FWTGeoRecoGeometryESProducer Class Reference

#include <FWTGeoRecoGeometryESProducer.h>

Inheritance diagram for FWTGeoRecoGeometryESProducer:

Public Member Functions
	FWTGeoRecoGeometryESProducer (const edm::ParameterSet &)
boost::shared_ptr < FWTGeoRecoGeometry >	produce (const FWTGeoRecoGeometryRecord &)
virtual	~FWTGeoRecoGeometryESProducer (void)
Public Member Functions inherited from edm::ESProducer
	ESProducer ()
virtual	~ESProducer ()
Public Member Functions inherited from edm::ESProxyFactoryProducer
	ESProxyFactoryProducer ()
virtual void	newInterval (const eventsetup::EventSetupRecordKey &iRecordType, const ValidityInterval &iInterval)
	overrides DataProxyProvider method More...
virtual	~ESProxyFactoryProducer ()
Public Member Functions inherited from edm::eventsetup::DataProxyProvider
	DataProxyProvider ()
const ComponentDescription &	description () const
bool	isUsingRecord (const EventSetupRecordKey &) const
const KeyedProxies &	keyedProxies (const EventSetupRecordKey &iRecordKey) const
void	resetProxies (const EventSetupRecordKey &iRecordType)
void	resetProxiesIfTransient (const EventSetupRecordKey &iRecordType)
void	setAppendToDataLabel (const edm::ParameterSet &)
void	setDescription (const ComponentDescription &iDescription)
std::set< EventSetupRecordKey >	usingRecords () const
virtual	~DataProxyProvider ()

Private Types
enum	ERecoDet {   kDummy, kSiPixel, kSiStrip, kMuonDT,   kMuonRPC, kMuonCSC, kMuonGEM, kMuonME0,   kECal, kHCal, kHGCE, kHGCH }

Private Member Functions
void	addCSCGeometry ()
void	addDTGeometry ()
void	addEcalCaloGeometry ()
void	addGEMGeometry ()
void	addHcalCaloGeometryBarrel ()
void	addHcalCaloGeometryEndcap ()
void	addME0Geometry ()
void	addPixelBarrelGeometry ()
void	addPixelForwardGeometry ()
void	addRPCGeometry ()
void	addTECGeometry ()
void	addTIBGeometry ()
void	addTIDGeometry ()
void	addTOBGeometry ()
TGeoManager *	createManager (int level)
TGeoShape *	createShape (const GeomDet *det)
TGeoVolume *	createVolume (const std::string &name, const GeomDet *det, ERecoDet=kDummy)
	FWTGeoRecoGeometryESProducer (const FWTGeoRecoGeometryESProducer &)
TGeoVolume *	GetDaughter (TGeoVolume *mother, const char *prefix, ERecoDet cidx, int id)
TGeoVolume *	GetDaughter (TGeoVolume *mother, const char *prefix, ERecoDet cidx)
TGeoMedium *	GetMedium (ERecoDet)
TGeoVolume *	GetTopHolder (const char *prefix, ERecoDet cidx)
const FWTGeoRecoGeometryESProducer &	operator= (const FWTGeoRecoGeometryESProducer &)

Private Attributes
edm::ESHandle< CaloGeometry >	m_caloGeom
TGeoMedium *	m_dummyMedium
boost::shared_ptr < FWTGeoRecoGeometry >	m_fwGeometry
edm::ESHandle < GlobalTrackingGeometry >	m_geomRecord
std::map< std::string, TGeoShape * >	m_nameToShape
std::map< ERecoDet, TGeoMedium * >	m_recoMedium
std::map< TGeoShape *, TGeoVolume * >	m_shapeToVolume
const TrackerGeometry *	m_trackerGeom

Additional Inherited Members
Public Types inherited from edm::eventsetup::DataProxyProvider
typedef std::vector< std::pair < DataKey, edm::propagate_const < std::shared_ptr< DataProxy > > > >	KeyedProxies
typedef std::vector < EventSetupRecordKey >	Keys
typedef std::map < EventSetupRecordKey, KeyedProxies >	RecordProxies
Static Public Member Functions inherited from edm::eventsetup::DataProxyProvider
static void	prevalidate (ConfigurationDescriptions &)
Protected Member Functions inherited from edm::ESProducer
template<typename T >
void	setWhatProduced (T *iThis, const es::Label &iLabel=es::Label())
template<typename T >
void	setWhatProduced (T *iThis, const char *iLabel)
template<typename T >
void	setWhatProduced (T *iThis, const std::string &iLabel)
template<typename T , typename TDecorator >
void	setWhatProduced (T *iThis, const TDecorator &iDec, const es::Label &iLabel=es::Label())
template<typename T , typename TReturn , typename TRecord >
void	setWhatProduced (T *iThis, TReturn(T::*iMethod)(const TRecord &), const es::Label &iLabel=es::Label())
template<typename T , typename TReturn , typename TRecord , typename TArg >
void	setWhatProduced (T *iThis, TReturn(T::*iMethod)(const TRecord &), const TArg &iDec, const es::Label &iLabel=es::Label())
Protected Member Functions inherited from edm::ESProxyFactoryProducer
template<class TFactory >
void	registerFactory (std::auto_ptr< TFactory > iFactory, const std::string &iLabel=std::string())
virtual void	registerFactoryWithKey (const eventsetup::EventSetupRecordKey &iRecord, std::auto_ptr< eventsetup::ProxyFactoryBase > &iFactory, const std::string &iLabel=std::string())
virtual void	registerProxies (const eventsetup::EventSetupRecordKey &iRecord, KeyedProxies &aProxyList)
	override DataProxyProvider method More...
Protected Member Functions inherited from edm::eventsetup::DataProxyProvider
void	eraseAll (const EventSetupRecordKey &iRecordKey)
	deletes all the Proxies in aStream More...
void	invalidateProxies (const EventSetupRecordKey &iRecordKey)
template<class T >
void	usingRecord ()
void	usingRecordWithKey (const EventSetupRecordKey &)

Detailed Description

Definition at line 28 of file FWTGeoRecoGeometryESProducer.h.

Member Enumeration Documentation

enum FWTGeoRecoGeometryESProducer::ERecoDet

private

Enumerator
kDummy
kSiPixel
kSiStrip
kMuonDT
kMuonRPC
kMuonCSC
kMuonGEM
kMuonME0
kECal
kHCal
kHGCE
kHGCH

Definition at line 30 of file FWTGeoRecoGeometryESProducer.h.

                  {kDummy, 
                   kSiPixel, kSiStrip,
                   kMuonDT, kMuonRPC, kMuonCSC, kMuonGEM, kMuonME0,
                   kECal, kHCal,
                   kHGCE, kHGCH };

Constructor & Destructor Documentation

FWTGeoRecoGeometryESProducer::FWTGeoRecoGeometryESProducer

(

const edm::ParameterSet &

)

Definition at line 66 of file FWTGeoRecoGeometryESProducer.cc.

References edm::ESProducer::setWhatProduced().

                                                                                    :
m_dummyMedium(0)
{
  setWhatProduced( this );
}

FWTGeoRecoGeometryESProducer::~FWTGeoRecoGeometryESProducer ( void  )

virtual

Definition at line 72 of file FWTGeoRecoGeometryESProducer.cc.

{}

FWTGeoRecoGeometryESProducer::FWTGeoRecoGeometryESProducer ( const FWTGeoRecoGeometryESProducer &  )

private

Member Function Documentation

void FWTGeoRecoGeometryESProducer::addCSCGeometry ( void  )

private

Definition at line 687 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), CSCDetId, GetDaughter(), GetTopHolder(), kMuonCSC, kMuonRPC, m_geomRecord, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   if(! m_geomRecord->slaveGeometry( CSCDetId()))
      throw cms::Exception( "FatalError" ) << "Cannnot find CSCGeometry\n";

   
   TGeoVolume* tv =  GetTopHolder("Muon", kMuonRPC);
   TGeoVolume *assembly = GetDaughter(tv, "CSC", kMuonCSC);

   auto const & cscGeom = m_geomRecord->slaveGeometry( CSCDetId())->dets();
   for( auto  it = cscGeom.begin(), itEnd = cscGeom.end(); it != itEnd; ++it )
   {    
      unsigned int rawid = (*it)->geographicalId();
      CSCDetId detId(rawid);
      std::stringstream s;
      s << "CSC" << detId;
      std::string name = s.str();
      
      TGeoVolume* child = 0;

      if( auto chamber = dynamic_cast<const CSCChamber*>(*it))
         child = createVolume( name, chamber, kMuonCSC );
      else if( auto * layer = dynamic_cast<const CSCLayer*>(*it))
         child = createVolume( name, layer, kMuonCSC );



      if (child) {
         TGeoVolume* holder  = GetDaughter(assembly, "Endcap", kMuonCSC, detId.endcap());
         holder = GetDaughter(holder, "Station", kMuonCSC, detId.station());
         holder = GetDaughter(holder, "Ring", kMuonCSC, detId.ring());
         holder = GetDaughter(holder, "Chamber", kMuonCSC , detId.chamber());
      
         //   holder->AddNode(child, 1,  createPlacement( *it ));
         AddLeafNode(holder, child, name.c_str(),  createPlacement(*it));
      }
   }

}

void FWTGeoRecoGeometryESProducer::addDTGeometry ( void  )

private

Definition at line 598 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), DTChamberId, DTLayerId, DTSuperLayerId, end, GetDaughter(), GetTopHolder(), kMuonDT, kMuonRPC, m_geomRecord, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder("Muon", kMuonRPC);
   TGeoVolume *assemblyTop = GetDaughter(tv, "DT", kMuonDT);

   //
   // DT chambers geometry
   //
   {
      TGeoVolume *assembly = GetDaughter(assemblyTop, "DTChamber", kMuonDT);
      auto const & dtChamberGeom = m_geomRecord->slaveGeometry( DTChamberId())->dets();
      for( auto it = dtChamberGeom.begin(),
              end = dtChamberGeom.end(); 
           it != end; ++it )
      {
         if( auto chamber = dynamic_cast< const DTChamber *>(*it))
         {      
            DTChamberId detid = chamber->geographicalId();
            std::stringstream s;
            s << detid;
            std::string name = s.str();
      
            TGeoVolume* child = createVolume( name, chamber, kMuonDT );
            TGeoVolume* holder  = GetDaughter(assembly, "Wheel", kMuonDT, detid.wheel());
            holder = GetDaughter(holder, "Station", kMuonDT, detid.station());
            holder = GetDaughter(holder, "Sector", kMuonDT, detid.sector());
   
            AddLeafNode(holder, child, name.c_str(),  createPlacement( chamber));
         }
      }
   }

   // Fill in DT super layer parameters
   {
      TGeoVolume *assembly = GetDaughter(assemblyTop, "DTSuperLayer", kMuonDT);
      auto const & dtSuperLayerGeom = m_geomRecord->slaveGeometry( DTSuperLayerId())->dets();
      for( auto it = dtSuperLayerGeom.begin(),
              end = dtSuperLayerGeom.end(); 
           it != end; ++it )
      {
         if( auto * superlayer = dynamic_cast<const DTSuperLayer*>(*it))
         {
            DTSuperLayerId detid( DetId(superlayer->geographicalId()));
            std::stringstream s;
            s << detid;
            std::string name = s.str();
      
            TGeoVolume* child = createVolume( name, superlayer, kMuonDT );

            TGeoVolume* holder  = GetDaughter(assembly, "Wheel", kMuonDT, detid.wheel());
            holder = GetDaughter(holder, "Station", kMuonDT, detid.station());
            holder = GetDaughter(holder, "Sector", kMuonDT, detid.sector());
            holder = GetDaughter(holder, "SuperLayer", kMuonDT, detid.superlayer());
            AddLeafNode(holder, child, name.c_str(),  createPlacement( superlayer));
         }
      }
   }
   // Fill in DT layer parameters
   {
      TGeoVolume *assembly = GetDaughter(assemblyTop, "DTLayer", kMuonDT);
      auto const & dtLayerGeom = m_geomRecord->slaveGeometry( DTLayerId())->dets();
      for( auto it = dtLayerGeom.begin(),
              end = dtLayerGeom.end(); 
           it != end; ++it )
      {
         if(auto layer = dynamic_cast<const DTLayer*>(*it))
         {

            DTLayerId detid( DetId(layer->geographicalId()));

            std::stringstream s;
            s << detid;
            std::string name = s.str();
      
            TGeoVolume* child = createVolume( name, layer, kMuonDT );

            TGeoVolume* holder  = GetDaughter(assembly, "Wheel", kMuonDT, detid.wheel());
            holder = GetDaughter(holder, "Station", kMuonDT, detid.station());
            holder = GetDaughter(holder, "Sector", kMuonDT, detid.sector());
            holder = GetDaughter(holder, "SuperLayer", kMuonDT, detid.superlayer());
            holder = GetDaughter(holder, "Layer", kMuonDT, detid.layer());
            AddLeafNode(holder, child, name.c_str(),  createPlacement( layer));
         }
      } 
   }
}

void FWTGeoRecoGeometryESProducer::addEcalCaloGeometry ( void  )

private

Definition at line 1085 of file FWTGeoRecoGeometryESProducer.cc.

References DetId::Ecal, EcalBarrel, EcalEndcap, end, CaloCellGeometry::getCorners(), GetDaughter(), getEcalTrans(), GetMedium(), GetTopHolder(), EBDetId::ieta(), EEDetId::ix(), kECal, m_caloGeom, makeEcalShape(), CaloCellGeometry::param(), EBDetId::zside(), and EEDetId::zside().

Referenced by produce().

{

   TGeoVolume* tv =  GetTopHolder("ECal", kECal);
   CaloVolMap caloShapeMap;

   {
      TGeoVolume *assembly = GetDaughter(tv, "ECalBarrel", kECal);

      std::vector<DetId> vid = m_caloGeom->getValidDetIds(DetId::Ecal, EcalSubdetector::EcalBarrel);
      for( std::vector<DetId>::const_iterator it = vid.begin(), end = vid.end(); it != end; ++it)
      {
         EBDetId detid(*it);
         const TruncatedPyramid* cell = dynamic_cast<const TruncatedPyramid*> ( m_caloGeom->getGeometry( *it ));
         if (!cell) { printf("ecalBarrel cell not a TruncatedPyramid !!\n"); return; }

         TGeoVolume* volume = 0;
         CaloVolMap::iterator volIt =  caloShapeMap.find(cell->param());
         if  ( volIt == caloShapeMap.end()) 
         {           
            volume = new TGeoVolume( "EE TruncatedPyramid" , makeEcalShape(cell), GetMedium(kECal));
            caloShapeMap[cell->param()] = volume;
         }
         else {
            volume = volIt->second;
         }
         TGeoHMatrix* mtx= getEcalTrans(cell->getCorners());
         TGeoVolume* holder = GetDaughter(assembly, "side", kECal, detid.zside());
         holder = GetDaughter(holder, "ieta", kECal, detid.ieta());
         std::stringstream nname;
         nname << detid;
         AddLeafNode(holder, volume, nname.str().c_str(), mtx);
      }
   }
   

   {
      TGeoVolume *assembly = GetDaughter(tv, "ECalEndcap", kECal);

      std::vector<DetId> vid = m_caloGeom->getValidDetIds(DetId::Ecal, EcalSubdetector::EcalEndcap);
      for( std::vector<DetId>::const_iterator it = vid.begin(), end = vid.end(); it != end; ++it)
      {
         EEDetId detid(*it);
         const TruncatedPyramid* cell = dynamic_cast<const TruncatedPyramid*> (m_caloGeom->getGeometry( *it ));
         if (!cell) { printf("ecalEndcap cell not a TruncatedPyramid !!\n"); continue;}

         TGeoVolume* volume = 0;
         CaloVolMap::iterator volIt =  caloShapeMap.find(cell->param());
         if  ( volIt == caloShapeMap.end()) 
         {
            
            volume = new TGeoVolume( "EE TruncatedPyramid" , makeEcalShape(cell), GetMedium(kECal));
            caloShapeMap[cell->param()] = volume;
         }
         else {
            volume = volIt->second;
         }
         TGeoHMatrix* mtx= getEcalTrans(cell->getCorners());
         TGeoVolume* holder = GetDaughter(assembly, "side", kECal, detid.zside());
         holder = GetDaughter(holder, "ix", kECal, detid.ix());
         std::stringstream nname;
         nname << detid;
         AddLeafNode(holder, volume, nname.str().c_str(), mtx);
      }
   }
}

void FWTGeoRecoGeometryESProducer::addGEMGeometry ( void  )

private

Definition at line 730 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), end, GEMGeometry::etaPartitions(), cppFunctionSkipper::exception, MuonSubdetId::GEM, GeomDet::geographicalId(), GetDaughter(), GetTopHolder(), kMuonGEM, kMuonRPC, m_geomRecord, DetId::Muon, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, and cms::Exception::what().

Referenced by produce().

{ 
   try {
      DetId detId( DetId::Muon, MuonSubdetId::GEM );
      const GEMGeometry* gemGeom = (const GEMGeometry*) m_geomRecord->slaveGeometry( detId );

      TGeoVolume* tv =  GetTopHolder("Muon", kMuonRPC);
      TGeoVolume *assembly = GetDaughter(tv, "GEM", kMuonGEM);

      for( auto it = gemGeom->etaPartitions().begin(),
              end = gemGeom->etaPartitions().end(); 
           it != end; ++it )
      {
         const GEMEtaPartition* roll = (*it);
         if( roll )
         {
            GEMDetId detid = roll->geographicalId();
            std::stringstream s;
            s << detid;
            std::string name = s.str();
      
            TGeoVolume* child = createVolume( name, roll, kMuonGEM );

            TGeoVolume* holder  = GetDaughter(assembly, "ROLL Region", kMuonGEM , detid.region());
            holder = GetDaughter(holder, "Ring", kMuonGEM , detid.ring());
            holder = GetDaughter(holder, "Station", kMuonGEM , detid.station()); 
            holder = GetDaughter(holder, "Layer", kMuonGEM , detid.layer()); 
            holder = GetDaughter(holder, "Chamber", kMuonGEM , detid.chamber()); 

            AddLeafNode(holder, child, name.c_str(),  createPlacement(*it));
         }
      }
   }catch (cms::Exception &exception) {
    edm::LogInfo("FWRecoGeometry") << "failed to produce GEM geometry " << exception.what() << std::endl;

   }
}

void FWTGeoRecoGeometryESProducer::addHcalCaloGeometryBarrel ( void  )

private

Definition at line 851 of file FWTGeoRecoGeometryESProducer.cc.

References EnergyCorrector::c, end, CaloCellGeometry::etaPos(), CaloCellGeometry::getCorners(), GetDaughter(), GetMedium(), GetTopHolder(), DetId::Hcal, HcalBarrel, HcalDetId::ieta(), kHCal, IdealObliquePrism::localCorners(), m_caloGeom, CaloCellGeometry::param(), CaloCellGeometry::phiPos(), makeMuonMisalignmentScenario::rot, x, y, z, and HcalDetId::zside().

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder("HCal", kHCal); 
   TGeoVolume *assembly = GetDaughter(tv, "HCalBarrel", kHCal);

   std::vector<DetId> vid = m_caloGeom->getValidDetIds(DetId::Hcal, HcalSubdetector::HcalBarrel);

   CaloVolMap caloShapeMapP;
   CaloVolMap caloShapeMapN;
   for( std::vector<DetId>::const_iterator it = vid.begin(), end = vid.end(); it != end; ++it)
   {
      HcalDetId detid = HcalDetId(it->rawId());

      const CaloCellGeometry* cellb= m_caloGeom->getGeometry(*it);

      const IdealObliquePrism* cell = dynamic_cast<const IdealObliquePrism*> (cellb);
   
      if (!cell) { printf ("HB not olique !!!\n"); continue; }
  
      TGeoVolume* volume = 0;
      CaloVolMap& caloShapeMap = (cell->etaPos() > 0) ? caloShapeMapP : caloShapeMapN;
      CaloVolMap::iterator volIt =  caloShapeMap.find(cell->param());
      if  (volIt == caloShapeMap.end()) 
      {
         // printf("FIREWORKS NEW SHAPE BEGIN eta = %f etaPos = %f, phiPos %f >>>>>> \n", cell->eta(), cell->etaPos(), cell->phiPos());
         IdealObliquePrism::Pt3DVec lc(8);
         IdealObliquePrism::Pt3D ref;
         IdealObliquePrism::localCorners( lc, cell->param(), ref);
         HepGeom::Vector3D<float> lCenter;
         for( int c = 0; c < 8; ++c)
            lCenter += lc[c];
         lCenter *= 0.125;

         static const int arr[] = { 1, 0, 3, 2,  5, 4, 7, 6 };
         double points[16];
         for (int c = 0; c < 8; ++c) {
            if (cell->etaPos() > 0 )
               points[ c*2 + 0 ] = -(lc[arr[c]].z() - lCenter.z());
            else
               points[ c*2 + 0 ] = (lc[arr[c]].z() - lCenter.z()); 

            points[ c*2 + 1 ] =  (lc[arr[c]].y() - lCenter.y());
            // printf("AMT xy[%d] <=>[%d] = (%.4f, %.4f) \n", arr[c], c, points[c*2],  points[c*2+1]);
         }

         float dz = (lc[4].x() -lc[0].x()) * 0.5;
         TGeoShape* solid = new TGeoArb8(dz, &points[0]);
         volume = new TGeoVolume("hcal oblique prism", solid, GetMedium(kHCal));
         caloShapeMap[cell->param()] = volume;
      }
      else {

         volume = volIt->second;

      }      

      HepGeom::Vector3D<float> gCenter;
      CaloCellGeometry::CornersVec const & gc = cell->getCorners();
      for (int c = 0; c < 8; ++c)
         gCenter += HepGeom::Vector3D<float>(gc[c].x(), gc[c].y(), gc[c].z());
      gCenter *= 0.125;

      TGeoTranslation gtr(gCenter.x(), gCenter.y(), gCenter.z());
      TGeoRotation rot; 
      rot.RotateY(90);
     
      TGeoRotation rotPhi;
      rotPhi.SetAngles(0, -cell->phiPos()*TMath::RadToDeg(), 0);
      rot.MultiplyBy(&rotPhi);    

      TGeoVolume* holder  = GetDaughter(assembly, "side", kHCal, detid.zside());
      holder = GetDaughter(holder, "ieta", kHCal, detid.ieta());
      std::stringstream nname;
      nname << detid;
      AddLeafNode(holder, volume, nname.str().c_str(), new TGeoCombiTrans(gtr, rot));
   }


   //  printf("HB map size P = %lu , N = %lu", caloShapeMapP.size(),caloShapeMapN.size() );

}

void FWTGeoRecoGeometryESProducer::addHcalCaloGeometryEndcap ( void  )

private

Definition at line 935 of file FWTGeoRecoGeometryESProducer.cc.

References EnergyCorrector::c, end, GetDaughter(), GetMedium(), GetTopHolder(), DetId::Hcal, HcalEndcap, HcalDetId::ieta(), kHCal, IdealObliquePrism::localCorners(), m_caloGeom, makeMuonMisalignmentScenario::rot, and HcalDetId::zside().

Referenced by produce().

{

   CaloVolMap caloShapeMapP;
   CaloVolMap caloShapeMapN;

   TGeoVolume* tv =  GetTopHolder("HCal", kHCal); 
   TGeoVolume *assembly = GetDaughter(tv, "HCalEndcap", kHCal);

   std::vector<DetId> vid = m_caloGeom->getValidDetIds(DetId::Hcal, HcalSubdetector::HcalEndcap);

   for( std::vector<DetId>::const_iterator it = vid.begin(), end = vid.end(); it != end; ++it)
   {
      HcalDetId detid = HcalDetId(it->rawId());
      const IdealObliquePrism* cell = dynamic_cast<const IdealObliquePrism*> ( m_caloGeom->getGeometry(*it));
   
      if (!cell) { printf ("EC not olique \n"); continue; }

      TGeoVolume* volume = 0;
      CaloVolMap& caloShapeMap = (cell->etaPos() > 0) ? caloShapeMapP : caloShapeMapN;
      CaloVolMap::iterator volIt =  caloShapeMap.find(cell->param());
      if  ( volIt == caloShapeMap.end()) 
      {
         IdealObliquePrism::Pt3DVec lc(8);
         IdealObliquePrism::Pt3D ref;
         IdealObliquePrism::localCorners( lc, cell->param(), ref);
         HepGeom::Vector3D<float> lCenter; 
         for( int c = 0; c < 8; ++c)
            lCenter += lc[c];
         lCenter *= 0.125;

         //for( int c = 0; c < 8; ++c)
         //   printf("lc.push_back(TEveVector(%.4f, %.4f, %.4f));\n", lc[c].x(), lc[c].y(), lc[c].z() );


         static const int arrP[] = { 3, 2, 1, 0, 7, 6, 5, 4 };
         static const int arrN[] = {  7, 6, 5, 4 ,3, 2, 1, 0};
         const int* arr = (detid.ieta() > 0) ?  &arrP[0] : &arrN[0];

         double points[16];
         for (int c = 0; c < 8; ++c) {
            points[ c*2 + 0 ] = lc[arr[c]].x() - lCenter.x(); 
            points[ c*2 + 1 ] = lc[arr[c]].y() - lCenter.y();
         }

         float dz = (lc[4].z() -lc[0].z()) * 0.5;
         TGeoShape* solid = new TGeoArb8(dz, &points[0]);
         volume = new TGeoVolume("ecal oblique prism", solid, GetMedium(kHCal));
         caloShapeMap[cell->param()] = volume;
      }
      else {

         volume = volIt->second;

      }      

      HepGeom::Vector3D<float> gCenter;
      CaloCellGeometry::CornersVec const & gc = cell->getCorners();
      for (int c = 0; c < 8; ++c) {
         gCenter += HepGeom::Vector3D<float>(gc[c].x(), gc[c].y(), gc[c].z());
         //  printf("gc.push_back(TEveVector(%.4f, %.4f, %.4f));\n", gc[c].x(), gc[c].y(),gc[c].z() );
      }
      gCenter *= 0.125;

      TGeoTranslation gtr(gCenter.x(), gCenter.y(), gCenter.z());
      TGeoRotation rot;
      rot.SetAngles(cell->phiPos()*TMath::RadToDeg(), 0, 0);

      TGeoVolume* holder  = GetDaughter(assembly, "side", kHCal, detid.zside());
      holder = GetDaughter(holder, "ieta", kHCal, detid.ieta());
      std::stringstream nname;
      nname << detid;
      AddLeafNode(holder, volume, nname.str().c_str(), new TGeoCombiTrans(gtr, rot));
   }

   //   printf("HE map size P = %lu , N = %lu", caloShapeMapP.size(),caloShapeMapN.size() );
}

void FWTGeoRecoGeometryESProducer::addME0Geometry ( void  )

private

Definition at line 806 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), ME0Geometry::etaPartitions(), cppFunctionSkipper::exception, GetDaughter(), GetTopHolder(), kMuonME0, m_geomRecord, DetId::Muon, alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, and cms::Exception::what().

Referenced by produce().

{
  TGeoVolume* tv =  GetTopHolder("Muon", kMuonME0);
  TGeoVolume *assembly = GetDaughter(tv, "ME0", kMuonME0);

  DetId detId( DetId::Muon, 5 );
  try 
    {
      const ME0Geometry* me0Geom = (const ME0Geometry*) m_geomRecord->slaveGeometry( detId );

      for(auto roll : me0Geom->etaPartitions())
    { 
      if( roll )
        {
          unsigned int rawid = roll->geographicalId().rawId();
          //std::cout << "AMT FWTTTTRecoGeometryES\n" << rawid ;
                        
          ME0DetId detid(rawid);
          std::stringstream s;
          s << detid;
          std::string name = s.str();
          TGeoVolume* child = createVolume( name, roll, kMuonME0 );

          TGeoVolume* holder  = GetDaughter(assembly, "Region", kMuonME0, detid.region());
          holder = GetDaughter(holder, "Layer", kMuonME0, detid.layer()); 
          holder = GetDaughter(holder, "Chamber", kMuonME0, detid.chamber()); 
          AddLeafNode(holder, child, name.c_str(),  createPlacement(roll));


        }
    }
    }
  catch( cms::Exception &exception )
    {
      edm::LogInfo("FWRecoGeometry") << "failed to produce ME0 geometry " << exception.what() << std::endl;
    }
}

void FWTGeoRecoGeometryESProducer::addPixelBarrelGeometry ( void  )

private

Definition at line 427 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsPXB(), end, GetDaughter(), GetTopHolder(), kSiPixel, PXBDetId::layer(), m_trackerGeom, PXBDetId::module(), DetId::rawId(), and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder("SiPixel", kSiPixel);
   TGeoVolume *assembly = GetDaughter(tv, "PXB", kSiPixel);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsPXB().begin(),
           end = m_trackerGeom->detsPXB().end();
        it != end; ++it)
   {
       DetId detid = ( *it )->geographicalId();
       unsigned int rawid = detid.rawId();

       PXBDetId xx(rawid);
       std::string name = Form("PXB Ly:%d, Md:%d Ld:%d ", xx.layer(), xx.module(), xx.layer());
       TGeoVolume* child = createVolume( name, *it, kSiPixel );

       TGeoVolume* holder  = GetDaughter(assembly, "Layer", kSiPixel, xx.layer());
       holder = GetDaughter(holder, "Module", kSiPixel, xx.module());
                                 
       AddLeafNode(holder, child, name.c_str(), createPlacement( *it ));
   }
  

}

void FWTGeoRecoGeometryESProducer::addPixelForwardGeometry ( void  )

private

Definition at line 455 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsPXF(), end, GetDaughter(), GetTopHolder(), kSiPixel, m_trackerGeom, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder("SiPixel", kSiPixel);
   TGeoVolume *assembly = GetDaughter(tv, "PXF", kSiPixel);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsPXF().begin(),
           end = m_trackerGeom->detsPXF().end();
        it != end; ++it )
   {
      PXFDetId detid = ( *it )->geographicalId();
      std::stringstream s;
      s << detid;
      std::string name = s.str();

      TGeoVolume* child = createVolume( name, *it, kSiPixel );


      TGeoVolume* holder  = GetDaughter(assembly, "Side", kSiPixel, detid.side());
      holder = GetDaughter(holder, "Disk", kSiPixel, detid.disk());
      holder = GetDaughter(holder, "Blade", kSiPixel, detid.blade());
      holder = GetDaughter(holder, "Panel", kSiPixel, detid.panel());
   
      // holder->AddNode( child, 1, createPlacement( *it ));
      AddLeafNode(holder, child, name.c_str(),  createPlacement( *it ));

   }
  
}

void FWTGeoRecoGeometryESProducer::addRPCGeometry ( void  )

private

Definition at line 772 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), end, GeomDet::geographicalId(), GetDaughter(), GetTopHolder(), kMuonRPC, m_geomRecord, DetId::Muon, RPCGeometry::rolls(), MuonSubdetId::RPC, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder("Muon", kMuonRPC);
   TGeoVolume *assembly = GetDaughter(tv, "RPC", kMuonRPC);

   DetId detId( DetId::Muon, MuonSubdetId::RPC );
   const RPCGeometry* rpcGeom = (const RPCGeometry*) m_geomRecord->slaveGeometry( detId );
   for( auto it = rpcGeom->rolls().begin(),
           end = rpcGeom->rolls().end(); 
        it != end; ++it )
   {
      RPCRoll const* roll = (*it);
      if( roll )
      {
         RPCDetId detid = roll->geographicalId();
         std::stringstream s;
         s << detid;
         std::string name = s.str();
      
         TGeoVolume* child = createVolume( name, roll, kMuonRPC );

         TGeoVolume* holder  = GetDaughter(assembly, "ROLL Region", kMuonRPC, detid.region());
         holder = GetDaughter(holder, "Ring", kMuonRPC, detid.ring());
         holder = GetDaughter(holder, "Station", kMuonRPC, detid.station()); 
         holder = GetDaughter(holder, "Sector", kMuonRPC, detid.sector()); 
         holder = GetDaughter(holder, "Layer", kMuonRPC, detid.layer()); 
         holder = GetDaughter(holder, "Subsector", kMuonRPC, detid.subsector()); 
 
         AddLeafNode(holder, child, name.c_str(),  createPlacement(*it));
      }
   };
}

void FWTGeoRecoGeometryESProducer::addTECGeometry ( void  )

private

Definition at line 566 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsTEC(), end, GetDaughter(), GetTopHolder(), kSiStrip, m_trackerGeom, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder( "SiStrip", kSiStrip);
   TGeoVolume *assembly = GetDaughter(tv, "TEC", kSiStrip);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsTEC().begin(),
           end = m_trackerGeom->detsTEC().end();
        it != end; ++it )
   {
      TECDetId detid = ( *it )->geographicalId();

      std::stringstream s;
      s << detid;
      std::string name = s.str();

      TGeoVolume* child = createVolume( name, *it, kSiStrip );

      TGeoVolume* holder  = GetDaughter(assembly, "Order", kSiStrip, detid.order());
      holder = GetDaughter(holder, "Ring", kSiStrip, detid.ring());
      holder = GetDaughter(holder, "Module", kSiStrip, detid.module());
      AddLeafNode(holder, child, name.c_str(),  createPlacement( *it ));
   }
}

void FWTGeoRecoGeometryESProducer::addTIBGeometry ( void  )

private

Definition at line 488 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsTIB(), end, GetDaughter(), GetTopHolder(), kSiStrip, m_trackerGeom, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder( "SiStrip", kSiStrip);
   TGeoVolume *assembly = GetDaughter(tv,"TIB", kSiStrip);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsTIB().begin(),
           end = m_trackerGeom->detsTIB().end();
        it != end; ++it )
   {
      TIBDetId detid(( *it )->geographicalId());
      std::stringstream s;
      s << detid;
      std::string name = s.str();

      TGeoVolume* child = createVolume( name, *it, kSiStrip );

      TGeoVolume* holder  = GetDaughter(assembly, "Module", kSiStrip, detid.module());
      holder = GetDaughter(holder, "Order", kSiStrip, detid.order());
      holder = GetDaughter(holder, "Side", kSiStrip, detid.side());
      AddLeafNode(holder, child, name.c_str(),  createPlacement( *it ));
   }
}

void FWTGeoRecoGeometryESProducer::addTIDGeometry ( void  )

private

Definition at line 515 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsTID(), end, GetDaughter(), GetTopHolder(), kSiStrip, m_trackerGeom, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder( "SiStrip", kSiStrip);
   TGeoVolume *assembly = GetDaughter( tv, "TID", kSiStrip);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsTID().begin(),
           end = m_trackerGeom->detsTID().end();
        it != end; ++it)
   {
      TIDDetId detid = ( *it )->geographicalId();
      std::stringstream s;
      s << detid;
      std::string name = s.str();

      TGeoVolume* child = createVolume( name, *it, kSiStrip );
      TGeoVolume* holder  = GetDaughter(assembly, "Side", kSiStrip, detid.side());
      holder = GetDaughter(holder, "Wheel", kSiStrip, detid.wheel());
      holder = GetDaughter(holder, "Ring", kSiStrip, detid.ring());
      AddLeafNode(holder, child, name.c_str(),  createPlacement( *it ));
   }
}

void FWTGeoRecoGeometryESProducer::addTOBGeometry ( void  )

private

Definition at line 540 of file FWTGeoRecoGeometryESProducer.cc.

References createVolume(), TrackerGeometry::detsTOB(), end, GetDaughter(), GetTopHolder(), kSiStrip, m_trackerGeom, alignCSCRings::s, and AlCaHLTBitMon_QueryRunRegistry::string.

Referenced by produce().

{
   TGeoVolume* tv =  GetTopHolder( "SiStrip", kSiStrip);
   TGeoVolume *assembly = GetDaughter(tv, "TOB",  kSiStrip);

   for( TrackerGeometry::DetContainer::const_iterator it = m_trackerGeom->detsTOB().begin(),
           end = m_trackerGeom->detsTOB().end();
        it != end; ++it )
   {
      TOBDetId detid(( *it )->geographicalId());
      std::stringstream s;
      s << detid;
      std::string name = s.str();

      TGeoVolume* child = createVolume( name, *it, kSiStrip );
      TGeoVolume* holder  = GetDaughter(assembly, "Rod", kSiStrip, detid.rodNumber());
      holder = GetDaughter(holder, "Side", kSiStrip, detid.side());
      holder = GetDaughter(holder, "Module", kSiStrip, detid.moduleNumber());
      AddLeafNode(holder, child, name.c_str(),  createPlacement( *it ));
   }

}

TGeoManager* FWTGeoRecoGeometryESProducer::createManager ( int  level )

private

TGeoShape * FWTGeoRecoGeometryESProducer::createShape ( const GeomDet *  det )

private

Create TGeo shape for GeomDet

Definition at line 322 of file FWTGeoRecoGeometryESProducer.cc.

References b, Surface::bounds(), Bounds::length(), m_nameToShape, mergeVDriftHistosByStation::name, TrapezoidalPlaneBounds::parameters(), alignCSCRings::s, AlCaHLTBitMon_QueryRunRegistry::string, GeomDet::surface(), Bounds::thickness(), Bounds::width(), and create_public_lumi_plots::width.

Referenced by createVolume().

{
  TGeoShape* shape = 0;

  // Trapezoidal
  const Bounds *b = &((det->surface ()).bounds ());
  const TrapezoidalPlaneBounds *b2 = dynamic_cast<const TrapezoidalPlaneBounds *> (b);
  if( b2 )
  {
      std::array< const float, 4 > const & par = b2->parameters ();
    
    // These parameters are half-lengths, as in CMSIM/GEANT3
    float hBottomEdge = par [0];
    float hTopEdge    = par [1];
    float thickness   = par [2];
    float apothem     = par [3];

    std::stringstream s;
    s << "T_"
      << hBottomEdge << "_"
      << hTopEdge << "_"
      << thickness << "_"
      << apothem;
    std::string name = s.str();

    // Do not create identical shape,
    // if one already exists
    shape = m_nameToShape[name];
    if( 0 == shape )
    {
      shape = new TGeoTrap(
    name.c_str(),
    thickness,  //dz
    0,      //theta
    0,      //phi
    apothem,    //dy1
    hBottomEdge,//dx1
    hTopEdge,   //dx2
    0,      //alpha1
    apothem,    //dy2
    hBottomEdge,//dx3
    hTopEdge,   //dx4
    0);         //alpha2

      m_nameToShape[name] = shape;
    }
  }
  if( dynamic_cast<const RectangularPlaneBounds *> (b) != 0 )
  {
    // Rectangular
    float length = det->surface().bounds().length();
    float width = det->surface().bounds ().width();
    float thickness = det->surface().bounds().thickness();

    std::stringstream s;
    s << "R_"
      << width << "_"
      << length << "_"
      << thickness;
    std::string name = s.str();

    // Do not create identical shape,
    // if one already exists
    shape = m_nameToShape[name];
    if( 0 == shape )
    {
      shape = new TGeoBBox( name.c_str(), width / 2., length / 2., thickness / 2. ); // dx, dy, dz

      m_nameToShape[name] = shape;
    }
  }
  
  return shape;
}

TGeoVolume * FWTGeoRecoGeometryESProducer::createVolume ( const std::string &  name, const GeomDet *  det, ERecoDet  mid = kDummy  )

private

Create TGeo volume for GeomDet

Definition at line 399 of file FWTGeoRecoGeometryESProducer.cc.

References createShape(), GetMedium(), and m_shapeToVolume.

Referenced by addCSCGeometry(), addDTGeometry(), addGEMGeometry(), addME0Geometry(), addPixelBarrelGeometry(), addPixelForwardGeometry(), addRPCGeometry(), addTECGeometry(), addTIBGeometry(), addTIDGeometry(), and addTOBGeometry().

{
   TGeoShape* solid = createShape( det );

   std::map<TGeoShape*, TGeoVolume*>::iterator vIt = m_shapeToVolume.find(solid);
   if (vIt != m_shapeToVolume.end()) return  vIt->second;
   

   TGeoVolume* volume = new TGeoVolume( name.c_str(),solid, GetMedium(mid));

   m_shapeToVolume[solid] = volume;

   return volume;
}

TGeoVolume * FWTGeoRecoGeometryESProducer::GetDaughter ( TGeoVolume *  mother, const char *  prefix, ERecoDet  cidx, int  id  )

private

Definition at line 114 of file FWTGeoRecoGeometryESProducer.cc.

References GetMedium().

Referenced by addCSCGeometry(), addDTGeometry(), addEcalCaloGeometry(), addGEMGeometry(), addHcalCaloGeometryBarrel(), addHcalCaloGeometryEndcap(), addME0Geometry(), addPixelBarrelGeometry(), addPixelForwardGeometry(), addRPCGeometry(), addTECGeometry(), addTIBGeometry(), addTIDGeometry(), addTOBGeometry(), and GetTopHolder().

{
   TGeoVolume* res = 0;
   if (mother->GetNdaughters()) { 
      TGeoNode* n = mother->FindNode(Form("%s_%d_1", prefix, id));
      if ( n ) res = n->GetVolume();
   }

   if (!res) {
      res = new TGeoVolumeAssembly( Form("%s_%d", prefix, id ));
      res->SetMedium(GetMedium(cidx));
      mother->AddNode(res, 1);
   }

   return res;
}

TGeoVolume * FWTGeoRecoGeometryESProducer::GetDaughter ( TGeoVolume *  mother, const char *  prefix, ERecoDet  cidx  )

private

Definition at line 131 of file FWTGeoRecoGeometryESProducer.cc.

References GetMedium().

{
   TGeoVolume* res = 0;
   if (mother->GetNdaughters()) { 
      TGeoNode* n = mother->FindNode(Form("%s_1",prefix));
      if ( n ) res = n->GetVolume();
   }

   if (!res) {
      //      printf("GetDau... new holder %s for mother %s \n", mother->GetName(), prefix);
      res = new TGeoVolumeAssembly(prefix);
      res->SetMedium(GetMedium(cidx));
      mother->AddNode(res, 1);
   }

   return res;
}

TGeoMedium * FWTGeoRecoGeometryESProducer::GetMedium ( ERecoDet  det )

private

Definition at line 171 of file FWTGeoRecoGeometryESProducer.cc.

References create_public_lumi_plots::color, kECal, kHCal, kHGCE, kHGCH, kMuonCSC, kMuonDT, kMuonGEM, kMuonME0, kMuonRPC, kSiPixel, kSiStrip, m_dummyMedium, m_recoMedium, AlCaHLTBitMon_QueryRunRegistry::string, and fireworks::switch().

Referenced by addEcalCaloGeometry(), addHcalCaloGeometryBarrel(), addHcalCaloGeometryEndcap(), createVolume(), and GetDaughter().

{
   std::map<ERecoDet, TGeoMedium*>::iterator it = m_recoMedium.find(det);
   if (it != m_recoMedium.end())
      return it->second;

   std::string name;
   int color;


   switch (det)
   {
      // TRACKER
      case kSiPixel:
         name = "SiPixel";
         color = GMCol::Green;
         break;

      case kSiStrip:
         name = "SiStrip";
         color = GMCol::Gray;
         break;
         // MUON
      case kMuonDT:
         name = "MuonDT";
         color = GMCol::Blue2;
         break;

      case kMuonRPC:
         name = "MuonRPC";
         color = GMCol::Red;
         break;

      case kMuonGEM:
         name = "MuonGEM";
         color = GMCol::Yellow1;
         break;

      case kMuonCSC:
         name = "MuonCSC";
         color = GMCol::Gray;
         break;

      case kMuonME0:
         name = "MuonME0";
         color = GMCol::Yellow0;
         break;

         // CALO
      case kECal:
         name = "ECal";
         color = GMCol::Blue2;
         break;
      case kHCal:
         name = "HCal";    
         color = GMCol::Orange1;
         break;
      case kHGCE:
         name = "HGCEE";
         color = GMCol::Blue2;
         break;
      case kHGCH:
         name = "HGCEH";
         color = GMCol::Blue1;
         break;
      default:
         printf("invalid medium id \n");
         return m_dummyMedium;
   }

   TGeoMaterial* mat = new TGeoMaterial(name.c_str(), 0, 0, 0);
   mat->SetZ(color);
   m_recoMedium[det] = new TGeoMedium(name.c_str(), 0, mat);
   mat->SetFillStyle(3000); // tansparency 3000-3100
   mat->SetDensity(1); // disable override of transparency in TGeoManager::DefaultColors()

   return m_recoMedium[det];
}

TGeoVolume * FWTGeoRecoGeometryESProducer::GetTopHolder ( const char *  prefix, ERecoDet  cidx  )

private

Definition at line 149 of file FWTGeoRecoGeometryESProducer.cc.

References GetDaughter().

Referenced by addCSCGeometry(), addDTGeometry(), addEcalCaloGeometry(), addGEMGeometry(), addHcalCaloGeometryBarrel(), addHcalCaloGeometryEndcap(), addME0Geometry(), addPixelBarrelGeometry(), addPixelForwardGeometry(), addRPCGeometry(), addTECGeometry(), addTIBGeometry(), addTIDGeometry(), and addTOBGeometry().

{
   //   printf("GetTopHolder res = %s \n", prefix);
   TGeoVolume* res =  GetDaughter(gGeoManager->GetTopVolume(), prefix, cidx);
   return res;
}

const FWTGeoRecoGeometryESProducer& FWTGeoRecoGeometryESProducer::operator= ( const FWTGeoRecoGeometryESProducer &  )

private

boost::shared_ptr< FWTGeoRecoGeometry > FWTGeoRecoGeometryESProducer::produce

(

const FWTGeoRecoGeometryRecord &

record

)

Definition at line 256 of file FWTGeoRecoGeometryESProducer.cc.

References addCSCGeometry(), addDTGeometry(), addEcalCaloGeometry(), addGEMGeometry(), addHcalCaloGeometryBarrel(), addHcalCaloGeometryEndcap(), addME0Geometry(), addPixelBarrelGeometry(), addPixelForwardGeometry(), addRPCGeometry(), addTECGeometry(), addTIBGeometry(), addTIDGeometry(), addTOBGeometry(), relativeConstraints::geom, edm::eventsetup::DependentRecordImplementation< RecordT, ListT >::getRecord(), m_caloGeom, m_dummyMedium, m_fwGeometry, m_geomRecord, m_trackerGeom, and DetId::Tracker.

Referenced by JSONExport.JsonExport::export(), HTMLExport.HTMLExport::export(), and HTMLExport.HTMLExportStatic::export().

{
   using namespace edm;

   m_fwGeometry = boost::shared_ptr<FWTGeoRecoGeometry>( new FWTGeoRecoGeometry );
   record.getRecord<GlobalTrackingGeometryRecord>().get( m_geomRecord );
  
   DetId detId( DetId::Tracker, 0 );
   m_trackerGeom = (const TrackerGeometry*) m_geomRecord->slaveGeometry( detId );
  
   record.getRecord<CaloGeometryRecord>().get( m_caloGeom );

   TGeoManager* geom = new TGeoManager( "cmsGeo", "CMS Detector" );
   if( 0 == gGeoIdentity )
   {
      gGeoIdentity = new TGeoIdentity( "Identity" );
   }

   m_fwGeometry->manager( geom );
  
   // Default material is Vacuum
   TGeoMaterial *vacuum = new TGeoMaterial( "Vacuum", 0 ,0 ,0 );
   m_dummyMedium = new TGeoMedium( "reco", 0, vacuum);


   TGeoVolume *top = geom->MakeBox( "CMS", m_dummyMedium, 270., 270., 120. );
  

   if( 0 == top )
   {
      return boost::shared_ptr<FWTGeoRecoGeometry>();
   }
   geom->SetTopVolume( top );
   // ROOT chokes unless colors are assigned
   top->SetVisibility( kFALSE );
   top->SetLineColor( kBlue );
   
   addPixelBarrelGeometry();
   addPixelForwardGeometry();

   addTIBGeometry();
   addTIDGeometry();
   addTOBGeometry();
   addTECGeometry();
   addDTGeometry();

   addCSCGeometry();
   addRPCGeometry();
   addME0Geometry();
   addGEMGeometry();

   addEcalCaloGeometry();   
   addHcalCaloGeometryBarrel();
   addHcalCaloGeometryEndcap();

   geom->CloseGeometry();

   geom->DefaultColors();
   // printf("==== geo manager NNodes = %d \n", geom->GetNNodes());
   geom->CloseGeometry();

   return m_fwGeometry;
}

Member Data Documentation

edm::ESHandle<CaloGeometry> FWTGeoRecoGeometryESProducer::m_caloGeom

private

Definition at line 76 of file FWTGeoRecoGeometryESProducer.h.

Referenced by addEcalCaloGeometry(), addHcalCaloGeometryBarrel(), addHcalCaloGeometryEndcap(), and produce().

TGeoMedium* FWTGeoRecoGeometryESProducer::m_dummyMedium

private

Definition at line 81 of file FWTGeoRecoGeometryESProducer.h.

Referenced by GetMedium(), and produce().

boost::shared_ptr<FWTGeoRecoGeometry> FWTGeoRecoGeometryESProducer::m_fwGeometry

private

Definition at line 79 of file FWTGeoRecoGeometryESProducer.h.

Referenced by produce().

edm::ESHandle<GlobalTrackingGeometry> FWTGeoRecoGeometryESProducer::m_geomRecord

private

Definition at line 75 of file FWTGeoRecoGeometryESProducer.h.

Referenced by addCSCGeometry(), addDTGeometry(), addGEMGeometry(), addME0Geometry(), addRPCGeometry(), and produce().

std::map<std::string, TGeoShape*> FWTGeoRecoGeometryESProducer::m_nameToShape

private

Definition at line 71 of file FWTGeoRecoGeometryESProducer.h.

Referenced by createShape().

std::map<ERecoDet, TGeoMedium*> FWTGeoRecoGeometryESProducer::m_recoMedium

private

Definition at line 73 of file FWTGeoRecoGeometryESProducer.h.

Referenced by GetMedium().

std::map<TGeoShape*, TGeoVolume*> FWTGeoRecoGeometryESProducer::m_shapeToVolume

private

Definition at line 72 of file FWTGeoRecoGeometryESProducer.h.

Referenced by createVolume().

const TrackerGeometry* FWTGeoRecoGeometryESProducer::m_trackerGeom

private

Definition at line 77 of file FWTGeoRecoGeometryESProducer.h.

Referenced by addPixelBarrelGeometry(), addPixelForwardGeometry(), addTECGeometry(), addTIBGeometry(), addTIDGeometry(), addTOBGeometry(), and produce().