GEMCheckGeometry.cc

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#include "Validation/MuonGEMDigis/interface/GEMCheckGeometry.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "FWCore/Utilities/interface/InputTag.h"
#include "Geometry/CommonTopologies/interface/StripTopology.h"
#include "Geometry/GEMGeometry/interface/GEMGeometry.h"
#include "Geometry/GEMGeometry/interface/GEMEtaPartitionSpecs.h" 
#include "Geometry/Records/interface/MuonGeometryRecord.h"
#include "DataFormats/Common/interface/Handle.h"

#include <iomanip>

GEMCheckGeometry::GEMCheckGeometry(const edm::ParameterSet& gc)
{
  
  GE11PhiBegin_ = gc.getUntrackedParameter< double >("GE11PhiBegin",-5.) ;
  GE11PhiStep_ = gc.getUntrackedParameter< double >("GE11PhiStep",10) ;
  minPhi_ = gc.getUntrackedParameter< double >("minPhi",-180.);
  maxPhi_ = gc.getUntrackedParameter< double >("maxPhi",+180.);
  detailPlot_ = gc.getParameter< bool >("detailPlot"); 
}


void GEMCheckGeometry::bookHistograms(DQMStore::IBooker & ibooker, edm::Run const & Run, edm::EventSetup const & iSetup) {

  if ( !detailPlot_ ) return ; 
  const GEMGeometry* GEMGeometry_;

  try{
    edm::ESHandle<GEMGeometry> hGeom;
    iSetup.get<MuonGeometryRecord>().get(hGeom);
    GEMGeometry_=&*hGeom;
  }
  catch(edm::eventsetup::NoProxyException<GEMGeometry>& e){
    edm::LogError("MuonGEMGeometry") << "+++ Error : GEM geometry  is unavailable on event loop. +++\n";
    return;
  }
  
  for( auto region : GEMGeometry_->regions()) {
        TString title = TString::Format("Geometry's phi distribution on Region %d ; #phi(degree); ;",region->region());
        TString name  = TString::Format("geo_phi_r%d",region->region());
        auto temp_me = ibooker.book2D(name.Data(), title.Data(), 360000, -180., 180, 12,1,13);
        temp_me->setBinLabel(1,"St1,La1_even",2);
        temp_me->setBinLabel(2,"St1,La1_odd",2);
        temp_me->setBinLabel(3,"St1,La2_even",2);
        temp_me->setBinLabel(4,"St1,La2_odd",2);
        temp_me->setBinLabel(5,"St2,La1_even",2);
        temp_me->setBinLabel(6,"St2,La1_odd",2);
        temp_me->setBinLabel(7,"St2,La2_even",2);
        temp_me->setBinLabel(8,"St2,La2_odd",2);
        temp_me->setBinLabel(9,"St3,La1_even",2);
        temp_me->setBinLabel(10,"St3,La1_odd",2);
        temp_me->setBinLabel(11,"St3,La2_even",2);
        temp_me->setBinLabel(12,"St3,La2_odd",2);
        theStdPlots.insert( std::map< UInt_t, MonitorElement*>::value_type(name.Hash(), temp_me ));
   }


  for( auto region : GEMGeometry_->regions())
    for (auto station : region->stations())
      for ( auto ring : station->rings())
        for ( auto sch : ring->superChambers())
          for ( auto ch : sch->chambers())
            for ( auto roll : ch->etaPartitions()) {
              const StripTopology* topology(&(roll->specificTopology()));
              auto parameters(roll->specs()->parameters());
              float nStrips(parameters[3]);
              for( int strip = 0 ; strip <=nStrips ; strip++) {
                LocalPoint lEdge(topology->localPosition(strip));
                //double x = roll->toGlobal(lEdge).x();



             //double y = roll->toGlobal(lEdge).y();
                //double z = roll->toGlobal(lEdge).z();
                //double eta = roll->toGlobal(lEdge).eta();
                double phi = roll->toGlobal(lEdge).phi().degrees();
                
                GEMDetId id( roll->id()) ;
                int region_idx = id.region();
                int station_idx = id.station();
                int chamber_idx = id.chamber();
                int layer_idx = id.layer();
                //int roll_idx = id.roll();
                int value = (station_idx-1)*4+(layer_idx-1)*2+(chamber_idx%2)+1;
                
                if ( region_idx ==1 ) {
                UInt_t hash = TString("geo_phi_r1").Hash();
                theStdPlots[hash]  ->Fill( phi, value);
                }
                else {
                  UInt_t hash = TString("geo_phi_r-1").Hash();
                  theStdPlots[hash]  ->Fill( phi, value);
                }
                
              }
            }


}
 

GEMCheckGeometry::~GEMCheckGeometry() {
 

}

void GEMCheckGeometry::analyze(const edm::Event& e, const edm::EventSetup&) {


}