dec18/emc__reco_8C_source.html

 //PhiSplitter cannot handle clusters with digis having identical energy depositions inside

 //As a workaround, we remove it from the bumpSplitting routines

 //Call this function after Init...

 void deactivatePhiSplitter(FairTask* bumpSplitter) {

         FairTask* phi_splitter= dynamic_cast<FairTask*>(bumpSplitter->GetListOfTasks()->FindObject("PndEmcPhiBumpSplitter"));

         if(phi_splitter) {

                 cout << "Deactivating PhiBumpSplitter!" << endl;

                 phi_splitter->SetActive(kFALSE);

         } else {

                 cout << "No PndEmcPhiBumpSplitter available" << endl;

         }

 }


 int emc_reco(const char* digiFile, const char* simFile, const char* outFile, Int_t events=0, const char* parFile="simparams.root") {

   // Loads a filewith hits and makes digitization for EMC


   // Verbosity level (0=quiet, 1=event level, 2=track level, 3=debug)

   Int_t iVerbose = 1; // just forget about it, for the moment


   // Input file (MC events)

   //

   // Number of events to process

   Int_t nEvents=events;  // if 0 all the events will be processed

   std::cout << "will process " << nEvents << " events" << std::endl;


   // Digitisation file (ascii)

   TString parFile_Ascii = "emc.par";


   // Loading libraries

   // If the macro gives error messages in loading libraries, please check the path of the libs and put it by hands


 //  gROOT->LoadMacro("$VMCWORKDIR/gconfig/rootlogon.C");

  // gROOT->LoadMacro("$VMCWORKDIR/gconfig/basiclibs.C");

   //rootlogon();

   //basiclibs();


   // -----   Timer   --------------------------------------------------------

   TStopwatch timer;

   timer.Start();

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


   // -----   Reconstruction run   ------------------------------

   FairRunAna *fRun= new FairRunAna();

   fRun->SetInputFile(digiFile);

   fRun->AddFriend(simFile);

   fRun->SetOutputFile(outFile);


   fRun->SetUseFairLinks(kTRUE);


   if(TString(digiFile).Contains(TPRegexp("(?<!tim)ebased")) || TString(digiFile).Contains("ideal")) {

         cout << "WILL RUN EVENTBASED" << endl;

   } else {

           fRun->RunWithTimeStamps();

           cout << "WILL RUN TIMEBASED" << endl;

   }


   // -----  Parameter database   --------------------------

   FairRuntimeDb* rtdb = fRun->GetRuntimeDb();


   FairParAsciiFileIo* parIo1 = new FairParAsciiFileIo();

   parIo1->open(parFile_Ascii.Data(),"in");

   rtdb->setFirstInput(parIo1);


   FairParRootFileIo* parInput1 = new FairParRootFileIo();

   parInput1->open(parFile);

   rtdb->setSecondInput(parInput1);


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


   Int_t verbose = 0;

   Bool_t storeclusters = kTRUE;

   Bool_t storebumps = kTRUE;


   PndEmcMakeCluster* clusterTask = new PndEmcMakeCluster(verbose, storeclusters);

   clusterTask->StoreClusterBaseDigis(kTRUE);

   fRun->AddTask(clusterTask);


   //TODO: tasks needed due to limitiations in EmcCluster data class

   //Removes multiple entries of same crystal in one cluster --> PndEmcCluster cannot handle this

   PndEmcClusterRemoveDuplCrys* corrTask = new PndEmcClusterRemoveDuplCrys(0);

   clusterTask->Add(corrTask);

   corrTask->SetActive(kTRUE);


   PndEmcMakeBump* bumperTask = new PndEmcMakeBump(verbose, storebumps);

   fRun->AddTask(bumperTask);


   // -----   Intialise and run   -----------------------


   gRandom->SetSeed();

   cout << "fRun->Init()" << endl;

   fRun->Init();


   deactivatePhiSplitter(bumperTask);


   cout << "fRun->Run()" << endl;

   fRun->Run(0,nEvents);


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


   // -----   Finish   -------------------------------------------------------

   timer.Stop();

   Double_t rtime = timer.RealTime();

   Double_t ctime = timer.CpuTime();

   cout << endl << endl;

   cout << "Macro finished successfully." << endl;

   cout << "Output file is "    << outFile << endl;

   cout << "Parameter file is " << parFile << endl;

   cout << "Real time " << rtime << " s, CPU time " << ctime << " s" << endl;

   cout << endl;

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


   return 0;

 }


outFile
TString outFile
Definition: hit_dirc.C:17

verbose
#define verbose
Definition: PndRadMapBoxMesh.cxx:15

digiFile
TString digiFile
Definition: bump_emc.C:20

fRun
FairRunAna * fRun
Definition: hit_dirc.C:58

deactivatePhiSplitter
void deactivatePhiSplitter(FairTask *bumpSplitter)
Definition: emc_reco.C:4

PndEmcClusterRemoveDuplCrys
Task to remove duplicate crystals.
Definition: PndEmcClusterRemoveDuplCrys.h:26

simFile
TString simFile
Definition: bump_emc.C:11

Double_t
Double_t
Definition: SimCompleteLinkDef.h:6

parFile
TString parFile
Definition: hit_dirc.C:14

PndEmcMakeCluster::StoreClusterBaseDigis
void StoreClusterBaseDigis(Bool_t val=kTRUE)
Method to specify whether underlying digis are stored or not.
Definition: PndEmcMakeCluster.h:60

nEvents
Int_t nEvents
Definition: hit_dirc.C:11

timer
TStopwatch timer
Definition: hit_dirc.C:51

rtdb
FairRuntimeDb * rtdb
Definition: hit_dirc.C:66

TString
TString
Definition: SimCompleteLinkDef.h:6

PndEmcMakeBump
Takes clusters and slits them up into bumps.
Definition: PndEmcMakeBump.h:44

parInput1
FairParRootFileIo * parInput1
Definition: hit_dirc.C:67

ctime
Double_t ctime
Definition: hit_dirc.C:114

parIo1
FairParAsciiFileIo * parIo1
Definition: bump_emc.C:53

emc_reco
int emc_reco(const char *digiFile, const char *simFile, const char *outFile, Int_t events=0, const char *parFile="simparams.root")
Definition: emc_reco.C:14

PndEmcMakeCluster
Task to cluster PndEmcDigis.
Definition: PndEmcMakeCluster.h:36

iVerbose
Int_t iVerbose
Definition: Lars/runMvdDigi.C:7

Bool_t
Bool_t
Definition: SimCompleteLinkDef.h:6

rtime
Double_t rtime
Definition: hit_dirc.C:113