#include <RPCGeometryBuilderFromCondDB.h>
Public Member Functions | |
RPCGeometry * | build (const RecoIdealGeometry &rgeo) |
RPCGeometryBuilderFromCondDB (bool comp11) | |
~RPCGeometryBuilderFromCondDB () | |
Private Attributes | |
std::map< RPCDetId, std::list < RPCRoll * > > | chids |
bool | theComp11Flag |
Build the RPCGeometry from the DDD description stored in Condition DB
Definition at line 21 of file RPCGeometryBuilderFromCondDB.h.
RPCGeometryBuilderFromCondDB::RPCGeometryBuilderFromCondDB | ( | bool | comp11 | ) |
Implementation of the RPC Geometry Builder from DDD stored in CondDB
Definition at line 27 of file RPCGeometryBuilderFromCondDB.cc.
: theComp11Flag(comp11) { }
RPCGeometryBuilderFromCondDB::~RPCGeometryBuilderFromCondDB | ( | ) |
Definition at line 31 of file RPCGeometryBuilderFromCondDB.cc.
{ }
RPCGeometry * RPCGeometryBuilderFromCondDB::build | ( | const RecoIdealGeometry & | rgeo | ) |
Definition at line 34 of file RPCGeometryBuilderFromCondDB.cc.
References RPCChamber::add(), chids, RecoIdealGeometry::detIds(), geometry, RPCDetId::layer(), Association::map, mergeVDriftHistosByStation::name, pos, alignCSCRings::r, RPCDetId::region(), RPCDetId::ring(), makeMuonMisalignmentScenario::rot, TkRotation< T >::rotateAxes(), RecoIdealGeometry::rotStart(), GeomDetEnumerators::RPCBarrel, GeomDetEnumerators::RPCEndcap, RPCDetId::sector(), RecoIdealGeometry::shapeEnd(), RecoIdealGeometry::shapeStart(), RPCDetId::station(), AlCaHLTBitMon_QueryRunRegistry::string, RecoIdealGeometry::strStart(), RPCDetId::subsector(), theComp11Flag, RecoIdealGeometry::tranStart(), and tablePrinter::width.
Referenced by RPCGeometryESModule::produce().
{ const std::vector<DetId>& detids(rgeo.detIds()); RPCGeometry* geometry = new RPCGeometry(); std::string name; std::vector<double>::const_iterator tranStart; std::vector<double>::const_iterator shapeStart; std::vector<double>::const_iterator rotStart; std::vector<std::string>::const_iterator strStart; for (unsigned int id=0; id<detids.size(); id++){ RPCDetId rpcid(detids[id]); RPCDetId chid(rpcid.region(),rpcid.ring(),rpcid.station(), rpcid.sector(),rpcid.layer(),rpcid.subsector(),0); tranStart=rgeo.tranStart(id); shapeStart=rgeo.shapeStart(id); rotStart=rgeo.rotStart(id); strStart=rgeo.strStart(id); name=*(strStart); Surface::PositionType pos(*(tranStart)/cm,*(tranStart+1)/cm, *(tranStart+2)/cm); // CLHEP way Surface::RotationType rot(*(rotStart+0),*(rotStart+1),*(rotStart+2), *(rotStart+3),*(rotStart+4),*(rotStart+5), *(rotStart+6),*(rotStart+7),*(rotStart+8)); std::vector<float> pars; RPCRollSpecs* rollspecs= 0; Bounds* bounds = 0; // if (dpar.size()==4){ if ( rgeo.shapeEnd(id) - shapeStart == 4 ) { float width = *(shapeStart+0)/cm; float length = *(shapeStart+1)/cm; float thickness = *(shapeStart+2)/cm; float nstrip = *(shapeStart+3); //RectangularPlaneBounds* bounds = new RectangularPlaneBounds(width,length,thickness); pars.push_back(width); pars.push_back(length); pars.push_back(nstrip); if (!theComp11Flag) { //Correction of the orientation to get the REAL geometry. //Change of axes for the +z part only. //Including the 0 whell if ( *(tranStart+2) > -1500.) { //tran[2] >-1500. ){ Basic3DVector<float> newX(-1.,0.,0.); Basic3DVector<float> newY(0.,-1.,0.); Basic3DVector<float> newZ(0.,0.,1.); rot.rotateAxes (newX, newY,newZ); } } rollspecs = new RPCRollSpecs(GeomDetEnumerators::RPCBarrel,name,pars); }else{ float be = *(shapeStart+0)/cm; float te = *(shapeStart+1)/cm; float ap = *(shapeStart+2)/cm; float ti = *(shapeStart+3)/cm; float nstrip = *(shapeStart+4); // TrapezoidalPlaneBounds* bounds = new TrapezoidalPlaneBounds(be,te,ap,ti); pars.push_back(be); //b/2; pars.push_back(te); //B/2; pars.push_back(ap); //h/2; pars.push_back(nstrip); rollspecs = new RPCRollSpecs(GeomDetEnumerators::RPCEndcap,name,pars); //Change of axes for the forward Basic3DVector<float> newX(1.,0.,0.); Basic3DVector<float> newY(0.,0.,1.); // if (tran[2] > 0. ) newY *= -1; Basic3DVector<float> newZ(0.,1.,0.); rot.rotateAxes (newX, newY,newZ); } BoundPlane* bp = new BoundPlane(pos,rot,bounds); ReferenceCountingPointer<BoundPlane> surf(bp); RPCRoll* r=new RPCRoll(rpcid,surf,rollspecs); geometry->add(r); std::list<RPCRoll *> rls; if (chids.find(chid)!=chids.end()){ rls = chids[chid]; } rls.push_back(r); chids[chid]=rls; } // Create the RPCChambers and store them on the Geometry for( std::map<RPCDetId, std::list<RPCRoll *> >::iterator ich=chids.begin(); ich != chids.end(); ich++){ RPCDetId chid = ich->first; std::list<RPCRoll * > rls = ich->second; // compute the overall boundplane. At the moment we use just the last // surface BoundPlane* bp=0; for(std::list<RPCRoll *>::iterator rl=rls.begin(); rl!=rls.end(); rl++){ const BoundPlane& bps = (*rl)->surface(); bp = const_cast<BoundPlane *>(&bps); } ReferenceCountingPointer<BoundPlane> surf(bp); // Create the chamber RPCChamber* ch = new RPCChamber (chid, surf); // Add the rolls to rhe chamber for(std::list<RPCRoll *>::iterator rl=rls.begin(); rl!=rls.end(); rl++){ ch->add(*rl); } // Add the chamber to the geometry geometry->add(ch); } return geometry; }
std::map<RPCDetId,std::list<RPCRoll *> > RPCGeometryBuilderFromCondDB::chids [private] |
Definition at line 33 of file RPCGeometryBuilderFromCondDB.h.
Referenced by build().
bool RPCGeometryBuilderFromCondDB::theComp11Flag [private] |
Definition at line 34 of file RPCGeometryBuilderFromCondDB.h.
Referenced by build().