void ana_digi(Int_t nEvents = 100000, Int_t calMode=0, Int_t calSel=-1, Int_t calSm=300, Int_t RefSel=1, char *cFileId="MbsTrbThu1715", Int_t iCalSet=901900921, Bool_t bOut=0, Int_t iSel2=0, Bool_t bAvWalk=kTRUE) { Int_t iVerbose = 1; //Specify log level (INFO, DEBUG, DEBUG1, ...) //TString logLevel = "FATAL"; //TString logLevel = "ERROR"; TString logLevel = "INFO"; //TString logLevel = "DEBUG"; //TString logLevel = "DEBUG1"; //TString logLevel = "DEBUG2"; //TString logLevel = "DEBUG3"; FairLogger* log; TString workDir = gSystem->Getenv("VMCWORKDIR"); TString paramDir = workDir + "/macro/tof/beamtime/lab16"; TString ParFile = paramDir + "/unpack_" + cFileId + ".params.root"; TString InputFile = paramDir + "/unpack_" + cFileId + ".out.root"; TString OutputFile = paramDir + "/digi_" + cFileId + Form("_%09d_%03d",iCalSet,iSel2) + ".out.root"; TList *parFileList = new TList(); TObjString mapParFile = paramDir + "/parMapLab16.txt"; parFileList->Add(&mapParFile); TString FId=cFileId; TString TofGeo="v15d"; if( FId.Contains("CernSps02Mar") || FId.Contains("CernSps03Mar") ){ TofGeo="v15b"; } if(FId.Contains("CernSps28Feb")){ TofGeo="v15a"; } cout << "Geometry version "<Add(&tofDigiFile); // TObjString tofDigiBdfFile = paramDir + "/tof." + FPar + "digibdf.par"; TObjString tofDigiBdfFile = workDir + "/parameters/tof/tof_" + TofGeo +".digibdf.par"; parFileList->Add(&tofDigiBdfFile); TString geoDir = gSystem->Getenv("VMCWORKDIR"); TString geoFile = geoDir + "/geometry/tof/geofile_tof_" + TofGeo + ".root"; TFile* fgeo = new TFile(geoFile); TGeoManager *geoMan = (TGeoManager*) fgeo->Get("FAIRGeom"); if (NULL == geoMan){ cout << " FAIRGeom not found in geoFile"<GetTopVolume(); master->SetVisContainers(1); master->Draw("ogl"); } /* ************************************************************************** Reconstruction Run ************************************************************************** */ FairRunAna *run= new FairRunAna(); run->SetInputFile(InputFile.Data()); //run->AddFriend(InputFile.Data()); run->SetOutputFile(OutputFile); gLogger->SetLogScreenLevel(logLevel.Data()); /* ************************************************************************** Mapping ************************************************************************** */ TMbsMappingTof* tofMapping = new TMbsMappingTof("Tof Mapping", iVerbose); //run->AddTask(tofMapping); /* ************************************************************************** TOF TestBeam Clusterizer ************************************************************************** */ CbmTofTestBeamClusterizer* tofTestBeamClust = new CbmTofTestBeamClusterizer("TOF TestBeam Clusterizer",iVerbose, bOut); tofTestBeamClust->SetCalMode(calMode); tofTestBeamClust->SetCalSel(calSel); tofTestBeamClust->SetCaldXdYMax(6.); // geometrical matching window in cm tofTestBeamClust->SetCalCluMulMax(2.); // Max Counter Cluster Multiplicity for filling calib histos tofTestBeamClust->SetCalRpc(calSm); // select detector for calibration update tofTestBeamClust->SetTRefId(RefSel); // reference trigger for offset calculation tofTestBeamClust->SetTotMax(10000.); // Tot upper limit for walk corection tofTestBeamClust->SetTotMin(1.); //(12000.); // Tot lower limit for walk correction tofTestBeamClust->SetTotPreRange(5000.); // effective lower Tot limit in ps from peak position tofTestBeamClust->SetTotMean(2000.); // Tot calibration target value in ps tofTestBeamClust->SetMaxTimeDist(600.); // default cluster range in ps //tofTestBeamClust->SetMaxTimeDist(0.); //Deb// default cluster range in ps tofTestBeamClust->SetDelTofMax(3000.); // maximum time difference from BRef to Selector tofTestBeamClust->SetEnableMatchPosScaling(kFALSE); // disable projective geometry Ansatz tofTestBeamClust->SetEnableAvWalk(bAvWalk); // average over all channels for each RPC tofTestBeamClust->SetBeamRefMulMax(2); Int_t calSelRead = calSel; if (calSel<0) calSelRead=0; TString cFname=Form("%s_set%09d_%02d_%01dtofTestBeamClust.hst.root",cFileId,iCalSet,calMode,calSelRead); tofTestBeamClust->SetCalParFileName(cFname); TString cOutFname=Form("tofTestBeamClust_%s_set%09d.hst.root",cFileId,iCalSet); tofTestBeamClust->SetOutHstFileName(cOutFname); TString cAnaFile=Form("%s_%09d%03d_tofAnaTestBeam.hst.root",cFileId,iCalSet,iSel2); /* ************************************************************************** calMode: is a 2-digit number, 1st digit shows cuts applied and 2nd digit shows type of correction applied. 1 : Walk Correction 2 : Position alignment and gain correction at detector level 3 : Position alignment and gain correction at strip level 4 : Velocity corrections ***************************************************************************/ switch (calMode) { case 0: // initial calibration tofTestBeamClust->SetTotMax(100000.); // 100 ns //tofTestBeamClust->SetTotMin(1.); tofTestBeamClust->SetTRefDifMax(2000000.); // in ps tofTestBeamClust->PosYMaxScal(2000.); // in % of length tofTestBeamClust->SetMaxTimeDist(0.); // no cluster building break; case 1: // save offsets, update walks, for diamonds tofTestBeamClust->SetTRefDifMax(50000.); // in ps tofTestBeamClust->PosYMaxScal(0.1); // in % of length break; case 11: tofTestBeamClust->SetTRefDifMax(4000.); // in ps tofTestBeamClust->PosYMaxScal(1.0); // in % of length break; case 21: tofTestBeamClust->SetTRefDifMax(3000.); // in ps tofTestBeamClust->PosYMaxScal(1.0); // in % of length break; case 31: tofTestBeamClust->SetTRefDifMax(2000.); // in ps tofTestBeamClust->PosYMaxScal(1.0); // in % of length break; case 41: tofTestBeamClust->SetTRefDifMax(1000.); // in ps tofTestBeamClust->PosYMaxScal(0.8); // in % of length break; case 51: tofTestBeamClust->SetTRefDifMax(700.); // in ps tofTestBeamClust->PosYMaxScal(0.7); // in % of length break; case 61: tofTestBeamClust->SetTRefDifMax(500.); // in ps tofTestBeamClust->PosYMaxScal(0.7); // in % of length break; case 71: tofTestBeamClust->SetTRefDifMax(400.); // in ps tofTestBeamClust->PosYMaxScal(0.6); // in % of length break; case 2: // time difference calibration tofTestBeamClust->SetTRefDifMax(300000.); // in ps tofTestBeamClust->PosYMaxScal(1000.); // in % of length break; case 3: // time offsets tofTestBeamClust->SetTRefDifMax(200000.); // in ps tofTestBeamClust->PosYMaxScal(1000.); // in % of length tofTestBeamClust->SetMaxTimeDist(0.); // no cluster building break; case 12: case 13: tofTestBeamClust->SetTRefDifMax(100000.); // in ps tofTestBeamClust->PosYMaxScal(100.); // in % of length break; case 22: case 23: tofTestBeamClust->SetTRefDifMax(50000.); // in ps tofTestBeamClust->PosYMaxScal(50.); // in % of length break; case 32: case 33: tofTestBeamClust->SetTRefDifMax(25000.); // in ps tofTestBeamClust->PosYMaxScal(20.); // in % of length break; case 42: case 43: tofTestBeamClust->SetTRefDifMax(12000.); // in ps tofTestBeamClust->PosYMaxScal(10.); // in % of length break; case 52: case 53: tofTestBeamClust->SetTRefDifMax(5000.); // in ps tofTestBeamClust->PosYMaxScal(4.); // in % of length break; case 62: case 63: tofTestBeamClust->SetTRefDifMax(2500.); // in ps tofTestBeamClust->PosYMaxScal(2.); // in % of length break; case 72: case 73: tofTestBeamClust->SetTRefDifMax(2000.); // in ps tofTestBeamClust->PosYMaxScal(1.0); // in % of length break; case 82: case 83: tofTestBeamClust->SetTRefDifMax(1000.); // in ps tofTestBeamClust->PosYMaxScal(0.8); //in % of length break; case 92: case 93: tofTestBeamClust->SetTRefDifMax(600.); // in ps tofTestBeamClust->PosYMaxScal(0.8); // in % of length break; case 4: // velocity dependence (DelTOF) tofTestBeamClust->SetTRefDifMax(6000.); // in ps tofTestBeamClust->PosYMaxScal(1.5); // in % of length break; case 14: tofTestBeamClust->SetTRefDifMax(2500.); // in ps tofTestBeamClust->PosYMaxScal(1.); // in % of length break; case 24: tofTestBeamClust->SetTRefDifMax(1500.); // in ps tofTestBeamClust->PosYMaxScal(0.8); // in % of length break; case 44: tofTestBeamClust->SetTRefDifMax(1000.); // in ps tofTestBeamClust->PosYMaxScal(0.8); // in % of length break; case 54: tofTestBeamClust->SetTRefDifMax(700.); // in ps tofTestBeamClust->PosYMaxScal(0.7); // in % of length break; case 64: tofTestBeamClust->SetTRefDifMax(500.); // in ps tofTestBeamClust->PosYMaxScal(0.7); // in % of length break; default: cout << " Calib mode not implemented! stop execution of script"<AddTask(tofTestBeamClust); /* ************************************************************************** TOF TestBeam Analysis ************************************************************************** */ CbmTofAnaTestbeam* tofAnaTestbeam = new CbmTofAnaTestbeam("TOF TestBeam Analysis",iVerbose); //CbmTofAnaTestbeam defaults tofAnaTestbeam->SetReqTrg(-1); // 0 - no selection tofAnaTestbeam->SetDXMean(0.); tofAnaTestbeam->SetDYMean(0.); tofAnaTestbeam->SetDTMean(0.); // in ps tofAnaTestbeam->SetDXWidth(0.4); tofAnaTestbeam->SetDYWidth(0.4); tofAnaTestbeam->SetDTWidth(80.); // in ps tofAnaTestbeam->SetCalParFileName(cAnaFile); tofAnaTestbeam->SetPosY4Sel(1.2); // Y Position selection in fraction of strip length tofAnaTestbeam->SetDTDia(0.); // Time difference to additional diamond tofAnaTestbeam->SetCorMode(RefSel); // 1 - DTD4, 2 - X4 tofAnaTestbeam->SetMul0Max(30); // Max Multiplicity in dut tofAnaTestbeam->SetMul4Max(2); // Max Multiplicity in Ref - RPC tofAnaTestbeam->SetMulDMax(2); // Max Multiplicity in Diamond tofAnaTestbeam->SetHitDistMin(3.); // initialization tofAnaTestbeam->SetEnableMatchPosScaling(kFALSE); // disable projective geometry Ansatz tofAnaTestbeam->SetPosYS2Sel(1.2); // Y Position selection in fraction of strip length tofAnaTestbeam->SetChS2Sel(0.); // Center of channel selection window tofAnaTestbeam->SetDChS2Sel(100.); // Width of channel selection window tofAnaTestbeam->SetTShift(0.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value Int_t iBRef=iCalSet%1000; Int_t iSet = (iCalSet - iBRef)/1000; Int_t iRSel=0; Int_t iRSelTyp=0; Int_t iRSelSm=0; Int_t iRSelRpc=0; if(iSel2>=0){ iRSel=iBRef; // use 'beam' reference }else{ iSel2=-iSel2; iRSel=iSel2; } Int_t iRSelin=iRSel; Int_t iSel2in=iSel2; iRSelRpc=iRSel%10; iRSelTyp = (iRSel-iRSelRpc)/10; iRSelSm=iRSelTyp%10; iRSelTyp = (iRSelTyp-iRSelSm)/10; tofTestBeamClust->SetBeamRefId(iRSelTyp); // define Beam reference counter tofTestBeamClust->SetBeamRefSm(iRSelSm); tofTestBeamClust->SetBeamRefDet(iRSelRpc); tofTestBeamClust->SetBeamAddRefMul(-1); tofAnaTestbeam->SetBeamRefSmType(iRSelTyp); tofAnaTestbeam->SetBeamRefSmId(iRSelSm); tofAnaTestbeam->SetBeamRefRpc(iRSelRpc); Int_t iSel2Rpc= iSel2%10; iSel2=(iSel2-iSel2Rpc)/10; Int_t iSel2Sm=iSel2%10; iSel2=(iSel2-iSel2Sm)/10; if(iSel2 > 0) { tofTestBeamClust->SetSel2Id(iSel2); tofTestBeamClust->SetSel2Sm(iSel2Sm); tofTestBeamClust->SetSel2Rpc(iSel2Rpc); tofAnaTestbeam->SetMrpcSel2(iSel2); // initialization of second selector Mrpc Type tofAnaTestbeam->SetMrpcSel2Sm(iSel2Sm); // initialization of second selector Mrpc SmId tofAnaTestbeam->SetMrpcSel2Rpc(iSel2Rpc); // initialization of second selector Mrpc RpcId } Int_t iRef = iSet %1000; Int_t iDut = (iSet - iRef)/1000; Int_t iDutRpc = iDut%10; iDut = (iDut - iDutRpc)/10; Int_t iDutSm = iDut%10; iDut = (iDut - iDutSm)/10; tofTestBeamClust->SetDutId(iDut); tofTestBeamClust->SetDutSm(iDutSm); tofTestBeamClust->SetDutRpc(iDutRpc); Int_t iRefRpc = iRef%10; iRef = (iRef - iRefRpc)/10; Int_t iRefSm = iRef%10; iRef = (iRef - iRefSm)/10; tofTestBeamClust->SetSelId(iRef); tofTestBeamClust->SetSelSm(iRefSm); tofTestBeamClust->SetSelRpc(iRefRpc); tofAnaTestbeam->SetDut(iDut); // Device under test tofAnaTestbeam->SetDutSm(iDutSm); // Device under test tofAnaTestbeam->SetDutRpc(iDutRpc); // Device under test tofAnaTestbeam->SetMrpcRef(iRef); // Reference RPC tofAnaTestbeam->SetMrpcRefSm(iRefSm); // Reference RPC tofAnaTestbeam->SetMrpcRefRpc(iRefRpc); // Reference RPC tofAnaTestbeam->SetChi2Lim(20.); // initialization of Chi2 selection limit /* ************************************************************************** Remember in init_calib.sh the parmeter iCalSet=iDutiMRefiBRef==920921400, so iSet == iDutiMRef == 920921 etc ************************************************************************** */ switch (iSet){ case 0: // upper part of setup: P2 - P5 case 3: // upper part of setup: P2 - P5 case 34: // upper part of setup: P2 - P5 case 400300: switch (iRSel) { case 3: tofAnaTestbeam->SetTShift(-2000.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; case 5: //tofTestBeamClust->SetBeamAddRefMul(1); tofAnaTestbeam->SetTShift(200.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; case 9: tofAnaTestbeam->SetChi2Lim(100.); // initialization of Chi2 selection limit tofAnaTestbeam->SetMulDMax(3); // Max Multiplicity in BeamRef // Diamond //tofTestBeamClust->SetBeamAddRefMul(1); tofAnaTestbeam->SetTShift(100.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(500.); // Shift Sel2 time peak to 0 break; default: ; } tofAnaTestbeam->SetChi2Lim(3.); // initialization of Chi2 selection limit tofAnaTestbeam->SetDXWidth(1.5); tofAnaTestbeam->SetDYWidth(1.5); tofAnaTestbeam->SetDTWidth(120.); // in ps tofAnaTestbeam->SetCh4Sel(15.); // Center of channel selection window tofAnaTestbeam->SetDCh4Sel(12.); // Width of channel selection window break; case 920300: case 921300: switch (iRSel) { case 5: //tofTestBeamClust->SetBeamAddRefMul(1); tofAnaTestbeam->SetTShift(200.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; case 9: tofAnaTestbeam->SetMulDMax(3); // Max Multiplicity in BeamRef // Diamond //tofTestBeamClust->SetBeamAddRefMul(1); tofAnaTestbeam->SetTShift(100.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(500.); // Shift Sel2 time peak to 0 break; default: ; } tofAnaTestbeam->SetChi2Lim(3.); // initialization of Chi2 selection limit tofAnaTestbeam->SetDXWidth(2.); tofAnaTestbeam->SetDYWidth(2.); tofAnaTestbeam->SetDTWidth(200.); // in ps break; case 400900: case 600900: case 901900: case 910900: case 921900: cout << "Process XXX900 with iRSelin = "<SetTShift(-2000.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; case 4: tofAnaTestbeam->SetTShift(-1200.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(-1290.); // Shift Sel2 time peak to 0 break; case 5: tofAnaTestbeam->SetTShift(200.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; case 901: tofAnaTestbeam->SetTShift(100.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(-800.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value switch(iSel2in){ case 601: tofAnaTestbeam->SetTShift(100.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0, for 05Aug break; case 901: tofAnaTestbeam->SetTShift(-4500.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0, for 05Aug break; case 910: tofAnaTestbeam->SetSel2TOff(100.); // Shift Sel2 time peak to 0, for 05Aug break; } break; case 910: tofAnaTestbeam->SetTShift(100.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(38000.); // Shift DTD4 to physical value switch(iSel2in){ case 901: tofAnaTestbeam->SetTShift(-4500.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0, for 05Aug break; case 910: tofAnaTestbeam->SetSel2TOff(100.); // Shift Sel2 time peak to 0, for 05Aug break; } break; case 921: tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value switch(iSel2in){ case 901: tofAnaTestbeam->SetTShift(4600.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(-10.); // Shift Sel2 time peak to 0, for 05Aug break; case 910: //tofAnaTestbeam->SetTShift(-200.); // Shift DTD4 to 0 tofAnaTestbeam->SetSel2TOff(100.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTShift(200.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(1520.); // Shift Sel2 time peak to 0, for 05Aug break; } break; default: cout<<" Define setup!"<SetChi2Lim(6.); // initialization of Chi2 selection limit tofAnaTestbeam->SetChi2Lim2(3.); tofAnaTestbeam->SetDXWidth(1.6); // 0.13 tofAnaTestbeam->SetDYWidth(1.6); tofAnaTestbeam->SetDTWidth(200.); // in ps tofAnaTestbeam->SetMul0Max(20); // Max Multiplicity in dut tofAnaTestbeam->SetMul4Max(2); // Max Multiplicity in Ref - RPC tofAnaTestbeam->SetMulDMax(2); // Max Multiplicity in BRef counter if((0)){ // for efficiency determination tofAnaTestbeam->SetPosY4Sel(10.5); // Y Position selection in fraction of strip length tofAnaTestbeam->SetMulDMax(3); // Max Multiplicity in Diamond tofAnaTestbeam->SetPosY4Sel(0.25); // Y Position selection in fraction of strip length tofAnaTestbeam->SetCh4Sel(16.); // Center of channel selection window tofAnaTestbeam->SetDCh4Sel(8.); tofAnaTestbeam->SetPosYS2Sel(0.25); // Y Position selection in fraction of strip length tofAnaTestbeam->SetChS2Sel(16.); // Center of channel selection window tofAnaTestbeam->SetDChS2Sel(8.); } break; case 900600: case 901600: case 601600: tofAnaTestbeam->SetTShift(15100.); // Shift DTD4 to 0 switch (iRSelin) { case 601: tofAnaTestbeam->SetHitDistMin(20.); // initialization tofAnaTestbeam->SetTShift(-1300.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(-1300.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(36000.); // Shift DTD4 to physical value break; case 900: tofAnaTestbeam->SetTShift(0.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value break; case 901: tofAnaTestbeam->SetTShift(13100.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(13000.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value break; case 910: tofAnaTestbeam->SetTShift(-1100.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(-500.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value break; case 921: tofAnaTestbeam->SetTShift(0.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(500.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(36000.); // Shift DTD4 to physical value break; default: cout<<" Define setup!"<SetChi2Lim(10.); // initialization of Chi2 selection limit tofAnaTestbeam->SetChi2Lim2(5.); tofAnaTestbeam->SetDXWidth(1.); // 0.13 tofAnaTestbeam->SetDYWidth(1.); tofAnaTestbeam->SetDTWidth(200.); // in ps tofAnaTestbeam->SetMul0Max(20); // Max Multiplicity in dut tofAnaTestbeam->SetMul4Max(2); // Max Multiplicity in Ref - RPC tofAnaTestbeam->SetMulDMax(2); // Max Multiplicity in BRef counter break; case 600601: cout << "Run with iRSel = "<SetHitDistMin(20.); // initialization tofAnaTestbeam->SetTShift(10450.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(10450.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(32000.); // Shift DTD4 to physical value break; case 900: tofAnaTestbeam->SetTShift(-150.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(-150.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value break; case 901: tofAnaTestbeam->SetTShift(13100.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(13000.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(40000.); // Shift DTD4 to physical value break; case 910: tofAnaTestbeam->SetTShift(-1100.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(-500.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value break; case 921: tofAnaTestbeam->SetTShift(-1100.); // Shift DTD4 to 0 //tofAnaTestbeam->SetSel2TOff(10000.); // Shift Sel2 time peak to 0, for 01Aug tofAnaTestbeam->SetSel2TOff(-500.); // Shift Sel2 time peak to 0, for 05Aug tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value break; default: cout<<" Define setup!"<SetChi2Lim(50.); // initialization of Chi2 selection limit tofAnaTestbeam->SetChi2Lim2(50.); tofAnaTestbeam->SetDXWidth(1.); // 0.13 tofAnaTestbeam->SetDYWidth(1.); tofAnaTestbeam->SetDTWidth(200.); // in ps tofAnaTestbeam->SetMul0Max(1); // Max Multiplicity in dut tofAnaTestbeam->SetMul4Max(1); // Max Multiplicity in Ref - RPC tofAnaTestbeam->SetMulDMax(1); // Max Multiplicity in BRef counter break; case 300400: switch (iRSel) { case 9: tofAnaTestbeam->SetTShift(-2000.); // Shift DTD4 to 0 tofAnaTestbeam->SetTOffD4(16000.); // Shift DTD4 to physical value tofAnaTestbeam->SetSel2TOff(0.); // Shift Sel2 time peak to 0 break; default: ; } break; default: cout<<" detector setup "<AddTask(tofAnaTestbeam); // ========================================================================= /* CbmTofOnlineDisplay* display = new CbmTofOnlineDisplay(); display->SetUpdateInterval(1000); run->AddTask(display); */ /* ************************************************************************** Parameter database ************************************************************************** */ FairRuntimeDb* rtdb = run->GetRuntimeDb(); Bool_t kParameterMerged = kTRUE; FairParRootFileIo* parIo2 = new FairParRootFileIo(kParameterMerged); parIo2->open(ParFile.Data(), "UPDATE"); parIo2->print(); rtdb->setFirstInput(parIo2); FairParAsciiFileIo* parIo1 = new FairParAsciiFileIo(); parIo1->open(parFileList, "in"); parIo1->print(); rtdb->setSecondInput(parIo1); rtdb->print(); rtdb->printParamContexts(); // FairParRootFileIo* parInput1 = new FairParRootFileIo(); // parInput1->open(ParFile.Data()); // rtdb->setFirstInput(parInput1); /* ************************************************************************** Intialise and run ************************************************************************** */ run->Init(); cout << "Starting run" << endl; run->Run(0, nEvents); /* ************************************************************************** Plotting ************************************************************************** */ // default display TString Display_Status = "pl_over_Mat04D4best.C"; TString Display_Funct = "pl_over_Mat04D4best()"; gROOT->LoadMacro(Display_Status); gROOT->LoadMacro("pl_over_cluSel.C"); gROOT->LoadMacro("pl_over_clu.C"); gROOT->LoadMacro("pl_all_dTSel.C"); gROOT->LoadMacro("pl_over_MatD4sel.C"); // Plotting iSet: switch(iSet) { case 0: case 3: case 49: case 79: case 34: case 94: case 37: case 97: case 39: case 99: case 93: case 300400: case 400300: case 921920: case 920921: case 920300: case 921300: case 921900: case 400900: case 600900: case 400920: case 910900: case 901900: default: // void pl_over_clu(Int_t SmT=0, Int_t iSm=0, Int_t iRpc=0) gInterpreter->ProcessLine("pl_over_clu(3)"); gInterpreter->ProcessLine("pl_over_clu(4)"); //gInterpreter->ProcessLine("pl_over_clu(5)"); //gInterpreter->ProcessLine("pl_over_clu(5,1)"); //gInterpreter->ProcessLine("pl_over_clu(5,2)"); gInterpreter->ProcessLine("pl_over_clu(6,0,0)"); gInterpreter->ProcessLine("pl_over_clu(6,0,1)"); gInterpreter->ProcessLine("pl_over_clu(9,0,0)"); gInterpreter->ProcessLine("pl_over_clu(9,0,1)"); gInterpreter->ProcessLine("pl_over_clu(9,1,0)"); gInterpreter->ProcessLine("pl_over_clu(9,1,1)"); gInterpreter->ProcessLine("pl_over_clu(9,2,0)"); gInterpreter->ProcessLine("pl_over_clu(9,2,1)"); // void pl_over_cluSel(Int_t iSel=0, Int_t iSmT=0, Int_t iSm=0, Int_t iRpc=0) gInterpreter->ProcessLine("pl_over_cluSel(0,3)"); gInterpreter->ProcessLine("pl_over_cluSel(0,4)"); gInterpreter->ProcessLine("pl_over_cluSel(0,6,0,0)"); gInterpreter->ProcessLine("pl_over_cluSel(0,6,0,1)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,0,0)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,0,1)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,1,0)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,1,1)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,2,0)"); gInterpreter->ProcessLine("pl_over_cluSel(0,9,2,1)"); gInterpreter->ProcessLine("pl_over_cluSel(1,3)"); gInterpreter->ProcessLine("pl_over_cluSel(1,4)"); gInterpreter->ProcessLine("pl_over_cluSel(1,6,0,0)"); gInterpreter->ProcessLine("pl_over_cluSel(1,6,0,1)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,0,0)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,0,1)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,1,0)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,1,1)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,2,0)"); gInterpreter->ProcessLine("pl_over_cluSel(1,9,2,1)"); // void pl_all_dTSel(Int_t iNSel=2) gInterpreter->ProcessLine("pl_all_dTSel()"); //void pl_over_MatD4sel() gInterpreter->ProcessLine("pl_over_MatD4sel()"); break; ; }//end-switch(iSet) gInterpreter->ProcessLine(Display_Funct); }//end-macro