示例#1
0
int main () 
{
  calibXMLwriter barrelWriter(EcalBarrel);
  CaloMiscalibMapEcal map ;
  std::string barrelfile ="/afs/cern.ch/user/p/presotto/CMSSW_1_6_0/src/CalibCalorimetry/CaloMiscalibTools/data/ecal_barrel_startup.xml" ; 
  map.prefillMap () ;
  MiscalibReaderFromXMLEcalBarrel barrelreader (map) ;
  if (!barrelfile.empty ()) barrelreader.parseXMLMiscalibFile (barrelfile) ;
  
  EcalIntercalibConstants* constants = 
         new EcalIntercalibConstants (map.get ()) ;
  EcalIntercalibConstantMap imap = constants->getMap () ;
  
  std::string barrelfile2 ="EBcalib.xml" ; 
  CaloMiscalibMapEcal map2;
  map2.prefillMap ();
  MiscalibReaderFromXMLEcalBarrel barrelreader2 (map2) ;
  if (!barrelfile2.empty ()) barrelreader2.parseXMLMiscalibFile (barrelfile2) ;
  EcalIntercalibConstants* constants2 = 
         new EcalIntercalibConstants (map2.get ()) ;
  EcalIntercalibConstantMap imap2 = constants2->getMap () ;
  for (int  eta =-85;eta<=85;++eta)
   for (int phi = 1; phi<=360;++phi)
    {
     if (!EBDetId::validDetId(eta,phi)) continue;
     EBDetId eb (eta,phi,EBDetId::ETAPHIMODE);
     barrelWriter.writeLine (eb, *(imap.find(eb.rawId())) * *(imap2.find(eb.rawId()))); 
    }
}
示例#2
0
int main (int argc, char* argv[]) 
{
  std::cout << "parsing cfg file: " << argv[1] << std::endl ;
  trivialParser configParams (static_cast<std::string> (argv[1])) ;
  
  int IMAEEradStart = static_cast<int> (configParams.getVal ("IMAEEradStart")) ;
  int IMAEEradEnd = static_cast<int> (configParams.getVal ("IMAEEradEnd")) ;
  int IMAEEradWidth = static_cast<int> (configParams.getVal ("IMAEEradWidth")) ;
  int IMAEEphiStart = static_cast<int> (configParams.getVal ("IMAEEphiStart")) ;
  int IMAEEphiEnd = static_cast<int> (configParams.getVal ("IMAEEphiEnd")) ;

//  std::cerr << "[PG] IMAEEradStart = " << IMAEEradStart << std::endl ;
//  std::cerr << "[PG] IMAEEradEnd = " << IMAEEradEnd << std::endl ;
//  std::cerr << "[PG] IMAEEradWidth = " << IMAEEradWidth << std::endl ;
//  std::cerr << "[PG] IMAEEphiStart = " << IMAEEphiStart << std::endl ;
//  std::cerr << "[PG] IMAEEphiEnd = " << IMAEEphiEnd << std::endl ;
//  std::cerr << "[PG] IMAEEphiWidth = " << IMAEEphiWidth << std::endl ;

  std::string coeffFolder = argv[2] ;

  std::map<int, EcalIntercalibConstantMap> recalibrators ; 
  //PG FIXME  c'e' il copy ctor della CaloMiscalibMapEcal?
 
  //PG loop on EB rad indexes
  for (int radIndex = IMAEEradStart ; 
       radIndex < IMAEEradEnd ; 
       radIndex += IMAEEradWidth)
    {
      int currentIndex = radIndex ;
      int nextIndex = radIndex + IMAEEradWidth ;

      //PG compute the values of the limits
      //PG FIXME questo forse non e' sufficiente, bisogna anche considerare il caso
      //PG FIXME in cui currentIndex e' positivo e effradIndex start no 
      //PG FIXME lo stesso vale per l'end e il nexindex
      //PG FIXME lo stesso vale per gli script perl
//      int effradIndexStart = currentIndex - IMAEEradWidth ;
//      if (effradIndexStart < 0) { effradIndexStart = 0 ; }
//      int effradIndexEnd = nextIndex + IMAEEradWidth ;
//      if (effradIndexEnd > 50) { effradIndexEnd = 50 ; }
    
      //PG build the filename
      std::stringstream nomeFile ;
      nomeFile << coeffFolder << "/EEcalibCoeff_" << currentIndex 
               << "-" << nextIndex << ".xml" ;
      std::string fileName = nomeFile.str () ;      
//      std::cerr << "PG nomefile: " << fileName << std::endl ;

      //PG open the XML file
      CaloMiscalibMapEcal map ;
      map.prefillMap () ;
      MiscalibReaderFromXMLEcalEndcap endcapreader (map) ;
      if (!fileName.empty ()) endcapreader.parseXMLMiscalibFile (fileName) ;
      EcalIntercalibConstants* constants = 
             new EcalIntercalibConstants (map.get ()) ;
      recalibrators[currentIndex] = constants->getMap () ;  
    } //PG loop on EB rad indexes

  //PG prepare the XML to be saved
  
  //PG this command outputs an XML file with a fixed name
  calibXMLwriter endcapWriter (EcalEndcap) ;
  //PG loop on EB rad slices
  for (std::map<int, EcalIntercalibConstantMap>::const_iterator itMap = 
          recalibrators.begin () ;
       itMap != recalibrators.end () ;
       ++itMap)
    {
      //PG compute the values of the limits
      //PG FIXME questo forse non e' sufficiente, bisogna anche considerare il caso
      //PG FIXME in cui currentIndex e' positivo e effradIndex start no 
      //PG FIXME lo stesso vale per l'end e il nexindex
      //PG FIXME lo stesso vale per gli script perl

      //PG non so scegliere da dove partire, questo e' un disastro
      //PG il problema e' dei bordi
      //PG forse la cosa migliore e' salvare i xml file con un nome che dica dei coeff buoni,
      //PG non di quelli calcolati - direi che e' la cosa giusta

      //PG loop over x
      for (int ix = 0 ; ix < 100 ; ++ix)
      //PG loop over y
      for (int iy = 0 ; iy < 100 ; ++iy)
        {
          //PG select the subregion of interest
          if (EEregionCheck (ix,iy,
                             itMap->first,itMap->first+IMAEEradWidth,
                             IMAEEphiStart,IMAEEphiEnd) ) continue ;
          //PG check whether the detid is buildable
          if (!EEDetId::validDetId (ix,iy,1))
            {
              std::cerr << "[WARN] elemento " << ix << " " << iy
                        << " 1" 
                        << " scartato" << std::endl ;
              continue ;
            }
          EEDetId det = EEDetId (ix,iy,1,EEDetId::XYMODE) ;
          std::cerr << "[INFO] writing " << ix << " " << iy << " 1" 
                    << " " << *(itMap->second.find (det.rawId ()))
                    << std::endl ;
          endcapWriter.writeLine (det,*(itMap->second.find (det.rawId ())));

        } //PG loop over x, loop over y
    }

  /* TODOS
   - inizio con EB
  
   - leggi l'intervallo di validita'
   - cerca i XML file in funzione di quello che sta scritto nel parser
     (qui bisogna conoscere gia' la cartella e costruire i nomi allo stesso
      modo, questo e' un punto debole)
   - apri un XML interface per ciascun file XML e leggine sono quello
     che serve
   - riversalo nel XML finale  
   - check the includes
  */
  
  

  
}
示例#3
0
int main (int argc, char* argv[]) 
{

  int EEradStart = 15 ;
  int EEradEnd = 50 ;
  int EEphiStart = 15 ;
  int EEphiEnd = 45 ;

  std::string endcapfile = argv[1] ; 
  std::string calibEndcapfile = argv[2] ; 
  std::string filename = "coeffcompareEE.root" ;

  if (argc > 3)
    {
      if (argc < 7)
        {
          std::cerr << "Too few (or too many) arguments passed" << std::endl ;
          exit (1) ;
        }
      EEradStart = atoi (argv[3]) ;
      EEradEnd = atoi (argv[4]) ;
      EEphiStart = atoi (argv[5]) ;
      EEphiEnd = atoi (argv[6]) ;
    }

  if (argc == 8) filename = argv[7] ;

//  std::string endcapfile = "/afs/cern.ch/user/g/govoni/scratch1/CMSSW/CALIB/CMSSW_1_6_0/src/CalibCalorimetry/CaloMiscalibTools/data/ecal_endcap_startup.xml" ;
//  std::string calibEndcapfile = "/afs/cern.ch/user/g/govoni/scratch1/CMSSW/CALIB/CMSSW_1_6_0/src/CalibCalorimetry/CaloMiscalibTools/data/inv_ecal_endcap_startup.xml" ;
  
  //PG get the miscalibration files for EB and EE
  //PG ------------------------------------------

  CaloMiscalibMapEcal EEscalibMap ;
  EEscalibMap.prefillMap () ;
  MiscalibReaderFromXMLEcalEndcap endcapreader (EEscalibMap) ;
  if (!endcapfile.empty ()) endcapreader.parseXMLMiscalibFile (endcapfile) ;
  EcalIntercalibConstants* EEconstants = 
         new EcalIntercalibConstants (EEscalibMap.get ()) ;
  EcalIntercalibConstants::EcalIntercalibConstantMap iEEscalibMap = EEconstants->getMap () ;  //MF prende i vecchi coeff

  //PG get the recalibration files for EB and EE
  //PG -----------------------------------------

  CaloMiscalibMapEcal EEcalibMap ;
  EEcalibMap.prefillMap () ;
  MiscalibReaderFromXMLEcalEndcap calibEndcapreader (EEcalibMap) ;
  if (!calibEndcapfile.empty ()) calibEndcapreader.parseXMLMiscalibFile (calibEndcapfile) ;
  EcalIntercalibConstants* EECconstants = 
         new EcalIntercalibConstants (EEcalibMap.get ()) ;
  EcalIntercalibConstants::EcalIntercalibConstantMap iEEcalibMap = EECconstants->getMap () ;  //MF prende i vecchi coeff
  
  //PG fill the histograms
  //PG -------------------
  
  TH1F EEPCompareCoeffDistr ("EEPCompareCoeffDistr","EEPCompareCoeffDistr",5000,0,2) ;
  TH2F EEPCompareCoeffMap ("EEPCompareCoeffMap","EEPCompareCoeffMap",101,0,101,101,0,101) ;
  TH2F EEPCompareCoeffEtaTrend ("EEPCompareCoeffEtaTrend",
                               "EEPCompareCoeffEtaTrend",
                               51,0,50,500,0,2) ;
  TProfile EEPCompareCoeffEtaProfile ("EEPCompareCoeffEtaProfile",
                                      "EEPCompareCoeffEtaProfile",
                                      51,0,50,0,2) ;
   
  TH1F EEPCompareCoeffDistr_R1 ("EEPCompareCoeff_R1","EEPCompareCoeff_R1",1000,0,2) ;
  TH1F EEPCompareCoeffDistr_R2 ("EEPCompareCoeff_R2","EEPCompareCoeff_R2",1000,0,2) ;
  TH1F EEPCompareCoeffDistr_R3 ("EEPCompareCoeff_R3","EEPCompareCoeff_R3",1000,0,2) ;
  TH1F EEPCompareCoeffDistr_R4 ("EEPCompareCoeff_R4","EEPCompareCoeff_R4",1000,0,2) ;
  TH1F EEPCompareCoeffDistr_R5 ("EEPCompareCoeff_R5","EEPCompareCoeff_R5",1000,0,2) ;

  // ECAL endcap +
  for (int ix = 1 ; ix <= 100 ; ++ix)
   for (int iy = 1 ; iy <= 100 ; ++iy)
    {
      int rad = static_cast<int> (sqrt ((ix - 50) * (ix - 50) +
                                        (iy - 50) * (iy - 50))) ;
      if (rad < EEradStart || rad > EEradEnd) continue ;
      double phiTemp = atan2 (iy - 50, ix - 50) ;
      if (phiTemp < 0) phiTemp += 2 * PI_GRECO ;
      int phi = static_cast<int> ( phiTemp * 180 / PI_GRECO) ;
      if (phi < EEphiStart || phi > EEphiEnd) continue ;
      if (!EEDetId::validDetId (ix,iy,1)) continue ;
      EEDetId det = EEDetId (ix, iy, 1, EEDetId::XYMODE) ;
      double factor = (iEEcalibMap.find (det.rawId ()))->second * 
                      (iEEscalibMap.find (det.rawId ()))->second ;
      EEPCompareCoeffDistr.Fill (factor) ;
      EEPCompareCoeffMap.Fill (ix,iy,factor) ;
      EEPCompareCoeffEtaTrend.Fill (rad,factor) ;
      EEPCompareCoeffEtaProfile.Fill (rad,factor) ;
      if (abs(rad) < 22) continue ;
      else if (abs(rad) < 27) EEPCompareCoeffDistr_R1.Fill (factor) ;
      else if (abs(rad) < 32) EEPCompareCoeffDistr_R2.Fill (factor) ;
      else if (abs(rad) < 37) EEPCompareCoeffDistr_R3.Fill (factor) ;
      else if (abs(rad) < 42) EEPCompareCoeffDistr_R4.Fill (factor) ;
      else EEPCompareCoeffDistr_R5.Fill (factor) ;

    } // ECAL endcap +

  // ECAL endcap-
  TH1F EEMCompareCoeffDistr ("EEMCompareCoeffDistr","EEMCompareCoeffDistr",200,0,2) ;
  TH2F EEMCompareCoeffMap ("EEMCompareCoeffMap","EEMCompareCoeffMap",100,0,100,100,0,100) ;
  TH2F EEMCompareCoeffEtaTrend ("EEMCompareCoeffEtaTrend",
                               "EEMCompareCoeffEtaTrend",
                               51,0,50,500,0,2) ;
  TProfile EEMCompareCoeffEtaProfile ("EEMCompareCoeffEtaProfile",
                                     "EEMCompareCoeffEtaProfile",
                                     51,0,50,0,2) ;
   
  // ECAL endcap -
  for (int ix = 1 ; ix <= 100 ; ++ix)
   for (int iy = 1 ; iy <= 100 ; ++iy)
    {
      int rad = static_cast<int> (sqrt ((ix - 50) * (ix - 50) +
                                        (iy - 50) * (iy - 50))) ;
      if (rad < EEradStart || rad > EEradEnd) continue ;
      double phiTemp = atan2 (iy - 50, ix - 50) ;
      if (phiTemp < 0) phiTemp += 2 * PI_GRECO ;
      int phi = static_cast<int> ( phiTemp * 180 / PI_GRECO) ;
      if (!EEDetId::validDetId (ix,iy,-1)) continue ;
      EEDetId det = EEDetId (ix, iy, -1, EEDetId::XYMODE) ;
      double factor = (iEEcalibMap.find (det.rawId ()))->second * 
                      (iEEscalibMap.find (det.rawId ()))->second ;
      EEMCompareCoeffDistr.Fill (factor) ;
      EEMCompareCoeffMap.Fill (ix,iy,factor) ;
      EEMCompareCoeffEtaTrend.Fill (rad,factor) ;
      EEMCompareCoeffEtaProfile.Fill (rad,factor) ;
    } // ECAL endcap -
    
  TFile out (filename.c_str (),"recreate") ;
  EEMCompareCoeffMap.Write() ;
  EEMCompareCoeffDistr.Write() ;
  EEMCompareCoeffEtaTrend.Write () ;
  EEMCompareCoeffEtaProfile.Write () ;
  EEPCompareCoeffMap.Write() ;
  EEPCompareCoeffDistr.Write() ;
  EEPCompareCoeffEtaTrend.Write () ;
  EEPCompareCoeffEtaProfile.Write () ;
  EEPCompareCoeffDistr_R1.Write () ;
  EEPCompareCoeffDistr_R2.Write () ;
  EEPCompareCoeffDistr_R3.Write () ;
  EEPCompareCoeffDistr_R4.Write () ;
  EEPCompareCoeffDistr_R5.Write () ;
  out.Close() ;
  
}