true; }; if( !CAL2 && use_CAL) use_CAL = false; if( !TOF ){ use_TOF = false; use_S1 = false; use_S2 = false; use_S3 = false; } if( !GP ){ use_GP = false; } if( !TRK2 ){ cout << "SortTracks() : without tracker does not work!!! (not yet)" << endl; return; }; // cout << "use_CAL "<TrkLevel2::GetNTracks(); i++){ TrkTrack *ts = 0; CaloTrkVar *cs = 0; ToFTrkVar *os = 0; OrbitalInfoTrkVar *rs = 0; // get tracker tracks TrkTrack *tp = trk2_obj->TrkLevel2::GetTrack(i); //tracker CaloTrkVar *cp = GetCaloStoredTrack(tp->GetSeqNo()); ToFTrkVar *op = GetToFStoredTrack(tp->GetSeqNo()); OrbitalInfoTrkVar *rp = GetOrbitalInfoStoredTrack(tp->GetSeqNo()); TrkTrack *ti = 0; //tracker (image) CaloTrkVar *ci = 0; ToFTrkVar *oi = 0; OrbitalInfoTrkVar *ri = 0; // cout << "trk track n. "<HasImage()){ ti = trk2_obj->TrkLevel2::GetTrackImage(i); //tracker (image) ci = GetCaloStoredTrack(ti->GetSeqNo()); oi = GetToFStoredTrack(ti->GetSeqNo()); ri = GetOrbitalInfoStoredTrack(ti->GetSeqNo()); // cout << "its image "<npresh > ci->npresh && true){ tp_score++; totp_score++; }; if( cp->npresh < ci->npresh && true){ ti_score++; toti_score++; }; // cout << "CALO "<npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); if ( pl == 2 || pl == 3 || pl == 4 || pl == 5 ) sen += (op->dedx).At(ih); }; for (Int_t ih=0; ih < oi->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); if ( pl == 2 || pl == 3 || pl == 4 || pl == 5 ) sen += (oi->dedx).At(ih); }; // if ( sen >= sortthr && false){ // temporary disabled NUCLEI special algorithm since the new one should work for every particle (to be checked!) //printf(" IS A NUCLEUS! en = %f \n",sen); // // is a nucleus use a different algorithm // Int_t nz = 6; Float_t zin[6]; // << define TOF z-coordinates for(Int_t ip=0; ipToFLevel2::GetZTOF(tof_obj->ToFLevel2::GetToFPlaneID(ip)); // << read ToF plane z-coordinates Trajectory *tr = new Trajectory(nz,zin); // Int_t nphit_p =0; Int_t nphit_i =0; Float_t enhit_p = 0.; Float_t enhit_i = 0.; // for (Int_t ih=0; ih < op->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); if(pl == 1 || pl == 2 || pl == 5){ nphit_p++; enhit_p += (op->dedx).At(ih); }; }; // tp->DoTrack2(tr); // if ( fabs(tr->y[0]-oi->ytofpos[0]) < 2. ){ for (Int_t ih=0; ih < op->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); if(pl == 0){ nphit_p++; enhit_p += (op->dedx).At(ih); }; }; }; if ( fabs(tr->y[3]-oi->ytofpos[1]) < 2. ){ for (Int_t ih=0; ih < op->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); if(pl == 3){ nphit_p++; enhit_p += (op->dedx).At(ih); }; }; }; if ( fabs(tr->y[4]-oi->ytofpos[2]) < 2. ){ for (Int_t ih=0; ih < op->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); if(pl == 4){ nphit_p++; enhit_p += (op->dedx).At(ih); }; }; }; for (Int_t ih=0; ih < oi->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); if(pl == 1 || pl == 2 || pl == 5){ nphit_i++; enhit_i += (op->dedx).At(ih); }; }; // ti->DoTrack2(tr); // if ( fabs(tr->y[0]-oi->ytofpos[0]) < 2. ){ for (Int_t ih=0; ih < oi->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); if(pl == 0){ nphit_i++; enhit_i += (op->dedx).At(ih); }; }; }; if ( fabs(tr->y[3]-oi->ytofpos[1]) < 2. ){ for (Int_t ih=0; ih < oi->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); if(pl == 3){ nphit_i++; enhit_i += (op->dedx).At(ih); }; }; }; if ( fabs(tr->y[4]-oi->ytofpos[2]) < 2. ){ for (Int_t ih=0; ih < oi->npmtadc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); if(pl == 4){ nphit_i++; enhit_i += (op->dedx).At(ih); }; }; }; if( (use_TOF || use_S1 || use_S2 || use_S3) && (nphit_p+nphit_i) !=0 && true){ // printf(" seqno %i nphit_p %i nphit_i %i enhit_p %f enhit_i %f \n",trk2_obj->TrkLevel2::GetSeqNo(i),nphit_p,nphit_i,enhit_p,enhit_i); // printf(" score p %i score i %i \n",tp_score,ti_score); // if( enhit_p > enhit_i ) tp_score++; // if( nphit_p >= nphit_i && enhit_p > enhit_i ) tp_score++; if ( nphit_p > nphit_i ) tp_score++; if ( nphit_p < nphit_i ) ti_score++; if ( nphit_p == nphit_i ){ if ( enhit_p > enhit_i ) tp_score++; else ti_score++; }; // printf(" dopo score p %i score i %i \n",tp_score,ti_score); }; delete tr; // } else { // ------------- // NOT a NUCLEUS // ------------- //printf(" NOT a NUCLEUS! en = %f \n",sen); Int_t nphit_p =0; Int_t nphit_i =0; /* cout << "track: npmtadc "<< op->npmtadc << endl; cout << "track: npmttdc "<< op->npmttdc << endl; cout << "image: npmtadc "<< oi->npmtadc << endl; cout << "image: npmttdc "<< oi->npmttdc << endl;*/ // for (Int_t ih=0; ih < op->npmtadc; ih++){ // Int_t pl = tof_obj->GetPlaneIndex( (op->pmtadc).At(ih) ); // if(pl == 1 || pl == 2 || pl == 5)nphit_p++; // }; // for (Int_t ih=0; ih < oi->npmtadc; ih++){ // Int_t pl = tof_obj->GetPlaneIndex( (oi->pmtadc).At(ih) ); // if(pl == 1 || pl == 2 || pl == 5)nphit_i++; // }; // --- modified to count tdc signals (more efficient?) // --- and to implement check on tdcflag for (Int_t ih=0; ih < op->npmttdc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (op->pmttdc).At(ih) ); // if( (op->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_p++; if ( (use_S1 && ( pl == 0 || pl == 1 )) || (use_S2 && ( pl == 2 || pl == 3 )) || (use_S3 && ( pl == 4 || pl == 5 )) ){ if( (op->tdcflag).At(ih)==0 )nphit_p++; }; }; for (Int_t ih=0; ih < oi->npmttdc; ih++){ Int_t pl = tof_obj->GetPlaneIndex( (oi->pmttdc).At(ih) ); // if( (oi->tdcflag).At(ih)==0 && (pl == 1 || pl == 2 || pl == 5) )nphit_i++; if ( (use_S1 && ( pl == 0 || pl == 1 )) || (use_S2 && ( pl == 2 || pl == 3 )) || (use_S3 && ( pl == 4 || pl == 5 )) ){ if( (oi->tdcflag).At(ih)==0 )nphit_i++; }; }; if( (nphit_p+nphit_i) !=0 && true){ if ( nphit_p != nphit_i ){ totp_score += nphit_p; toti_score += nphit_i; tp_score+=nphit_p; ti_score+=nphit_i; }; // if ( nphit_p > nphit_i) tp_score+=nphit_p; // else if( nphit_p < nphit_i) ti_score+=nphit_i; // else ;//niente }; }; // cout << "TOF "<chi2 > 0 && tp->chi2 < ti->chi2 ) tp_score++ ; // else if( ti->chi2 > 0 && ti->chi2 < tp->chi2 ) ti_score++ ; // CHECK 1 : number of points along X if ( tp->GetNX() >= ti->GetNX() ){ tp_score++ ; totp_score++ ; }; if ( tp->GetNX() <= ti->GetNX() ){ ti_score++ ; toti_score++ ; }; // CHECK 2 : number of points along Y if ( tp->GetNY() >= ti->GetNY() ){ tp_score++ ; totp_score++ ; }; if ( tp->GetNY() <= ti->GetNY() ){ ti_score++ ; toti_score++ ; }; // cout << "TRK "<Nthspe; ih++){ int ip = (Int_t) GetGPamela()->Itrpb[ih] - 1; if( tp && tp->YGood(ip) && fabs(tp->ym[ip]- GetGPamela()->Yavspe[ih])YGood(ip) && fabs(ti->ym[ip]- GetGPamela()->Yavspe[ih]) ngphits_i && true){ tp_score++ ; totp_score++ ; } if( ngphits_p < ngphits_i && true){ ti_score++ ; toti_score++ ; } } // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-* // the winner is.... // *-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-*-* if (tp_score > ti_score) { }else if (tp_score < ti_score) { ts = ti;//its image!! cs = ci; os = oi; rs = ri; Int_t totis = toti_score; ti = tp;//its image!! ci = cp; oi = op; ri = rp; tp = ts;//its image!! cp = cs; op = os; rp = rs; toti_score = totp_score; totp_score = totis; }else { // cout << "Warning - track image ambiguity not solved" << endl; }; }else{ totp_score = 1; toti_score = 0; // ts = tp; // cs = cp; // os = op; }; // cout <<" SortTracks() "<Add(ts);//save the track in the sorted array // sorted_tracks.Add(ts);//save the track in the sorted array // sorted_tracks.Add(tp);//save the track in the sorted array // cout << "SortTracks:: sorted_tracks->Add(it) "<SetPScore(totp_score); ((PamTrack*)(ttsorted[i]))->SetIScore(toti_score); ((PamTrack*)(ttimage[i]))->SetPScore(totp_score); ((PamTrack*)(ttimage[i]))->SetIScore(toti_score); }; if( tsorted->GetEntries() != trk2_obj->GetNTracks() ){ cout << "void PamLevel2::SortTracks(): tsorted->GetEntries() "<GetEntries()<<" != trk2_obj->GetNTracks() = "<GetNTracks() <Delete(); tsorted=0; timage->Delete(); timage=0; } //Restore Object count //To save space in the table keeping track of all referenced objects //We reset the object count to what it was at the beginning of the event. TProcessID::SetObjectCount(ObjectNumber); }; //-------------------------------------- // // //-------------------------------------- /** * This method overrides TrkLevel2::GetTracks(), where sorting is done by decreasing number of fit points and increasing chi^2. * PamLevel2::GetTracks() keeps the same track order given by TrkLevel2::GetTracks(), but checks image selection by using calorimeter and ToF tracking information. */ // TRefArray *PamLevel2::GetTracks(){ // // *-*-*-*-*-*-*-*-*-*-*-*-* // SortTracks("+CAL+TOF"); // // *-*-*-*-*-*-*-*-*-*-*-*-* // // return sorted_tracks; // return &sorted_tracks; // }; TClonesArray *PamLevel2::GetTracks(){ // *-*-*-*-*-*-*-*-*-*-*-*-* SortTracks(); // *-*-*-*-*-*-*-*-*-*-*-*-* return tsorted; }; //-------------------------------------- // // //-------------------------------------- /** * Retrieves the it-th Pamela "physical" track. * It override TrkLevel2::GetTrack(int it). * @param it Track number, ranging from 0 to GetNTracks(). */ PamTrack *PamLevel2::GetTrack(int it){ // if(!trk2_obj) return 0; // // *-*-*-*+-*-*-*-*-*-*-*-*-* // SortTracks("+CAL+TOF"); // // *-*-*-*-*-*-*-*-*-*-*-*-* // // if(!sorted_tracks)return 0; // if(sorted_tracks.IsEmpty())return 0; // PamTrack *track = 0; // if( it >=0 && it < trk2_obj->TrkLevel2::GetNTracks() && itGetEntries())return 0; PamTrack *track = 0; if( it >=0 && it < trk2_obj->TrkLevel2::GetNTracks()){ // TrkTrack *t = (TrkTrack*)sorted_tracks.At(it); // track = GetPamTrackAlong(t); TClonesArray &t = *(tsorted); track = (PamTrack*)t[it]; }else{ cout << "PamLevel2::GetTrack(int) : tracker track SeqNo "<< it <<" does not exist (GetNTracks() = "<TrkLevel2::GetNTracks()<<")"<GetEntries())return 0; PamTrack *image = 0; if( it >=0 && it < trk2_obj->TrkLevel2::GetNTracks() ){ TClonesArray &t = *(tsorted); PamTrack *temp = (PamTrack*)t[it]; if( temp->GetTrkTrack()->HasImage() ){ TClonesArray &t = *(timage); image = (PamTrack*)t[it]; }else{ // cout <<"PamLevel2::GetTrackImage(int) : Track SeqNo "<GetName(); if(!CheckLevel2File(fname))return NULL; // UInt_t *found=0; cout<< "GetPamTree(TFile*,TString): detector list --> "; if(TRK1)cout<<"TRK1 "; if(TRK2)cout<<"TRK2 "; if(TRKh)cout<<"TRKH "; if(CAL1)cout<<"CAL1 "; if(CAL2)cout<<"CAL2 "; if(TOF)cout<<"TOF "; if(TRG)cout<<"TRG "; if(AC)cout<<"AC "; if(ND)cout<<"ND "; if(S4)cout<<"S4 "; if(ORB)cout<<"ORB "; if(GP)cout<<"GP "; cout << endl; if(SELLI && SELLI!=2)cout<<">>> Found selection-list <<<"<cd(); // Tracker TTree *T = (TTree*)f->Get("Tracker"); if(T && (TRK2||TRK1||TRKh)) { if(TRK2)T->SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel2")); // else T->SetBranchStatus("TrkLevel2",0,found); if(TRK2)cout << "Tracker : set branch address TrkLevel2"<SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel1")); // else T->SetBranchStatus("TrkLevel1",0,found); if(TRK1)cout << "Tracker : set branch address TrkLevel1"<SetBranchAddress("TrkHough", GetPointerTo("TrkHough")); // else T->SetBranchStatus("TrkHough",0,found); if(TRKh)cout << "Tracker : set branch address TrkHough"<AddFriend(T); }else{ cout << "Tracker : missing tree"<Get("Calorimeter"); if(C && (CAL2||CAL1)) { if(CAL2)C->SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2")); // else C->SetBranchStatus("CaloLevel2",0,found); if(CAL2)cout << "Calorimeter : set branch address CaloLevel2"<SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1")); // else C->SetBranchStatus("CaloLevel1",0,found); if(CAL1)cout << "Calorimeter : set branch address CaloLevel1"<AddFriend(C); }else{ cout << "Calorimeter : missing tree"<Get("ToF"); if(O && TOF) { O->SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2")); cout << "ToF : set branch address ToFLevel2"<AddFriend(O); }else{ cout << "ToF : missing tree"<Get("Trigger"); if(R && TRG) { R->SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2")); cout << "Trigger : set branch address TrigLevel2"<AddFriend(R); }else{ cout << "Trigger : missing tree"<Get("S4"); if(S && S4) { S->SetBranchAddress("S4Level2", GetPointerTo("S4Level2")); cout << "S4 : set branch address S4Level2"<AddFriend(S); }else{ cout << "S4 : missing tree"<Get("NeutronD"); if(N && ND) { N->SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2")); cout << "NeutronD : set branch address NDLevel2"<AddFriend(N); }else{ cout << "NeutronD : missing tree"<Get("Anticounter"); if(A && AC) { A->SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2")); cout << "Anticounter : set branch address AcLevel2"<AddFriend(A); }else{ cout << "Anticounter : missing tree"<Get("OrbitalInfo"); if(B && ORB) { B->SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo")); cout << "OrbitalInfo : set branch address OrbitalInfo"<AddFriend(B); }else{ cout << "OrbitalInfo : missing tree"<Get("h20"); if(G && GP) { if(!gp_obj)gp_obj=new GPamela(); // ------------------------------------ // ATTENZIONE!!! // non so per quale arcano motivo, // per l'albero di gpamela il branch address lo devo settare // DOPO aver fatto friend // FGRRRVZZZZUTSALKJMSLKJ!!! // ------------------------------------ // gp_obj->SetBranchAddress(G); //ho dovuto fare in maniera diversa dagli altri // cout << "h20 : set branch address GPamela "<AddFriend(G); }else{ // cout << "h20 : missing tree"<Get("SelectionList"); if(L && SELLI==1) { cout << " TTree *PamLevel2::GetPamTree(TFile, TString) >>> SelectionList not implemented!!!!"<GetEntries()<SetBranchAddress(Trout); //ho dovuto fare in maniera diversa dagli altri cout << "h20 : set branch address GPamela "<WorkingDirectory(); // cout << "Working directory: "<BaseName(ddir),ddir); if ( ddir != ""){ cout << "Level2 data directory : "<< ddir << endl; } else { cout << "Level2 data directory not given as input: trying to evaluate from list or taking working directory " << endl; }; TList *contents = new TList; // create output list contents->SetOwner(); // char *fullpath; // const char *fullpath; // if no input file list is given: if ( flisttxt != "" ){ // if( !gSystem->IsFileInIncludePath(flisttxt,&fullpath) ){ // if( !(fullpath = gSystem->FindFile("./",flisttxt)) ){ // cout <<"File "<DirName(flisttxt); // cout << " List directory "<ConcatFileName(wdir.Data(),gSystem->BaseName(flisttxt)); // flisttxt = gSystem->ConcatFileName(gSystem->DirName(flisttxt),gSystem->BaseName(flisttxt)); if( !gSystem->ChangeDirectory(ddir) ){ cout << "Cannot change directory : "< ERROR opening the file "<ChangeDirectory(wdir); // back to the working directory return 0; } int line=0; while (1) { TString file; in >> file; if (!in.good()) break; line++; // cout <<"(1) " << file << endl; if(file.IsNull()){ cout << "-- list interrupted at line "<IsFileInIncludePath(file,&fullpath) ){ // if( (fullpath = gSystem->FindFile(ddir,file)) ){ if( file.EndsWith(".root") ){ TString filedir; if (ddir != ""){ filedir = ddir; // take the input dir } else { gSystem->ChangeDirectory(wdir); // back to the working directory filedir = gSystem->DirName(file); // this will take the path if exist in the list otherwise it will return automatically the working dir }; char *fullpath = gSystem->ConcatFileName(gSystem->DirName(filedir),gSystem->BaseName(file)); contents->Add(new TSystemFile(fullpath,gSystem->DirName(fullpath)));// add file to the list delete fullpath; } // }else{ // if(file.Data()!="")cout << "File: "< missing "<< endl; // }; }; in.close(); } else { if(flisttxt.Contains("#"))flisttxt = flisttxt(0,flisttxt.First("#")); char *fullpath = gSystem->ConcatFileName(gSystem->DirName(flisttxt),gSystem->BaseName(flisttxt)); contents->Add(new TSystemFile(fullpath,gSystem->DirName(fullpath)));// add file to the list delete fullpath; }; }else{ cout << "No input file list given."<WorkingDirectory()<< endl; if ( ddir == "" ){ ddir = wdir; cout << "Level2 data directory : "<< ddir << endl; }; TSystemDirectory *datadir = new TSystemDirectory(gSystem->BaseName(ddir),ddir); TList *temp = datadir->GetListOfFiles(); if(!temp)return 0; // temp->Print(); // cout << "*************************************" << endl; TIter next(temp); TSystemFile *questo = 0; while ( (questo = (TSystemFile*) next()) ) { TString name = questo-> GetName(); if( name.EndsWith(".root") ){ // const char *fullpath = gSystem->FindFile(ddir,name); // char *fullpath; // gSystem->IsFileInIncludePath(name,&fullpath); char *fullpath = gSystem->ConcatFileName(gSystem->DirName(ddir),gSystem->BaseName(name)); contents->Add(new TSystemFile(fullpath,gSystem->DirName(fullpath))); delete fullpath; }; } delete temp; delete datadir; }; gSystem->ChangeDirectory(wdir); // back to the working directory // cout << endl << "Selected files:" << endl; // contents->Print(); cout << contents->GetEntries()<<" files \n"; // cout << endl; // cout << "Working directory: "<< gSystem->WorkingDirectory()<< endl; return contents; }; //-------------------------------------- // // //-------------------------------------- /** * Get the Pamela detector chains from a list of files and make them friends. * @param fl Pointer to a TList of TSystemFiles * @param detlist String to select trees to be included * @return Pointer to a TChain */ TChain *PamLevel2::GetPamTree(TList *fl, TString detlist ){ // // // if ( pam_tree ){ printf("WARNING: TChain *PamLevel2::GetPamTree(TList *fl, TString detlist) -- pam_tree already exists!\n "); return pam_tree; }; // TChain *Trout =0; // ------------------------------------------- // set flags to include/exclude trees/branches // ------------------------------------------- if( detlist.Contains("+AUTO", TString::kIgnoreCase) ) { if( fl->GetEntries()>0 ){ cout << "+AUTO"<At(0)->GetName() ); GetWhichTrees(fprimo); fprimo->Close();// AAAAARGGGGGHHHHH!!!!!!! non commentare questa riga, altrimenti si incasina il TChain fprimo->Delete(); } }; SetWhichTrees(detlist); // ------------------------------------------- // build chains // ------------------------------------------- TChain *T = 0; TChain *C = 0; TChain *O = 0; TChain *R = 0; TChain *S = 0; TChain *N = 0; TChain *A = 0; TChain *B = 0; TChain *G = 0; TChain *L = 0; if(TRK2||TRK1||TRKh) T = new TChain("Tracker"); if(CAL2||CAL1) C = new TChain("Calorimeter"); if(TOF) O = new TChain("ToF"); if(TRG) R = new TChain("Trigger"); if(S4) S = new TChain("S4"); if(ND) N = new TChain("NeutronD"); if(AC) A = new TChain("Anticounter"); if(ORB) B = new TChain("OrbitalInfo"); if(GP) G = new TChain("h20"); L = new TChain("SelectionList"); // loop over files and create chains TIter next(fl); TSystemFile *questo = 0; while ( (questo = (TSystemFile*) next()) ) { TString name = questo->GetName(); cout << "File: "<< name << endl; if( CheckLevel2File(name) ){ if(TRK2||TRK1||TRKh) T->Add(name); if(CAL1||CAL2) C->Add(name); if(TOF) O->Add(name); if(TRG) R->Add(name); if(S4) S->Add(name); if(ND) N->Add(name); if(AC) A->Add(name); if(ORB) B->Add(name); if(GP) G->Add(name); if(SELLI==1) L->Add(name); }; }; cout << "done chains\n"; cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <AddFriend("Tracker"); // cout << "+Tacker"<AddFriend("Calorimeter"); // cout << "+Calorimeter"<AddFriend("ToF"); // cout << "+ToF"<AddFriend("Trigger"); // cout << "+Trigger"<AddFriend("S4"); // cout << "+S4"<AddFriend("NeutronD"); // cout << "+NeutronD"<AddFriend("Anticounter"); // cout << "+Anticounter"<AddFriend("OrbitalInfo"); // cout << "+OrbitalInfo"<AddFriend("h20"); // cout << "+h20"<>> Found selection-list <<<"<SetBranchAddress("RunEntry",&irun); L->SetBranchAddress("RunEntry",&irunt);//NEWNEW cout << "SelectionList: set branch address RunEntry"<SetBranchAddress("EventEntry",&irunentry); cout << "SelectionList: set branch address EventEntry"<AddFriend("SelectionList"); cout << "+SelectionList"<Delete(); }; // -------------------------------------------- // return the pamela chain with all the friends // -------------------------------------------- pam_tree = Trout; return Trout; } //-------------------------------------- // // //-------------------------------------- /** * Set branch addresses for Pamela friend trees */ void PamLevel2::SetBranchAddress(TTree *t){ TRK2 = TRK2 & t->GetBranchStatus("TrkLevel2"); TRK1 = TRK1 & t->GetBranchStatus("TrkLevel1"); TRKh = TRKh & t->GetBranchStatus("TrkHough"); CAL2 = CAL2 & t->GetBranchStatus("CaloLevel2"); CAL1 = CAL1 & t->GetBranchStatus("CaloLevel1"); TOF = TOF & t->GetBranchStatus("ToFLevel2"); TRG = TRG & t->GetBranchStatus("TrigLevel2"); S4 = S4 & t->GetBranchStatus("S4Level2"); ND = ND & t->GetBranchStatus("NDLevel2"); AC = AC & t->GetBranchStatus("AcLevel2"); ORB = ORB & t->GetBranchStatus("OrbitalInfo"); GP = GP & t->GetBranchStatus("h20"); // Tracker if(TRK1) { t->SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel2")); cout << "Tracker : set branch address TrkLevel1"<SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel1")); cout << "Tracker : set branch address TrkLevel2"<SetBranchAddress("TrkHough", GetPointerTo("TrkHough")); cout << "Tracker : set branch address TrkHough"<SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1")); cout << "Calorimeter : set branch address CaloLevel1"<SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2")); cout << "Calorimeter : set branch address CaloLevel2"<SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2")); cout << "ToF : set branch address ToFLevel2"<SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2")); cout << "Trigger : set branch address TrigLevel2"<SetBranchAddress("S4Level2", GetPointerTo("S4Level2")); cout << "S4 : set branch address S4Level2"<SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2")); cout << "NeutronD : set branch address NDLevel2"<SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2")); cout << "Anticounter : set branch address AcLevel2"<SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo")); cout << "OrbitalInfo : set branch address OrbitalInfo"<SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri // // t->SetBranchAddress("GPamela", GetPointerTo("GPamela")); if(SELLI) t->SetBranchAddress("GPamela", GetPointerTo("GPamela")); else gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri cout << "h20 : set branch address GPamela "<GetBranchStatus("TrkLevel2"); // TRK1 = TRK1 & t->GetBranchStatus("TrkLevel1"); // TRKh = TRKh & t->GetBranchStatus("TrkHough"); // CAL1 = CAL1 & t->GetBranchStatus("CaloLevel1"); // CAL2 = CAL2 & t->GetBranchStatus("CaloLevel2"); // TOF = TOF & t->GetBranchStatus("ToFLevel2"); // TRG = TRG & t->GetBranchStatus("TrigLevel2"); // S4 = S4 & t->GetBranchStatus("S4Level2"); // ND = ND & t->GetBranchStatus("NDLevel2"); // AC = AC & t->GetBranchStatus("AcLevel2"); // ORB = ORB & t->GetBranchStatus("OrbitalInfo"); // GP = GP & t->GetBranchStatus("h20"); // Tracker if(TRK2) { t->SetBranchAddress("TrkLevel2", GetPointerTo("TrkLevel2")); cout << "Tracker : set branch address TrkLevel2"<SetBranchAddress("TrkLevel1", GetPointerTo("TrkLevel1")); cout << "Tracker : set branch address TrkLevel1"<SetBranchAddress("TrkHough", GetPointerTo("TrkHough")); cout << "Tracker : set branch address TrkHough"<SetBranchAddress("CaloLevel2", GetPointerTo("CaloLevel2")); cout << "Calorimeter : set branch address CaloLevel2"<SetBranchAddress("CaloLevel1", GetPointerTo("CaloLevel1")); cout << "Calorimeter : set branch address CaloLevel1"<SetBranchAddress("ToFLevel2", GetPointerTo("ToFLevel2")); cout << "ToF : set branch address ToFLevel2"<SetBranchAddress("TrigLevel2", GetPointerTo("TrigLevel2")); cout << "Trigger : set branch address TrigLevel2"<SetBranchAddress("S4Level2", GetPointerTo("S4Level2")); cout << "S4 : set branch address S4Level2"<SetBranchAddress("NDLevel2", GetPointerTo("NDLevel2")); cout << "NeutronD : set branch address NDLevel2"<SetBranchAddress("AcLevel2", GetPointerTo("AcLevel2")); cout << "Anticounter : set branch address AcLevel2"<SetBranchAddress("OrbitalInfo", GetPointerTo("OrbitalInfo")); cout << "OrbitalInfo : set branch address OrbitalInfo"<SetBranchAddress("GPamela", GetPointerTo("GPamela")); else gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri // gp_obj->SetBranchAddress(t); //ho dovuto fare in maniera diversa dagli altri cout << "h20 : set branch address GPamela "<SetBranchAddress("RunEntry",&irunt);//NEWNEW // cout << "SelectionList: set branch address RunEntry"<SetBranchAddress("EventEntry",&irunentry); // cout << "SelectionList: set branch address EventEntry"<GetName(); // cout << "File: "<< name << endl; if( CheckLevel2File(name) ){ R->Add(name); }; } if(RUN && R->GetNtrees()){ R->SetBranchAddress("RunInfo", GetPointerTo("RunInfo")); cout << "Run : set branch address RunInfo"<SetBranchAddress("SoftInfo", GetPointerTo("SoftInfo")); // Emiliano cout << "Software : set branch address SoftInfo"<GetNtrees()]; if(DBG){ cout << "----------------------------------------------------"<GetEntries(); ii++){ R->GetEntry(ii); if(DBG){ cout << ii<< "\t | "; cout << R->GetTreeNumber()<< "\t |"; // cout << R->GetChainOffset()<< "\t |"; cout <ID<<"\t"; cout <ID_RUN_FRAG<<"\t"; cout <NEVENTS<< "\t"; cout <RUNHEADER_TIME<<" <---> "<RUNTRAILER_TIME <<"\t"; cout <RUNHEADER_OBT<<" <---> "<RUNTRAILER_OBT<<"\t"; cout <GetTreeNumber()]=R->GetChainOffset(); } cout << "N.run = "<GetEntries()<Get("Run"); if(T){ T->SetBranchAddress("RunInfo", GetPointerTo("RunInfo")); cout << "Run : set branch address RunInfo"<SetBranchAddress("SoftInfo", GetPointerTo("SoftInfo")); // Emiliano cout << "Software : set branch address SoftInfo"<GetEntries() <= 0 ) return(false); // // Int_t oldrun = irun; Long64_t oldrun = irun; // -------------------------------------- // if it is a full file (not preselected) // -------------------------------------- if(SELLI==0){ // // the absolute time is necessary to relate the event with the run // if( !GetOrbitalInfo() && !ISGP){ cout << "Bool_t PamLevel2::UpdateRunInfo(TChain *run, ULong64_t iev) -- ERROR -- missing OrbitalInfo "<absTime; // // the first time the routine is called, set run search from the beginning // if ( irun < 0LL ){ irun = 0LL; run->GetEntry(irun); runfirstentry = 0LL; runlastentry += (Long64_t)(this->GetRunInfo()->NEVENTS); if ( (Long64_t)(this->GetRunInfo()->NEVENTS) > 0LL ) runlastentry -= 1LL; if( ISGP && run->GetEntries()!=1 ){ cout << "** WARNING ** simulated files are assumed to have 1 single run, not "<< run->GetEntries() << endl; cout << "** WARNING ** run will not be updated"<RUNHEADER_TIME; // BARBATRUCCO // if ( irun == run->GetEntries()-1LL && !(abstime >= GetRunInfo()->RUNHEADER_TIME && abstime <= GetRunInfo()->RUNTRAILER_TIME) ){ irun = -1LL; irunt = -1LL; runfirstentry = 0LL; runlastentry = -1LL; }; // modificato il controllo sull'aggiornamento del run, per evitare problemi // dovuti agli eventi annidati (NB! NEVENTS conta anche questi!!) // bool fromfirst = true; // while ( !(abstime >= GetRunInfo()->RUNHEADER_TIME && abstime <= GetRunInfo()->RUNTRAILER_TIME) && irun < run->GetEntries()-1LL ){ // while ( iev > (runfirstentry+(ULong64_t)(this->GetRunInfo()->NEVENTS-1)) && irun < run->GetEntries() ){ irun++; run->GetEntry(irun); runfirstentry = runlastentry; if ( (Long64_t)(this->GetRunInfo()->NEVENTS) > 0LL ) runfirstentry += 1LL; runlastentry += (Long64_t)(this->GetRunInfo()->NEVENTS); // cout << " ))))) UPDATE RUN INFO ((((( @iev "<ID<<" irun "<GetRunInfo()->NEVENTS,(ULong64_t)(runfirstentry+(ULong64_t)(this->GetRunInfo()->NEVENTS))); // printf(" abstime %u trailertime %u \n",abstime,GetRunInfo()->RUNTRAILER_TIME); // printf(" IDRUN %u \n",GetRunInfo()->ID); // // prevshift = 0; // if ( irun == (Long64_t)(run->GetEntries()-1LL) && fromfirst && !(abstime >= GetRunInfo()->RUNHEADER_TIME && abstime <= GetRunInfo()->RUNTRAILER_TIME)){ printf(" resetting irun (it should NOT happen!!!)\n"); fromfirst = false; irun = 0; run->GetEntry(irun); runfirstentry = 0ULL; runlastentry += (Long64_t)(this->GetRunInfo()->NEVENTS); if ( (Long64_t)(this->GetRunInfo()->NEVENTS) > 0LL ) runlastentry -= 1LL; }; // }; // if ( !(abstime >= GetRunInfo()->RUNHEADER_TIME && abstime <= GetRunInfo()->RUNTRAILER_TIME) ) { printf(" Something very wrong here: cannot find RUN containing absolute time %llu \n",abstime); return false; } // if ( irun == oldrun || irun >= run->GetEntries() ) return(false); // // printf(" iev %llu irun %i nevents %u 1st %llu last %llu \n",iev,irun,this->GetRunInfo()->NEVENTS,(ULong64_t)runfirstentry,(ULong64_t)runlastentry); // prevshift = 0; cout << " ))))) UPDATE RUN INFO ((((( @iev "<ID<<" irun "<GetEntry(iev); // cout << irun << " "<< irunentry << endl; if(irun != oldrun){ run->GetEntry(irun); cout << " ))))) UPDATE RUN INFO ((((( @iev "<ID<<" irun "<GetEntries() <= 0 ) { cout << " Bool_t PamLevel2::UpdateRunInfo(ULong64_t iev) -- ERROR -- run tree is empty"<GetEntry(irun); if( !GetOrbitalInfo() )cout << "** WARNING ** missing OrbitalInfo ---> run info might be not correctly updated "<IsConnected()) )SetDBConnection(); //Emiliano gltsync = new GL_TIMESYNC(GetRunInfo()->ID_ROOT_L0,"ID",dbc,false); //Emiliano // the "false" means not to use level0 file (not necessary here) if ( dbc ) dbc->Close();// Emiliano }; // --------------------------------------------------------------- // retrieve OBT and absolute time of the event // --------------------------------------------------------------- ULong64_t abstime = 0LL; // ULong64_t obt = 0LL; // Emiliano Long64_t obt = 0LL; // Emiliano, Long64_t GL_TIMESYNC::DBobt(UInt_t obt) since depending on the situation OBT is lowered or boosted if( GetOrbitalInfo() ){ abstime = GetOrbitalInfo()->absTime; obt = gltsync->DBobt(GetOrbitalInfo()->OBT); // Emiliano }else{ abstime = GetRunInfo()->RUNHEADER_TIME; obt = gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT); // Emiliano } // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+- // if it is a full file (not preselected) // +-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+-+- if(SELLI==0 || SELLI==2){ // Emiliano // --------------------------------------------------------------- // increment dead and live-time counters // (only when reading a file not preselected) // --------------------------------------------------------------- if(SELLI==0){ if( GetTrigLevel2() ){ totdltime[0]+=GetTrigLevel2()->dltime[0]; totdltime[1]+=GetTrigLevel2()->dltime[1]; } totdltime[2]++; } // bool fromfirst = true; // first loop over runs // ------------------------------------------------------ // loop over runs to find the one that contains the event // ------------------------------------------------------ while ( ( // ( // !(abstime >= GetRunInfo()->RUNHEADER_TIME && // check on absolute time (s) // abstime <= GetRunInfo()->RUNTRAILER_TIME) && // !(obt >= GetRunInfo()->RUNHEADER_OBT && // additional check on OBT (ms) // obt <= GetRunInfo()->RUNTRAILER_OBT) // ) !(abstime >= GetRunInfo()->RUNHEADER_TIME && // check on absolute time (s) abstime <= GetRunInfo()->RUNTRAILER_TIME) || !(obt >= gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT) && // additional check on OBT (ms) // Emiliano obt <= gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT)) // Emiliano || GetRunInfo()->NEVENTS==0 // || !(irunentry < GetRunInfo()->NEVENTS-1-prevshift) // ERRORE!!! fa saltare i run con 1 evento || !(irunentry <= GetRunInfo()->NEVENTS-1-prevshift) ) && irun < run_tree->GetEntries() ){ // if( !(abstime >= GetRunInfo()->RUNHEADER_TIME &&abstime <= GetRunInfo()->RUNTRAILER_TIME) )cout << "ABS TIME "<RUNTRAILER_TIME <= GetRunInfo()->RUNHEADER_OBT && obt <= GetRunInfo()->RUNTRAILER_OBT) )cout << "OBT TIME "<< obt <<" "<< GetRunInfo()->RUNTRAILER_OBT << endl; // if( GetRunInfo()->NEVENTS==0 )cout <<"GetRunInfo()->NEVENTS==0 "<NEVENTS-1-prevshift) ) cout << "irunentry > "<NEVENTS-1-prevshift << endl; // - - - - - - - - - - - - - // irunentry = position of current entry, relative to the run // prevshift = shift needed to synchronize l0 and l2 data (nested events) // - - - - - - - - - - - - - // ----------------------------------------- // store dead and live-time of previous run // ----------------------------------------- // if(SELLI==0){ if(SELLI!=2){ if(fromfirst){ if(oldrun==irun){ /// decrement counters if( GetTrigLevel2()){ totdltime[0]-=GetTrigLevel2()->dltime[0];//live-time totdltime[1]-=GetTrigLevel2()->dltime[1];//dead-time } totdltime[2]--; //event counter cout << endl; cout << "n.events : "<GetBranch("DeadLiveTime")->GetEntries() < run_tree->GetEntries()) run_tree_clone->GetBranch("DeadLiveTime")->Fill(); /// reset counters if( GetTrigLevel2() ){ totdltime[0]=GetTrigLevel2()->dltime[0];//live-time totdltime[1]=0; //dead-time } totdltime[2]=1; //event counter } } // } irun++; // ------------------------------------ // if the end of run tree is reached... // ------------------------------------ if( irun == run_tree->GetEntries() ){ if(!fromfirst){ // ----------------------------------------------------- // if it happened already once and the run was not found // ---> exit with error // ----------------------------------------------------- cout << "Bool_t PamLevel2::UpdateRunInfo(Long64_t iev) -- ERROR -- event entry #"<0)runfirstentry += (GetRunInfo()->NEVENTS)-prevshift; irunentry = 0; prevshift = 0; run_tree->GetEntry(irun);//update runinfo irunt = irun - irunoffset[run_tree->GetTreeNumber()]; if ( gltsync ) delete gltsync; // Emiliano if(!dbc || (dbc && !dbc->IsConnected()) )SetDBConnection(); //Emiliano gltsync = new GL_TIMESYNC(GetRunInfo()->ID_ROOT_L0,"ID",dbc,false); // Emiliano if ( dbc ) dbc->Close(); // Emiliano if(gltsync->DBobt(GetRunInfo()->RUNHEADER_OBT)>gltsync->DBobt(GetRunInfo()->RUNTRAILER_OBT) ){ // Emiliano cout << "Bool_t PamLevel2::UpdateRunInfo(Long64_t iev) -- WARNING -- irun "<=RUNTRAILER_OBT " <ID){ // cout << "... where is the next fragment ??"< exit with FALSE // -------------------------------------- if ( irun == oldrun ) return(false); // -------------------------------------- // ... otherwise // -------------------------------------- // -------------------------------------- // ---> exit with TRUE // -------------------------------------- if(DBG)cout << endl << " ))))) UPDATE RUN INFO ((((( @iev "<ID<<" irun "<IsConnected()) )SetDBConnection(); TrkParams::Set(GetRunInfo() ,dbc); if(dbc)dbc->Close(); // ---------------------------------------------------- // then check if the run has a fragment // in this case we have to switch to the next fragment // when the end of the first fragment is reached // ---------------------------------------------------- if( GetRunInfo()->ID_RUN_FRAG != 0 && // GetRunInfo()->ID_RUN_FRAG != GetRunInfo()->ID && DBG && true ){ cout << "* fragment *"<GetEntry(iev);// read irunt from SelectionList irun = irunt + irunoffset[sel_tree->GetTreeNumber()];//NEWNEW if(irun != oldrun ){ if( irun < run_tree->GetEntries() )run_tree->GetEntry(irun); // check if the time is ok (with merged files it is not...) // if not loop over run and look for the proper entry bool SECONDO_GIRO=false; // Long64_t irun_start = irun; int offset_start = irunoffset[sel_tree->GetTreeNumber()]; while ( ( ( !(abstime >= GetRunInfo()->RUNHEADER_TIME && // check on absolute time (s) abstime <= GetRunInfo()->RUNTRAILER_TIME) // || // !(obt >= GetRunInfo()->RUNHEADER_OBT && // additional check on OBT (ms) // obt <= GetRunInfo()->RUNTRAILER_OBT) ) || GetRunInfo()->NEVENTS==0 ) // && irun < run_tree->GetEntries() ){ if(DBG){ cout << " (test) "; cout << " tree "<GetTreeNumber(); cout << " irunt "<GetTreeNumber()]; cout << " abs "<> "<RUNHEADER_TIME<<" "<RUNTRAILER_TIME; cout << " obt "<> "<RUNHEADER_OBT<<" "<RUNTRAILER_OBT; cout << " *** JUMP RUN *** irun "<GetTreeNumber()]++; irun = irunt + irunoffset[sel_tree->GetTreeNumber()];//NEWNEW if(irun == run_tree->GetEntries() && SECONDO_GIRO){ // if(irun == irun_start ){ cout << " ...grrrvzzkhhhajsdkj!!!! "<GetTreeNumber()] = offset_start; return false; } if( irun >= run_tree->GetEntries() || irun < 0){ cout << "irun = "<> search from the beginning... <<"<GetTreeNumber()]=-irunt; } run_tree->GetEntry(irun); } if(DBG){ cout << " (test) "; cout << " tree "<GetTreeNumber(); cout << " irunt "<GetTreeNumber()]; cout << " abs "<> "<RUNHEADER_TIME<<" "<RUNTRAILER_TIME; cout << " obt "<> "<RUNHEADER_OBT<<" "<RUNTRAILER_OBT; } if(DBG)cout << endl; if(DBG)cout << endl << " ))))) UPDATE RUN INFO ((((( @iev "<ID<<" (run-entry "<IsConnected()) )SetDBConnection(); TrkParams::Set(GetRunInfo() ,dbc); if(dbc)dbc->Close(); // cout << endl; prevshift = 0; return true; } return false; } return false; // }; /** * Update the runinfo informations (to be used to have Run infos event by event basis) * @param run Pointer to the chain/tree which contains run infos * @return true if a new run has been read, false if it is still the same run */ Bool_t PamLevel2::UpdateRunInfo(TTree *run, Long64_t iev){ return(UpdateRunInfo((TChain*)run,iev)); }; //-------------------------------------- // // //-------------------------------------- /** * Set which trees shoul be analysed * @param detlist TString containing the sequence of trees required */ void PamLevel2::SetWhichTrees(TString detlist){ // if(detlist.IsNull() || detlist.Contains("+ALL", TString::kIgnoreCase)){ if( detlist.Contains("+ALL", TString::kIgnoreCase)){ cout << " ======================================================== "< "; if(TRK0)cout<<"TRK0 "; if(TRK1)cout<<"TRK1 "; if(TRK2)cout<<"TRK2 "; if(TRKh)cout<<"TRKH "; if(CAL0)cout<<"CAL0 "; if(CAL1)cout<<"CAL1 "; if(CAL2)cout<<"CAL2 "; if(TOF)cout<<"TOF "; if(TRG)cout<<"TRG "; if(AC)cout<<"AC "; if(ND)cout<<"ND "; if(S4)cout<<"S4 "; if(ORB)cout<<"ORB "; if(GP)cout<<"GP "; cout << endl; // cout<< "Set detector list --> "; // if(TRK1)cout<<"TRK1 "; // if(TRK2)cout<<"TRK2 "; // if(TRKh)cout<<"TRKH "; // if(CAL1)cout<<"CAL1 "; // if(CAL2)cout<<"CAL2 "; // if(TOF0)cout<<"TOF0 "; // if(TOF)cout<<"TOF "; // if(TRG)cout<<"TRG "; // if(AC)cout<<"AC "; // if(ND)cout<<"ND "; // if(S4)cout<<"S4 "; // if(ORB)cout<<"ORB "; // cout << endl; }; /** * Set tree/branch detector flags from the content of a tree */ void PamLevel2::GetWhichTrees(TFile* f){ // cout << "void PamLevel2::GetWhichTrees(TFile* f) --- WARNING!! --- ...potrebbe non funzionare "<GetName()<IsZombie() ){ cout << "File: "<< f->GetName() <<" Non valid root file"<< endl; return; } TList *lk = f->GetListOfKeys(); if(!lk)return; TIter next(lk); TKey *key =0; Int_t nev = 0; while( (key = (TKey*)next()) ){ if( !strcmp(key->GetName(),"Run" ) )RUN = true; //========================================================= if( !strcmp(key->GetName(),"Trigger" ) ){ TRG = true; Int_t nevt = ((TTree*)f->Get("Trigger"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" Trigger tree has "<GetName(),"ToF" ) ){ TOF = true; Int_t nevt = ((TTree*)f->Get("ToF"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" ToF tree has "<GetName(),"S4" ) ){ S4 = true; Int_t nevt = ((TTree*)f->Get("S4"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" S4 tree has "<GetName(),"NeutronD" ) ){ ND = true; Int_t nevt = ((TTree*)f->Get("NeutronD"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<"NeutronD tree has "<GetName(),"Anticounter") ){ AC = true; Int_t nevt = ((TTree*)f->Get("Anticounter"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" Anticounter tree has "<GetName(),"OrbitalInfo") ){ ORB = true; Int_t nevt = ((TTree*)f->Get("OrbitalInfo"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" OrbitalInfo tree has "<GetName(),"Tracker" ) ){ TTree *T = (TTree*)f->Get("Tracker"); for(Int_t i=0; iGetListOfBranches()->GetEntries(); i++){ TString name = T->GetListOfBranches()->At(i)->GetName(); if( !name.CompareTo("TrkLevel1") )TRK1=true; if( !name.CompareTo("TrkLevel2") )TRK2=true; if( !name.CompareTo("TrkHough") )TRKh=true; }; Int_t nevt = T->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" Tracker tree has "<Delete(); }; //========================================================= if( !strcmp(key->GetName(),"Calorimeter" ) ){ TTree *T = (TTree*)f->Get("Calorimeter"); for(Int_t i=0; iGetListOfBranches()->GetEntries(); i++){ TString name = T->GetListOfBranches()->At(i)->GetName(); if( !name.CompareTo("CaloLevel1") )CAL1=true; if( !name.CompareTo("CaloLevel2") )CAL2=true; }; Int_t nevt = T->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" Calorimeter tree has "<Delete(); }; //========================================================= if( !strcmp(key->GetName(),"h20") ){ GP = true; Int_t nevt = ((TTree*)f->Get("h20"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" h20 tree has "< "; if(TRK1)cout<<"TRK1 "; if(TRK2)cout<<"TRK2 "; if(TRKh)cout<<"TRKH "; if(CAL1)cout<<"CAL1 "; if(CAL2)cout<<"CAL2 "; if(TOF)cout<<"TOF "; if(TRG)cout<<"TRG "; if(AC)cout<<"AC "; if(ND)cout<<"ND "; if(S4)cout<<"S4 "; if(ORB)cout<<"ORB "; if(GP)cout<<"GP "; cout << endl; return ; }; //-------------------------------------- // // //-------------------------------------- /** * Check if a file contains selected Pamela Level2 trees. * @param name File name * @return true if the file is ok. */ Bool_t PamLevel2::CheckLevel2File(TString name){ Bool_t CAL1__ok = false; Bool_t CAL2__ok = false; Bool_t TRK2__ok = false; Bool_t TRK1__ok = false; Bool_t TRKh__ok = false; Bool_t TRG__ok = false; Bool_t TOF__ok = false; Bool_t S4__ok = false; Bool_t ND__ok = false; Bool_t AC__ok = false; Bool_t ORB__ok = false; Bool_t GP__ok = false; Bool_t RUN__ok = false; Bool_t SELLI__ok = false; // cout << "Checking file: "<IsZombie() ){ cout << "File: "<< f->GetName() <<" discarded ---- Non valid root file"<< endl; return false; } // cout << "Get list of keys: "<GetListOfKeys(); // lk->Print(); TIter next(lk); TKey *key =0; Int_t nev = 0; while( (key = (TKey*)next()) ){ // cout << key->GetName() << endl; // cout << key->GetName() << ""<GetClassName()<Get(key->GetName())<GetClassName()=="TTree" && nev_previous && nev != nev_previous ){ // nev = ((TTree*)f->Get(key->GetName()))->GetEntries(); // cout << "File: "<< f->GetName() <<" discarded ---- "<< key->GetName() << " tree: n.entries does not match "<GetName(),"Run" ) )RUN__ok = true; //========================================================= if( !strcmp(key->GetName(),"SelectionList" ) ){ SELLI__ok = true; if(SELLI==1){ Int_t nevt = ((TTree*)f->Get("SelectionList"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- SelectionList tree has "<GetName(),"Trigger" ) ){ TRG__ok = true; if(TRG){ Int_t nevt = ((TTree*)f->Get("Trigger"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- Trigger tree has "<GetName(),"ToF" ) ){ TOF__ok = true; if(TOF){ Int_t nevt = ((TTree*)f->Get("ToF"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- ToF tree has "<GetName(),"S4" ) ){ S4__ok = true; if(S4){ Int_t nevt = ((TTree*)f->Get("S4"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- S4 tree has "<GetName(),"NeutronD" ) ){ ND__ok = true; if(ND){ Int_t nevt = ((TTree*)f->Get("NeutronD"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- NeutronD tree has "<GetName(),"Anticounter") ){ AC__ok = true; if(AC){ Int_t nevt = ((TTree*)f->Get("Anticounter"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- Anticounter tree has "<GetName(),"OrbitalInfo") ){ ORB__ok = true; if(ORB){ Int_t nevt = ((TTree*)f->Get("OrbitalInfo"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- OrbitalInfo tree has "<GetName(),"Tracker" ) ){ TTree *T = (TTree*)f->Get("Tracker"); if(TRK1||TRK2||TRKh){ Int_t nevt = T->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- Tracker tree has "<GetListOfBranches()->GetEntries(); i++){ TString name = T->GetListOfBranches()->At(i)->GetName(); if( !name.CompareTo("TrkLevel1") )TRK1__ok=true; if( !name.CompareTo("TrkLevel2") )TRK2__ok=true; if( !name.CompareTo("TrkHough") )TRKh__ok=true; }; T->Delete(); }; //========================================================= if( !strcmp(key->GetName(),"Calorimeter" ) ){ TTree *T = (TTree*)f->Get("Calorimeter"); if(CAL1||CAL2){ Int_t nevt = T->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- Calorimeter tree has "<GetListOfBranches()->GetEntries(); i++){ TString name = T->GetListOfBranches()->At(i)->GetName(); if( !name.CompareTo("CaloLevel1") )CAL1__ok=true; if( !name.CompareTo("CaloLevel2") )CAL2__ok=true; }; T->Delete(); }; //========================================================= if( !strcmp(key->GetName(),"h20") ){ ISGP = true; GP__ok = true; if(GP){ Int_t nevt = ((TTree*)f->Get("h20"))->GetEntries(); if( nev && nevt!=nev){ cout << "File: "<< f->GetName() <<" discarded ---- h20 tree has "<GetName() <<" discarded ---- found SelectionList (it is not a full-event file)" << endl; return false; } if( SELLI==1 && !SELLI__ok ){ cout << "File: "<< f->GetName() <<" discarded ---- SelectionList missing" << endl; return false; } // cout << "SELLI "< "; // if(TRK1__ok)cout<<"TRK1 "; // if(TRK2__ok)cout<<"TRK2 "; // if(TRKh__ok)cout<<"TRKH "; // if(CAL1__ok)cout<<"CAL1 "; // if(CAL2__ok)cout<<"CAL2 "; // if(TOF__ok)cout<<"TOF "; // if(TRG__ok)cout<<"TRG "; // if(AC__ok)cout<<"AC "; // if(ND__ok)cout<<"ND "; // if(S4__ok)cout<<"S4 "; // if(ORB__ok)cout<<"ORB "; // cout << endl; if(TRK2 && TRK1__ok)TRK1=1; // ---------------------------------------------------------------------------- // NOTA // se c'e` il level1, lo devo necessarimente leggere. // infatti (non ho capito perche`) i cluster vengono letti e allocati in memoria // comunque, ma non vengono disallocati da PamLevel2::Clear() // ---------------------------------------------------------------------------- if(!RUN__ok) { cout << "File: "<< f->GetName() <<" *WARNING* ---- Missing RunInfo tree (NB: RUN infos will not be updated)"<< endl; RUN = false; }; if(CAL1 && !CAL1__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing CaloLevel1 branch"<< endl; return false; }; if(CAL2 && !CAL2__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing CaloLevel2 branch"<< endl; return false; }; if(TRK2 && !TRK2__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing TrkLevel2 branch"<< endl; return false; }; if(TRK1 && !TRK1__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing TrkLevel1 branch"<< endl; return false; }; if(TRKh && !TRKh__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing TrkHough branch"<< endl; return false; }; if(ORB && !ORB__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing ORB tree"<< endl; return false; }; if(AC && !AC__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing AC tree"<< endl; return false; }; if(S4 && !S4__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing S4 tree"<< endl; return false; }; if(TOF && !TOF__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing ToF tree"<< endl; return false; }; if(ND && !ND__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing ND tree"<< endl; return false; }; if(TRG && !TRG__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing Trigger tree"<< endl; return false; }; if(GP && !GP__ok){ cout << "File: "<< f->GetName() <<" discarded ---- Missing h20 tree"<< endl; return false; }; // lk->Delete(); // delete lk; f->Close(); // cout<< "CheckLevel2File(TString): detector list --> "; // if(TRK1)cout<<"TRK1 "; // if(TRK2)cout<<"TRK2 "; // if(TRKh)cout<<"TRKH "; // if(CAL1)cout<<"CAL1 "; // if(CAL2)cout<<"CAL2 "; // if(TOF)cout<<"TOF "; // if(TRG)cout<<"TRG "; // if(AC)cout<<"AC "; // if(ND)cout<<"ND "; // if(S4)cout<<"S4 "; // if(ORB)cout<<"ORB "; // if(GP)cout<<"GP "; // cout << endl; return true; }; /** * Create clone-trees */ void PamLevel2::CreateCloneTrees0( TChain *fChain, TFile *ofile ){ cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <GetTree()->CloneTree(0); TString name = pam_tree_clone[i]->GetName(); name.Append("_clone"); // pam_tree_clone[i]->SetName(name.Data()); cout << pam_tree_clone[i]->GetName() <GetListOfFriends(); TIter next(li); TFriendElement* T_friend=0; ofile->cd(); while( (T_friend = (TFriendElement*)next()) ){ // cout<IsA()->GetName()<<" "<GetName()<GetTree() << dec<GetTree()->GetName()<< endl; pam_tree_clone[i] = T_friend->GetTree()->CloneTree(0); pam_tree_clone[i]->SetAutoSave(1000000); name = pam_tree_clone[i]->GetName(); name.Append("_clone"); // pam_tree_clone[i]->SetName(name.Data()); cout << pam_tree_clone[i]->GetName() << endl; i++; } delete li; cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <cd(); cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <Branch("RunInfo","GL_RUN",GetPointerTo("RunInfo")); cout << "Run : branch RunInfo"<Branch("SoftInfo","SoftInfo",GetPointerTo("SoftInfo")); cout << "Run : branch SoftInfo"<GetEntries(); i++){ run_tree->GetEntry(i); // cout << i<< "\t | "<ID<<"\t "<NEVENTS<< "\t "<RUNHEADER_TIME<<" <---> "<RUNTRAILER_TIME<Fill(); } cout << "----------------------------------------------------"<Branch("DeadLiveTime",totdltime,"dltime[3]/l"); cout << "Run : branch DeadLiveTime"<Branch("RunEntry",&irun,"runentry/L"); sel_tree_clone->Branch("RunEntry",&irunt,"runentry/L");//NEWNEW sel_tree_clone->Branch("EventEntry",&irunentry,"eventry/L"); }; Int_t i=0; if(TRK1||TRK2||TRKh){ pam_tree_clone[i] = new TTree("Tracker","PAMELA tracker level2 data "); if(TRK1) { pam_tree_clone[i]->Branch("TrkLevel1","TrkLevel1", GetPointerTo("TrkLevel1")); pam_tree_clone[i]->BranchRef(); cout << "Tracker : branch TrkLevel1"<Branch("TrkLevel2", "TrkLevel2",GetPointerTo("TrkLevel2")); cout << "Tracker : branch TrkLevel2"<Branch("TrkHough","TrkHough", GetPointerTo("TrkHough")); cout << "Tracker : branch TrkHough"<Branch("CaloLevel1", "CaloLevel1", GetPointerTo("CaloLevel1")); cout << "Calorimeter : branch CaloLevel1"<Branch("CaloLevel2","CaloLevel2", GetPointerTo("CaloLevel2")); cout << "Calorimeter : branch CaloLevel2"<Branch("ToFLevel2","ToFLevel2", GetPointerTo("ToFLevel2")); cout << "ToF : branch ToFLevel2"<Branch("TrigLevel2","TrigLevel2", GetPointerTo("TrigLevel2")); cout << "Trigger : branch TrigLevel2"<Branch("S4Level2","S4Level2", GetPointerTo("S4Level2")); cout << "S4 : branch S4Level2"<Branch("NDLevel2","NDLevel2", GetPointerTo("NDLevel2")); cout << "NeutronD : branch NDLevel2"<Branch("AcLevel2","AcLevel2", GetPointerTo("AcLevel2")); cout << "Anticounter : branch AcLevel2"<Branch("OrbitalInfo","OrbitalInfo", GetPointerTo("OrbitalInfo")); cout << "OrbitalInfo : branch OrbitalInfo"<Branch("GPamela","GPamela", GetPointerTo("GPamela"),32000,1);//split cout << "OrbitalInfo : branch OrbitalInfo"<Fill(); } if(sel_tree_clone)sel_tree_clone->Fill(); } TTree* PamLevel2::GetCloneTree(TString name){ for(Int_t i=0; iGetName(); if(!name.CompareTo(na))return pam_tree_clone[i]; }; } if(run_tree_clone){ TString na = run_tree_clone->GetName(); if(!name.CompareTo(na))return run_tree_clone; } if(sel_tree_clone){ TString na = sel_tree_clone->GetName(); if(!name.CompareTo(na))return sel_tree_clone; } return NULL; } void PamLevel2::WriteCloneTrees(){ cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <GetName()<GetBranch("DeadLiveTime")->GetEntries() < run_tree->GetEntries()) run_tree_clone->GetBranch("DeadLiveTime")->Fill(); }; run_tree_clone->Write(); if ( SELLI != 2){ //Emiliano cout << sel_tree_clone->GetName()<Write(); }; for(Int_t i=0; iGetName()<Write(); }; } cout << "+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+--+" <GetEntry(ii) ){ cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- error reading pam tree"<Fill(); // cout << "PamLevel2::GetEntry("<NEVENTS<< endl; // if( TRK0 || CAL0 || TOF0 ){ // if( !GetYodaEntry( ) ){ // cout << " Int_t PamLevel2::GetEntry(Int_t) -- ERROR -- error reading level0 tree"<ID_ROOT_L0; // cout << "iroot "<IsConnected()))SetDBConnection(); GL_ROOT glroot = GL_ROOT(); if( glroot.Query_GL_ROOT(iroot,dbc) ){ cout << "TTree* PamLevel2::GetYodaTree( ) -- ERROR -- level0 file iroot = "<Close(); l0_file->Delete(); } cout << "Opening LEVEL0 file: "<< filename << endl; FileStat_t t; if( gSystem->GetPathInfo(filename.Data(),t) ){ cout << " PamLevel2::GetYodaTree() -- ERROR opening file "<Get("Physics"); if(!h0_obj)h0_obj = new EventHeader(); l0_tree->SetBranchAddress("Header" ,&h0_obj); prevshift = 0; //--------------------------------------------------- // TRACKER: if(TRK0){ if(!trk0_obj){ trk0_obj = new TrkLevel0(); trk0_obj->Set(); }; l0_tree->SetBranchAddress("Tracker" ,trk0_obj->GetPointerToTrackerEvent()); } //-------------------------------------------------- // CALORIMETER: if(CAL0){ if(!calo0_obj){ calo0_obj = new CaloLevel0(); calo0_obj->Set(); }; l0_tree->SetBranchAddress("Calorimeter" ,calo0_obj->GetPointerToCalorimeterEvent()); // cout << "PamLevel2::GetYodaTree() --- level0 calorimeter not implemented "<Close(); // EMILIANO, do not leave open connections, open only when needed }; // if(!dbc || (dbc && !dbc->IsConnected())){ // cout << " TTree* PamLevel2::GetYodaTree( ) -- no DB connected... hai fatto qualche cazzata "<IsConnected()))SetDBConnection(); TrkParams::SetCalib(run_obj,dbc); TrkParams::LoadCalib( ); if( !TrkParams::CalibIsLoaded() ){ cout << " TTree* PamLevel2::GetYodaTree( ) -- WARNING -- Calibration not loaded"<Close(); // EMILIANO, do not leave open connections, open only when needed } // cout << l0_tree << endl; return l0_tree; } /** * Method to retrieve the level0 tree (YODA tree) that contains the current event. */ Int_t PamLevel2::GetYodaEntry(){ // cout << "Int_t PamLevel2::GetYodaEntry()"<EV_FROM); // cout << " irunentry "<EV_FROM<EV_FROM "<EV_FROM <<" quella giusta "<ID_ROOT_L0 "<ID_ROOT_L0<TRK_CALIB_USED<< endl; ULong64_t obt = 0; ULong64_t pktn = 0; if( GetOrbitalInfo() ){ obt = GetOrbitalInfo()->OBT; pktn = GetOrbitalInfo()->pkt_num; } if( !GetOrbitalInfo() && !ISGP){ cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- missing OrbitalInfo "<0){ cout << " PKTNUM L2 --- "<< pktn << " --- L0 --- "<< GetEventHeader()->GetPscuHeader()->GetCounter()<ID << " ID_ROOT_L0 "<ID_ROOT_L0<<" ID_RUN_FRAG "<ID_RUN_FRAG << " EV_FROM "<EV_FROM < L0 mismatch ( irun "<GetEntry(quellagiusta+(Long64_t)shift+(Long64_t)prevshift); shift++; if( !GetEventHeader() ){ cout << "Int_t PamLevel2::GetYodaEntry() -- ERROR -- missing EventHeader "<GetPscuHeader()->GetOrbitalTime()); //BARBATRUCCO pktn = (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()); //BARBATRUCCO } // cout << "PKTNUM "<GetPscuHeader()->GetCounter()<GetPscuHeader()->GetOrbitalTime()<GetEntries()+1 )cout << ">>> end of level0 tree <<<"<GetPscuHeader()->GetOrbitalTime() "<< GetEventHeader()->GetPscuHeader()->GetOrbitalTime() << endl; // cout << " pktn "<< pktn << endl; // cout << " GetEventHeader()->GetPscuHeader()->GetCounter() "<< GetEventHeader()->GetPscuHeader()->GetCounter() << endl; // printf(" IDRUN %u \n",GetRunInfo()->ID); // if ( prevshift != 0 && (quellagiusta+(Long64_t)shift) == GetYodaTree()->GetEntries() ){ prevshift = 0; shift = -1; }; }while( ( obt != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetOrbitalTime()) || pktn != (UInt_t)(GetEventHeader()->GetPscuHeader()->GetCounter()) ) && (quellagiusta+(Long64_t)shift) < GetYodaTree()->GetEntries() && shift < maxshift); if ( (quellagiusta+(Long64_t)shift+(Long64_t)prevshift) > GetYodaTree()->GetEntries() || shift == maxshift ) { cout << " Big trouble here, no such event in Level0 data! (NB maxshift set to "<GetEntry(quellagiusta); if ( shift > 1 ) prevshift += (shift-1); return answer; } /** * \Brief Set DB connection */ Bool_t PamLevel2::SetDBConnection(){ // cout << "PamLevel2::SetDBConnection()" << endl; if(DBG){ cout<<"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"<IsConnected() )return false; stringstream myquery; // EMILIANO myquery.str(""); // EMILIANO myquery << "SET time_zone='+0:00'"; // EMILIANO dbc->Query(myquery.str().c_str()); // EMILIANO if(DBG)cout<<"~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~"<GetListOfFiles() ); Int_t nf = 0; TChainElement* element = 0; while ((element = (TChainElement*) next())) { c->Add(element->GetTitle()); nf++; } GetPamTree()->AddFriend(cname.Data()); cout << "external chain created and added to pamela friends :"<