#include #include // #include #include #include #if (__GNUC__ == 3) && (__GNUC_MINOR__ == 2) char* operator+( std::streampos&, char* ); #endif // #include #include #include #include #include #include #include #include #include #include #include // #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include // #include #include #include #include #include #include #include #include #include #include #include // #include // #include // #include #include #include #include // extern Bool_t existfile(TString); // using namespace std; FEVdetector::FEVdetector(TString filename, TString selfile, Int_t &mainctrlword, TCanvas &figure){ var.thefilename = filename.Data(); var.thefilter = selfile.Data(); ctrlword = &mainctrlword; thefigure = &figure; checkctrlword(); var.selex = false; } void FEVdetector::checkctrlword(){ var.SHOWDEC = 0; var.TOF = 0; var.AC = 0; var.TRK = 0; var.CALO = 0; var.S4 = 0; var.ND = 0; var.INFOS = 0; var.VINFOS = 0; var.PALETTE = 0; if ( *ctrlword & (1<<0) ) { var.PALETTE = 1; }; if ( *ctrlword & (1<<1) ) { var.VINFOS = 1; }; if ( *ctrlword & (1<<2) ) { var.INFOS = 1; }; if ( *ctrlword & (1<<3) ) { var.ND = 1; }; if ( *ctrlword & (1<<4) ) { var.S4 = 1; }; if ( *ctrlword & (1<<5) ) { var.CALO = 1; }; if ( *ctrlword & (1<<6) ) { var.TRK = 1; }; if ( *ctrlword & (1<<7) ) { var.AC = 1; }; if ( *ctrlword & (1<<8) ) { var.TOF = 1; }; } void FEVdetector::GetWindow(){ otr->GetEntry(maxevent); if ( level.file < 2 ){ ph = eh->GetPscuHeader(); lastevno = (int)ph->Counter; } else { lastevno = L2->GetOrbitalInfo()->pkt_num; // to be changed as soon as we will have pkt_counter in the level2 file! }; otr->GetEntry(minevent); if ( level.file < 2 ){ ph = eh->GetPscuHeader(); firstevno = (int)ph->Counter; } else { firstevno = L2->GetOrbitalInfo()->pkt_num; // to be changed as soon as we will have pkt_counter in the level2 file! }; } void FEVdetector::ClearVariables(){ var.beta[0] = 0.; var.beta[1] = 0.; var.beta[2] = 0.; var.beta[3] = 0.; var.beta[4] = 0.; var.s4sig = 0.; var.nstrip = 0; var.qtot = 0; var.nclx = 0; var.ncly = 0; var.trup = 0; var.bkup = 0; var.bkbo = 0; var.hcas = 0; var.hcat = 0; var.hcard = 0; } void FEVdetector::GetEntry(Int_t i){ thisentry = i; otr->GetEntry(i); } void FEVdetector::SetEntry(Int_t i){ thisentry = i; } int FEVdetector::GetCounter(){ if ( level.file < 2 ){ ph = eh->GetPscuHeader(); return((int)ph->Counter); } else { // return(thisentry); // to be changed as soon as we will have pkt_counter in the level2 file! return((int)L2->GetOrbitalInfo()->pkt_num); // to be changed as soon as we will have pkt_counter in the level2 file! }; } void FEVdetector::SetGUIPtr(PAMevcontrol &mainpamgui){ pamgui = &mainpamgui; } void FEVdetector::DrawX(Float_t cx, Float_t cy, Float_t si, Variables & var){ Float_t x[2] = {-si*var.sfx,si*var.sfx}; Float_t y[2] = {-si*var.sfy,si*var.sfy}; Float_t xb[2]; Float_t yb[2]; for (Int_t i = 0; i<2 ; i++){ xb[i] = x[i]+cx; yb[i] = y[i]+cy; }; TLine *x2 = new TLine(xb[0],yb[0],xb[1],yb[1]); x2->SetLineColor(1); x2->SetLineWidth(1); x2->Draw(); // Float_t nx[2] = {-si*var.sfx,si*var.sfx}; Float_t ny[2] = {si*var.sfy,-si*var.sfy}; Float_t xa[2]; Float_t ya[2]; for (Int_t i = 0; i<2 ; i++){ xa[i] = nx[i]+cx; ya[i] = ny[i]+cy; }; TLine *x1 = new TLine(xa[0],ya[0],xa[1],ya[1]); x1->SetLineColor(1); x1->SetLineWidth(1); x1->Draw(); } void FEVdetector::ColorMIP(Float_t mip, int& colo){ if ( colo > 0 ){ colo = 10; if ( mip > 0.7 ) colo = 38; if ( mip > 2. ) colo = 4; if ( mip > 10. ) colo = 3; if ( mip > 100. ) colo = 2; if ( mip > 500. ) colo = 6; } else { colo = 10; if ( mip > 0.7 ) colo = 17; if ( mip > 2. ) colo = 15; if ( mip > 10. ) colo = 14; if ( mip > 100. ) colo = 13; if ( mip > 500. ) colo = 12; }; } void FEVdetector::ColorTOFMIP(Float_t mip, int& colo){ if ( colo > 0 ){ colo = 10; if ( mip > 0. ) colo = 38; if ( mip > 2. ) colo = 4; if ( mip > 10. ) colo = 3; if ( mip > 100. ) colo = 2; if ( mip > 500. ) colo = 6; } else { colo = 10; if ( mip > 0. ) colo = 17; if ( mip > 2. ) colo = 15; if ( mip > 10. ) colo = 14; if ( mip > 100. ) colo = 13; if ( mip > 500. ) colo = 12; }; } void FEVdetector::ColorTRKMIP(Float_t mip, int& colo, Int_t img){ if ( !img ){ if ( colo > 0 ){ colo = 10; if ( mip > 0. ) colo = 38; if ( mip > 2. ) colo = 4; if ( mip > 10. ) colo = 3; if ( mip > 100. ) colo = 2; if ( mip > 500. ) colo = 6; } else { colo = 10; if ( mip > 0. ) colo = 17; if ( mip > 2. ) colo = 15; if ( mip > 10. ) colo = 14; if ( mip > 100. ) colo = 13; if ( mip > 500. ) colo = 12; }; } else { if ( colo > 0 ){ colo = 10; if ( mip > 0. ) colo = 41; if ( mip > 2. ) colo = 42; if ( mip > 10. ) colo = 43; if ( mip > 100. ) colo = 44; if ( mip > 500. ) colo = 45; } else { colo = 10; if ( mip > 0. ) colo = 17; if ( mip > 2. ) colo = 15; if ( mip > 10. ) colo = 14; if ( mip > 100. ) colo = 13; if ( mip > 500. ) colo = 12; }; }; } void FEVdetector::GetGeneralInfo(){ // // Get Orbital Time information and header event number // if ( level.file < 2 ){ ph = eh->GetPscuHeader(); headcold = headc; headc = ph->Counter; var.headc = (int)ph->Counter; OBT = ph->OrbitalTime; DOBT = OBT - OOBT; OOBT = OBT; if ( thisentry == minevent || DOBT < 0 || (headc-headcold-1)!=0 ) DOBT = 0; var.etime = OBT; // // who gave the trigger? // calotrig = 0; if ( trigger->patterntrig[0] ) calotrig = 1; toftrig = 0; if ( trigger->patterntrig[2] || trigger->patterntrig[3] || trigger->patterntrig[4] || trigger->patterntrig[5] ) toftrig = 1; s4pulser = 0; if ( trigger->patterntrig[1] & (1<<0) ) s4pulser = 1; // // TOF and calorimeter when giving a trigger will always set this flag since the time window of the signal is greater than 100 ns. // S4 sometimes could not set the flag even if the trigger is given. This is a workaround to fix this "bug": // if ( !calotrig && !toftrig ) s4pulser = 1; // Int_t trigconf = trigger->trigconf; stringstream trc; trc.str(""); if ( trigconf & (1<<0) ) trc << "TOF1"; if ( trigconf & (1<<1) ) trc << " TOF2"; if ( trigconf & (1<<2) ) trc << " TOF3"; if ( trigconf & (1<<3) ) trc << " TOF4"; if ( trigconf & (1<<4) ) trc << " TOF5"; if ( trigconf & (1<<5) ) trc << " TOF6"; if ( trigconf & (1<<6) ) trc << " TOF7"; if ( trigconf & (1<<7) ) trc << " S4"; if ( trigconf & (1<<8) ) trc << " CALO"; if ( trigconf & (1<<9) ) trc << " CALIB_ON"; trcs = (TString)trc.str().c_str(); } else { headcold = headc; headc = L2->GetOrbitalInfo()->pkt_num; // to be changed as soon as we will have obt in the level2 file! OBT = L2->GetOrbitalInfo()->OBT; // to be changed as soon as we will have obt in the level2 file! DOBT = OBT - OOBT; OOBT = OBT; if ( thisentry == minevent || DOBT < 0 || (headc-headcold-1)!=0 ) DOBT = 0; var.etime = OBT; // // who gave the trigger? // calotrig = 0; if ( L2->GetTrigLevel2()->patterntrig[0] ) calotrig = 1; toftrig = 0; if ( L2->GetTrigLevel2()->patterntrig[2] || L2->GetTrigLevel2()->patterntrig[3] || L2->GetTrigLevel2()->patterntrig[4] || L2->GetTrigLevel2()->patterntrig[5] ) toftrig = 1; s4pulser = 0; if ( L2->GetTrigLevel2()->patterntrig[1] & (1<<0) ) s4pulser = 1; // // TOF and calorimeter when giving a trigger will always set this flag since the time window of the signal is greater than 100 ns. // S4 sometimes could not set the flag even if the trigger is given. This is a workaround to fix this "bug": // if ( !calotrig && !toftrig ) s4pulser = 1; // Int_t trigconf = L2->GetTrigLevel2()->trigconf; stringstream trc; trc.str(""); if ( trigconf & (1<<0) ) trc << "TOF1"; if ( trigconf & (1<<1) ) trc << " TOF2"; if ( trigconf & (1<<2) ) trc << " TOF3"; if ( trigconf & (1<<3) ) trc << " TOF4"; if ( trigconf & (1<<4) ) trc << " TOF5"; if ( trigconf & (1<<5) ) trc << " TOF6"; if ( trigconf & (1<<6) ) trc << " TOF7"; if ( trigconf & (1<<7) ) trc << " S4"; if ( trigconf & (1<<8) ) trc << " CALO"; if ( trigconf & (1<<9) ) trc << " CALIB_ON"; trcs = (TString)trc.str().c_str(); }; } int FEVdetector::SelectEvent(){ // // // Int_t isOK = 1; Bool_t insel = var.selex; Bool_t ispktnum = false; // if ( var.doflag == 3 ){ thisentry = si; var.jumpto = 0; var.jumpen = false; insel = false; }; // if ( var.jumpto ){ ispktnum = true; isOK = 0; Int_t cjumpto = GetCounter(); if ( cjumpto == var.jumpto ){ var.jumpto = 0; var.jumpen = false; isOK = 1; }; if ( var.jumpto && (thisentry == maxevent || thisentry == si) ) { if ( var.jumpen && thisentry == maxevent ) { thisentry = -1; var.jumpen = false; } else { var.jumpen = false; thisentry = si; printf(" WARNING: NO EVENT WITH PACKET NUMBER %i \n",var.jumpto); stringstream dialog; dialog.str(""); dialog << " No event with packet number "; dialog << var.jumpto; pamgui->DIALOG(1,dialog.str().c_str()); var.jumpto = 0; isOK = 1; }; }; }; if ( insel && !ispktnum ){ isOK = 0; // // check if we have reached the first or last event // if ( thisentry == minevent || thisentry == maxevent ){ isOK = 1; if ( thisentry == minevent && var.doflag==2 ) pamgui->DIALOG(1," Stop searching, first event reached "); if ( thisentry == maxevent && var.doflag==1 ) pamgui->DIALOG(1," Stop searching, last event reached "); } else { // // if level = -1 determine higher level variables and store them in structure "var" // if ( level.file == -1 ){ thefigure->cd(); ShowS4(false); thefigure->cd(); ShowTRK(false); thefigure->cd(); ShowCalo(false); }; // // here we pass to the interpreter pointer to the L2 pointer or the data tree and the structure of other variables // stringstream cintcom; // if ( level.file == 2 ){ cintcom.str(""); cintcom << "PamLevel2 *L2 = (PamLevel2*)0x" << hex; cintcom << L2; gROOT->ProcessLine(cintcom.str().c_str()); } else { cintcom.str(""); cintcom << "TTree *otr = (TTree*)0x" << hex; cintcom << otr; gROOT->ProcessLine(cintcom.str().c_str()); // cintcom.str(""); cintcom << "struct Variables &var = (struct Variables &)0x" << hex; cintcom << &var; gROOT->ProcessLine(cintcom.str().c_str()); }; // // call the selection routine for the correct level // if ( level.file == 0 ) isOK = gApplication->ProcessLine("filter((TTree *)otr,0,(Variables &)var);"); // if ( level.file == -1 ) isOK = gApplication->ProcessLine("filter((TTree *)otr,-1,(Variables &)var);"); // if ( level.file == 2 ) isOK = gApplication->ProcessLine("filter((PamLevel2 *)L2,2);"); // // progress bar in text window // printf("Scanning data: %d%c done",100*(thisentry-minevent)/(maxevent-minevent),37); fflush(stdout); }; }; // return(isOK); // } void FEVdetector::Load(TTree &mainotr, TFile &mainfile){ file = &mainfile; otr = &mainotr; L2 = new PamLevel2(); // if ( level.file == 2 ){ // otr = L2->LoadPamTrees(file); otr = L2->GetPamTree(file,"+ALL +CAL1 -TRKh -TRK1"); // ******************** // load magnetic field // ******************** const char *pam_calib = pathtocalibration(); // stringstream magfie; magfie.str(""); // magfie << "/localdisk/mocchiut/test/calib/trk-param/field_param-0/"; magfie << pam_calib; magfie << "/trk-param/field_param-0/"; // L2->GetTrkLevel2()->LoadField(magfie.str().c_str()); } else { // // load calorimeter ADC2MIP conversion file // const char *pam_calib = pathtocalibration(); stringstream calfile; calfile.str(""); calfile << pam_calib << "/cal-param/FCaloADC2MIP.dat"; // FILE *f = 0; printf("\n Using ADC to MIP conversion file: \n %s \n",calfile.str().c_str()); f = fopen(calfile.str().c_str(),"rb"); if ( !f ){ printf(" CALORIMETER - ERROR: no ADC to MIP file! using 26.0 for all strips\n"); for (Int_t m = 0; m < 2 ; m++ ){ for (Int_t k = 0; k < 22; k++ ){ for (Int_t l = 0; l < 96; l++ ){ mip[m][k][l] = 26.; }; }; }; } else { // for (Int_t m = 0; m < 2 ; m++ ){ for (Int_t k = 0; k < 22; k++ ){ for (Int_t l = 0; l < 96; l++ ){ fread(&mip[m][k][l],sizeof(mip[m][k][l]),1,f); }; }; }; fclose(f); }; // // if not level2 file we must look for at least one calorimeter calibration // Calo1stcalib(); // }; // // trigger = new pamela::trigger::TriggerEvent(); eh = new pamela::EventHeader(); ph = new pamela::PscuHeader(); // oinfoL2 = new OrbitalInfo(); runinfo = new ItoRunInfo(file); // de = new pamela::calorimeter::CalorimeterEvent(); trk = new pamela::tracker::TrackerEvent(); ne = new pamela::neutron::NeutronEvent(); ace = new pamela::anticounter::AnticounterEvent(); s4 = new pamela::S4::S4Event(); tof = new pamela::tof::TofEvent(); // if ( level.file == 0 || level.file == -1 ){ otr->SetBranchAddress("Trigger", &trigger); otr->SetBranchAddress("Header", &eh); }; if ( level.file == 2 ){ // otr->AddFriend("OrbitalInfo", file); // otr->SetBranchAddress("OrbitalInfo", &oinfoL2); runinfo->Read(0ULL); }; // if ( var.TRK ) { if ( level.file == 0 || level.file == -1 ){ printf("Show the Tracker detector, LEVEL0 data \n"); otr->SetBranchAddress("Tracker", &trk); }; if ( level.file == 2 ){ printf("Show the Tracker detector, LEVEL1 data \n"); printf("Get the track informations (LEVEL2 Tracker data)\n"); }; }; // if ( var.CALO ) { if ( level.file == 0 ){ printf("Show the Calorimeter detector, LEVEL0 data \n"); otr->SetBranchAddress("Calorimeter", &de); }; if ( level.file == -1 ){ otr->SetBranchAddress("Calorimeter", &de); printf("Show the Calorimeter detector, rough calibration of data \n"); }; if ( level.file == 2 ){ printf("Show the Calorimeter detector, LEVEL2 data \n"); }; }; // if ( var.ND ) { if ( level.file == 0 || level.file == -1 ){ printf("Show the Neutron Detector, LEVEL0 data \n"); otr->SetBranchAddress("Neutron", &ne); }; if ( level.file == 2 ){ printf("Show the Neutron Detector, LEVEL2 data \n"); }; }; // if ( var.AC ) { if ( level.file == 0 || level.file == -1 ){ printf("Show the Anticounters detector, LEVEL0 data \n"); otr->SetBranchAddress("Anticounter", &ace); }; if ( level.file == 2 ){ printf("Show the Anticounter Detector, LEVEL2 data \n"); }; }; // if ( var.S4 ) { if ( level.file == 0 ){ printf("Show the S4 detector, LEVEL0 data \n"); }; if ( level.file == -1 ){ otr->SetBranchAddress("S4", &s4); printf("Show the S4 detector, rough calibration of data \n"); }; if ( level.file == 2 ){ printf("Show the S4 detector, LEVEL2 data \n"); }; }; // if ( var.TOF ) { if ( level.file == 0 ){ printf("Show the Time of Flight detector, LEVEL0 data \n"); }; if ( level.file == -1 ){ otr->SetBranchAddress("Tof", &tof); printf("Show the Time of Flight detector, rough calibration of data \n"); }; if ( level.file == 2 ){ printf("Show the Time of Flight detector, LEVEL2 data \n"); }; }; // } void FEVdetector::DisplayEvent(){ TLatex *text=new TLatex(); stringstream testo; stringstream testo2; stringstream testo3; // // // thefigure->Clear(); // // show TOF // thefigure->cd(); ShowTOF(); // // show anticounters // thefigure->cd(); ShowAC(); // // show S4 // thefigure->cd(); ShowS4(true); // // show neutron detector // thefigure->cd(); ShowND(); // // show track // thefigure->cd(); ShowTrack(); // // show tracker // thefigure->cd(); ShowTRK(true); // // show calorimeter // thefigure->cd(); ShowCalo(true); // // SHOW INFOS // if ( var.INFOS ){ thefigure->cd(); text->SetTextAngle(0); text->SetTextFont(32); text->SetTextColor(1); text->SetTextSize(0.025); // 0.02 text->SetTextAlign(12); Float_t txthi = 0.47; testo.str(""); testo << "File: " << gSystem->BaseName(var.thefilename.Data()); // testo << "File: " << file; testo << " - Pkt_num: " << (int)headc; text->DrawLatex(0.33,txthi,testo.str().c_str()); txthi -= 0.03; testo.str(""); testo << "Progressive number: " << (thisentry+1); if ( s4pulser ){ testo << " - S4 trigger - "; }; if ( calotrig ){ testo << " - CALO trigger - "; }; text->DrawLatex(0.33,txthi,testo.str().c_str()); txthi -= 0.03; testo2.str(""); testo2 << "On Board Time: " << (int)OBT; if ( DOBT > 0 ) { testo2 << " (delta: " << (int)DOBT; testo2 << ")"; }; testo2 << " [ms]"; text->DrawLatex(0.33,txthi,testo2.str().c_str()); txthi -= 0.03; text->SetTextSize(0.020); // 0.015 const char *trc2 = trcs; testo3.str(""); testo3 << "TRIGGER: " << trc2; text->DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; testo3.str(""); testo3 << "AC: CARD hit = " << var.hcard; testo3 << " CAT hit = " << var.hcat; testo3 << " CAS hit = " << var.hcas; text->DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; testo3.str(""); if ( level.file == 2 ){ testo3 << "TRK: RIG = " << setprecision(3) << var.rig; testo3 << " [GV] CHI2 = " << setprecision(3) << var.chi2; } else { testo3 << "TRK: NCLX = "<< var.nclx; testo3 << " NCLY = "<DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; testo3.str(""); testo3 << "CALO: NSTRIP = " << var.nstrip; testo3 << " QTOT = "<DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; testo3.str(""); testo3 << "S4: ";// << setprecision(2); testo3 << var.s4sig << " [MIP] TOF: #beta = "; testo3 << setprecision(3) << var.beta[4]; text->DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; testo3.str(""); testo3 << "ND: Trig: " << var.trup; testo3 << " - Bckgr: upper = " << var.bkup; testo3 << " lower = " << var.bkbo; text->DrawLatex(0.33,txthi,testo3.str().c_str()); txthi -= 0.03; text->SetTextSize(0.01); text->DrawLatex(var.xxvc-0.040*var.sfx,var.yxvc-0.519*var.sfy,"SATELLITE (CPU) SIDE"); text->SetTextAngle(90); text->DrawLatex(var.xyvc+0.17*var.sfx,var.yyvc+0.065*var.sfy,"SATELLITE (CPU) SIDE"); text->DrawLatex(var.xyvc-0.17*var.sfx,var.yyvc+0.075*var.sfy,"VME SIDE"); if ( var.AC ){ text->SetTextAngle(90); text->DrawLatex(var.xcat-0.235*var.sfx,var.ycat-0.025*var.sfy,"VME SIDE"); text->DrawLatex(var.xcat+0.235*var.sfx,var.ycat-0.025*var.sfy,"CPU SIDE"); // text->SetTextAngle(0); text->SetTextSize(0.015); TEllipse *elli = new TEllipse(var.xcat+0.219*var.sfx,var.ycat-0.249*var.sfy,0.003,0.003); elli->Draw(); text->DrawLatex(var.xcat+0.229*var.sfx,var.ycat-0.261*var.sfy,"z"); TArrow *arr; arr = new TArrow(var.xcat+0.22*var.sfx,var.ycat-0.25*var.sfy,var.xcat+0.22*var.sfx,var.ycat-0.21*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xcat+0.229*var.sfx,var.ycat-0.21*var.sfy,"x"); arr = new TArrow(var.xcat+0.22*var.sfx,var.ycat-0.25*var.sfy,var.xcat+0.18*var.sfx,var.ycat-0.25*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xcat+0.18*var.sfx,var.ycat-0.261*var.sfy,"y"); text->SetTextSize(0.01); }; // // coordinates systems and x/y view labels // thefigure->cd(); text->SetTextAngle(0); text->SetTextFont(32); text->SetTextColor(1); text->SetTextAlign(12); text->SetTextSize(0.01); text->DrawLatex(var.xxvc-0.025*var.sfx,var.yxvc+0.67*var.sfy,"X VIEW"); text->DrawLatex(var.xyvc-0.025*var.sfx,var.yyvc+0.67*var.sfy,"Y VIEW"); // text->SetTextSize(0.015); text->SetTextFont(2); DrawX(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,0.005,var); //508 text->SetTextFont(32); text->DrawLatex(var.xxvc-0.266*var.sfx,var.yxvc-0.328*var.sfy,"y"); TArrow *arr; arr = new TArrow(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,var.xxvc-0.21*var.sfx,var.yxvc-0.328*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xxvc-0.21*var.sfx,var.yxvc-0.335*var.sfy,"x"); arr = new TArrow(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,var.xxvc-0.25*var.sfx,var.yxvc-0.288*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xxvc-0.266*var.sfx,var.yxvc-0.288*var.sfy,"z"); // text->SetTextSize(0.015); text->SetTextFont(2); DrawX(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,0.005,var); text->SetTextFont(32); text->DrawLatex(var.xyvc+0.25*var.sfx,var.yyvc-0.328*var.sfy,"x"); arr = new TArrow(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,var.xyvc+0.2*var.sfx,var.yyvc-0.328*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xyvc+0.19*var.sfx,var.yyvc-0.335*var.sfy,"y"); arr = new TArrow(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,var.xyvc+0.24*var.sfx,var.yyvc-0.288*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xyvc+0.25*var.sfx,var.yyvc-0.288*var.sfy,"z"); text->SetTextSize(0.01); // }; // // SHOW PALETTE // thefigure->cd(); if ( var.PALETTE ) ShowPalette(); // // SHOW VERBOSE INFOS // if ( var.VINFOS ){ thefigure->cd(); text->SetTextAngle(0); text->SetTextFont(32); text->SetTextColor(1); text->SetTextSize(0.01); text->SetTextAlign(12); if ( var.AC ){ // // Plane view // text->SetTextAngle(90); text->DrawLatex(var.xcat+0.1*var.sfx,var.ycat-0.015*var.sfy,"CARD4"); text->SetTextAngle(-90); text->DrawLatex(var.xcat-0.1*var.sfx,var.ycat+0.015*var.sfy,"CARD1"); text->SetTextAngle(0); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat-0.116*var.sfy,"CARD2"); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat+0.116*var.sfy,"CARD3"); text->SetTextAngle(90); text->DrawLatex(var.xcat+0.13*var.sfx,var.ycat-0.015*var.sfy,"CAS3"); text->SetTextAngle(-90); text->DrawLatex(var.xcat-0.13*var.sfx,var.ycat+0.015*var.sfy,"CAS4"); text->SetTextAngle(0); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat-0.140*var.sfy,"CAS2"); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat+0.140*var.sfy,"CAS1"); text->DrawLatex(var.xcat+0.17*var.sfx,var.ycat,"CAT1"); text->DrawLatex(var.xcat-0.2*var.sfx,var.ycat,"CAT2"); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat-0.198*var.sfy,"CAT3"); text->DrawLatex(var.xcat-0.015*var.sfx,var.ycat+0.198*var.sfy,"CAT4"); // // X and Y views // text->DrawLatex(var.xxvc-0.192*var.sfx,var.yxvc-0.08*var.sfy,"CAS2"); text->DrawLatex(var.xxvc+0.17*var.sfx,var.yxvc-0.08*var.sfy,"CAS1"); text->DrawLatex(var.xyvc-0.192*var.sfx,var.yyvc-0.08*var.sfy,"CAS4"); text->DrawLatex(var.xyvc+0.17*var.sfx,var.yyvc-0.08*var.sfy,"CAS3"); text->DrawLatex(var.xxvc-0.192*var.sfx,var.yxvc+0.48*var.sfy,"CARD2"); text->DrawLatex(var.xxvc+0.155*var.sfx,var.yxvc+0.48*var.sfy,"CARD3"); text->DrawLatex(var.xyvc-0.170*var.sfx,var.yyvc+0.48*var.sfy,"CARD1"); text->DrawLatex(var.xyvc+0.13*var.sfx,var.yyvc+0.48*var.sfy,"CARD4"); text->DrawLatex(var.xxvc-0.192*var.sfx,var.yxvc+0.39*var.sfy,"CAT3"); text->DrawLatex(var.xxvc+0.155*var.sfx,var.yxvc+0.39*var.sfy,"CAT4"); text->DrawLatex(var.xyvc-0.170*var.sfx,var.yyvc+0.39*var.sfy,"CAT2"); text->DrawLatex(var.xyvc+0.13*var.sfx,var.yyvc+0.39*var.sfy,"CAT1"); }; if ( var.CALO ){ text->SetTextSize(0.020); text->SetTextAngle(90); text->DrawLatex(var.xxvc-0.22*var.sfx,var.yxvc-0.290*var.sfy,"Calorimeter"); text->DrawLatex(var.xyvc+0.22*var.sfx,var.yyvc-0.290*var.sfy,"Calorimeter"); text->SetTextSize(0.01); text->SetTextAngle(0); }; if ( var.TRK ){ text->SetTextSize(0.020); text->SetTextAngle(90); text->DrawLatex(var.xxvc-0.22*var.sfx,var.yxvc+0.080*var.sfy,"Tracker"); text->DrawLatex(var.xyvc+0.22*var.sfx,var.yyvc+0.080*var.sfy,"Tracker"); text->SetTextSize(0.01); text->SetTextAngle(0); }; if ( var.ND ){ text->SetTextSize(0.020); // text->SetTextAngle(90); text->DrawLatex(var.xxvc-0.25*var.sfx,var.yxvc-0.530*var.sfy,"ND"); text->DrawLatex(var.xyvc+0.22*var.sfx,var.yyvc-0.530*var.sfy,"ND"); text->SetTextSize(0.01); text->SetTextAngle(0); }; if ( var.TOF ){ text->SetTextSize(0.020); text->DrawLatex(var.xxvc-0.24*var.sfx,var.yxvc-0.130*var.sfy,"S3"); text->DrawLatex(var.xxvc-0.24*var.sfx,var.yxvc+0.350*var.sfy,"S2"); text->DrawLatex(var.xxvc-0.24*var.sfx,var.yxvc+0.653*var.sfy,"S1"); text->DrawLatex(var.xyvc+0.21*var.sfx,var.yyvc-0.130*var.sfy,"S3"); text->DrawLatex(var.xyvc+0.21*var.sfx,var.yyvc+0.350*var.sfy,"S2"); text->DrawLatex(var.xyvc+0.21*var.sfx,var.yyvc+0.653*var.sfy,"S1"); text->SetTextSize(0.01); }; if ( var.S4 ){ text->SetTextSize(0.020); text->DrawLatex(var.xxvc-0.28*var.sfx,var.yxvc-0.350*var.sfy,"S4"); text->DrawLatex(var.xyvc+0.25*var.sfx,var.yyvc-0.350*var.sfy,"S4"); text->SetTextSize(0.01); }; if ( !var.INFOS ){ text->SetTextSize(0.01); text->DrawLatex(var.xxvc-0.040*var.sfx,var.yxvc-0.520*var.sfy,"SATELLITE (CPU) SIDE"); text->SetTextAngle(90); text->DrawLatex(var.xyvc+0.17*var.sfx,var.yyvc+0.065*var.sfy,"SATELLITE (CPU) SIDE"); text->DrawLatex(var.xyvc-0.17*var.sfx,var.yyvc+0.075*var.sfy,"VME SIDE"); if ( var.AC ){ text->SetTextAngle(90); text->DrawLatex(var.xcat-0.235*var.sfx,var.ycat-0.025*var.sfy,"VME SIDE"); text->DrawLatex(var.xcat+0.235*var.sfx,var.ycat-0.025*var.sfy,"CPU SIDE"); // text->SetTextAngle(0); text->SetTextSize(0.015); TEllipse *elli = new TEllipse(var.xcat+0.219*var.sfx,var.ycat-0.249*var.sfy,0.003,0.003); elli->Draw(); text->DrawLatex(var.xcat+0.229*var.sfx,var.ycat-0.261*var.sfy,"z"); TArrow *arr; arr = new TArrow(var.xcat+0.22*var.sfx,var.ycat-0.25*var.sfy,var.xcat+0.22*var.sfx,var.ycat-0.21*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xcat+0.229*var.sfx,var.ycat-0.21*var.sfy,"x"); arr = new TArrow(var.xcat+0.22*var.sfx,var.ycat-0.25*var.sfy,var.xcat+0.18*var.sfx,var.ycat-0.25*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xcat+0.18*var.sfx,var.ycat-0.261*var.sfy,"y"); text->SetTextSize(0.01); }; // // coordinates systems and x/y view labels // thefigure->cd(); text->SetTextAngle(0); text->SetTextFont(32); text->SetTextColor(1); text->SetTextAlign(12); text->SetTextSize(0.01); text->DrawLatex(var.xxvc-0.025*var.sfx,var.yxvc+0.67*var.sfy,"X VIEW"); text->DrawLatex(var.xyvc-0.025*var.sfx,var.yyvc+0.67*var.sfy,"Y VIEW"); // text->SetTextSize(0.015); text->SetTextFont(2); DrawX(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,0.005,var); //508 text->SetTextFont(32); text->DrawLatex(var.xxvc-0.266*var.sfx,var.yxvc-0.328*var.sfy,"y"); TArrow *arr; arr = new TArrow(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,var.xxvc-0.21*var.sfx,var.yxvc-0.328*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xxvc-0.21*var.sfx,var.yxvc-0.335*var.sfy,"x"); arr = new TArrow(var.xxvc-0.25*var.sfx,var.yxvc-0.328*var.sfy,var.xxvc-0.25*var.sfx,var.yxvc-0.288*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xxvc-0.266*var.sfx,var.yxvc-0.288*var.sfy,"z"); // text->SetTextSize(0.015); text->SetTextFont(2); DrawX(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,0.005,var); text->SetTextFont(32); text->DrawLatex(var.xyvc+0.25*var.sfx,var.yyvc-0.328*var.sfy,"x"); arr = new TArrow(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,var.xyvc+0.2*var.sfx,var.yyvc-0.328*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xyvc+0.19*var.sfx,var.yyvc-0.335*var.sfy,"y"); arr = new TArrow(var.xyvc+0.24*var.sfx,var.yyvc-0.328*var.sfy,var.xyvc+0.24*var.sfx,var.yyvc-0.288*var.sfy); arr->SetArrowSize(0.005); arr->Draw(); text->DrawLatex(var.xyvc+0.25*var.sfx,var.yyvc-0.288*var.sfy,"z"); text->SetTextSize(0.01); }; }; // // // update figure // thefigure->cd(); thefigure->Modified(); thefigure->Update(); thefigure->cd(); thefigure->SetEditable(kFALSE); // // print infos on terminal // printf(" File: %s \n",var.thefilename.Data()); if ( !s4pulser && !calotrig ){ printf(" Pkt_num: %i - Progressive number: %i \n",(int)headc,thisentry+1); }; if ( s4pulser ){ printf(" Pkt_num: %i - Progressive number: %i - S4 trigger -\n",(int)headc,thisentry+1); }; if ( calotrig ){ printf(" Pkt_num: %i - Progressive number: %i - CALO trigger -\n",(int)headc,thisentry+1); }; printf(" On Board Time: %i (delta %i) [ms]\n",OBT,DOBT); const char *trc2 = trcs; printf(" TRIGGER: %s \n",trc2); printf(" AC: CARD hit = %i CAT hit = %i CAS hit = %i \n",var.hcard,var.hcat,var.hcas); if ( level.file == 2 ){ printf(" TRK: NCLX = %i NCLY = %i RIG = %f [GV] CHI2 = %f \n",var.nclx,var.ncly,var.rig,var.chi2); } else { printf(" TRK: NCLX = %i NCLY = %i \n ",var.nclx,var.ncly); }; printf(" CALO: NSTRIP = %i QTOT = %i [MIP]\n",var.nstrip,var.qtot); printf(" S4: %.2f [MIP] TOF: beta = %.2f \n",var.s4sig,var.beta[4]); printf(" ND: Trigger: neutrons = %i - Background: upper = %i lower = %i \n",var.trup,var.bkup,var.bkbo); // } // // THE PALETTE // void FEVdetector::ShowPalette(){ Float_t xp = 0.40; Float_t yp = 0.02; Float_t xw = 0.2325; Float_t yh = 0.19; Double_t xx[5] = {xp, xp+xw, xp+xw, xp, xp}; Double_t yy[5] = {yp, yp, yp+yh, yp+yh, yp}; TPolyLine *fpale = new TPolyLine(5,xx,yy); fpale->SetLineColor(1); fpale->SetLineWidth(1); fpale->Draw(); TLatex *txt=new TLatex(); txt->SetTextSize(0.01); txt->DrawLatex(xp+0.005,yp+yh-0.015,"PALETTE"); if ( level.file == -1 ) txt->DrawLatex(xp+0.005,yp+yh-0.04,"TOF, CALO, S4 [MIP]:"); if ( level.file == 2 ) txt->DrawLatex(xp+0.005,yp+yh-0.04,"TOF, TRK, CALO, S4 [MIP]:"); Float_t xwc = (xw-0.01)/6.; Float_t axwc = xwc+0.02; Float_t yhc = 0.03; Int_t colo = 0; Float_t yc = 0.135; TPolyLine *fc1[6]; if ( var.bw ){ if ( level.file != 0 ){ for ( Int_t j=0; j<6; j++){ Float_t xc = 0.005+xp+(j*xwc); Double_t xx[5] = {xc, xc+xwc, xc+xwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc1[j] = new TPolyLine(5,xx,yy); fc1[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 17; }; if ( j == 2 ) { colo = 15; }; if ( j == 3 ) { colo = 14; }; if ( j == 4 ) { colo = 13; }; if ( j == 5 ) { colo = 12; }; fc1[j]->SetFillColor(colo); fc1[j]->SetLineWidth(1); fc1[j]->Draw("f"); fc1[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0"); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0 - 2"); }; if ( j == 2 ) { txt->DrawLatex(xc+0.005,yc+0.01,"2 - 10"); }; if ( j == 3 ) { txt->DrawLatex(xc+0.005,yc+0.01,"10 - 100"); }; if ( j == 4 ) { txt->DrawLatex(xc+0.005,yc+0.01,"100 - 500"); }; if ( j == 5 ) { txt->DrawLatex(xc+0.005,yc+0.01,"> 500"); }; }; }; txt->DrawLatex(xp+0.005,yp+yh-0.095,"ND [neutrons]:"); Float_t yc = 0.08; TPolyLine *fc2[6]; for ( Int_t j=0; j<6; j++){ Float_t xc = 0.005+xp+(j*xwc); Double_t xx[5] = {xc, xc+xwc, xc+xwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc2[j] = new TPolyLine(5,xx,yy); fc2[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 17; }; if ( j == 2 ) { colo = 15; }; if ( j == 3 ) { colo = 14; }; if ( j == 4 ) { colo = 13; }; if ( j == 5 ) { colo = 12; }; fc2[j]->SetFillColor(colo); fc2[j]->SetLineWidth(1); fc2[j]->Draw("f"); fc2[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0"); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01," 1 "); }; if ( j == 2 ) { txt->DrawLatex(xc+0.005,yc+0.01," 2 "); }; if ( j == 3 ) { txt->DrawLatex(xc+0.005,yc+0.01," 3 - 6 "); }; if ( j == 4 ) { txt->DrawLatex(xc+0.005,yc+0.01," 7 - 14 "); }; if ( j == 5 ) { txt->DrawLatex(xc+0.005,yc+0.01,"> 14"); }; }; // txt->DrawLatex(xp+0.005,yp+yh-0.15,"AC:"); yc = 0.025; TPolyLine *fc3[3]; for ( Int_t j=0; j<3; j++){ Float_t xc = 0.005+xp+(j*axwc); Double_t xx[5] = {xc, xc+axwc, xc+axwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc3[j] = new TPolyLine(5,xx,yy); fc3[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 13; }; if ( j == 2 ) { colo = 12; }; fc3[j]->SetFillColor(colo); fc3[j]->SetLineWidth(1); fc3[j]->Draw("f"); fc3[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01," NOT HIT "); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01," HIT trigger"); }; if ( j == 2 ) { txt->SetTextSize(0.0095); txt->DrawLatex(xc+0.001,yc+0.011," HIT background"); txt->SetTextSize(0.01); }; }; } else { if ( level.file != 0 ){ for ( Int_t j=0; j<6; j++){ Float_t xc = 0.005+xp+(j*xwc); Double_t xx[5] = {xc, xc+xwc, xc+xwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc1[j] = new TPolyLine(5,xx,yy); fc1[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 38; }; if ( j == 2 ) { colo = 4; }; if ( j == 3 ) { colo = 3; }; if ( j == 4 ) { colo = 2; }; if ( j == 5 ) { colo = 6; }; fc1[j]->SetFillColor(colo); fc1[j]->SetLineWidth(1); fc1[j]->Draw("f"); fc1[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0"); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0 - 2"); }; if ( j == 2 ) { txt->DrawLatex(xc+0.005,yc+0.01,"2 - 10"); }; if ( j == 3 ) { txt->DrawLatex(xc+0.005,yc+0.01,"10 - 100"); }; if ( j == 4 ) { txt->DrawLatex(xc+0.005,yc+0.01,"100 - 500"); }; if ( j == 5 ) { txt->DrawLatex(xc+0.005,yc+0.01,"> 500"); }; }; }; txt->DrawLatex(xp+0.005,yp+yh-0.095,"ND [neutrons]:"); Float_t yc = 0.08; TPolyLine *fc2[6]; for ( Int_t j=0; j<6; j++){ Float_t xc = 0.005+xp+(j*xwc); Double_t xx[5] = {xc, xc+xwc, xc+xwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc2[j] = new TPolyLine(5,xx,yy); fc2[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 38; }; if ( j == 2 ) { colo = 4; }; if ( j == 3 ) { colo = 3; }; if ( j == 4 ) { colo = 2; }; if ( j == 5 ) { colo = 6; }; fc2[j]->SetFillColor(colo); fc2[j]->SetLineWidth(1); fc2[j]->Draw("f"); fc2[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01,"0"); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01," 1 "); }; if ( j == 2 ) { txt->DrawLatex(xc+0.005,yc+0.01," 2 "); }; if ( j == 3 ) { txt->DrawLatex(xc+0.005,yc+0.01," 3 - 6 "); }; if ( j == 4 ) { txt->DrawLatex(xc+0.005,yc+0.01," 7 - 14 "); }; if ( j == 5 ) { txt->DrawLatex(xc+0.005,yc+0.01,"> 14"); }; }; // txt->DrawLatex(xp+0.005,yp+yh-0.15,"AC:"); yc = 0.025; TPolyLine *fc3[3]; for ( Int_t j=0; j<3; j++){ Float_t xc = 0.005+xp+(j*axwc); Double_t xx[5] = {xc, xc+axwc, xc+axwc, xc, xc}; Double_t yy[5] = {yc, yc, yc+yhc, yc+yhc, yc}; fc3[j] = new TPolyLine(5,xx,yy); fc3[j]->SetLineColor(1); if ( j == 0 ) { colo = 10; }; if ( j == 1 ) { colo = 2; }; if ( j == 2 ) { colo = 42; }; fc3[j]->SetFillColor(colo); fc3[j]->SetLineWidth(1); fc3[j]->Draw("f"); fc3[j]->Draw(); if ( j == 0 ) { txt->DrawLatex(xc+0.005,yc+0.01," NOT HIT "); }; if ( j == 1 ) { txt->DrawLatex(xc+0.005,yc+0.01," HIT trigger"); }; if ( j == 2 ) { txt->SetTextSize(0.0095); txt->DrawLatex(xc+0.001,yc+0.011," HIT background"); txt->SetTextSize(0.01); }; }; }; } // // THE TOF // void FEVdetector::ShowTOF(){ // // // if ( !var.TOF ) return; // Int_t tt = 0; // // force level0, i.e. show patterntrig variable! // if ( level.file == 0 ){ // // on day these variables will contain the MIP value for each paddle // Float_t ms11a[8] = {0.,0.,0.,0.,0.,0.,0.,0.}; Float_t ms12a[6] = {0.,0.,0.,0.,0.,0.}; Float_t ms21a[2] = {0.,0.}; Float_t ms22a[2] = {0.,0.}; Float_t ms31a[3] = {0.,0.,0.}; Float_t ms32a[3] = {0.,0.,0.}; Float_t ms11b[8] = {0.,0.,0.,0.,0.,0.,0.,0.}; Float_t ms12b[6] = {0.,0.,0.,0.,0.,0.}; Float_t ms21b[2] = {0.,0.}; Float_t ms22b[2] = {0.,0.}; Float_t ms31b[3] = {0.,0.,0.}; Float_t ms32b[3] = {0.,0.,0.}; // // TDC info for each PMT // Float_t mt11[2][8]; Float_t mt12[2][6]; Float_t mt21[2][2]; Float_t mt22[2][2]; Float_t mt31[2][3]; Float_t mt32[2][3]; // Int_t S3 = 0; Int_t S2 = 0; Int_t S12 = 0; Int_t S11 = 0; S3 = trigger->patterntrig[2]; S2 = trigger->patterntrig[3]; S12 = trigger->patterntrig[4]; S11 = trigger->patterntrig[5]; // for ( Int_t i = 0; i<8; i++ ) { if ( S11 & (1<SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms11a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt11[0][j] == 4095. ) colo = noadc; // ftof11xa[j]->SetFillColor(colo); ftof11xa[j]->SetLineWidth(1); ftof11xa[j]->Draw("f"); ftof11xa[j]->Draw(); }; // B s11p = 0.051; TPolyLine *ftof11xb[8]; for ( Int_t j=0; j<8; j++){ Float_t xc1[4]={ (s11p*j), s11p*(j+1), s11p*(j+1), (s11p*j)}; Float_t yc1[4]={ 0., 0., ws13, 0.}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2x + (-0.204+xc1[i])*var.sfx; yc[i] = ys2x + (0.295+yc1[i])*var.sfy; }; ftof11xb[j] = new TPolyLine(4,xc,yc); ftof11xb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms11b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt11[1][j] == 4095. ) colo = noadc; // ftof11xb[j]->SetFillColor(colo); ftof11xb[j]->SetLineWidth(1); ftof11xb[j]->Draw("f"); ftof11xb[j]->Draw(); }; // // S11 Y-view // if ( true ){ Float_t nxc1[5]={ -0.165, 0.165, 0.165, -0.165, -0.165}; Float_t nyc1[5]={ 0., 0., ws13, ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (0.295+nyc1[i])*var.sfy; }; TPolyLine *ftof11y = new TPolyLine(5,nxc,nyc); ftof11y->SetLineColor(1); ftof11y->SetFillColor(ocolo); ftof11y->SetLineWidth(1); ftof11y->Draw("f"); ftof11y->Draw(); }; // // S12 Y-view // // A Float_t s12p = 0.055; ocolo = 10; TPolyLine *ftof12ya[6]; for ( Int_t j=0; j<6; j++){ Float_t xc1[4]={ (s12p*j), s12p*(j), s12p*(j+1), (s12p*j)}; Float_t yc1[4]={ -ws13, 0., 0., -ws13}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + (-0.165+xc1[i])*var.sfx; yc[i] = ys2y + (0.295+yc1[i])*var.sfy; }; ftof12ya[j] = new TPolyLine(4,xc,yc); ftof12ya[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms12a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt12[0][j] == 4095. ) colo = noadc; // ftof12ya[j]->SetFillColor(colo); ftof12ya[j]->SetLineWidth(1); ftof12ya[j]->Draw("f"); ftof12ya[j]->Draw(); }; // B s12p = 0.055; TPolyLine *ftof12yb[6]; for ( Int_t j=0; j<6; j++){ Float_t xc1[4]={ (s12p*j), s12p*(j+1), s12p*(j+1), (s12p*j)}; Float_t yc1[4]={ -ws13, -ws13, 0., -ws13}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + (-0.165+xc1[i])*var.sfx; yc[i] = ys2y + (0.295+yc1[i])*var.sfy; }; ftof12yb[j] = new TPolyLine(4,xc,yc); ftof12yb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms12b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt12[1][j] == 4095. ) colo = noadc; // ftof12yb[j]->SetFillColor(colo); ftof12yb[j]->SetLineWidth(1); ftof12yb[j]->Draw("f"); ftof12yb[j]->Draw(); }; // // S12 X-view // if ( true ){ Float_t nxc1[5]={ -0.204, 0.204, 0.204, -0.204, -0.204}; Float_t nyc1[5]={ 0., 0., -ws13, -ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (0.295+nyc1[i])*var.sfy; }; TPolyLine *ftof12x = new TPolyLine(5,nxc,nyc); ftof12x->SetLineColor(1); ftof12x->SetFillColor(ocolo); ftof12x->SetLineWidth(1); ftof12x->Draw("f"); ftof12x->Draw(); }; // // S21 Y-view // // A Float_t s21p = 0.075; ocolo = 10; TPolyLine *ftof21ya[2]; for ( Int_t j=0; j<2; j++){ Float_t xc1[4]={ s21p*(j-1), s21p*(j-1), s21p*j, s21p*(j-1)}; Float_t yc1[4]={ 0., ws2, ws2, 0.}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + xc1[i]*var.sfx; yc[i] = ys2y + yc1[i]*var.sfy; }; ftof21ya[j] = new TPolyLine(4,xc,yc); ftof21ya[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms21a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt21[0][j] == 4095. ) colo = noadc; // ftof21ya[j]->SetFillColor(colo); ftof21ya[j]->SetLineWidth(1); ftof21ya[j]->Draw("f"); ftof21ya[j]->Draw(); }; // B s21p = 0.075; TPolyLine *ftof21yb[2]; for ( Int_t j=0; j<2; j++){ Float_t xc1[4]={ s21p*(j-1), s21p*j, s21p*j, s21p*(j-1)}; Float_t yc1[4]={ 0., 0., ws2, 0.}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + xc1[i]*var.sfx; yc[i] = ys2y + yc1[i]*var.sfy; }; ftof21yb[j] = new TPolyLine(4,xc,yc); ftof21yb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms21b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt21[1][j] == 4095. ) colo = noadc; // ftof21yb[j]->SetFillColor(colo); ftof21yb[j]->SetLineWidth(1); ftof21yb[j]->Draw("f"); ftof21yb[j]->Draw(); }; // // S21 X-view // if ( true ){ Float_t nxc1[5]={ -0.09, 0.09, 0.09, -0.09, -0.09}; Float_t nyc1[5]={ 0., 0., ws2, ws2, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + nyc1[i]*var.sfy; }; TPolyLine *ftof21x = new TPolyLine(5,nxc,nyc); ftof21x->SetLineColor(1); ftof21x->SetFillColor(ocolo); ftof21x->SetLineWidth(1); ftof21x->Draw("f"); ftof21x->Draw(); }; // // S22 X-view // // A Float_t s22p = 0.090; ocolo = 10; TPolyLine *ftof22xa[2]; for ( Int_t j=0; j<2; j++){ Float_t xc1[4]={ s22p*(j-1), s22p*(j-1), s22p*j, s22p*(j-1)}; Float_t yc1[4]={ -ws2, 0., 0., -ws2}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2x + xc1[i]*var.sfx; yc[i] = ys2x + yc1[i]*var.sfy; }; ftof22xa[j] = new TPolyLine(4,xc,yc); ftof22xa[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms22a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt22[0][j] == 4095. ) colo = noadc; // ftof22xa[j]->SetFillColor(colo); ftof22xa[j]->SetLineWidth(1); ftof22xa[j]->Draw("f"); ftof22xa[j]->Draw(); }; // B s22p = 0.090; TPolyLine *ftof22xb[2]; for ( Int_t j=0; j<2; j++){ Float_t xc1[4]={ s22p*(j-1), s22p*j, s22p*j, s22p*(j-1)}; Float_t yc1[4]={ -ws2, -ws2, 0., -ws2}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2x + xc1[i]*var.sfx; yc[i] = ys2x + yc1[i]*var.sfy; }; ftof22xb[j] = new TPolyLine(4,xc,yc); ftof22xb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms22b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt22[1][j] == 4095. ) colo = noadc; // ftof22xb[j]->SetFillColor(colo); ftof22xb[j]->SetLineWidth(1); ftof22xb[j]->Draw("f"); ftof22xb[j]->Draw(); }; // // S22 Y-view // if ( true ){ Float_t nxc1[5]={ -0.075, 0.075, 0.075, -0.075, -0.075}; Float_t nyc1[5]={ 0., 0., -ws2, -ws2, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + nyc1[i]*var.sfy; }; TPolyLine *ftof22y = new TPolyLine(5,nxc,nyc); ftof22y->SetLineColor(1); ftof22y->SetFillColor(ocolo); ftof22y->SetLineWidth(1); ftof22y->Draw("f"); ftof22y->Draw(); }; // // S31 X-view // // A Float_t s31p = 0.060; ocolo = 10; TPolyLine *ftof31xa[3]; for ( Int_t j=0; j<3; j++){ Float_t xc1[4]={ (s31p*j), (s31p*j), s31p*(j+1), (s31p*j)}; Float_t yc1[4]={ 0., ws13, ws13, 0.}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2x + (-0.090+xc1[i])*var.sfx; yc[i] = ys2x + (-0.488+yc1[i])*var.sfy; }; ftof31xa[j] = new TPolyLine(4,xc,yc); ftof31xa[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms31a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt31[0][j] == 4095. ) colo = noadc; // ftof31xa[j]->SetFillColor(colo); ftof31xa[j]->SetLineWidth(1); ftof31xa[j]->Draw("f"); ftof31xa[j]->Draw(); }; // B s31p = 0.060; TPolyLine *ftof31xb[3]; for ( Int_t j=0; j<3; j++){ Float_t xc1[4]={ (s31p*j), s31p*(j+1), s31p*(j+1), (s31p*j)}; Float_t yc1[4]={ 0., 0., ws13, 0.}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2x + (-0.090+xc1[i])*var.sfx; yc[i] = ys2x + (-0.488+yc1[i])*var.sfy; }; ftof31xb[j] = new TPolyLine(4,xc,yc); ftof31xb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms31b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt31[1][j] == 4095. ) colo = noadc; // ftof31xb[j]->SetFillColor(colo); ftof31xb[j]->SetLineWidth(1); ftof31xb[j]->Draw("f"); ftof31xb[j]->Draw(); }; // // S31 Y-view // if ( true ){ Float_t nxc1[5]={ -0.075, 0.075, 0.075, -0.075, -0.075}; Float_t nyc1[5]={ 0., 0., ws13, ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (-0.488+nyc1[i])*var.sfy; }; TPolyLine *ftof31y = new TPolyLine(5,nxc,nyc); ftof31y->SetLineColor(1); ftof31y->SetFillColor(ocolo); ftof31y->SetLineWidth(1); ftof31y->Draw("f"); ftof31y->Draw(); }; // // S32 Y-view // Float_t s32p = 0.050; ocolo = 10; TPolyLine *ftof32ya[3]; for ( Int_t j=0; j<3; j++){ Float_t xc1[4]={ (s32p*j), (s32p*j), s32p*(j+1), (s32p*j)}; Float_t yc1[4]={ -ws13, 0., 0., -ws13}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + (-0.075+xc1[i])*var.sfx; yc[i] = ys2y + (-0.488+yc1[i])*var.sfy; }; ftof32ya[j] = new TPolyLine(4,xc,yc); ftof32ya[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms32a[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt32[0][j] == 4095. ) colo = noadc; // ftof32ya[j]->SetFillColor(colo); ftof32ya[j]->SetLineWidth(1); ftof32ya[j]->Draw("f"); ftof32ya[j]->Draw(); }; s32p = 0.050; TPolyLine *ftof32yb[3]; for ( Int_t j=0; j<3; j++){ Float_t xc1[4]={ (s32p*j), s32p*(j+1), s32p*(j+1), (s32p*j)}; Float_t yc1[4]={ -ws13, -ws13, 0., -ws13}; Float_t xc[4]; Float_t yc[4]; for (Int_t i = 0; i<4 ; i++) { xc[i]= xs2y + (-0.075+xc1[i])*var.sfx; yc[i] = ys2y + (-0.488+yc1[i])*var.sfy; }; ftof32yb[j] = new TPolyLine(4,xc,yc); ftof32yb[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms32b[j],colo); // if ( colo != 10 ) ocolo = colo; if ( mt32[1][j] == 4095. ) colo = noadc; // ftof32yb[j]->SetFillColor(colo); ftof32yb[j]->SetLineWidth(1); ftof32yb[j]->Draw("f"); ftof32yb[j]->Draw(); }; // // S32 X-view // if ( true ){ Float_t nxc1[5]={ -0.09, 0.09, 0.09, -0.09, -0.09}; Float_t nyc1[5]={ 0., 0., -ws13, -ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (-0.488+nyc1[i])*var.sfy; }; TPolyLine *ftof32x = new TPolyLine(5,nxc,nyc); ftof32x->SetLineColor(1); ftof32x->SetFillColor(ocolo); ftof32x->SetLineWidth(1); ftof32x->Draw("f"); ftof32x->Draw(); }; return; }; // // CALIBRATED DATA (LEVEL -1 and 2) // // the channels MAP: // Int_t ch11a[8] = { 3, 3, 3, 3, 0, 0, 1, 1}; Int_t hb11a[8] = { 0, 2, 4, 6, 9, 11, 1, 3}; Int_t ch11b[8] = { 1, 1, 1, 1, 0, 0, 0, 0}; Int_t hb11b[8] = { 5, 7, 11, 9, 7, 5, 3, 1}; Int_t ch12a[6] = { 2, 2, 2, 2, 2, 2}; Int_t hb12a[6] = { 1, 3, 5, 7, 9, 11}; Int_t ch12b[6] = { 3, 3, 3, 3, 3, 3}; Int_t hb12b[6] = { 11, 9, 7, 5, 3, 1}; Int_t ch21a[2] = { 0, 0}; Int_t hb21a[2] = { 0, 4}; Int_t ch21b[2] = { 1, 0}; Int_t hb21b[2] = { 8, 6}; Int_t ch22a[2] = { 0, 0}; Int_t hb22a[2] = { 2, 8}; Int_t ch22b[2] = { 1, 0}; Int_t hb22b[2] = { 10, 10}; Int_t ch31a[3] = { 1, 2, 2}; Int_t hb31a[3] = { 6, 8, 10}; Int_t ch31b[3] = { 1, 1, 1}; Int_t hb31b[3] = { 4, 2, 0}; Int_t ch32a[3] = { 2, 2, 3}; Int_t hb32a[3] = { 0, 4, 8}; Int_t ch32b[3] = { 2, 2, 3}; Int_t hb32b[3] = { 2, 6, 10}; // // ADC values // Float_t ms11a[8] = {0.,0.,0.,0.,0.,0.,0.,0.}; Float_t ms12a[6] = {0.,0.,0.,0.,0.,0.}; Float_t ms21a[2] = {0.,0.}; Float_t ms22a[2] = {0.,0.}; Float_t ms31a[3] = {0.,0.,0.}; Float_t ms32a[3] = {0.,0.,0.}; Float_t ms11b[8] = {0.,0.,0.,0.,0.,0.,0.,0.}; Float_t ms12b[6] = {0.,0.,0.,0.,0.,0.}; Float_t ms21b[2] = {0.,0.}; Float_t ms22b[2] = {0.,0.}; Float_t ms31b[3] = {0.,0.,0.}; Float_t ms32b[3] = {0.,0.,0.}; // // default calibrations // Float_t xp11[8]; Float_t A11[8] = {-19.,-9.6,-25.7,-13.1,-30.9,-21.1,-11.7,-15.9}; Float_t B11[8] = {-2.6,-2.6,-2.3,-2.4,-2.4,-2.8,-2.75,-2.5}; Float_t E11[8] = {2.6,2.6,2.6,2.6,2.6,2.6,2.6,2.6}; Float_t xp12[6]; Float_t A12[6] = {11.6,16.6,5.9,-22.2,-18.0,-14.2}; Float_t B12[6] = {-2.309,-2.424,-1.958,-2.092,-2.241,-2.144}; Float_t E12[6] = {2.6,2.6,2.6,2.6,2.6,2.6}; Float_t xp21[2]; Float_t A21[2] = {12.5, 21.7}; Float_t B21[2] = {-1.492,-1.519}; Float_t E21[2] = {2.2,2.2}; Float_t xp22[2]; Float_t A22[2] = {-27.0, -45.8}; Float_t B22[2] = {-1.897,-1.477}; Float_t E22[2] = {2.9,2.9}; Float_t xp31[3]; Float_t A31[3] = {-25.1, -41.4, -33.9}; Float_t B31[3] = {-3.374,-3.793,-3.495}; Float_t E31[3] = {1.2,1.2,1.2}; Float_t xp32[3]; Float_t A32[3] = {1.3, 3.9, -22.0}; Float_t B32[3] = {-3.134,-3.526,-3.417}; Float_t E32[3] = {2.3,2.3,2.3}; // // TDC info for each PMT // Float_t mt11[2][8]; Float_t mt12[2][6]; Float_t mt21[2][2]; Float_t mt22[2][2]; Float_t mt31[2][3]; Float_t mt32[2][3]; Int_t noadc = 12; if ( var.bw ){ noadc = 12; } else { noadc = 41; }; // Int_t ii = 0; if ( level.file == -1 ){ for ( Int_t i = 0; i<8; i++ ) { mt11[0][i] = tof->tdc[ch11a[i]][hb11a[i]]; mt11[1][i] = tof->tdc[ch11b[i]][hb11b[i]]; ms11a[i] = tof->adc[ch11a[i]][hb11a[i]]; ms11b[i] = tof->adc[ch11b[i]][hb11b[i]]; xp11[i] = ( -A11[i] + (mt11[0][i]-mt11[1][i]) / 2. ) / B11[i] ; if ( ms11a[i] == 4095. ) { ms11a[i] = 0.; } else { ms11a[i] = 1.; }; if ( ms11b[i] == 4095. ) { ms11b[i] = 0.; } else { ms11b[i] = 1.; }; }; for ( Int_t i = 0; i<6; i++ ) { mt12[0][i] = tof->tdc[ch12a[i]][hb12a[i]]; mt12[1][i] = tof->tdc[ch12b[i]][hb12b[i]]; ms12a[i] = tof->adc[ch12a[i]][hb12a[i]]; ms12b[i] = tof->adc[ch12b[i]][hb12b[i]]; xp12[i] = ( -A12[i] + (mt12[0][i]-mt12[1][i]) / 2. ) / B12[i] ; if ( ms12a[i] == 4095. ){ ms12a[i] = 0.; } else { ms12a[i] = 1.; }; if ( ms12b[i] == 4095. ){ ms12b[i] = 0.; } else { ms12b[i] = 1.; }; }; ii = 2; for ( Int_t i = 0; i<2; i++ ) { ii--; mt21[0][ii] = tof->tdc[ch21a[i]][hb21a[i]]; mt21[1][ii] = tof->tdc[ch21b[i]][hb21b[i]]; ms21a[ii] = tof->adc[ch21a[i]][hb21a[i]]; ms21b[ii] = tof->adc[ch21b[i]][hb21b[i]]; xp21[ii] = ( -A21[ii] + (mt21[0][ii]-mt21[1][ii]) / 2. ) / B21[ii] ; if ( ms21a[ii] == 4095. ){ ms21a[ii] = 0.; } else { ms21a[ii] = 1.; }; if ( ms21b[ii] == 4095. ){ ms21b[ii] = 0.; } else { ms21b[ii] = 1.; }; }; for ( Int_t i = 0; i<2; i++ ) { mt22[0][i] = tof->tdc[ch22a[i]][hb22a[i]]; mt22[1][i] = tof->tdc[ch22b[i]][hb22b[i]]; ms22a[i] = tof->adc[ch22a[i]][hb22a[i]]; ms22b[i] = tof->adc[ch22b[i]][hb22b[i]]; xp22[i] = ( -A22[i] + (mt22[0][i]-mt22[1][i]) / 2. ) / B22[i] ; if ( ms22a[i] == 4095. ){ ms22a[i] = 0.; } else { ms22a[i] = 1.; }; if ( ms22b[i] == 4095. ){ ms22b[i] = 0.; } else { ms22b[i] = 1.; }; }; for ( Int_t i = 0; i<3; i++ ) { mt31[0][i] = tof->tdc[ch31a[i]][hb31a[i]]; mt31[1][i] = tof->tdc[ch31b[i]][hb31b[i]]; ms31a[i] = tof->adc[ch31a[i]][hb31a[i]]; ms31b[i] = tof->adc[ch31b[i]][hb31b[i]]; xp31[i] = ( -A31[i] + (mt31[0][i]-mt31[1][i]) / 2. ) / B31[i] ; if ( ms31a[i] == 4095. ){ ms31a[i] = 0.; } else { ms31a[i] = 1.; }; if ( ms31b[i] == 4095. ){ ms31b[i] = 0.; } else { ms31b[i] = 1.; }; }; for ( Int_t i = 0; i<3; i++ ) { mt32[0][i] = tof->tdc[ch32a[i]][hb32a[i]]; mt32[1][i] = tof->tdc[ch32b[i]][hb32b[i]]; ms32a[i] = tof->adc[ch32a[i]][hb32a[i]]; ms32b[i] = tof->adc[ch32b[i]][hb32b[i]]; xp32[i] = ( -A32[i] + (mt32[0][i]-mt32[1][i]) / 2. ) / B32[i] ; if ( ms32a[i] == 4095. ){ ms32a[i] = 0.; } else { ms32a[i] = 1.; }; if ( ms32b[i] == 4095. ){ ms32b[i] = 0.; } else { ms32b[i] = 1.; }; }; }; // // // Bool_t repeat = true; Int_t numtr = 1; Int_t repuntil = 0; // // var.tofraw = 0; // repuntil = L2->GetToFLevel2()->ntrk(); // printf("repuntil = %i \n",repuntil); //repuntil = L2->GetNTracks(); // while ( repeat ){ // printf("B repuntil = %i \n",repuntil); if ( level.file == 2 ){ // // // ToFTrkVar *ptt = 0; // // if ( repuntil == 1 || var.tofraw ){ numtr = 0; ptt = L2->GetToFLevel2()->GetToFTrkVar(0); repeat = false; } else { // // if ( numtr >= repuntil-1 ) repeat = false; // ptt = L2->GetToFLevel2()->GetToFTrkVar(numtr); }; // xp11[0] = 0.; xp12[0] = 0.; xp21[0] = 0.; xp22[0] = 0.; xp31[0] = 0.; xp32[0] = 0.; // // // ii = 2; // Float_t adc[4][12]; Float_t tdc[4][12]; L2->GetToFLevel2()->GetMatrix(numtr,adc,tdc); // for ( Int_t i = 0; i<8; i++ ) { if ( adc[ch11a[i]][hb11a[i]] < 1000. ){ ms11a[i] = adc[ch11a[i]][hb11a[i]]; }; if ( adc[ch11b[i]][hb11b[i]] < 1000. ){ ms11b[i] = adc[ch11b[i]][hb11b[i]]; }; // xp11[i] = 0.; }; Int_t nmtof = 0; Float_t mtof = 0.; var.beta[4] = 0.; if ( ptt->beta[12] != 0. && ptt->beta[12] != 100. ){ var.beta[4] = ptt->beta[12]; } else { for (Int_t tf = 0; tf<12 ;tf++){ if ( ptt->beta[tf] != 0. && ptt->beta[tf] != 100.){ mtof += ptt->beta[tf]; nmtof++; }; }; if ( nmtof ){ var.beta[4] = mtof/nmtof; } else { var.beta[4] = 0.; }; }; ii = 2; // for ( Int_t i = 0; i<8; i++ ) { if ( adc[ch11a[i]][hb11a[i]] < 1000. ){ ms11a[i] = adc[ch11a[i]][hb11a[i]]; }; if ( adc[ch11b[i]][hb11b[i]] < 1000. ){ ms11b[i] = adc[ch11b[i]][hb11b[i]]; }; xp11[i] = 0.; }; // xp11[0] = ptt->ytofpos[0]; // for ( Int_t i = 0; i<6; i++ ) { if ( adc[ch12a[i]][hb12a[i]] < 1000. ) ms12a[i] = adc[ch12a[i]][hb12a[i]]; if ( adc[ch12b[i]][hb12b[i]] < 1000. ) ms12b[i] = adc[ch12b[i]][hb12b[i]]; xp12[i] = 0.; }; // xp12[0] = ptt->xtofpos[0]; // ii = 2; for ( Int_t i = 0; i<2; i++ ) { ii--; if ( adc[ch21a[i]][hb21a[i]] < 1000. ) ms21a[ii] = adc[ch21a[i]][hb21a[i]]; if ( adc[ch21b[i]][hb21b[i]] < 1000. ) ms21b[ii] = adc[ch21b[i]][hb21b[i]]; xp21[i] = 0.; }; xp21[0] = ptt->xtofpos[1]; // for ( Int_t i = 0; i<2; i++ ) { if ( adc[ch22a[i]][hb22a[i]] < 1000. ) ms22a[i] = adc[ch22a[i]][hb22a[i]]; if ( adc[ch22b[i]][hb22b[i]] < 1000. ) ms22b[i] = adc[ch22b[i]][hb22b[i]]; xp22[i] = 0.; }; xp22[0] = ptt->ytofpos[1]; // for ( Int_t i = 0; i<3; i++ ) { if ( adc[ch31a[i]][hb31a[i]] < 1000. ) ms31a[i] = adc[ch31a[i]][hb31a[i]]; if ( adc[ch31b[i]][hb31b[i]] < 1000. ) ms31b[i] = adc[ch31b[i]][hb31b[i]]; xp31[i] = 0.; }; xp31[0] = ptt->ytofpos[2]; // for ( Int_t i = 0; i<3; i++ ) { if ( adc[ch32a[i]][hb32a[i]] < 1000. ) ms32a[i] = adc[ch32a[i]][hb32a[i]]; if ( adc[ch32b[i]][hb32b[i]] < 1000. ) ms32b[i] = adc[ch32b[i]][hb32b[i]]; xp32[i] = 0.; }; xp32[0] = ptt->xtofpos[2]; // numtr++; //numtr = repuntil+10; // repeat = false; // printf("pre drawingdrawing... %i %i\n",numtr,ptt->trkseqno); // }; // end if level2 // // // drawtof: // // printf("drawingdrawing... %i \n",repuntil); // Int_t colo = 0; Int_t ocolo = 0; Float_t xs2x = var.xxvc; Float_t ys2x = var.yxvc + 0.36*var.sfy; Float_t xs2y = var.xyvc; Float_t ys2y = var.yyvc + 0.36*var.sfy; Float_t ws2 = 0.005; Float_t ws13 = 0.007; // // S11 X-view // Float_t s11p = 0.051; ocolo = 10; TPolyLine *ftof11x[8]; for ( Int_t j=0; j<8; j++){ Float_t nxc1[5]={ (s11p*j), (s11p*j), s11p*(j+1), s11p*(j+1), (s11p*j)}; Float_t nyc1[5]={ 0., ws13, ws13, 0., 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + (-0.204+nxc1[i])*var.sfx; nyc[i] = ys2x + (0.295+nyc1[i])*var.sfy; }; ftof11x[j] = new TPolyLine(5,nxc,nyc); ftof11x[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms11a[j]+ms11b[j],colo); } else { ColorTOFMIP(ms11a[j]+ms11b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof11x[j]->SetFillColor(colo); ftof11x[j]->SetLineWidth(1); ftof11x[j]->Draw("f"); ftof11x[j]->Draw(); }; // // S11 Y-view // Float_t nxc1[5]={ -0.165, 0.165, 0.165, -0.165, -0.165}; Float_t nyc1[5]={ 0., 0., ws13, ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (0.295+nyc1[i])*var.sfy; }; TPolyLine *ftof11y = new TPolyLine(5,nxc,nyc); ftof11y->SetFillStyle(4000); ftof11y->SetFillColor(0); ftof11y->SetLineColor(1); ftof11y->SetLineWidth(1); ftof11y->Draw("f"); ftof11y->Draw(); TPolyLine *sftof11[8]; tt = 1; if ( level.file == -1 ) tt = 8; for ( Int_t j=0; j 0.164 ) higp = 0.164; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp11[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ 0.0015, 0.0015, ws13-0.0015, ws13-0.0015, 0.0015}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (0.295+nyc1[i])*var.sfy; }; sftof11[j] = new TPolyLine(5,nxc,nyc); sftof11[j]->SetLineColor(ocolo); sftof11[j]->SetFillColor(ocolo); sftof11[j]->SetLineWidth(1); sftof11[j]->Draw("f"); sftof11[j]->Draw(); }; }; }; // // S12 Y-view // Float_t s12p = 0.055; ocolo = 10; TPolyLine *ftof12y[6]; for ( Int_t j=0; j<6; j++){ Float_t nxc1[5]={ (s12p*j), (s12p*j), s12p*(j+1), s12p*(j+1), (s12p*j)}; Float_t nyc1[5]={ -ws13, 0., 0., -ws13, -ws13}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + (-0.165+nxc1[i])*var.sfx; nyc[i] = ys2y + (0.295+nyc1[i])*var.sfy; }; ftof12y[j] = new TPolyLine(5,nxc,nyc); ftof12y[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms12a[j]+ms12b[j],colo); } else { ColorTOFMIP(ms12a[j]+ms12b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof12y[j]->SetFillColor(colo); ftof12y[j]->SetLineWidth(1); ftof12y[j]->Draw("f"); ftof12y[j]->Draw(); }; // // S12 X-view // if ( true ){ Float_t nxc1[5]={ -0.204, 0.204, 0.204, -0.204, -0.204}; Float_t nyc1[5]={ 0., 0., -ws13, -ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (0.295+nyc1[i])*var.sfy; }; TPolyLine *ftof12x = new TPolyLine(5,nxc,nyc); ftof12x->SetLineColor(1); ftof12x->SetFillStyle(4000); ftof12x->SetFillColor(0); ftof12x->SetLineWidth(1); ftof12x->Draw("f"); ftof12x->Draw(); TPolyLine *sftof12[6]; tt = 1; if ( level.file == -1 ) tt = 6; for (Int_t j=0; j 0.203 ) higp = 0.203; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp12[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ -0.0015, -0.0015, -ws13+0.0015, -ws13+0.0015, -0.0015}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (0.295+nyc1[i])*var.sfy; }; sftof12[j] = new TPolyLine(5,nxc,nyc); sftof12[j]->SetLineColor(ocolo); sftof12[j]->SetFillColor(ocolo); sftof12[j]->SetLineWidth(1); sftof12[j]->Draw("f"); sftof12[j]->Draw(); }; }; }; }; // // // S21 Y-view // Float_t s21p = 0.075; ocolo = 10; TPolyLine *ftof21y[2]; for ( Int_t j=0; j<2; j++){ Float_t nxc1[5]={ s21p*(j-1), s21p*(j-1), s21p*j,s21p*j, s21p*(j-1)}; Float_t nyc1[5]={ 0., ws2, ws2, 0., 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + nyc1[i]*var.sfy; }; ftof21y[j] = new TPolyLine(5,nxc,nyc); ftof21y[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms21a[j]+ms21b[j],colo); } else { ColorTOFMIP(ms21a[j]+ms21b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof21y[j]->SetFillColor(colo); ftof21y[j]->SetLineWidth(1); ftof21y[j]->Draw("f"); ftof21y[j]->Draw(); }; // // S21 X-view // if ( true ){ Float_t nxc1[5]={ -0.09, 0.09, 0.09, -0.09, -0.09}; Float_t nyc1[5]={ 0., 0., ws2, ws2, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + nyc1[i]*var.sfy; }; TPolyLine *ftof21x = new TPolyLine(5,nxc,nyc); ftof21x->SetLineColor(1); ftof21x->SetFillStyle(4000); ftof21x->SetFillColor(0); ftof21x->SetLineWidth(1); ftof21x->Draw("f"); ftof21x->Draw(); TPolyLine *sftof21[2]; tt = 1; if ( level.file == -1 ) tt = 2; for ( Int_t j=0; j 0.089 ) higp = 0.089; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp21[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ 0.0015, 0.0015, ws2-0.0015, ws2-0.0015, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + nyc1[i]*var.sfy; }; sftof21[j] = new TPolyLine(5,nxc,nyc); sftof21[j]->SetLineColor(ocolo); sftof21[j]->SetFillColor(ocolo); sftof21[j]->SetLineWidth(1); sftof21[j]->Draw("f"); sftof21[j]->Draw(); }; }; }; }; // // // S22 X-view // Float_t s22p = 0.090; ocolo = 10; TPolyLine *ftof22x[2]; for ( Int_t j=0; j<2; j++){ Float_t nxc1[5]={ s22p*(j-1), s22p*(j-1), s22p*j, s22p*j, s22p*(j-1)}; Float_t nyc1[5]={ -ws2, 0., 0., -ws2, -ws2}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + nyc1[i]*var.sfy; }; ftof22x[j] = new TPolyLine(5,nxc,nyc); ftof22x[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms22a[j]+ms22b[j],colo); } else { ColorTOFMIP(ms22a[j]+ms22b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof22x[j]->SetFillColor(colo); ftof22x[j]->SetLineWidth(1); ftof22x[j]->Draw("f"); ftof22x[j]->Draw(); }; // // S22 Y-view // if ( true ){ Float_t nxc1[5]={ -0.075, 0.075, 0.075, -0.075, -0.075}; Float_t nyc1[5]={ 0., 0., -ws2, -ws2, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + nyc1[i]*var.sfy; }; TPolyLine *ftof22y = new TPolyLine(5,nxc,nyc); ftof22y->SetLineColor(1); ftof22y->SetFillStyle(4000); ftof22y->SetFillColor(0); ftof22y->SetLineWidth(1); ftof22y->Draw("f"); ftof22y->Draw(); TPolyLine *sftof22[2]; tt = 1; if ( level.file == -1 ) tt = 2; for (Int_t j=0; j 0.074 ) higp = 0.074; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp22[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ -0.0015, -0.0015, -ws2+0.0015, -ws2+0.0015, -0.0015}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + nyc1[i]*var.sfy; }; sftof22[j] = new TPolyLine(5,nxc,nyc); sftof22[j]->SetLineColor(ocolo); sftof22[j]->SetFillColor(ocolo); sftof22[j]->SetLineWidth(1); sftof22[j]->Draw("f"); sftof22[j]->Draw(); }; }; }; }; // // // S31 X-view // Float_t s31p = 0.060; ocolo = 10; TPolyLine *ftof31x[3]; for ( Int_t j=0; j<3; j++){ Float_t nxc1[5]={ (s31p*j), (s31p*j), s31p*(j+1), s31p*(j+1), (s31p*j)}; Float_t nyc1[5]={ 0., ws13, ws13, 0., 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + (-0.090+nxc1[i])*var.sfx; nyc[i] = ys2x + (-0.488+nyc1[i])*var.sfy; }; ftof31x[j] = new TPolyLine(5,nxc,nyc); ftof31x[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms31a[j]+ms31b[j],colo); } else { ColorTOFMIP(ms31a[j]+ms31b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof31x[j]->SetFillColor(colo); ftof31x[j]->SetLineWidth(1); ftof31x[j]->Draw("f"); ftof31x[j]->Draw(); }; // // S31 Y-view // if ( true ){ Float_t nxc1[5]={ -0.075, 0.075, 0.075, -0.075, -0.075}; Float_t nyc1[5]={ 0., 0., ws13, ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (-0.488+nyc1[i])*var.sfy; }; TPolyLine *ftof31y = new TPolyLine(5,nxc,nyc); ftof31y->SetLineColor(1); ftof31y->SetFillStyle(4000); ftof31y->SetFillColor(0); ftof31y->SetLineWidth(1); ftof31y->Draw("f"); ftof31y->Draw(); TPolyLine *sftof31[3]; tt = 1; if ( level.file == -1 ) tt = 3; for (Int_t j=0; j 0.074 ) higp = 0.074; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp31[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ 0.0015, 0.0015, ws13-0.0015, ws13-0.0015, 0.0015}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + nxc1[i]*var.sfx; nyc[i] = ys2y + (-0.488+nyc1[i])*var.sfy; }; sftof31[j] = new TPolyLine(5,nxc,nyc); sftof31[j]->SetLineColor(ocolo); sftof31[j]->SetFillColor(ocolo); sftof31[j]->SetLineWidth(1); sftof31[j]->Draw("f"); sftof31[j]->Draw(); }; }; }; }; // // // S32 Y-view // Float_t s32p = 0.050; ocolo = 10; TPolyLine *ftof32y[3]; for ( Int_t j=0; j<3; j++){ Float_t nxc1[5]={ (s32p*j), (s32p*j), s32p*(j+1),s32p*(j+1), (s32p*j)}; Float_t nyc1[5]={ -ws13, 0., 0., -ws13, -ws13}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2y + (-0.075+nxc1[i])*var.sfx; nyc[i] = ys2y + (-0.488+nyc1[i])*var.sfy; }; ftof32y[j] = new TPolyLine(5,nxc,nyc); ftof32y[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; if ( level.file == -1 ){ ColorMIP(ms32a[j]+ms32b[j],colo); } else { ColorTOFMIP(ms32a[j]+ms32b[j],colo); }; // if ( colo != 10 ) ocolo = colo; // ftof32y[j]->SetFillColor(colo); ftof32y[j]->SetLineWidth(1); ftof32y[j]->Draw("f"); ftof32y[j]->Draw(); }; // // S32 X-view // if ( true ){ Float_t nxc1[5]={ -0.09, 0.09, 0.09, -0.09, -0.09}; Float_t nyc1[5]={ 0., 0., -ws13, -ws13, 0.}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (-0.488+nyc1[i])*var.sfy; }; TPolyLine *ftof32x = new TPolyLine(5,nxc,nyc); ftof32x->SetLineColor(1); ftof32x->SetLineWidth(1); ftof32x->SetFillStyle(4000); ftof32x->SetFillColor(0); ftof32x->Draw("f"); ftof32x->Draw(); TPolyLine *sftof32[3]; tt = 1; if ( level.file == -1 ) tt = 3; for (Int_t j=0; j 0.089 ) higp = 0.089; if ( lowp < higp && ( level.file == -1 || (level.file == 2 && xp32[j] != 0.))){ Float_t nxc1[5]={ lowp, higp, higp, lowp, lowp}; Float_t nyc1[5]={ -0.0015, -0.0015, -ws13+0.0015, -ws13+0.0015, -0.0015}; Float_t nxc[5]; Float_t nyc[5]; for (Int_t i = 0; i<5 ; i++) { nxc[i]= xs2x + nxc1[i]*var.sfx; nyc[i] = ys2x + (-0.488+nyc1[i])*var.sfy; }; sftof32[j] = new TPolyLine(5,nxc,nyc); sftof32[j]->SetLineColor(ocolo); sftof32[j]->SetFillColor(ocolo); sftof32[j]->SetLineWidth(1); sftof32[j]->Draw("f"); sftof32[j]->Draw(); }; }; }; }; // if ( level.file == -1 || numtr >= repuntil ) repeat = false; // }; // } void FEVdetector::ShowAC(){ // // // if ( !var.AC ) return; // Int_t hitmapA = 0; Int_t hitmapB = 0; Int_t hitstatusA = 0; Int_t hitstatusB = 0; // // level0 and level-1 do not give infos about out of trigger events // if ( level.file == 0 || level.file == -1 ){ hitmapA = ace->hitmap[0]; hitmapB = ace->hitmap[1]; hitstatusA = 65535; hitstatusB = 65535; }; // // full infos from ac // if ( level.file == 2 ){ hitmapA = L2->GetAcLevel2()->hitmap[0]; hitmapB = L2->GetAcLevel2()->hitmap[1]; hitstatusA = L2->GetAcLevel2()->hitstatus[0]; hitstatusB = L2->GetAcLevel2()->hitstatus[1]; }; // // // Float_t cas1 = 0.; Float_t cas2 = 0.; Float_t cas3 = 0.; Float_t cas4 = 0.; Float_t cas1b = 0.; Float_t cas2b = 0.; Float_t cas3b = 0.; Float_t cas4b = 0.; // Float_t cat1 = 0.; Float_t cat2 = 0.; Float_t cat3 = 0.; Float_t cat4 = 0.; Float_t cat1b = 0.; Float_t cat2b = 0.; Float_t cat3b = 0.; Float_t cat4b = 0.; // Float_t card1 = 0.; Float_t card2 = 0.; Float_t card3 = 0.; Float_t card4 = 0.; Float_t card1b = 0.; Float_t card2b = 0.; Float_t card3b = 0.; Float_t card4b = 0.; // Float_t intime = -0.25; Float_t outtime = -0.375; if ( var.bw ){ intime = -0.25; outtime = -0.375; } else { intime = 1.; outtime = -4.; }; // // main board // if ( hitmapA & (1<<0) ) { card4 = intime; if ( !(hitstatusA & (1<<0)) ) card4 = outtime ; var.hcard++; } if ( hitmapA & (1<<1) ) { cat2 = intime; if ( !(hitstatusA & (1<<1)) ) cat2 = outtime ; var.hcat++; } if ( hitmapA & (1<<2) ) { cas1 = intime; if ( !(hitstatusA & (1<<2)) ) cas1 = outtime ; var.hcas++; } // if ( hitmapA & (1<<4) ) { card2 = intime; if ( !(hitstatusA & (1<<4)) ) card2 = outtime ; var.hcard++; } if ( hitmapA & (1<<5) ) { cat4 = intime; if ( !(hitstatusA & (1<<5)) ) cat4 = outtime ; var.hcat++; } if ( hitmapA & (1<<6) ) { cas4 = intime; if ( !(hitstatusA & (1<<6)) ) cas4 = outtime ; var.hcas++; } // if ( hitmapA & (1<<8) ) { card3 = intime; if ( !(hitstatusA & (1<<8)) ) card3 = outtime ; var.hcard++; } if ( hitmapA & (1<<9) ) { cat3 = intime; if ( !(hitstatusA & (1<<9)) ) cat3 = outtime ; var.hcat++; } if ( hitmapA & (1<<10) ) { cas3 = intime; if ( !(hitstatusA & (1<<10)) ) cas3 = outtime ; var.hcas++; } // if ( hitmapA & (1<<12) ) { card1 = intime; if ( !(hitstatusA & (1<<12)) ) card1 = outtime ; var.hcard++; } if ( hitmapA & (1<<13) ) { cat1 = intime; if ( !(hitstatusA & (1<<13)) ) cat1 = outtime ; var.hcat++; } if ( hitmapA & (1<<14) ) { cas2 = intime; if ( !(hitstatusA & (1<<14)) ) cas2 = outtime ; var.hcas++; } // // extra board // if ( hitmapB & (1<<0) ) { card4b = intime; if ( !(hitstatusB & (1<<0)) ) card4b = outtime ; var.hcard++; } if ( hitmapB & (1<<1) ) { cat2b = intime; if ( !(hitstatusB & (1<<1)) ) cat2b = outtime ; var.hcat++; } if ( hitmapB & (1<<2) ) { cas1b = intime; if ( !(hitstatusB & (1<<2)) ) cas1b = outtime; var.hcas++; } // if ( hitmapB & (1<<4) ) { card2b = intime; if ( !(hitstatusB & (1<<4)) ) card2b = outtime ; var.hcard++; } if ( hitmapB & (1<<5) ) { cat4b = intime; if ( !(hitstatusB & (1<<5)) ) cat4b = outtime ; var.hcat++; } if ( hitmapB & (1<<6) ) { cas4b = intime; if ( !(hitstatusB & (1<<6)) ) cas4b = outtime ; var.hcas++; } // if ( hitmapB & (1<<8) ) { card3b = intime; if ( !(hitstatusB & (1<<8)) ) card3b = outtime ; var.hcard++; } if ( hitmapB & (1<<9) ) { cat3b = intime; if ( !(hitstatusB & (1<<9)) ) cat3b = outtime ; var.hcat++; } if ( hitmapB & (1<<10) ) { cas3b = intime; if ( !(hitstatusB & (1<<10)) ) cas3b = outtime ; var.hcas++; } // if ( hitmapB & (1<<12) ) { card1b = intime; if ( !(hitstatusB & (1<<12)) ) card1b = outtime ; var.hcard++; } if ( hitmapB & (1<<13) ) { cat1b = intime; if ( !(hitstatusB & (1<<13)) ) cat1b = outtime ; var.hcat++; } if ( hitmapB & (1<<14) ) { cas2b = intime; if ( !(hitstatusB & (1<<14)) ) cas2b = outtime ; var.hcas++; }; Int_t colo = 0; // // CAS height and width // Float_t csh = 0.194*var.sfy; Float_t csw = 0.008*var.sfx; Float_t ctw = 0.008; // // CAS2 -0.039-0.081 |TRX TRY // if ( true ){ Float_t xofs = var.xxvc -(0.039+0.081+0.0273)*var.sfx; Float_t yofs = var.yxvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs,xofs,xofs-csw}; Double_t y[4] = {yofs-csh,yofs-csh,yofs+csh,yofs-csh}; TPolyLine *fcas2 = new TPolyLine(4,x,y); fcas2->SetLineColor(1); colo = (int)(10. - cas2 * 8.); fcas2->SetFillColor(colo); fcas2->SetLineWidth(1); fcas2->Draw("f"); fcas2->Draw(); }; if ( true ){ Float_t xofs = var.xxvc -(0.039 +0.081 +0.0273)*var.sfx; Float_t yofs = var.yxvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs-csw,xofs,xofs-csw}; Double_t y[4] = {yofs+csh,yofs-csh,yofs+csh,yofs+csh}; TPolyLine *fcas2b = new TPolyLine(4,x,y); fcas2b->SetLineColor(1); colo = (int)(10. - cas2b * 8.); fcas2b->SetFillColor(colo); fcas2b->SetLineWidth(1); fcas2b->Draw("f"); fcas2b->Draw(); }; // // CAS1 -0.039+0.081 TRX| TRY // if ( true ){ Float_t xofs = var.xxvc + (0.039 +0.081+0.0273)*var.sfx +csw; Float_t yofs = var.yxvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs-csw,xofs,xofs-csw}; Double_t y[4] = {yofs-csh,yofs+csh,yofs-csh,yofs-csh}; TPolyLine *fcas1 = new TPolyLine(4,x,y); fcas1->SetLineColor(1); colo = (int)(10. - cas1 * 8.); fcas1->SetFillColor(colo); fcas1->SetLineWidth(1); fcas1->Draw("f"); fcas1->Draw(); }; if ( true ){ Float_t xofs = var.xxvc + (0.039 +0.081+0.0273)*var.sfx +csw; Float_t yofs = var.yxvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs,xofs,xofs-csw}; Double_t y[4] = {yofs+csh,yofs+csh,yofs-csh,yofs+csh}; TPolyLine *fcas1b = new TPolyLine(4,x,y); fcas1b->SetLineColor(1); colo = (int)(10. - cas1b * 8.); fcas1b->SetFillColor(colo); fcas1b->SetLineWidth(1); fcas1b->Draw("f"); fcas1b->Draw(); }; // // CAS4 -0.039-0.081 TRX |TRY // if ( true ){ Float_t xofs = var.xyvc - (0.048 +0.066 +0.0273)*var.sfx; Float_t yofs = var.yyvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs,xofs,xofs-csw}; Double_t y[4] = {yofs-csh,yofs-csh,yofs+csh,yofs-csh}; TPolyLine *fcas4 = new TPolyLine(4,x,y); fcas4->SetLineColor(1); colo = (int)(10. - cas4 * 8.); fcas4->SetFillColor(colo); fcas4->SetLineWidth(1); fcas4->Draw("f"); fcas4->Draw(); }; if ( true ){ Float_t xofs = var.xyvc - (0.048 +0.066 +0.0273)*var.sfx; Float_t yofs = var.yyvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs-csw,xofs,xofs-csw}; Double_t y[4] = {yofs+csh,yofs-csh,yofs+csh,yofs+csh}; TPolyLine *fcas4b = new TPolyLine(4,x,y); fcas4b->SetLineColor(1); colo = (int)(10. - cas4b * 8.); fcas4b->SetFillColor(colo); fcas4b->SetLineWidth(1); fcas4b->Draw("f"); fcas4b->Draw(); }; // // CAS3 -0.039+0.081 TRX TRY| // if ( true ){ Float_t xofs = var.xyvc + (0.048 +0.066+0.0273)*var.sfx +csw; Float_t yofs = var.yyvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs-csw,xofs,xofs-csw}; Double_t y[4] = {yofs-csh,yofs+csh,yofs-csh,yofs-csh}; TPolyLine *fcas3 = new TPolyLine(4,x,y); fcas3->SetLineColor(1); colo = (int)(10. - cas3 * 8.); fcas3->SetFillColor(colo); fcas3->SetLineWidth(1); fcas3->Draw("f"); fcas3->Draw(); }; if ( true ){ Float_t xofs = var.xyvc + (0.048 +0.066+0.0273)*var.sfx +csw; Float_t yofs = var.yyvc + 0.09*var.sfy ; Double_t x[4] = {xofs-csw,xofs,xofs,xofs-csw}; Double_t y[4] = {yofs+csh,yofs+csh,yofs-csh,yofs+csh}; TPolyLine *fcas3b = new TPolyLine(4,x,y); fcas3b->SetLineColor(1); colo = (int)(10. - cas3b * 8.); fcas3b->SetFillColor(colo); fcas3b->SetLineWidth(1); fcas3b->Draw("f"); fcas3b->Draw(); }; // // CAT coordinate system // Float_t xcat = var.xcat; Float_t ycat = var.ycat; Float_t pmt1 = 0.0356; Float_t pmt2 = 0.038; Float_t xpmt1 = -0.149*var.sfx; Float_t ypmt1 = 0.251*var.sfy; Float_t apmt1 = atan((11.*var.sfy)/(14.*var.sfx)); Float_t xpmt2 = -0.257*var.sfx; Float_t ypmt2 = 0.158*var.sfy; Float_t apmt2 = atan((11.*var.sfx)/(15.*var.sfy)); // Int_t cattime = 13; Int_t catnoti = 12; if ( var.bw ){ cattime = 13; catnoti = 12; } else { cattime = 2; catnoti = 42; }; // if ( true ){ // PMTs Float_t xc1[5]={ 0., 0.014*var.sfx, 0.014*var.sfx-var.sfx*var.sfx*pmt1*cos(apmt1), -var.sfx*var.sfx*pmt1*cos(apmt1), 0.}; Float_t yc1[5]={ 0., 0.011*var.sfy, 0.011*var.sfy+var.sfy*var.sfy*pmt1*sin(apmt1), var.sfy*var.sfy*pmt1*sin(apmt1), 0.}; Float_t xc2[5]={ 0., 0.011*var.sfx, 0.011*var.sfx-pmt2*var.sfx*var.sfx*cos(apmt2), -pmt2*var.sfx*var.sfx*cos(apmt2), 0.}; Float_t yc2[5]={ 0., 0.015*var.sfy, 0.015*var.sfy+var.sfy*pmt2*var.sfy*sin(apmt2), var.sfy*pmt2*var.sfy*sin(apmt2), 0.}; // SCINTs Float_t xcc1[10]={-0.149, -0.090165, -0.090165, -0.149, -0.242, -0.257, -0.212, -0.257, -0.242, -0.149}; Float_t ycc1[10]={ 0.169, 0.108165, -0.108165, -0.169, -0.169, -0.158, 0., 0.158, 0.169, 0.169}; Float_t xcc2[10]={-0.149, -0.149, -0.138, 0., 0.138, 0.149, 0.149, 0.090165, -0.090165, -0.149}; Float_t ycc2[10]={ 0.169, 0.251, 0.265, 0.220, 0.265, 0.251, 0.169, 0.108165, 0.108165, 0.169}; // // CAT sections // if ( true ){ Float_t xofs = var.xxvc -0.108165*var.sfx; Float_t yofs = var.yxvc + 0.3725*var.sfy ; Double_t xx[5] = {xofs,xofs-0.112*var.sfx,xofs-0.112*var.sfx,xofs,xofs}; Double_t yy[5] = {yofs,yofs,yofs+ctw,yofs+ctw,yofs}; TPolyLine *fcat3 = new TPolyLine(5,xx,yy); fcat3->SetLineColor(1); if ( cat3 != 0. || cat3b != 0. ){ if ( cat3 > 0 || cat3b > 0 || cat3 == -0.25 || cat3b == -0.25 ){ colo = cattime; } else { colo = catnoti; }; } else { colo = 10; }; fcat3->SetFillColor(colo); fcat3->SetLineWidth(1); fcat3->Draw("f"); fcat3->Draw(); }; if ( true ){ Float_t xofs = var.xxvc +0.108165*var.sfx; Float_t yofs = var.yxvc + 0.3725 *var.sfy; Double_t xx[5] = {xofs,xofs+0.112*var.sfx,xofs+0.112*var.sfx,xofs,xofs}; Double_t yy[5] = {yofs,yofs,yofs+ctw,yofs+ctw,yofs}; TPolyLine *fcat4 = new TPolyLine(5,xx,yy); fcat4->SetLineColor(1); if ( cat4 != 0. || cat4b != 0. ){ if ( cat4 > 0 || cat4b > 0 || cat4 == -.25 || cat4b == -.25 ){ colo = cattime; } else { colo = catnoti; }; } else { colo = 10; }; fcat4->SetFillColor(colo); fcat4->SetLineWidth(1); fcat4->Draw("f"); fcat4->Draw(); }; if ( true ){ Float_t xofs = var.xyvc + 0.090165*var.sfx; Float_t yofs = var.yyvc + 0.3725*var.sfy ; Double_t xx[5] = {xofs,xofs+0.122*var.sfx,xofs+0.122*var.sfx,xofs,xofs}; Double_t yy[5] = {yofs,yofs,yofs+ctw,yofs+ctw,yofs}; TPolyLine *fcat1 = new TPolyLine(5,xx,yy); fcat1->SetLineColor(1); if ( cat1 != 0. || cat1b != 0. ){ if ( cat1 > 0 || cat1b > 0 || cat1 ==-.25 || cat1b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; } else { colo = 10; }; fcat1->SetFillColor(colo); fcat1->SetLineWidth(1); fcat1->Draw("f"); fcat1->Draw(); }; if ( true ){ Float_t xofs = var.xyvc - 0.090165*var.sfx; Float_t yofs = var.yyvc + 0.3725*var.sfy ; Double_t xx[5] = {xofs,xofs-0.122*var.sfx,xofs-0.122*var.sfx,xofs,xofs}; Double_t yy[5] = {yofs,yofs,yofs+ctw,yofs+ctw,yofs}; TPolyLine *fcat2 = new TPolyLine(5,xx,yy); fcat2->SetLineColor(1); if ( cat2 != 0. || cat2b != 0. ){ if ( cat2 > 0 || cat2b > 0 || cat2 ==-.25 || cat2b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; } else { colo = 10; }; fcat2->SetFillColor(colo); fcat2->SetLineWidth(1); fcat2->Draw("f"); fcat2->Draw(); }; // // CAT1 // Float_t xcc[10]; Float_t ycc[10]; if ( true ){ for (Int_t i = 0; i<10 ; i++) { xcc[i]= xcat - xcc1[i]*var.sfx; ycc[i] = ycat + ycc1[i]*var.sfy; }; TPolyLine *fcat1 = new TPolyLine(10,xcc,ycc); fcat1->SetLineColor(1); colo = 10; if ( cat1 != 0. || cat1b != 0. ) { if ( cat1 > 0 || cat1b > 0 || cat1 ==-.25 || cat1b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; fcat1->SetFillColor(colo); fcat1->SetLineWidth(1); fcat1->Draw("f"); fcat1->Draw(); }; // // CAT2 // if ( true ){ for (Int_t i = 0; i<10 ; i++) { xcc[i]= xcat + xcc1[i]*var.sfx; ycc[i] = ycat + ycc1[i]*var.sfy; }; TPolyLine *fcat2 = new TPolyLine(10,xcc,ycc); fcat2->SetLineColor(1); colo = 10; if ( cat2 != 0. || cat2b != 0. ) { if ( cat2 > 0 || cat2b > 0 || cat2 ==-.25 || cat2b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; fcat2->SetFillColor(colo); fcat2->SetLineWidth(1); fcat2->Draw("f"); fcat2->Draw(); }; // // CAT3 // if ( true ){ for (Int_t i = 0; i<10 ; i++) { xcc[i]= xcat + xcc2[i]*var.sfx; ycc[i] = ycat - ycc2[i]*var.sfy; }; TPolyLine *fcat3 = new TPolyLine(10,xcc,ycc); fcat3->SetLineColor(1); colo = 10; if ( cat3 != 0. || cat3b != 0. ) { if ( cat3 > 0 || cat3b > 0 || cat3 == -.25 || cat3b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; fcat3->SetFillColor(colo); fcat3->SetLineWidth(1); fcat3->Draw("f"); fcat3->Draw(); }; // // CAT4 // if ( true ){ for (Int_t i = 0; i<10 ; i++) { xcc[i]= xcat + xcc2[i]*var.sfx; ycc[i] = ycat + ycc2[i]*var.sfy; }; TPolyLine *fcat4 = new TPolyLine(10,xcc,ycc); fcat4->SetLineColor(1); colo = 10; if ( cat4 != 0. || cat4b != 0. ) { if ( cat4 > 0 || cat4b > 0 || cat4 == -.25 || cat4b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; fcat4->SetFillColor(colo); fcat4->SetLineWidth(1); fcat4->Draw("f"); fcat4->Draw(); }; // // CAT1 PMTs // Float_t xc[5]; Float_t yc[5]; if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xpmt2 - xc1[i]; yc[i] = ycat + ypmt2 + yc1[i]; }; TPolyLine *fcat1 = new TPolyLine(5,xc,yc); fcat1->SetLineColor(1); colo = (int)(10. - cat1 * 8.); fcat1->SetFillColor(colo); fcat1->SetLineWidth(1); fcat1->Draw("f"); fcat1->Draw(); }; if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xpmt2 - xc1[i]; yc[i] = ycat - ypmt2 - yc1[i]; }; TPolyLine *fcat1b = new TPolyLine(5,xc,yc); fcat1b->SetLineColor(1); colo = (int)(10. - cat1b * 8.); fcat1b->SetFillColor(colo); fcat1b->SetLineWidth(1); fcat1b->Draw("f"); fcat1b->Draw(); }; // // CAT2 PMTs // if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xpmt2 + xc1[i]; yc[i] = ycat + ypmt2 + yc1[i]; }; TPolyLine *fcat2 = new TPolyLine(5,xc,yc); fcat2->SetLineColor(1); colo = (int)(10. - cat2 * 8.); fcat2->SetFillColor(colo); fcat2->SetLineWidth(1); fcat2->Draw("f"); fcat2->Draw(); }; if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xpmt2 + xc1[i]; yc[i] = ycat - ypmt2 - yc1[i]; }; TPolyLine *fcat2b = new TPolyLine(5,xc,yc); fcat2b->SetLineColor(1); colo = (int)(10. - cat2b * 8.); fcat2b->SetFillColor(colo); fcat2b->SetLineWidth(1); fcat2b->Draw("f"); fcat2b->Draw(); }; // // CAT3 PMTs // if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xpmt1 + xc2[i]; yc[i] = ycat - ypmt1 - yc2[i]; }; TPolyLine *fcat3b = new TPolyLine(5,xc,yc); fcat3b->SetLineColor(1); colo = (int)(10. - cat3b * 8.); fcat3b->SetFillColor(colo); fcat3b->SetLineWidth(1); fcat3b->Draw("f"); fcat3b->Draw(); }; if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xpmt1 - xc2[i]; yc[i] = ycat - ypmt1 - yc2[i]; }; TPolyLine *fcat3 = new TPolyLine(5,xc,yc); fcat3->SetLineColor(1); colo = (int)(10. - cat3 * 8.); fcat3->SetFillColor(colo); fcat3->SetLineWidth(1); fcat3->Draw("f"); fcat3->Draw(); }; // // CAT4 PMTs // if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xpmt1 + xc2[i]; yc[i] = ycat + ypmt1 + yc2[i]; }; TPolyLine *fcat4b = new TPolyLine(5,xc,yc); fcat4b->SetLineColor(1); colo = (int)(10. - cat4b * 8.); fcat4b->SetFillColor(colo); fcat4b->SetLineWidth(1); fcat4b->Draw("f"); fcat4b->Draw(); }; if ( true ){ for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xpmt1 - xc2[i]; yc[i] = ycat + ypmt1 + yc2[i]; }; TPolyLine *fcat4 = new TPolyLine(5,xc,yc); fcat4->SetLineColor(1); colo = (int)(10. - cat4 * 8.); fcat4->SetFillColor(colo); fcat4->SetLineWidth(1); fcat4->Draw("f"); fcat4->Draw(); }; }; if ( true ){ // // CAS plane view: // Float_t xofs = -0.025; Float_t yofs = 0.039 +0.081+0.0273; Float_t csy = 0.33/2.; Float_t pmofs = 0.004; Float_t csw2 = 0.008; Float_t xc1[5] = { xofs-csy, xofs-csy, xofs+csy, xofs+csy, xofs-csy}; Float_t yc1[5] = { yofs, yofs+csw2, yofs+csw2, yofs, yofs}; Float_t xc2[5] = { xofs-csy-csw2, xofs-csy-csw2, xofs-csy, xofs-csy, xofs-csy-csw2}; Float_t yc2[5] = { yofs+pmofs, yofs+pmofs+csw2, yofs+pmofs+csw2, yofs+pmofs, yofs+pmofs}; Float_t xc3[5] = { xofs-csy-csw2, xofs-csy-csw2, xofs-csy, xofs-csy, xofs-csy-csw2}; Float_t yc3[5] = { yofs+pmofs, yofs+pmofs-csw2, yofs+pmofs-csw2, yofs+pmofs, yofs+pmofs}; // // CAS1 // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc1[i]*var.sfx; yc[i] = ycat + yc1[i]*var.sfy; }; TPolyLine *pcass1 = new TPolyLine(5,xc,yc); pcass1->SetLineColor(1); colo = 10; if ( cas1 != 0. || cas1b != 0. ) { if ( cas1 > 0 || cas1b > 0 || cas1 ==-.25 || cas1b ==-.25){ colo = cattime; } else { colo = catnoti; }; }; if ( colo != 10 ) pcass1->SetFillStyle(3001); pcass1->SetFillColor(colo); pcass1->SetLineWidth(1); pcass1->SetLineStyle(2); pcass1->Draw("f"); pcass1->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc2[i]*var.sfx; yc[i] = ycat + yc2[i]*var.sfy; }; TPolyLine *pcasp1b = new TPolyLine(5,xc,yc); pcasp1b->SetLineColor(1); colo = (int)(10. - cas1b * 8.); if ( colo != 10 ) pcasp1b->SetFillStyle(3001); pcasp1b->SetFillColor(colo); pcasp1b->SetLineWidth(1); pcasp1b->SetLineStyle(2); pcasp1b->Draw("f"); pcasp1b->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc3[i]*var.sfx; yc[i] = ycat + yc3[i]*var.sfy; }; TPolyLine *pcasp1 = new TPolyLine(5,xc,yc); pcasp1->SetLineColor(1); colo = (int)(10. - cas1 * 8.); if ( colo != 10 ) pcasp1->SetFillStyle(3001); pcasp1->SetFillColor(colo); pcasp1->SetLineWidth(1); pcasp1->SetLineStyle(2); pcasp1->Draw("f"); pcasp1->Draw(); // // CAS2 // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc1[i]*var.sfx; yc[i] = ycat - yc1[i]*var.sfy; }; TPolyLine *pcass2 = new TPolyLine(5,xc,yc); pcass2->SetLineColor(1); colo = 10; if ( cas2 != 0. || cas2b != 0. ) { if ( cas2 > 0 || cas2b > 0 || cas2 ==-.25 || cas2b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; if ( colo != 10 ) pcass2->SetFillStyle(3001); pcass2->SetFillColor(colo); pcass2->SetLineWidth(1); pcass2->SetLineStyle(2); pcass2->Draw("f"); pcass2->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc2[i]*var.sfx; yc[i] = ycat - yc2[i]*var.sfy; }; TPolyLine *pcasp2b = new TPolyLine(5,xc,yc); pcasp2b->SetLineColor(1); colo = (int)(10. - cas2b * 8.); if ( colo != 10 ) pcasp2b->SetFillStyle(3001); pcasp2b->SetFillColor(colo); pcasp2b->SetLineWidth(1); pcasp2b->SetLineStyle(2); pcasp2b->Draw("f"); pcasp2b->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc3[i]*var.sfx; yc[i] = ycat - yc3[i]*var.sfy; }; TPolyLine *pcasp2 = new TPolyLine(5,xc,yc); pcasp2->SetLineColor(1); colo = (int)(10. - cas2 * 8.); pcasp2->SetFillColor(colo); if ( colo != 10 ) pcasp2->SetFillStyle(3001); pcasp2->SetLineWidth(1); pcasp2->SetLineStyle(2); pcasp2->Draw("f"); pcasp2->Draw(); }; if ( true ){ Float_t xofs = 0.048 +0.066+0.0273; Float_t yofs = 0.02; Float_t csy = 0.33/2.; Float_t pmofs = 0.004; Float_t csw2 = 0.008; Float_t xc1[5] = { xofs, xofs+csw2, xofs+csw2, xofs, xofs}; Float_t yc1[5] = { yofs-csy, yofs-csy, yofs+csy, yofs+csy, yofs-csy}; Float_t xc2[5] = { xofs+pmofs, xofs+pmofs+csw2, xofs+pmofs+csw2, xofs+pmofs, xofs+pmofs}; Float_t yc2[5] = { yofs+csy+csw2, yofs+csy+csw2, yofs+csy, yofs+csy, yofs+csy+csw2}; Float_t xc3[5] = { xofs+pmofs, xofs+pmofs-csw2, xofs+pmofs-csw2, xofs+pmofs, xofs+pmofs}; Float_t yc3[5] = { yofs+csy+csw2, yofs+csy+csw2, yofs+csy, yofs+csy, yofs+csy+csw2}; // // CAS3 // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc1[i]*var.sfx; yc[i] = ycat + yc1[i]*var.sfy; }; TPolyLine *pcass3 = new TPolyLine(5,xc,yc); pcass3->SetLineColor(1); colo = 10; if ( cas3 != 0. || cas3b != 0. ) { if ( cas3 > 0 || cas3b > 0 || cas3 ==-.25 || cas3b ==-.25){ colo = cattime; } else { colo = catnoti; }; }; if ( colo != 10 ) pcass3->SetFillStyle(3001); pcass3->SetFillColor(colo); pcass3->SetLineWidth(1); pcass3->SetLineStyle(2); pcass3->Draw("f"); pcass3->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc2[i]*var.sfx; yc[i] = ycat + yc2[i]*var.sfy; }; TPolyLine *pcasp3b = new TPolyLine(5,xc,yc); pcasp3b->SetLineColor(1); colo = (int)(10. - cas3b * 8.); if ( colo != 10 ) pcasp3b->SetFillStyle(3001); pcasp3b->SetFillColor(colo); pcasp3b->SetLineWidth(1); pcasp3b->SetLineStyle(2); pcasp3b->Draw("f"); pcasp3b->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc3[i]*var.sfx; yc[i] = ycat + yc3[i]*var.sfy; }; TPolyLine *pcasp3 = new TPolyLine(5,xc,yc); pcasp3->SetLineColor(1); colo = (int)(10. - cas3 * 8.); pcasp3->SetFillColor(colo); if ( colo != 10 ) pcasp3->SetFillStyle(3001); pcasp3->SetLineWidth(1); pcasp3->SetLineStyle(2); pcasp3->Draw("f"); pcasp3->Draw(); // // CAS4 // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc1[i]*var.sfx; yc[i] = ycat - yc1[i]*var.sfy; }; TPolyLine *pcass4 = new TPolyLine(5,xc,yc); pcass4->SetLineColor(1); colo = 10; if ( cas4 != 0. || cas4b != 0. ) { if ( cas4 > 0 || cas4b > 0 || cas4 ==-.25 || cas4b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; pcass4->SetFillColor(colo); if ( colo != 10 ) pcass4->SetFillStyle(3001); pcass4->SetLineWidth(1); pcass4->SetLineStyle(2); pcass4->Draw("f"); pcass4->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc2[i]*var.sfx; yc[i] = ycat - yc2[i]*var.sfy; }; TPolyLine *pcasp4 = new TPolyLine(5,xc,yc); pcasp4->SetLineColor(1); colo = (int)(10. - cas4 * 8.); pcasp4->SetFillColor(colo); if ( colo != 10 ) pcasp4->SetFillStyle(3001); pcasp4->SetLineWidth(1); pcasp4->SetLineStyle(2); pcasp4->Draw("f"); pcasp4->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc3[i]*var.sfx; yc[i] = ycat - yc3[i]*var.sfy; }; TPolyLine *pcasp4b = new TPolyLine(5,xc,yc); pcasp4b->SetLineColor(1); colo = (int)(10. - cas4b * 8.); pcasp4b->SetFillColor(colo); if ( colo != 10 ) pcasp4b->SetFillStyle(3001); pcasp4b->SetLineWidth(1); pcasp4b->SetLineStyle(2); pcasp4b->Draw("f"); pcasp4b->Draw(); }; Float_t alfa = 1.2020334; Float_t lcrd = 0.1815/2.; Float_t wcrd = 0.008; if ( true ){ // // CARD plane view: // Float_t xc1[5] = { -0.090165, -0.090165, -0.082165, -0.082165, -0.090165}; Float_t yc1[5] = { -0.100, 0.092, 0.092, -0.100, -0.100}; Float_t xc2[5] = { -0.094165, -0.094165, -0.086165, -0.086165, -0.094165}; Float_t yc2[5] = { 0.092, 0.100, 0.100, 0.092, 0.092}; Float_t xc3[5] = { -0.086165, -0.086165, -0.078165, -0.078165, -0.086165}; Float_t yc3[5] = { 0.092, 0.100, 0.100, 0.092, 0.092}; // // CARD1 // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc1[i]*var.sfx; yc[i] = ycat + yc1[i]*var.sfy; }; TPolyLine *pcars1 = new TPolyLine(5,xc,yc); pcars1->SetLineColor(1); colo = 10; if ( card1 != 0. || card1b != 0. ) { if ( card1 > 0 || card1b > 0 || card1 ==-.25 || card1b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; pcars1->SetFillColor(colo); pcars1->SetLineWidth(1); pcars1->Draw("f"); pcars1->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + xc2[i]*var.sfx; yc[i] = ycat + yc2[i]*var.sfy; }; TPolyLine *pcarp1b = new TPolyLine(5,xc,yc); pcarp1b->SetLineColor(1); colo = (int)(10. - card1b * 8.); pcarp1b->SetFillColor(colo); pcarp1b->SetLineWidth(1); pcarp1b->Draw("f"); pcarp1b->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i] = xcat + xc3[i]*var.sfx; yc[i] = ycat + yc3[i]*var.sfy; }; TPolyLine *pcarp1 = new TPolyLine(5,xc,yc); pcarp1->SetLineColor(1); colo = (int)(10. - card1 * 8.); pcarp1->SetFillColor(colo); pcarp1->SetLineWidth(1); pcarp1->Draw("f"); pcarp1->Draw(); // // CARD4 // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc1[i]*var.sfx; yc[i] = ycat - yc1[i]*var.sfy; }; TPolyLine *pcars4 = new TPolyLine(5,xc,yc); pcars4->SetLineColor(1); colo = 10; if ( card4 != 0. || card4b != 0. ) { if ( card4 > 0 || card4b > 0 || card4 ==-.25 || card4b ==-.25){ colo = cattime; } else { colo = catnoti; }; }; pcars4->SetFillColor(colo); pcars4->SetLineWidth(1); pcars4->Draw("f"); pcars4->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc2[i]*var.sfx; yc[i] = ycat - yc2[i]*var.sfy; }; TPolyLine *pcarp4b = new TPolyLine(5,xc,yc); pcarp4b->SetLineColor(1); colo = (int)(10. - card4b * 8.); pcarp4b->SetFillColor(colo); pcarp4b->SetLineWidth(1); pcarp4b->Draw("f"); pcarp4b->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - xc3[i]*var.sfx; yc[i] = ycat - yc3[i]*var.sfy; }; TPolyLine *pcarp4 = new TPolyLine(5,xc,yc); pcarp4->SetLineColor(1); colo = (int)(10. - card4 * 8.); pcarp4->SetFillColor(colo); pcarp4->SetLineWidth(1); pcarp4->Draw("f"); pcarp4->Draw(); }; if ( true ){ Float_t xc1[5] = { -0.074, 0.074, 0.074, -0.074, -0.074}; Float_t yc1[5] = { 0.108165, 0.108165, 0.100165, 0.100165, 0.108165}; Float_t xc2[5] = { 0.074, 0.082, 0.082, 0.074, 0.074}; Float_t yc2[5] = { 0.112165, 0.112165, 0.104165, 0.104165, 0.112165}; Float_t xc3[5] = { 0.074, 0.082, 0.082, 0.074, 0.074}; Float_t yc3[5] = { 0.104165, 0.104165, 0.096165, 0.096165, 0.104165}; // // CARD2 // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - (xc1[i]-0.0025)*var.sfx; yc[i] = ycat - yc1[i]*var.sfy; }; TPolyLine *pcars2 = new TPolyLine(5,xc,yc); pcars2->SetLineColor(1); colo = 10; if ( card2 != 0. || card2b != 0.) { if ( card2 > 0 || card2b > 0 || card2 ==-.25 || card2b ==-.25 ){ colo = cattime; } else { colo = catnoti; }; }; pcars2->SetFillColor(colo); pcars2->SetLineWidth(1); pcars2->Draw("f"); pcars2->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - (xc2[i]-0.0025)*var.sfx; yc[i] = ycat - yc2[i]*var.sfy; }; TPolyLine *pcarp2 = new TPolyLine(5,xc,yc); pcarp2->SetLineColor(1); colo = (int)(10. - card2 * 8.); pcarp2->SetFillColor(colo); pcarp2->SetLineWidth(1); pcarp2->Draw("f"); pcarp2->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat - (xc3[i]-0.0025)*var.sfx; yc[i] = ycat - yc3[i]*var.sfy; }; TPolyLine *pcarp2b = new TPolyLine(5,xc,yc); pcarp2b->SetLineColor(1); colo = (int)(10. - card2b * 8.); pcarp2b->SetFillColor(colo); pcarp2b->SetLineWidth(1); pcarp2b->Draw("f"); pcarp2b->Draw(); // // CARD3 // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + (xc1[i]-0.0025)*var.sfx; yc[i] = ycat + yc1[i]*var.sfy; }; TPolyLine *pcars3 = new TPolyLine(5,xc,yc); pcars3->SetLineColor(1); colo = 10; if ( card3 != 0. || card3b != 0. ) { if ( card3 > 0 || card3b > 0 || card3==-.25 || card3b ==-.25){ colo = cattime; } else { colo = catnoti; }; }; pcars3->SetFillColor(colo); pcars3->SetLineWidth(1); pcars3->Draw("f"); pcars3->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + (xc2[i]-0.0025)*var.sfx; yc[i] = ycat + yc2[i]*var.sfy; }; TPolyLine *pcarp3 = new TPolyLine(5,xc,yc); pcarp3->SetLineColor(1); colo = (int)(10. - card3 * 8.); pcarp3->SetFillColor(colo); pcarp3->SetLineWidth(1); pcarp3->Draw("f"); pcarp3->Draw(); // for (Int_t i = 0; i<5 ; i++) { xc[i]= xcat + (xc3[i]-0.0025)*var.sfx; yc[i] = ycat + yc3[i]*var.sfy; }; TPolyLine *pcarp3b = new TPolyLine(5,xc,yc); pcarp3b->SetLineColor(1); colo = (int)(10. - card3b * 8.); pcarp3b->SetFillColor(colo); pcarp3b->SetLineWidth(1); pcarp3b->Draw("f"); pcarp3b->Draw(); // // CARD - X-view // // Float_t cardcx = 0.143168*var.sfx; //Float_t cardcy = 0.1475*var.sfy; Float_t cardcx = 0.153168*var.sfx; Float_t cardcy = 0.1575*var.sfy; Float_t acrdx[4] = {-lcrd*cos(alfa), lcrd*cos(alfa), -lcrd*cos(alfa)+wcrd*sin(alfa), -lcrd*cos(alfa)}; Float_t acrdy[4] = {-lcrd*sin(alfa), lcrd*sin(alfa), -lcrd*sin(alfa)-wcrd*cos(alfa), -lcrd*sin(alfa)}; Float_t bcrdx[4] = { lcrd*cos(alfa), lcrd*cos(alfa)+wcrd*sin(alfa), -lcrd*cos(alfa)+wcrd*sin(alfa), lcrd*cos(alfa)}; Float_t bcrdy[4] = { lcrd*sin(alfa), lcrd*sin(alfa)-wcrd*cos(alfa), -lcrd*sin(alfa)-wcrd*cos(alfa), lcrd*sin(alfa)}; // // CARD3 X/ Y // Float_t xcc[4]; Float_t ycc[4]; for (Int_t i = 0; i<4 ; i++) { xcc[i] = cardcx + var.xxvc + acrdx[i]*var.sfx; ycc[i] = cardcy + var.yxvc + (0.36 + acrdy[i])*var.sfy; }; TPolyLine *fcard3 = new TPolyLine(4,xcc,ycc); fcard3->SetLineColor(1); colo = (int)(10. - card3 * 8.); fcard3->SetFillColor(colo); fcard3->SetLineWidth(1); fcard3->Draw("f"); fcard3->Draw(); // for (Int_t i = 0; i<4 ; i++) { xcc[i] = cardcx + var.xxvc + bcrdx[i]*var.sfx; ycc[i] = cardcy + var.yxvc + (0.36 + bcrdy[i])*var.sfy; }; TPolyLine *fcard3b = new TPolyLine(4,xcc,ycc); fcard3b->SetLineColor(1); colo = (int)(10. - card3b * 8.); fcard3b->SetFillColor(colo); fcard3b->SetLineWidth(1); fcard3b->Draw("f"); fcard3b->Draw(); // // CARD2 \X Y // for (Int_t i = 0; i<4 ; i++) { xcc[i] = -cardcx + var.xxvc - acrdx[i]*var.sfx; ycc[i] = cardcy + var.yxvc + (0.36 + acrdy[i])*var.sfy; }; TPolyLine *fcard2 = new TPolyLine(4,xcc,ycc); fcard2->SetLineColor(1); colo = (int)(10. - card2 * 8.); fcard2->SetFillColor(colo); fcard2->SetLineWidth(1); fcard2->Draw("f"); fcard2->Draw(); // for (Int_t i = 0; i<4 ; i++) { xcc[i] = -cardcx + var.xxvc - bcrdx[i]*var.sfx; ycc[i] = cardcy + var.yxvc + (0.36 + bcrdy[i])*var.sfy; }; TPolyLine *fcard2b = new TPolyLine(4,xcc,ycc); fcard2b->SetLineColor(1); colo = (int)(10. - card2b * 8.); fcard2b->SetFillColor(colo); fcard2b->SetLineWidth(1); fcard2b->Draw("f"); fcard2b->Draw(); }; if ( true ){ Float_t acrdx[4] = {-lcrd*cos(alfa), lcrd*cos(alfa), -lcrd*cos(alfa)+wcrd*sin(alfa), -lcrd*cos(alfa)}; Float_t acrdy[4] = {-lcrd*sin(alfa), lcrd*sin(alfa), -lcrd*sin(alfa)-wcrd*cos(alfa), -lcrd*sin(alfa)}; Float_t bcrdx[4] = { lcrd*cos(alfa), lcrd*cos(alfa)+wcrd*sin(alfa), -lcrd*cos(alfa)+wcrd*sin(alfa), lcrd*cos(alfa)}; Float_t bcrdy[4] = { lcrd*sin(alfa), lcrd*sin(alfa)-wcrd*cos(alfa), -lcrd*sin(alfa)-wcrd*cos(alfa), lcrd*sin(alfa)}; // // CARD - Y-view // Float_t cardcx = 0.12*var.sfx; Float_t cardcy = 0.1475*var.sfy; // // CARD4 X Y/ // Float_t xcc[4]; Float_t ycc[4]; for (Int_t i = 0; i<4 ; i++) { xcc[i] = cardcx + var.xyvc + acrdx[i]*var.sfx; ycc[i] = cardcy + var.yyvc + (0.36 + acrdy[i])*var.sfy; }; TPolyLine *fcard4 = new TPolyLine(4,xcc,ycc); fcard4->SetLineColor(1); colo = (int)(10. - card4 * 8.); fcard4->SetFillColor(colo); fcard4->SetLineWidth(1); fcard4->Draw("f"); fcard4->Draw(); // for (Int_t i = 0; i<4 ; i++) { xcc[i] = cardcx + var.xyvc + bcrdx[i]*var.sfx; ycc[i] = cardcy + var.yyvc + (0.36 + bcrdy[i])*var.sfy; }; TPolyLine *fcard4b = new TPolyLine(4,xcc,ycc); fcard4b->SetLineColor(1); colo = (int)(10. - card4b * 8.); fcard4b->SetFillColor(colo); fcard4b->SetLineWidth(1); fcard4b->Draw("f"); fcard4b->Draw(); // // CARD1 X \Y // for (Int_t i = 0; i<4 ; i++) { xcc[i] = -cardcx + var.xyvc - acrdx[i]*var.sfx; ycc[i] = cardcy + var.yyvc + (0.36 + acrdy[i])*var.sfy; }; TPolyLine *fcard1 = new TPolyLine(4,xcc,ycc); fcard1->SetLineColor(1); colo = (int)(10. - card1 * 8.); fcard1->SetFillColor(colo); fcard1->SetLineWidth(1); fcard1->Draw("f"); fcard1->Draw(); // for (Int_t i = 0; i<4 ; i++) { xcc[i] = -cardcx + var.xyvc - bcrdx[i]*var.sfx; ycc[i] = cardcy + var.yyvc + (0.36 + bcrdy[i])*var.sfy; }; TPolyLine *fcard1b = new TPolyLine(4,xcc,ycc); fcard1b->SetLineColor(1); colo = (int)(10. - card1b * 8.); fcard1b->SetFillColor(colo); fcard1b->SetLineWidth(1); fcard1b->Draw("f"); fcard1b->Draw(); }; } void FEVdetector::ShowS4(Bool_t upd){ // // // if ( !var.S4 ) return; // Float_t calibdata; Int_t data = 0; Float_t ms4[3] = {0.,0.,0.}; Int_t S4 = 0; // // Level0 data // if ( level.file == 0 ){ S4 = trigger->patterntrig[1]; // for ( Int_t i = 0; i<3; i++ ) { if ( S4 & (1<<0) ) ms4[i] = 1.; }; }; // // Rough calibration of data // if ( level.file == -1 ){ if ( !s4->unpackError && data > 31 ){ data = s4->S4_DATA; calibdata = ((Float_t)data - 32.) * 0.5; } else { calibdata = 0.; }; // for ( Int_t j = 0; j<3; j++ ) { ms4[j] = calibdata; }; }; // // Level2 data // if ( level.file == 2 ){ for ( Int_t j = 0; j<3; j++ ) { if ( L2->GetS4Level2()->S4adc != 32. ) ms4[j] = L2->GetS4Level2()->S4calibrated; }; }; // var.s4sig = ms4[0]; // if ( !upd ) return; // Int_t colo; Float_t xs4x = var.xxvc; Float_t ys4x = var.yxvc - 0.3250*var.sfy; Float_t xs4y = var.xyvc; Float_t ys4y = var.yyvc - 0.3250*var.sfy; Float_t ws4 = 0.010; // // Y-view // Float_t s4p = 0.1606667; Int_t ocolo = 0; TPolyLine *fs4y[3]; for ( Int_t j=0; j<3; j++){ Float_t xc1[5]={ (s4p*j), s4p*(j+1), s4p*(j+1), (s4p*j), (s4p*j)}; Float_t yc1[5]={ 0., 0., ws4, ws4, 0.}; Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xs4y + (-0.241+xc1[i])*var.nds4; yc[i] = ys4y + (yc1[i]-0.03)*var.sfy; }; fs4y[j] = new TPolyLine(5,xc,yc); fs4y[j]->SetLineColor(1); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(ms4[j],colo); // if ( colo != 10 ) ocolo = colo; // fs4y[j]->SetFillColor(colo); fs4y[j]->SetLineWidth(1); fs4y[j]->Draw("f"); fs4y[j]->Draw(); }; // // X-view // Float_t xc1[5]={ -0.241, 0.241, 0.241, -0.241, -0.241}; Float_t yc1[5]={ 0., 0., ws4, ws4, 0.}; Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= xs4x + xc1[i]*var.nds4; yc[i] = ys4x + (yc1[i]-0.03)*var.sfy; }; TPolyLine *fs4x = new TPolyLine(5,xc,yc); fs4x->SetLineColor(1); fs4x->SetFillColor(ocolo); fs4x->SetLineWidth(1); fs4x->Draw("f"); fs4x->Draw(); } void FEVdetector::ShowND(){ // // // if ( !var.ND ) return; // Int_t tmpSize; Int_t yUpperTrig = 0; Int_t yUpperBk = 0; Int_t yBottomBk = 0; if ( level.file == 0 || level.file == -1 ){ // tmpSize = ne->Records->GetEntries(); for (Int_t j = 0; j < tmpSize; j++){ nr = (pamela::neutron::NeutronRecord*)ne->Records->At(j); yUpperTrig += (int)nr->trigPhysics; yUpperBk += (int)nr->upperBack; yBottomBk += (int)nr->bottomBack; }; }; if ( level.file == 2 ){ yUpperTrig = (Int_t)L2->GetNDLevel2()->trigPhysics; yUpperBk = (Int_t)L2->GetNDLevel2()->upperBack; yBottomBk = (Int_t)L2->GetNDLevel2()->bottomBack; }; // var.trup = yUpperTrig; var.bkup = yUpperBk; var.bkbo = yBottomBk; // Int_t ucolo = 10; if ( var.bw ){ if ( yUpperTrig == 1 ){ ucolo = 17; } if ( yUpperTrig == 2 ){ ucolo = 15; } if ( yUpperTrig > 2 && yUpperTrig < 7 ){ ucolo = 14; } if ( yUpperTrig > 6 && yUpperTrig < 15 ){ ucolo = 13; } if ( yUpperTrig >= 14 ){ ucolo = 12; }; } else { if ( yUpperTrig == 1 ){ ucolo = 38; } if ( yUpperTrig == 2 ){ ucolo = 4; } if ( yUpperTrig > 2 && yUpperTrig < 7 ){ ucolo = 3; } if ( yUpperTrig > 6 && yUpperTrig < 15 ){ ucolo = 2; } if ( yUpperTrig >= 14 ){ ucolo = 6; }; }; // // figures: // if ( true ){ Float_t xc1[5]={ -0.300, 0.300, 0.300, -0.300, -0.300 }; Float_t yc1[5]={ -0.47-0.04, -0.47-0.04, -0.47+2.*0.075-0.04, -0.47+2.*0.075-0.04, -0.47-0.04}; // // Upper X-view // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= var.xxvc + xc1[i]*var.nds4; yc[i] = var.yxvc + yc1[i]*var.sfy; }; TPolyLine *fnd2x = new TPolyLine(5,xc,yc); fnd2x->SetLineColor(1); fnd2x->SetFillColor(ucolo); fnd2x->SetLineWidth(1); fnd2x->Draw("f"); fnd2x->Draw(); }; if ( true ){ Float_t xc1[5]={ -0.275, 0.275, 0.275, -0.275, -0.275 }; Float_t yc1[5]={ -0.47-0.04-0.075, -0.47-0.04-0.075, -0.47+0.075-0.04, -0.47+0.075-0.04, -0.47-0.04-0.075}; // // Upper Y-view // Float_t xc[5]; Float_t yc[5]; for (Int_t i = 0; i<5 ; i++) { xc[i]= var.xyvc + xc1[i]*var.nds4; yc[i] = var.yyvc + (yc1[i]+0.075)*var.sfy; }; TPolyLine *fnd2y = new TPolyLine(5,xc,yc); fnd2y->SetLineColor(1); fnd2y->SetFillColor(ucolo); fnd2y->SetLineWidth(1); fnd2y->Draw("f"); fnd2y->Draw(); }; } void FEVdetector::ShowTRK(Bool_t upd){ // // // if ( !var.TRK ) return; // // a matrix of pads for each view x and y // var.rig = 0.; var.chi2 = 0.; TPad *trkpad[12]; for (Int_t n = 0; n<12; n++){ stringstream spd; spd.str(""); spd << "pd1" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); spd << "pd2" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); spd << "pd3" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); spd << "pd4" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); spd << "pd5" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); spd << "pd6" << n; gDirectory->Delete(spd.str().c_str()); spd.str(""); stringstream sbd; sbd.str(""); Int_t magcol = 0; TPad *mag1 = 0; TPad *mag2 = 0; if ( n%2 ) { Float_t posx = var.xxvc; Float_t posy = var.yxvc + (0.29 - 0.089*((n/2.)-1.))*var.sfy; spd.str(""); sbd.str(""); spd << "pd1" << n; sbd << "bd1" << n; trkpad[n] = new TPad(spd.str().c_str(),sbd.str().c_str(),posx-0.081*var.sfx,posy,posx+0.081*var.sfx,posy+0.089*var.sfy,10); trkpad[n]->SetFillStyle(4000); trkpad[n]->SetFillColor(0); trkpad[n]->SetFrameFillStyle(4000); if ( upd ) trkpad[n]->Draw(); if ( n != 1 ) { if ( var.bw ) { magcol = 1; } else { magcol = 45; }; spd.str(""); sbd.str(""); spd << "pd2" << n; sbd << "bd2" << n; mag1 = new TPad(spd.str().c_str(),sbd.str().c_str(),posx-(0.039+0.081)*var.sfx,posy+0.004*var.sfy,posx-0.081*var.sfx,posy+0.088*var.sfy,magcol); if ( var.bw ) mag1->SetFillStyle(3001); if ( upd ) mag1->Draw(); spd.str(""); sbd.str(""); spd << "pd3" << n; sbd << "bd3" << n; mag2 = new TPad(spd.str().c_str(),sbd.str().c_str(),posx+0.081*var.sfx,posy+0.004*var.sfy,posx+(0.081+0.039)*var.sfx,posy+0.088*var.sfy,magcol); if ( var.bw ) mag2->SetFillStyle(3001); if ( upd ) mag2->Draw(); }; } else { Float_t posx = var.xyvc; Float_t posy = var.yyvc + (0.29 - 0.089 * (((n+1.)/2.)-1.))*var.sfy; spd.str(""); sbd.str(""); spd << "pd4" << n; sbd << "bd4" << n; trkpad[n] = new TPad(spd.str().c_str(),sbd.str().c_str(),posx-0.07*var.sfx,posy,posx+0.07*var.sfx,posy+0.089*var.sfy,10); trkpad[n]->SetFillStyle(4000); trkpad[n]->SetFillColor(0); trkpad[n]->SetFrameFillStyle(4000); if ( upd ) trkpad[n]->Draw(); if ( n != 0 ) { if ( var.bw ) { magcol = 1; } else { magcol = 45; }; spd.str(""); sbd.str(""); spd << "pd5" << n; sbd << "bd5" << n; mag1 = new TPad(spd.str().c_str(),sbd.str().c_str(),posx-(0.048+0.066)*var.sfx,posy+0.004*var.sfy,posx-0.066*var.sfx,posy+0.088*var.sfy,magcol); if ( var.bw ) mag1->SetFillStyle(3001); if ( upd ) mag1->Draw(); spd.str(""); sbd.str(""); spd << "pd6" << n; sbd << "bd6" << n; mag2 = new TPad(spd.str().c_str(),sbd.str().c_str(),posx+0.066*var.sfx,posy+0.004*var.sfy,posx+(0.066+0.048)*var.sfx,posy+0.088*var.sfy,magcol); if ( var.bw ) mag2->SetFillStyle(3001); if ( upd ) mag2->Draw(); }; }; }; TPad *trplv; gDirectory->Delete("trkplv"); trplv = new TPad("trkplv","trkplv",var.xcat-0.066*var.sfx,var.ycat-0.081*var.sfy,var.xcat+0.066*var.sfx,var.ycat+0.081*var.sfy,10); trplv->SetFillStyle(4000); trplv->SetFillColor(0); trplv->SetFrameFillStyle(4000); if ( upd ) trplv->Draw(); // Int_t sigcol1 = 17; Int_t sigcol2 = 15; Int_t linecol = 13; if ( var.bw ) { sigcol1 = 17; sigcol2 = 15; linecol = 13; } else { sigcol1 = 32; sigcol2 = 38; linecol = 42; }; TLine *linea = 0; TLine *linea1x = 0; TLine *linea2x = 0; TLine *linea1y = 0; Float_t x = 0.; for (Int_t l = 0; l<12; l++){ trkpad[l]->cd(); if ( l%2 ) { if ( level.file == 2 ){ trkpad[l]->Range(-8.1,0.,8.1,8.); linea = new TLine(-8.1,0.01,8.1,0.01); linea1x = new TLine(-2.7,0.01,-2.7,0.030); linea2x = new TLine(2.7,0.01,2.7,0.030); } else { trkpad[l]->Range(0.,0.,3100.,1.); linea = new TLine(0.,0.01,3100.,0.01); linea1x = new TLine(1033.,0.01,1033,0.030); linea2x = new TLine(2066.,0.01,2066,0.030); }; } else { if ( level.file == 2 ){ trkpad[l]->Range(-7.05,0.,7.05,8.); linea = new TLine(-7.05,0.01,7.05,0.01); linea1y = new TLine(0.,0.01,0.,0.030); } else { trkpad[l]->Range(0.,0.,2076.,1.); linea = new TLine(0.,0.01,2076.,0.01); linea1y = new TLine(1038.,0.01,1038,0.030); }; }; linea->SetLineWidth(2); linea->SetLineColor(linecol); if ( upd ) linea->Draw(); if ( l%2 ) { linea1x->SetLineWidth(1); linea1x->SetLineColor(1); if ( upd ) linea1x->Draw(); linea2x->SetLineWidth(1); linea2x->SetLineColor(1); if ( upd ) linea2x->Draw(); } else { linea1y->SetLineWidth(1); linea1y->SetLineColor(1); if ( upd ) linea1y->Draw(); }; // // LEVEL0 or LEVEL-1 // if ( level.file == 0 || level.file == -1 ){ Int_t planeno = trk->DSPnumber[l]-1; if ( planeno < 0 || planeno > 11 ) planeno = 0; if ( planeno >= 0 && !var.nosig ) { if ( (planeno+1)%2 ){ trkpad[planeno]->cd(); trkpad[planeno]->Range(0.,0.,2076.,1.); for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[l][m] != 0. ){ if ( planeno == 10 ) { x = 1024 - trk->addrcluster[l][m]; } else { x = trk->addrcluster[l][m]; }; linea = new TLine(14.+x,0.01,14.+x,0.3); linea->SetLineWidth(2); linea->SetLineColor(sigcol1); if ( upd ) linea->Draw(); x += 1024.; linea = new TLine(14.+x,0.01,14.+x,0.3); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); if ( upd ) linea->Draw(); var.ncly++; }; }; } else { trkpad[planeno]->cd(); trkpad[planeno]->Range(0.,0.,3100.,1.); for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[l][m] != 0. ){ x = trk->addrcluster[l][m] + 1024. * m; linea = new TLine(14.+x,0.01,14.+x,0.3); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); if ( upd ) linea->Draw(); var.nclx++; }; }; }; }; }; // if ( !upd ) return; // if ( level.file == 2 ){ // // singlets X // for (Int_t sing = 0; sing < L2->GetTrkLevel2()->nclsx(); sing++){ TClonesArray &t = *(L2->GetTrkLevel2()->SingletX); TrkSinglet *singlet = (TrkSinglet*)t[sing]; x = (singlet->coord[0]+singlet->coord[1])/2.; // Float_t xsig = singlet->sgnl; if ( xsig > 8. ) xsig = 8.; // Int_t planepad = (singlet->plane * 2) - 1; trkpad[planepad]->cd(); trkpad[planepad]->Range(-8.1,0.,8.1,8.); if ( var.bw ){ sigcol2 = -1; } else { sigcol2 = 1; }; ColorTRKMIP(singlet->sgnl,sigcol2,0); linea = new TLine(x,0.01,x,xsig); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); linea->Draw(); }; // // singlets Y // for (Int_t sing = 0; sing < L2->GetTrkLevel2()->nclsy(); sing++){ TClonesArray &t = *(L2->GetTrkLevel2()->SingletY); TrkSinglet *singlet = (TrkSinglet*)t[sing]; // Int_t planepad = (singlet->plane - 1)* 2; trkpad[planepad]->cd(); trkpad[planepad]->Range(-7.05,0.,7.05,8.); for (Int_t img=0; img<2; img++){ x = singlet->coord[img]; Float_t xsig = singlet->sgnl; if ( xsig > 8. ) xsig = 8.; // if ( var.bw ){ sigcol2 = -1; } else { sigcol2 = 1; }; Int_t coloimg = img; // // last Y plane is reversed! // if ( planepad == 10 ){ if ( img ){ coloimg = 0; } else { coloimg = 1; }; }; ColorTRKMIP(singlet->sgnl,sigcol2,coloimg); linea = new TLine(x,0.01,x,xsig); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); linea->Draw(); }; }; // // Measured point relative to tracks and tracks // + dots on measured points // Int_t dcol; if ( var.bw ){ dcol = 12; } else { dcol = 2; }; // if ( L2->GetTrkLevel2()->GetNTracks() > 0 ){ for (Int_t nt = 0; nt < L2->GetTrkLevel2()->GetNTracks(); nt++){ TrkTrack *track = L2->GetTrkLevel2()->GetTrack(nt); if ( nt == 0 ){ var.rig = 0.; if ( track->al[4] != 0. ) var.rig = 1./track->al[4]; var.chi2 = track->chi2; }; for (Int_t plane = 0; plane<6; plane++){ // // X view // Int_t planepad = (plane * 2) + 1; trkpad[planepad]->cd(); trkpad[planepad]->Range(-8.1,0.,8.1,8.); // x = track->xm[plane]; Float_t xsig = track->dedx_x[plane]; if ( track->xgood[plane] ){ //if ( x > -100 ){ if ( xsig > 8. ) xsig = 8.; if ( var.bw ){ sigcol2 = -1; } else { sigcol2 = 1; }; ColorTRKMIP(track->dedx_x[plane],sigcol2,0); linea = new TLine(x,0.01,x,xsig); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); linea->Draw(); Float_t tx[5] = {x-0.3, x+0.3, x+0.3, x-0.3, x-0.3}; Float_t tz[5] = {0., 0., 0.5, 0.5, 0.}; TPolyLine *tlinea = new TPolyLine(5,tx,tz); tlinea->SetLineWidth(1); tlinea->SetLineColor(dcol); tlinea->SetFillColor(dcol); tlinea->Draw("f"); tlinea->Draw(); }; // // Y view // planepad = plane * 2; trkpad[planepad]->cd(); trkpad[planepad]->Range(-7.05,0.,7.05,8.); x = track->ym[plane]; xsig = track->dedx_y[plane]; if ( track->ygood[plane] ){ // if ( x > -100 ){ if ( xsig > 8. ) xsig = 8.; if ( var.bw ){ sigcol2 = -1; } else { sigcol2 = 1; }; ColorTRKMIP(track->dedx_y[plane],sigcol2,0); linea = new TLine(x,0.01,x,xsig); linea->SetLineWidth(2); linea->SetLineColor(sigcol2); linea->Draw(); Float_t tx[5] = {x-0.3, x+0.3, x+0.3, x-0.3, x-0.3}; Float_t tz[5] = {0., 0., 0.5, 0.5, 0.}; TPolyLine *tlinea = new TPolyLine(5,tx,tz); tlinea->SetLineColor(dcol); tlinea->SetFillColor(dcol); tlinea->SetLineWidth(1); tlinea->Draw("f"); tlinea->Draw(); }; }; };// loop on tracks }; }; // }; // // Show track in the plane view! // if ( var.AC ){ Float_t xh[6]; Float_t yh1[6]; Float_t yh2[6]; Float_t mag[6]; for (Int_t l = 0; l<6; l++ ){ xh[l] = 0.; yh1[l] = 0.; yh2[l] = 0.; mag[l] = 0.; }; Int_t ncro = 0; // // LEVEL2 // if ( level.file == 2 ){ // // first of all plot crosses relatives to tracks // if ( L2->GetTrkLevel2()->GetNTracks() > 0 ){ for (Int_t nt = 0; nt < L2->GetTrkLevel2()->GetNTracks(); nt++){ TrkTrack *track = L2->GetTrkLevel2()->GetTrack(nt); for (Int_t plane = 0; plane<6; plane++){ // x = track->xm[plane]; Float_t y = track->ym[plane]; Float_t xsig = track->dedx_x[plane]; Float_t ysig = track->dedx_y[plane]; // if ( x > -100 && y > -100. ){ if ( track->xgood[plane] && track->ygood[plane] ){ if ( var.bw ){ sigcol1 = -1; sigcol2 = -1; } else { sigcol1 = 1; sigcol2 = 1; }; ColorTRKMIP(xsig,sigcol1,0); ColorTRKMIP(ysig,sigcol2,0); // // Draw crosses // trplv->cd(); trplv->Range(-7.05,-8.1,7.05,8.1); // Float_t mg = ((float)plane+1.)/5.; Float_t cdx = (0.55/mg)*var.sfx; Float_t cdy = (0.55/mg)*var.sfy; Float_t lwx = (0.019)*var.sfy; Float_t lwy = (0.019)*var.sfx; // linea = new TLine(y-lwx/2.,x-cdy,y-lwx/2.,x+cdy); linea->SetLineWidth(1); linea->SetLineColor(sigcol1); linea->Draw(); linea = new TLine(y-cdx,x-lwy/2.,y+cdx,x-lwy/2.); linea->SetLineWidth(1); linea->SetLineColor(sigcol2); linea->Draw(); // }; }; }; }; // // try to plot crosses relative to singlets // if ( L2->GetTrkLevel2()->nclsx() > 0 && L2->GetTrkLevel2()->nclsy() > 0 ){ for (Int_t plane = 1; plane<7; plane++){ // // count how many singlet in the x and y view for this plane: // Int_t totsx = 0; Int_t totsy = 0; TArrayI *orderx = new TArrayI(5000); TArrayI *ordery = new TArrayI(5000); TArrayF *arrax = new TArrayF(5000); TArrayF *array1 = new TArrayF(5000); TArrayF *array2 = new TArrayF(5000); TArrayF *sigarrax = new TArrayF(5000); TArrayF *sigarray = new TArrayF(5000); for (Int_t sing = 0; sing < L2->GetTrkLevel2()->nclsx(); sing++){ TClonesArray &t = *(L2->GetTrkLevel2()->SingletX); TrkSinglet *singlet = (TrkSinglet*)t[sing]; if ( singlet->plane == plane ){ arrax->AddAt(((singlet->coord[0]+singlet->coord[1])/2.),totsx); sigarrax->AddAt(singlet->sgnl,totsx); if ( totsx == 0 || ( totsx > 0 && singlet->sgnl < sigarrax->At(orderx->At(totsx-1))) ){ orderx->AddAt(totsx,totsx); } else { for (Int_t ord = totsx-1; ord >= 0; ord--){ if ( singlet->sgnl < sigarrax->At(orderx->At(ord)) || ord == 0){ if ( singlet->sgnl < sigarrax->At(orderx->At(ord)) ){ for (Int_t reord = totsx; reord>(ord+1); reord--){ orderx->AddAt(orderx->At(reord-1),reord); }; orderx->AddAt(totsx,ord+1); break; } else { for (Int_t reord = totsx; reord>0; reord--){ orderx->AddAt(orderx->At(reord-1),reord); }; orderx->AddAt(totsx,0); break; }; }; }; }; totsx++; }; }; for (Int_t sing = 0; sing < L2->GetTrkLevel2()->nclsy(); sing++){ TClonesArray &t = *(L2->GetTrkLevel2()->SingletY); TrkSinglet *singlet = (TrkSinglet*)t[sing]; if ( singlet->plane == plane ){ array1->AddAt(singlet->coord[0],totsy); array2->AddAt(singlet->coord[1],totsy); sigarray->AddAt(singlet->sgnl,totsy); if ( totsy == 0 || ( totsy > 0 && singlet->sgnl < sigarray->At(ordery->At(totsy-1))) ){ ordery->AddAt(totsy,totsy); } else { for (Int_t ord = totsy-1; ord >= 0; ord--){ if ( singlet->sgnl < sigarray->At(ordery->At(ord)) || ord == 0){ if ( singlet->sgnl < sigarray->At(ordery->At(ord)) ){ for (Int_t reord = totsy; reord>(ord+1); reord--){ ordery->AddAt(ordery->At(reord-1),reord); }; ordery->AddAt(totsy,ord+1); break; } else { for (Int_t reord = totsy; reord>0; reord--){ ordery->AddAt(ordery->At(reord-1),reord); }; ordery->AddAt(totsy,0); break; }; }; }; }; totsy++; }; }; // if ( totsx && totsy ){ for (Int_t sing = 0; sing < min(totsx,totsy); sing++){ // x = arrax->At(orderx->At(sing)); Float_t y1 = array1->At(ordery->At(sing)); Float_t y2 = array2->At(ordery->At(sing)); Float_t xsig = sigarrax->At(orderx->At(sing)); Float_t ysig = sigarray->At(ordery->At(sing)); if ( x > -100 && y1 > -100. ){ if ( var.bw ){ sigcol1 = -1; sigcol2 = -1; } else { sigcol1 = 1; sigcol2 = 1; }; Int_t img = 0; if ( plane == 6 ) img = 1; ColorTRKMIP(xsig,sigcol1,img); ColorTRKMIP(ysig,sigcol2,img); // // Draw crosses // trplv->cd(); trplv->Range(-7.05,-8.1,7.05,8.1); // Float_t mg = ((float)plane)/5.; Float_t cdx = (0.55/mg)*var.sfx; Float_t cdy = (0.55/mg)*var.sfy; Float_t lwx = (0.019)*var.sfy; Float_t lwy = (0.019)*var.sfx; // linea = new TLine(y1-lwx/2.,x-cdy,y1-lwx/2.,x+cdy); linea->SetLineWidth(1); linea->SetLineColor(sigcol1); linea->Draw(); linea = new TLine(y1-cdx,x-lwy/2.,y1+cdx,x-lwy/2.); linea->SetLineWidth(1); linea->SetLineColor(sigcol2); linea->Draw(); // }; if ( x > -100 && y2 > -100. ){ if ( var.bw ){ sigcol1 = -1; sigcol2 = -1; } else { sigcol1 = 1; sigcol2 = 1; }; Int_t img = 1; if ( plane == 6 ) img = 0; ColorTRKMIP(xsig,sigcol1,img); ColorTRKMIP(ysig,sigcol2,img); // // Draw crosses // trplv->cd(); trplv->Range(-7.05,-8.1,7.05,8.1); // Float_t mg = ((float)plane)/5.; Float_t cdx = (0.55/mg)*var.sfx; Float_t cdy = (0.55/mg)*var.sfy; Float_t lwx = (0.019)*var.sfy; Float_t lwy = (0.019)*var.sfx; // linea = new TLine(y2-lwx/2.,x-cdy,y2-lwx/2.,x+cdy); linea->SetLineWidth(1); linea->SetLineColor(sigcol1); linea->Draw(); linea = new TLine(y2-cdx,x-lwy/2.,y2+cdx,x-lwy/2.); linea->SetLineWidth(1); linea->SetLineColor(sigcol2); linea->Draw(); }; }; }; }; }; }; // // LEVEL0 or LEVEL-1 // if ( level.file == 0 || level.file == -1 ){ for (Int_t l = 0; l<12; l++ ){ Float_t xsig = 0.; Float_t ysig = 0.; Int_t planeno = trk->DSPnumber[l]-1; for (Int_t e = 0; e<12;e++){ Int_t planeno2 = trk->DSPnumber[e]-1; if ( planeno == planeno2-1 ){ if ( planeno < 0 || planeno > 11 ) planeno = 0; if ( planeno >= 0 && !var.nosig ) { mag[ncro] = ((float)planeno+1.)/5.; if ( (planeno+1)%2 ){ for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[l][m] != 0. ){ if ( planeno == 10 ) { x = 1024 - trk->addrcluster[l][m]; } else { x = trk->addrcluster[l][m]; }; x += 1024.; if ( trk->signcluster[l][m]> ysig ){ ysig = trk->signcluster[l][m]; yh1[ncro] = x-1024.; yh2[ncro] = x; }; }; }; for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[e][m] != 0. ){ x = trk->addrcluster[e][m] + 1024. * m; if ( trk->signcluster[e][m]> xsig ){ xsig = trk->signcluster[e][m]; xh[ncro] = x; }; }; }; } else { for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[l][m] != 0. ){ x = trk->addrcluster[l][m] + 1024. * m; if ( trk->signcluster[l][m]> xsig ){ xsig = trk->signcluster[l][m]; xh[ncro] = x; }; }; }; if ( (planeno+1)%2 ){ for (Int_t m = 0; m<3; m++){ if ( trk->signcluster[e][m] != 0. ){ if ( planeno == 10 ) { x = 1024 - trk->addrcluster[e][m]; } else { x = trk->addrcluster[e][m]; }; x += 1024.; if ( trk->signcluster[e][m]> ysig ){ ysig = trk->signcluster[e][m]; yh1[ncro] = x-1024.; yh2[ncro] = x; }; }; }; }; }; if ( ysig > 0. && xsig > 0. ) { ncro++; }; }; }; }; }; // // Draw crosses // if ( ncro && var.AC ) { trplv->cd(); trplv->Range(0.,0.,2076.,3100.); for ( Int_t i = 0; iSetLineWidth((int)lwx); linea->SetLineColor(sigcol1); linea->Draw(); linea = new TLine(yh1[i]-cdx,xh[i]-lwy/2.,yh1[i]+cdx,xh[i]-lwy/2.); linea->SetLineWidth((int)lwy); linea->SetLineColor(sigcol1); linea->Draw(); // linea = new TLine(yh2[i]-lwx/2.,xh[i]-cdy,yh2[i]-lwx/2.,xh[i]+cdy); linea->SetLineWidth((int)lwx); linea->SetLineColor(sigcol2); linea->Draw(); linea = new TLine(yh2[i]-cdy,xh[i]-lwy/2.,yh2[i]+cdx,xh[i]-lwy/2.); linea->SetLineWidth((int)lwy); linea->SetLineColor(sigcol2); linea->Draw(); }; }; }; }; } void FEVdetector::ShowTrack(){ // // // if ( var.CALO && false ){ if ( L2->GetCaloLevel2()->npcfit[0] > 0 && L2->GetCaloLevel2()->npcfit[1] > 0 ){ Float_t calx[22]; Float_t caly[22]; Float_t calzx[22]; Float_t calzy[22]; Float_t zpiano[22]; zpiano[0] = (CTZ+118.)*var.sfy/1000.; for (Int_t plane = 1; plane < 22; plane++){ if ( !(plane%2) ){ zpiano[plane] = zpiano[plane-1] - 8.09*var.sfy/1000.; }else { zpiano[plane] = zpiano[plane-1] - 10.09*var.sfy/1000.; }; }; for (Int_t plane = 0; plane < 22; plane++){ calx[plane] = (L2->GetCaloLevel2()->cbar[plane][0]/100.)*var.sfx + var.xxvc;; caly[plane] = (L2->GetCaloLevel2()->cbar[plane][1]/100.)*var.sfx + var.xyvc; // calzx[plane] = zpiano[plane] -5.81*var.sfy/1000. + var.yxvc; calzx[plane] = zpiano[plane] + var.yxvc; calzy[plane] = zpiano[plane] + var.yyvc; // printf(" calx %f caly %f calzx %f calzy %f \n",calx[plane],caly[plane],calzx[plane],calzy[plane]); }; // // Calorimeter track // Int_t trcol = 30; if ( var.bw ){ trcol = 14; } else { trcol = 44; }; thefigure->cd(); TPolyLine *trakx = new TPolyLine(22,calx,calzx); trakx->SetLineColor(trcol); if ( L2->GetCaloLevel2()->fitmode[0] == 1 ) trakx->SetLineStyle(3); if ( L2->GetCaloLevel2()->fitmode[0] == 2 ) trakx->SetLineStyle(4); trakx->SetLineWidth(2); trakx->Draw(); TPolyLine *traky = new TPolyLine(22,caly,calzy); traky->SetLineColor(trcol); if ( L2->GetCaloLevel2()->fitmode[1] == 1 ) traky->SetLineStyle(3); if ( L2->GetCaloLevel2()->fitmode[1] == 2 ) traky->SetLineStyle(4); traky->SetLineWidth(2); traky->Draw(); }; if ( L2->GetCaloLevel2()->npcfit[2] > 0 ){ Float_t calx[22]; Float_t caly[22]; Float_t calzx[22]; Float_t calzy[22]; Float_t zpiano[22]; zpiano[0] = (CTZ+118.)*var.sfy/1000.; for (Int_t plane = 1; plane < 22; plane++){ if ( !(plane%2) ){ zpiano[plane] = zpiano[plane-1] - 8.09*var.sfy/1000.; }else { zpiano[plane] = zpiano[plane-1] - 10.09*var.sfy/1000.; }; }; // // CaloTrkVar *ctra = L2->GetCaloStoredTrack(-1); // for (Int_t plane = 0; plane < 22; plane++){ calx[plane] = (ctra->tbar[plane][0]/100.)*var.sfx + var.xxvc;; caly[plane] = (ctra->tbar[plane][1]/100.)*var.sfx + var.xyvc; // calzx[plane] = zpiano[plane] -5.81*var.sfy/1000. + var.yxvc; calzx[plane] = zpiano[plane] + var.yxvc; calzy[plane] = zpiano[plane] + var.yyvc; // printf(" calx %f caly %f calzx %f calzy %f \n",calx[plane],caly[plane],calzx[plane],calzy[plane]); }; // // Calorimeter track // Int_t trcol = 30; if ( var.bw ){ trcol = 16; } else { trcol = 46; }; thefigure->cd(); TPolyLine *trakx = new TPolyLine(22,calx,calzx); trakx->SetLineColor(trcol); trakx->SetLineStyle(3); trakx->SetLineWidth(2); trakx->Draw(); TPolyLine *traky = new TPolyLine(22,caly,calzy); traky->SetLineColor(trcol); traky->SetLineStyle(3); traky->SetLineWidth(2); traky->Draw(); }; }; // if ( !var.TRK || level.file != 2 ) return; // if ( L2->GetTrkLevel2()->GetNTracks() > 0 ){ for (Int_t nt = 0; nt < L2->GetTrkLevel2()->GetNTracks(); nt++){ TrkTrack *track = L2->GetTrkLevel2()->GetTrack(nt); Int_t npoint = 100; Float_t zin[100]; Double_t xout[100]; Double_t yout[100]; Int_t ifail = 0; Int_t trcol = 10; // Float_t tx[100]; Float_t ty[100]; Float_t ptx1[50]; Float_t pty1[50]; Float_t ptx2[50]; Float_t pty2[50]; Float_t tx1[15]; Float_t ty1[15]; Float_t tzx[100]; Float_t tzy[100]; Float_t tzx1[15]; Float_t tzy1[15]; // for ( Int_t e = 0; e < 100 ; e++) { xout[e] = 0.; yout[e] = 0.; // tx[e] = 0.; ty[e] = 0.; tzx[e] = 0.; tzy[e] = 0.; if ( e < 50 ){ ptx1[e] = 0.; pty1[e] = 0.; ptx2[e] = 0.; pty2[e] = 0.; if ( e < 15 ){ tx1[e] = 0.; ty1[e] = 0.; tzx1[e] = 0.; tzy1[e] = 0.; }; }; // zin[e] = 60. - (124./99.)*(float)e; }; // zin[85] = -45.5; // Trajectory *tr = new Trajectory(npoint,zin); // ifail = track->DoTrack2(tr); // if ( !ifail ){ for ( Int_t e = 0; e < npoint ; e++) { tx[e] = ((float)tr->x[e]/100.)*var.sfx + var.xxvc; ty[e] = ((float)tr->y[e]/100.)*var.sfx + var.xyvc; if ( e < 50 ) { ptx1[e] = ((float)tr->y[e]/100.)*var.sfx + var.xcat; pty1[e] = ((float)tr->x[e]/100.)*var.sfy + var.ycat; } else { ptx2[e-50] = ((float)tr->y[e]/100.)*var.sfx + var.xcat; pty2[e-50] = ((float)tr->x[e]/100.)*var.sfy + var.ycat; }; if ( e > 84 ) { tx1[e-85] = ((float)tr->x[e]/100.)*var.nds4 + var.xxvc; ty1[e-85] = ((float)tr->y[e]/100.)*var.nds4 + var.xyvc; tzx1[e-85] = (0.112)*var.sfy+((float)zin[e]/100.)*var.sfy + var.yxvc; tzy1[e-85] = (0.112)*var.sfy+((float)zin[e]/100.)*var.sfy + var.yyvc; }; tzx[e] = (0.112)*var.sfy+((float)zin[e]/100.)*var.sfy + var.yxvc; tzy[e] = (0.112)*var.sfy+((float)zin[e]/100.)*var.sfy + var.yyvc; // printf("tx[e] %f ty [e] %f tzx %f tzy %f \n",tx[e],ty[e],tzx[e],tzy[e]); }; // // From S1 to CALO // if ( var.bw ){ trcol = 17-nt; } else { trcol = 50-nt; }; thefigure->cd(); TPolyLine *trackx = new TPolyLine(86,tx,tzx); trackx->SetLineColor(trcol); trackx->SetLineWidth(1); trackx->Draw(); TPolyLine *tracky = new TPolyLine(86,ty,tzy); tracky->SetLineColor(trcol); tracky->SetLineWidth(1); tracky->Draw(); // // ND and S4 // if ( var.tracknds4 ){ TPolyLine *trackx1 = new TPolyLine(15,tx1,tzx1); trackx1->SetLineColor(trcol); trackx1->SetLineWidth(1); trackx1->Draw(); TPolyLine *tracky1 = new TPolyLine(15,ty1,tzy1); tracky1->SetLineColor(trcol); tracky1->SetLineWidth(1); tracky1->Draw(); }; // // Plane View // if ( var.AC ){ TPolyLine *trackp1 = new TPolyLine(50,ptx1,pty1); trackp1->SetLineColor(trcol); trackp1->SetLineWidth(1); trackp1->Draw(); TPolyLine *trackp2 = new TPolyLine(50,ptx2,pty2); trackp2->SetLineColor(trcol); trackp2->SetLineWidth(1); trackp2->SetLineStyle(3); trackp2->Draw(); }; } else { pamgui->DIALOG(1," Failed in determining the track! "); printf(" WARNING: failed in determining the track! \n"); }; }; }; } void FEVdetector::ShowCalo(Bool_t upd){ // // // if ( !var.CALO ) return; // var.qtot = 0; var.nstrip = 0; // if ( level.file == 0 ){ // // Book the histograms: // // stringstream delex; delex.str(""); delex << "x-view event " << (thisentry+1); stringstream deley; deley.str(""); deley << "y-view event " << (thisentry+1); gDirectory->Delete(delex.str().c_str()); gDirectory->Delete(deley.str().c_str()); TH2F *Xview = new TH2F(delex.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); TH2F *Yview = new TH2F(deley.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Xview->GetYaxis()->SetLabelColor(10); Yview->GetYaxis()->SetLabelColor(10); // // figures: // Int_t bgcolor = 10; TPad *pd1 = new TPad("calox","This is pad1",var.xxvc-0.154*var.sfx,var.yxvc-0.3645*var.sfy,var.xxvc+0.154*var.sfx,var.yxvc-0.1200*var.sfy,bgcolor); TPad *pd2 = new TPad("caloy","This is pad2",var.xyvc-0.154*var.sfx,var.yyvc-0.3645*var.sfy,var.xyvc+0.154*var.sfx,var.yyvc-0.1200*var.sfy,bgcolor); pd1->SetFillStyle(4000); pd1->SetFillColor(0); pd1->SetFrameFillStyle(4000); pd2->SetFillStyle(4000); pd2->SetFillColor(0); pd2->SetFrameFillStyle(4000); TLatex *t=new TLatex(); t->SetTextFont(32); t->SetTextColor(1); t->SetTextSize(0.03); t->SetTextAlign(12); pd1->Range(0.,0.,1.,1.); pd2->Range(0.,0.,1.,1.); pd1->SetTicks(); pd2->SetTicks(); pd1->Draw(); pd2->Draw(); pd1->cd(); gStyle->SetOptStat(0); Xview->GetYaxis()->SetTitleOffset(0.5); Xview->SetFillColor(bgcolor); Xview->Fill(1.,1.,1.); Xview->Draw("box"); pd1->Update(); pd2->cd(); gStyle->SetOptStat(0); Yview->GetYaxis()->SetTitleOffset(0.5); Yview->SetFillColor(bgcolor); Yview->Fill(1.,1.,1.); Yview->Draw("box"); pd2->Update(); // // run over views and planes // stringstream xevent; stringstream yevent; Float_t sdexy[2][22][96]; Float_t sdexyc[2][22][96]; // for (Int_t m = 0; m < 22; m++){ for (Int_t l = 0; l < 2; l++){ // // determine the section number // Int_t se = 5; if ( !l && m%2 == 0 ) se = 3; if ( !l && m%2 != 0 ) se = 2; if ( l && m%2 == 0 ) se = 1; if ( l && m%2 != 0 ) se = 0; // // determine what kind of event we are going to analyze // bool isCOMP = 0; bool isFULL = 0; bool isRAW = 0; if ( de->stwerr[se] & (1 << 16) ) isCOMP = 1; if ( de->stwerr[se] & (1 << 17) ) isFULL = 1; if ( de->stwerr[se] & (1 << 3) ) isRAW = 1; // // save the prevoius energy deposit and calibration in sbase, sdexy, sdexyc // Int_t pre = -1; if ( isRAW ){ for (Int_t nn = 0; nn < 96; nn++){ if ( nn%16 == 0 ) pre++; evento.base[l][m][pre] = calib.calbase[l][m][pre]; sdexy[l][m][nn] = evento.dexy[l][m][nn]; evento.dexy[l][m][nn] = de->dexy[l][m][nn] ; sdexyc[l][m][nn] = evento.dexy[l][m][nn]; evento.dexyc[l][m][nn] = de->dexy[l][m][nn] ; }; }; // // run over strips // Int_t done = 0; Int_t rdone = 0; Int_t fdone = 0; pre = -1; for (Int_t n =0 ; n < 96; n++){ if ( n%16 == 0 ) { pre++; done = 0; rdone = 0; fdone = 0; }; // // baseline check and calculation // if ( isRAW ) { // // if it is a raw event and we haven't checked yet, calculate the baseline. Then check that the baseline is fine, // if not calculate it with relaxed algorithm. // if ( !rdone ){ CaloFindBaseRaw(l,m,pre); rdone = 1; }; // // no suitable new baseline, use old ones // if ( !done && (evento.base[l][m][pre] == 31000. || evento.base[l][m][pre] == 0.) ){ evento.base[l][m][pre] = calib.sbase[l][m][pre]; Int_t upnn = n+16; if ( upnn > 96 ) upnn = 96; for ( Int_t nn = n; nndexy[l][m][nn] ; }; done = 1; }; if ( !fdone ){ CaloCompressData(l,m,pre); fdone = 1; }; }; // if ( de->dexyc[l][m][n] > 0. || ( isRAW && evento.dexyc[l][m][n] > 0. )){ xevent.str(""); yevent.str(""); xevent << "x-view event " << n; xevent << " " << m; xevent << " " << l; yevent << "y-view event " << n; yevent << " " << m; yevent << " " << l; gDirectory->Delete(xevent.str().c_str()); gDirectory->Delete(yevent.str().c_str()); TH2F *Xview = new TH2F(xevent.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); TH2F *Yview = new TH2F(yevent.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Int_t colo; if ( var.bw ){ colo = 17; } else { colo = 38; }; Xview->SetFillColor(colo); Yview->SetFillColor(colo); if ( l == 0 ) { Xview->Fill(n,21-m,1.); pd1->cd(); Xview->Draw("box same"); }; if ( l == 1 ) { Yview->Fill(n,21-m,1.); pd2->cd(); Yview->Draw("box same"); }; }; }; }; }; pd1->Update(); pd2->Update(); var.qtot=0; var.nstrip=0; }; // if ( level.file == -1 ){ Float_t qtot; Int_t nstrip; // // Define variables // Int_t etime = var.etime; Float_t estrip[2][22][96], ener, basel,sdexy[2][22][96],sdexyc[2][22][96]; Int_t badstrip = 0; qtot = 0.; nstrip = 0; // // Book the histograms: // // stringstream xvev; stringstream yvev; xvev.str(""); yvev.str(""); xvev << "x-view event " << (thisentry+1); yvev << "y-view event " << (thisentry+1); gDirectory->Delete(xvev.str().c_str()); gDirectory->Delete(yvev.str().c_str()); TH2F *Xview = new TH2F(xvev.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); TH2F *Yview = new TH2F(yvev.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Xview->GetYaxis()->SetLabelColor(10); Yview->GetYaxis()->SetLabelColor(10); // // figures: // Int_t bgcolor = 10; gDirectory->Delete("caloy"); gDirectory->Delete("calox"); TPad *pd1 = new TPad("calox","This is pad1",var.xxvc-0.154*var.sfx,var.yxvc-0.3645*var.sfy,var.xxvc+0.154*var.sfx,var.yxvc-0.1200*var.sfy,bgcolor); TPad *pd2 = new TPad("caloy","This is pad2",var.xyvc-0.154*var.sfx,var.yyvc-0.3645*var.sfy,var.xyvc+0.154*var.sfx,var.yyvc-0.1200*var.sfy,bgcolor); if ( upd ){ pd1->SetFillStyle(4000); pd1->SetFillColor(0); pd1->SetFrameFillStyle(4000); pd2->SetFillStyle(4000); pd2->SetFillColor(0); pd2->SetFrameFillStyle(4000); TLatex *t=new TLatex(); t->SetTextFont(32); t->SetTextColor(1); t->SetTextSize(0.03); t->SetTextAlign(12); pd1->Range(0.,0.,1.,1.); pd2->Range(0.,0.,1.,1.); pd1->SetTicks(); pd2->SetTicks(); pd1->Draw(); pd2->Draw(); pd1->cd(); gStyle->SetOptStat(0); Xview->GetYaxis()->SetTitleOffset(0.5); Xview->SetFillColor(bgcolor); Xview->Fill(1.,1.,1.); Xview->Draw("box"); pd1->Update(); pd2->cd(); gStyle->SetOptStat(0); Yview->GetYaxis()->SetTitleOffset(0.5); Yview->SetFillColor(bgcolor); Yview->Fill(1.,1.,1.); Yview->Draw("box"); pd2->Update(); }; // // for each event check that the calibration we are using are still within calibration limits, if not call the next calibration // for (Int_t s = 0; s < 4; s++){ if ( calib.ttime[s][b[s]+1] && calib.time[s][b[s]] ){ while ( etime > calib.time[s][b[s]] && calib.time[s][b[s]] != 0 ){ printf(" CALORIMETER: \n" ); printf(" - Section %i, event at time %i while old calibration time limit at %i. Use new calibration at time %i -\n",s,etime,calib.time[s][b[s]],calib.ttime[s][b[s]+1]); printf(" END CALORIMETER. \n\n" ); b[s]++; CaloPede(s); }; }; }; // // run over views and planes // stringstream xve; stringstream yve; for (Int_t l = 0; l < 2; l++){ for (Int_t m = 0; m < 22; m++){ // // determine the section number // Int_t se = 5; if (l == 0 && m%2 == 0) se = 3; if (l == 0 && m%2 != 0) se = 2; if (l == 1 && m%2 == 0) se = 1; if (l == 1 && m%2 != 0) se = 0; // // determine what kind of event we are going to analyze // bool isCOMP = 0; bool isFULL = 0; bool isRAW = 0; if ( de->stwerr[se] & (1 << 16) ) isCOMP = 1; if ( de->stwerr[se] & (1 << 17) ) isFULL = 1; if ( de->stwerr[se] & (1 << 3) ) isRAW = 1; // // save the prevoius energy deposit and calibration in sbase, sdexy, sdexyc // Int_t pre = -1; if ( isRAW ){ for (Int_t nn = 0; nn < 96; nn++){ if ( nn%16 == 0 ) pre++; evento.base[l][m][pre] = calib.calbase[l][m][pre]; sdexy[l][m][nn] = evento.dexy[l][m][nn]; evento.dexy[l][m][nn] = de->dexy[l][m][nn] ; sdexyc[l][m][nn] = evento.dexy[l][m][nn]; evento.dexyc[l][m][nn] = de->dexy[l][m][nn] ; }; }; // // run over strips // Int_t done = 0; Int_t rdone = 0; Int_t fdone = 0; pre = -1; for (Int_t n =0 ; n < 96; n++){ if ( n%16 == 0 ) { pre++; done = 0; rdone = 0; fdone = 0; }; // // baseline check and calculation // if ( !isRAW ) { // // if it isn't raw and we haven't checked yet, check that the baseline is fine, if not calculate it with a relaxed algorithm. // if ( !done ){ evento.base[l][m][pre] = de->base[l][m][pre] ; evento.dexyc[l][m][n] = de->dexyc[l][m][n] ; }; } else { // // if it is a raw event and we haven't checked yet, calculate the baseline. Then check that the baseline is fine, // if not calculate it with relaxed algorithm. // if ( !rdone ){ CaloFindBaseRaw(l,m,pre); rdone = 1; }; }; // // no suitable new baseline, use old ones // if ( !done && (evento.base[l][m][pre] == 31000. || evento.base[l][m][pre] == 0.) ){ evento.base[l][m][pre] = calib.sbase[l][m][pre]; Int_t upnn = n+16; if ( upnn > 96 ) upnn = 96; for ( Int_t nn = n; nndexyc[l][m][nn] ; } else { evento.dexyc[l][m][nn] = de->dexy[l][m][nn] ; }; }; CaloCompressData(l,m,pre); done = 1; }; // // CALIBRATION ALGORITHM // basel = evento.base[l][m][pre]; ener = evento.dexyc[l][m][n]; estrip[l][m][n] = 0.; if ( basel>0 && basel < 30000. && ener > 0. ){ estrip[l][m][n] = (ener - calib.calped[l][m][n] - basel)/mip[l][m][n] ; // // OK, now in estrip we have the energy deposit in MIP of all the strips for this event (at the end of loops of course) // if ( upd ){ xve.str(""); yve.str(""); xve << "x-view event " << n; xve << " " << m; xve << " " << l; yve << "y-view event " << n; yve << " " << m; yve << " " << l; gDirectory->Delete(xve.str().c_str()); gDirectory->Delete(yve.str().c_str()); TH2F *Xview = new TH2F(xve.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); TH2F *Yview = new TH2F(yve.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); if ( estrip[l][m][n] > 0.7 && !var.nosig ){ Int_t colo; if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(estrip[l][m][n],colo); Xview->SetFillColor(colo); Yview->SetFillColor(colo); if ( l == 0 ) { Xview->Fill(n,21-m,1.); pd1->cd(); Xview->Draw("box same"); }; if ( l == 1 ) { Yview->Fill(n,21-m,1.); pd2->cd(); Yview->Draw("box same"); }; }; }; if ( estrip[l][m][n] > 0.7 && calib.calgood[l][m][n] != 0 ) badstrip++; if ( estrip[l][m][n] > 0.7 && calib.calgood[l][m][n] == 0 ) { qtot += estrip[l][m][n]; nstrip++; }; }; calib.sbase[l][m][pre] = evento.base[l][m][pre]; }; }; }; if ( upd ){ pd1->Update(); pd2->Update(); }; var.qtot=(int)qtot; var.nstrip=nstrip; }; // if ( level.file == 2 ){ // // Book the histograms: // // stringstream xview; stringstream yview; xview.str(""); yview.str(""); xview << "x-view event " << (thisentry+1); yview << "y-view event " << (thisentry+1); gDirectory->Delete(xview.str().c_str()); gDirectory->Delete(yview.str().c_str()); TH2F *Xview = new TH2F(xview.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); TH2F *Yview = new TH2F(yview.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Xview->GetYaxis()->SetLabelColor(10); Yview->GetYaxis()->SetLabelColor(10); // // figures: // Int_t bgcolor = 10; TPad *pd1 = new TPad("calox","This is pad1",var.xxvc-0.154*var.sfx,var.yxvc-0.3645*var.sfy,var.xxvc+0.154*var.sfx,var.yxvc-0.1200*var.sfy,bgcolor); TPad *pd2 = new TPad("caloy","This is pad2",var.xyvc-0.154*var.sfx,var.yyvc-0.3645*var.sfy,var.xyvc+0.154*var.sfx,var.yyvc-0.1200*var.sfy,bgcolor); pd1->SetFillStyle(4000); pd1->SetFillColor(0); pd1->SetFrameFillStyle(4000); pd2->SetFillStyle(4000); pd2->SetFillColor(0); pd2->SetFrameFillStyle(4000); TLatex *t=new TLatex(); t->SetTextFont(32); t->SetTextColor(1); t->SetTextSize(0.03); t->SetTextAlign(12); pd1->Range(0.,0.,1.,1.); pd2->Range(0.,0.,1.,1.); pd1->SetTicks(); pd2->SetTicks(); pd1->Draw(); pd2->Draw(); pd1->cd(); gStyle->SetOptStat(0); Xview->GetYaxis()->SetTitleOffset(0.5); Xview->SetFillColor(bgcolor); Xview->Fill(1.,1.,1.); Xview->Draw("box"); pd1->Update(); pd2->cd(); gStyle->SetOptStat(0); Yview->GetYaxis()->SetTitleOffset(0.5); Yview->SetFillColor(bgcolor); Yview->Fill(1.,1.,1.); Yview->Draw("box"); pd2->Update(); // // run over views and planes // stringstream xvev; stringstream yvev; for (Int_t ii = 0; ii < L2->GetCaloLevel2()->nstrip; ii++){ Int_t colo; Int_t l; Int_t m; Int_t n; Float_t mip = L2->GetCaloLevel1()->DecodeEstrip(ii,l,m,n); if ( var.bw ){ colo = -1; } else { colo = 1; }; ColorMIP(mip,colo); if ( l == 0 ) { xvev.str(""); xvev << "x-view event " << n; xvev << " " << m; xvev << " " << l; gDirectory->Delete(xvev.str().c_str()); TH2F *Xview = new TH2F(xvev.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Xview->SetFillColor(colo); Xview->Fill(n,21-m,1.); pd1->cd(); Xview->Draw("box same"); }; if ( l == 1 ) { yvev.str(""); yvev << "y-view event " << n; yvev << " " << m; yvev << " " << l; gDirectory->Delete(yvev.str().c_str()); TH2F *Yview = new TH2F(yvev.str().c_str(),"",96,-0.5,95.5,22,-0.5,21.5); Yview->SetFillColor(colo); Yview->Fill(n,21-m,1.); pd2->cd(); Yview->Draw("box same"); }; }; pd1->Update(); pd2->Update(); var.qtot=(int)L2->GetCaloLevel2()->qtot; var.nstrip=(int)L2->GetCaloLevel2()->nstrip; }; } void FEVdetector::Calo1stcalib(){ Float_t estrip[2][22][96]; // // this is the value of the mip for each strip. To be changed when we will have the real values // for (Int_t s=0; s<4;s++){ for (Int_t d = 0; d<50; d++){ calib.ttime[s][d] = 0 ; if ( d < 49 ) calib.time[s][d] = 0 ; }; }; defcalib = false; // retry: // for (Int_t m = 0; m < 2 ; m++ ){ for (Int_t k = 0; k < 22; k++ ){ for (Int_t l = 0; l < 96; l++ ){ calib.calped[m][k][l] = 0. ; estrip[m][k][l] = 0.; }; }; } // // first of all find the calibrations in the file // OLDCaloFindCalibs(); // // print on the screen the results: // printf(" ---------------------------------------------------------- \n \n"); Int_t calibex = 0; for (Int_t s=0; s<4;s++){ Int_t stop = 0; for (Int_t d = 0; d<48; d++){ if ( calib.ttime[s][d] != 0 ) calibex++; if ( calib.time[s][0] != 0 ){ if ( d == 0 ) printf(" Section %i from time 0 to time %i use calibration at time %i \n",s,calib.time[s][d],calib.ttime[s][d]); if ( calib.time[s][d+1] != 0 ) { printf(" Section %i from time %i to time %i use calibration at time %i \n",s,calib.time[s][d],calib.time[s][d+1],calib.ttime[s][d+1]); } else { if ( !stop ){ printf(" Section %i from time %i use calibration at time %i \n",s,calib.time[s][d],calib.ttime[s][d+1]); stop = 1; }; }; } else { if ( calib.ttime[s][d] != 0 ) printf(" Section %i from time 0 use calibration at time %i \n",s,calib.ttime[s][d]); }; }; printf("\n"); }; printf(" ---------------------------------------------------------- \n"); if ( calibex < 1 ) { printf("No full calibration data in this file\n"); printf(" Using default calibration \n"); defcalib = true; goto retry; }; // // calibrate before starting // for (Int_t s = 0; s < 4; s++){ b[s]=0; CaloPede(s); }; } int FEVdetector::OLDCaloFindCalibs(){ for (Int_t s = 0; s < 4; s++){ for (Int_t d = 1; d<50; d++){ calib.ttime[s][d] = 0; if ( d < 49 ) calib.time[s][d] = 0; }; }; TString calibfile; if ( defcalib ){ const char *pam_calib = pathtocalibration(); stringstream calfile; calfile.str(""); calfile << pam_calib << "/cal-param/FCaloDefaultCalib.root"; calibfile = calfile.str().c_str(); } else { calibfile = var.thefilename; }; if ( !existfile(calibfile) ) return(1); // printf(" Using for calibrations file %s \n",calibfile.Data()); // TFile *File = new TFile(calibfile.Data()); TTree *tr = (TTree*)File->Get("CalibCalPed"); pamela::CalibCalPedEvent *ce = 0; pamela::PscuHeader *cph = 0; pamela::EventHeader *ceh = 0; tr->SetBranchAddress("Header", &ceh); tr->SetBranchAddress("CalibCalPed", &ce); Long64_t ncalibs = tr->GetEntries(); Int_t inter; for (Int_t s = 0; s < 4; s++){ for (Int_t d = 1; d<50; d++){ calib.ttime[s][d] = 0; if ( d < 49 ) calib.time[s][d] = 0; }; }; for (Int_t s = 0; s < 4; s++){ inter = 0; for (Int_t c = 0; c < ncalibs; c++){ tr->GetEntry(c); cph = ceh->GetPscuHeader(); calib.ttime[s][inter] = 0; if ( ce->cstwerr[s] != 0 && ce->cperror[s] == 0 ) { //calib.ttime[s][inter] = cph->GetOrbitalTime(); calib.ttime[s][inter] = cph->OrbitalTime; inter++; } else { if ( ce->cstwerr[s] != 0 && ce->cperror[s] != 0 ) { printf(" ERROR: entry %i stwerr %X perror %f \n",c,ce->cstwerr[s],ce->cperror[s]); }; }; }; if ( inter == 0 ){ printf(" ERROR: no suitable calibration for section %i in this file!\n",s); }; for (Int_t d = 1; d<50; d++){ if ( calib.ttime[s][d] != 0 ) { calib.time[s][d-1] = calib.ttime[s][d-1] + (int)((calib.ttime[s][d] - calib.ttime[s][d-1])/2.); } else { if ( d == 1 ) { calib.time[s][d-1] = 0; }; }; }; }; File->Close(); return(0); } int FEVdetector::CaloPede(Int_t s){ // UInt_t atime = calib.ttime[s][b[s]]; TString calibfile; if ( defcalib ){ const char *pam_calib = pathtocalibration(); stringstream calfile; calfile.str(""); calfile << pam_calib << "/cal-param/FCaloDefaultCalib.root"; calibfile = calfile.str().c_str(); } else { calibfile = var.thefilename; }; if ( !existfile(calibfile) ) return(3); // TFile *File = new TFile(calibfile.Data()); TTree *tr = (TTree*)File->Get("CalibCalPed"); // pamela::CalibCalPedEvent *ce = 0; pamela::PscuHeader *cph = 0; pamela::EventHeader *ceh = 0; tr->SetBranchAddress("Header", &ceh); tr->SetBranchAddress("CalibCalPed", &ce); // Long64_t ncalibs = tr->GetEntries(); for (Int_t ci = 0; ci < ncalibs ; ci++){ tr->GetEntry(ci); cph = ceh->GetPscuHeader(); //if ( atime == cph->GetOrbitalTime()){ if ( atime == cph->OrbitalTime){ // calib.iev = ce->iev; if (ce->cstwerr[s] != 0 && ce->cperror[s] == 0 ) { for ( Int_t d=0 ; d<11 ;d++ ){ Int_t pre = -1; for ( Int_t j=0; j<96 ;j++){ if ( j%16 == 0 ) pre++; if ( s == 2 ){ calib.calped[0][2*d+1][j] = ce->calped[3][d][j]; calib.cstwerr[3] = ce->cstwerr[3]; calib.cperror[3] = ce->cperror[3]; calib.calgood[0][2*d+1][j] = ce->calgood[3][d][j]; calib.calthr[0][2*d+1][pre] = ce->calthr[3][d][pre]; calib.calrms[0][2*d+1][j] = ce->calrms[3][d][j]; calib.calbase[0][2*d+1][pre] = ce->calbase[3][d][pre]; calib.calvar[0][2*d+1][pre] = ce->calvar[3][d][pre]; }; if ( s == 3 ){ calib.calped[0][2*d][j] = ce->calped[1][d][j]; calib.cstwerr[1] = ce->cstwerr[1]; calib.cperror[1] = ce->cperror[1]; calib.calgood[0][2*d][j] = ce->calgood[1][d][j]; calib.calthr[0][2*d][pre] = ce->calthr[1][d][pre]; calib.calrms[0][2*d][j] = ce->calrms[1][d][j]; calib.calbase[0][2*d][pre] = ce->calbase[1][d][pre]; calib.calvar[0][2*d][pre] = ce->calvar[1][d][pre]; }; if ( s == 0 ){ calib.calped[1][2*d][j] = ce->calped[0][d][j]; calib.cstwerr[0] = ce->cstwerr[0]; calib.cperror[0] = ce->cperror[0]; calib.calgood[1][2*d][j] = ce->calgood[0][d][j]; calib.calthr[1][2*d][pre] = ce->calthr[0][d][pre]; calib.calrms[1][2*d][j] = ce->calrms[0][d][j]; calib.calbase[1][2*d][pre] = ce->calbase[0][d][pre]; calib.calvar[1][2*d][pre] = ce->calvar[0][d][pre]; }; if ( s == 1 ){ calib.calped[1][2*d+1][j] = ce->calped[2][d][j]; calib.cstwerr[2] = ce->cstwerr[2]; calib.cperror[2] = ce->cperror[2]; calib.calgood[1][2*d+1][j] = ce->calgood[2][d][j]; calib.calthr[1][2*d+1][pre] = ce->calthr[2][d][pre]; calib.calrms[1][2*d+1][j] = ce->calrms[2][d][j]; calib.calbase[1][2*d+1][pre] = ce->calbase[2][d][pre]; calib.calvar[1][2*d+1][pre] = ce->calvar[2][d][pre]; }; }; }; }; }; }; File->Close(); return(0); } void FEVdetector::CaloFindBaseRaw(Int_t l, Int_t m, Int_t pre){ Float_t minstrip = 100000.; Float_t rms = 0.; evento.base[l][m][pre] = 0.; for (Int_t e = pre*16; e < (pre+1)*16 ; e++){ if ( calib.calgood[l][m][e] == 0. && evento.dexy[l][m][e]-calib.calped[l][m][e] < minstrip && evento.dexy[l][m][e] > 0.) { minstrip = evento.dexy[l][m][e]-calib.calped[l][m][e]; rms = calib.calthr[l][m][pre]; }; }; if ( minstrip != 100000. ) { Float_t strip6s = 0.; for (Int_t e = pre*16; e < (pre+1)*16 ; e++){ if ( (evento.dexy[l][m][e]-calib.calped[l][m][e]) >= minstrip && (evento.dexy[l][m][e]-calib.calped[l][m][e]) <= (minstrip+rms) ) { strip6s += 1.; evento.base[l][m][pre] += (evento.dexy[l][m][e] - calib.calped[l][m][e]); }; // // compression // if ( abs((int)(evento.dexy[l][m][e]-calib.calped[l][m][e])) <= (minstrip+rms) ) { evento.dexyc[l][m][e] = 0.; } else { evento.dexyc[l][m][e] = evento.dexy[l][m][e]; }; }; if ( strip6s >= 9. ){ Double_t arro = evento.base[l][m][pre]/strip6s; Float_t deci = 1000.*((float)arro - float(int(arro))); if ( deci < 500. ) { arro = double(int(arro)); } else { arro = 1. + double(int(arro)); }; evento.base[l][m][pre] = arro; } else { evento.base[l][m][pre] = 31000.; for (Int_t e = pre*16; e < (pre+1)*16 ; e++){ evento.dexyc[l][m][e] = evento.dexy[l][m][e]; }; }; } else { evento.base[l][m][pre] = 31000.; }; } void FEVdetector::CaloCompressData(Int_t l, Int_t m, Int_t pre){ Float_t minstrip = 100000.; Float_t rms = 0.; for (Int_t e = pre*16; e < (pre+1)*16 ; e++){ if ( calib.calgood[l][m][e] == 0. && evento.dexyc[l][m][e]-calib.calped[l][m][e] < minstrip && evento.dexyc[l][m][e] > 0.) { minstrip = evento.dexyc[l][m][e]-calib.calped[l][m][e]; rms = calib.calthr[l][m][pre]; }; }; // // compression // if ( minstrip < evento.base[l][m][pre] && minstrip != 100000.){ for (Int_t e = pre*16; e < (pre+1)*16 ; e++){ if ( evento.dexyc[l][m][e]-calib.calped[l][m][e] <= (minstrip+rms) ) evento.dexyc[l][m][e] = 0.; }; }; }