CMS 3D CMS Logo

/data/refman/pasoursint/CMSSW_5_3_10_patch2/src/RecoMuon/DetLayers/src/MuonDetLayerGeometry.cc

Go to the documentation of this file.
00001 
00008 #include <RecoMuon/DetLayers/interface/MuonDetLayerGeometry.h>
00009 
00010 #include <FWCore/Utilities/interface/Exception.h>
00011 #include <TrackingTools/DetLayers/interface/DetLayer.h>
00012 #include <DataFormats/MuonDetId/interface/CSCDetId.h>
00013 #include <DataFormats/MuonDetId/interface/DTChamberId.h>
00014 #include <DataFormats/MuonDetId/interface/RPCDetId.h>
00015 
00016 #include <Utilities/General/interface/precomputed_value_sort.h>
00017 #include <DataFormats/GeometrySurface/interface/GeometricSorting.h>
00018 
00019 #include <algorithm>
00020 
00021 using namespace std;
00022 using namespace geomsort;
00023 
00024 MuonDetLayerGeometry::MuonDetLayerGeometry() {}
00025 
00026 MuonDetLayerGeometry::~MuonDetLayerGeometry(){
00027   for(vector<DetLayer*>::const_iterator it = allDetLayers.begin(); it != allDetLayers.end(); ++it)
00028   {
00029     delete *it;
00030   }
00031 }
00032 
00033 void MuonDetLayerGeometry::addCSCLayers(pair<vector<DetLayer*>, vector<DetLayer*> > csclayers) {
00034     
00035   vector<DetLayer*>::const_iterator it;
00036   for(it=csclayers.first.begin(); it!=csclayers.first.end(); it++) {
00037     cscLayers_fw.push_back(*it);
00038     //    cscLayers_all.push_back(*it);
00039     allForward.push_back(*it);
00040     //    allEndcap.push_back(*it);
00041     //    allDetLayers.push_back(*it);
00042     
00043     detLayersMap[ makeDetLayerId(*it) ] = *it;
00044   }
00045   
00046   for(it=csclayers.second.begin(); it!=csclayers.second.end(); it++) {
00047     cscLayers_bk.push_back(*it);
00048     //    cscLayers_all.push_back(*it);
00049     allBackward.push_back(*it);
00050     //    allEndcap.push_back(*it);
00051     //    allDetLayers.push_back(*it);
00052     
00053     detLayersMap[ makeDetLayerId(*it) ] = *it;
00054   }    
00055 }    
00056 
00057 void MuonDetLayerGeometry::addRPCLayers(vector<DetLayer*> barrelLayers, pair<vector<DetLayer*>, vector<DetLayer*> > endcapLayers) {
00058   
00059   vector<DetLayer*>::const_iterator it;
00060   
00061   for (it=barrelLayers.begin();it!=barrelLayers.end();it++){
00062     rpcLayers_barrel.push_back(*it);
00063     //    rpcLayers_all.push_back(*it);
00064     allBarrel.push_back(*it);
00065     //    allDetLayers.push_back(*it);
00066 
00067     detLayersMap[ makeDetLayerId(*it) ] = *it;
00068   }
00069   for (it=endcapLayers.first.begin(); it!=endcapLayers.first.end(); it++){
00070     rpcLayers_fw.push_back(*it);
00071     //    rpcLayers_all.push_back(*it);
00072     //    rpcLayers_endcap.push_back(*it);
00073     allForward.push_back(*it);
00074     //    allEndcap.push_back(*it);
00075     //    allDetLayers.push_back(*it);
00076 
00077     detLayersMap[ makeDetLayerId(*it) ] = *it;
00078   }
00079   
00080   for (it=endcapLayers.second.begin(); it!=endcapLayers.second.end(); it++){
00081     rpcLayers_bk.push_back(*it);
00082     //    rpcLayers_all.push_back(*it);
00083     //    rpcLayers_endcap.push_back(*it);
00084     allBackward.push_back(*it);
00085     //    allEndcap.push_back(*it);
00086     //    allDetLayers.push_back(*it);
00087 
00088     detLayersMap[ makeDetLayerId(*it) ] = *it;
00089   }
00090   
00091 }    
00092 
00093 void MuonDetLayerGeometry::addDTLayers(vector<DetLayer*> dtlayers) {
00094 
00095     vector<DetLayer*>::const_iterator it;
00096     for(it=dtlayers.begin(); it!=dtlayers.end(); it++) {
00097         dtLayers.push_back(*it);
00098         allBarrel.push_back(*it);
00099         //        allDetLayers.push_back(*it);
00100 
00101         detLayersMap[ makeDetLayerId(*it) ] = *it;
00102     }
00103 }    
00104 
00105 DetId MuonDetLayerGeometry::makeDetLayerId(const DetLayer* detLayer) const{
00106 
00107   if(detLayer->subDetector() ==  GeomDetEnumerators::CSC){
00108     CSCDetId id( detLayer->basicComponents().front()->geographicalId().rawId() ) ;
00109 
00110     if(id.station() == 1 )
00111       {
00112         if(id.ring() == 1 || id.ring() == 4)
00113           return CSCDetId(id.endcap(),1,1,0,0);
00114         else if(id.ring() == 2 || id.ring() == 3)
00115           return CSCDetId(id.endcap(),1,2,0,0);
00116         else
00117           throw cms::Exception("InvalidCSCRing")<<" Invalid CSC Ring: "<<id.ring()<<endl;
00118       }
00119     else
00120       return CSCDetId(id.endcap(),id.station(),0,0,0);
00121     
00122   }
00123   else if(detLayer->subDetector() == GeomDetEnumerators::DT){
00124     DTChamberId id( detLayer->basicComponents().front()->geographicalId().rawId() ) ;
00125     return  DTChamberId(0,id.station(),0);
00126   }
00127   else if(detLayer->subDetector()== GeomDetEnumerators::RPCBarrel ||
00128           detLayer->subDetector()== GeomDetEnumerators::RPCEndcap){
00129     RPCDetId id( detLayer->basicComponents().front()->geographicalId().rawId());
00130     return RPCDetId(id.region(),0,id.station(),0,id.layer(),0,0);
00131   }
00132   else throw cms::Exception("InvalidModuleIdentification"); // << detLayer->module();
00133 }
00134 
00135 
00136 const vector<DetLayer*>& 
00137 MuonDetLayerGeometry::allDTLayers() const {    
00138     return dtLayers; 
00139 }
00140 
00141 const vector<DetLayer*>&
00142 MuonDetLayerGeometry::allCSCLayers() const {
00143     return cscLayers_all;
00144 }
00145 
00146 
00147 const vector<DetLayer*>&
00148 MuonDetLayerGeometry::forwardCSCLayers() const {
00149     return cscLayers_fw;
00150 }
00151 
00152 
00153 const vector<DetLayer*>& 
00154 MuonDetLayerGeometry::backwardCSCLayers() const {
00155     return cscLayers_bk;
00156 }
00157 
00158 
00159 const vector<DetLayer*>& 
00160 MuonDetLayerGeometry::allRPCLayers() const {
00161     return rpcLayers_all;    
00162 }
00163 
00164 
00165 const vector<DetLayer*>& 
00166 MuonDetLayerGeometry::barrelRPCLayers() const {
00167     return rpcLayers_barrel; 
00168 }
00169 
00170 
00171 const vector<DetLayer*>& 
00172 MuonDetLayerGeometry::endcapRPCLayers() const {
00173     return rpcLayers_endcap;    
00174 }
00175 
00176 
00177 const vector<DetLayer*>& 
00178 MuonDetLayerGeometry::forwardRPCLayers() const {
00179      return rpcLayers_fw; 
00180 }
00181 
00182 
00183 const vector<DetLayer*>& 
00184 MuonDetLayerGeometry::backwardRPCLayers() const {
00185     return rpcLayers_bk; 
00186 }
00187 
00188 
00189 const vector<DetLayer*>&
00190 MuonDetLayerGeometry::allLayers() const {
00191     return allDetLayers;    
00192 }    
00193 
00194 
00195 const vector<DetLayer*>&
00196 MuonDetLayerGeometry::allBarrelLayers() const {
00197     return allBarrel;    
00198 }    
00199 
00200 const vector<DetLayer*>&
00201 MuonDetLayerGeometry::allEndcapLayers() const {
00202     return allEndcap;    
00203 }    
00204 
00205 
00206 const vector<DetLayer*>&
00207 MuonDetLayerGeometry::allForwardLayers() const {
00208     return allForward;    
00209 }    
00210 
00211 
00212 const vector<DetLayer*>&
00213 MuonDetLayerGeometry::allBackwardLayers() const {
00214     return allBackward;    
00215 }    
00216 
00217 const DetLayer* MuonDetLayerGeometry::idToLayer(const DetId &detId) const{
00218 
00219   DetId id;
00220   
00221   if(detId.subdetId() == MuonSubdetId::CSC){
00222     CSCDetId cscId( detId.rawId() );
00223 
00224     if(cscId.station() == 1)
00225       {
00226         if(cscId.ring() == 1 || cscId.ring() == 4)
00227           id = CSCDetId(cscId.endcap(),1,1,0,0);
00228         else if(cscId.ring() == 2 || cscId.ring() == 3)
00229           id = CSCDetId(cscId.endcap(),1,2,0,0);
00230         else
00231           throw cms::Exception("InvalidCSCRing")<<" Invalid CSC Ring: "<<cscId.ring()<<endl;
00232       }
00233     else id = CSCDetId(cscId.endcap(),cscId.station(),0,0,0);
00234   }
00235   
00236   else if (detId.subdetId() == MuonSubdetId::DT){
00237     DTChamberId dtId( detId.rawId() );
00238     id = DTChamberId(0,dtId.station(),0);
00239   }
00240   else if (detId.subdetId() == MuonSubdetId::RPC){
00241     RPCDetId rpcId(detId.rawId() );
00242     id = RPCDetId(rpcId.region(),0,rpcId.station(),0,rpcId.layer(),0,0);
00243   }
00244 
00245   else throw cms::Exception("InvalidSubdetId")<< detId.subdetId();
00246 
00247   std::map<DetId,DetLayer*>::const_iterator layer = detLayersMap.find(id);
00248   if (layer == detLayersMap.end()) return 0;
00249   return layer->second; 
00250 }
00251 
00252 
00253 // Quick way to sort barrel det layers by increasing R,
00254 // do not abuse!
00255 #include <TrackingTools/DetLayers/interface/BarrelDetLayer.h>
00256 struct ExtractBarrelDetLayerR {
00257   typedef Surface::Scalar result_type;
00258   result_type operator()(const DetLayer* p) const {
00259     const BarrelDetLayer * bdl = dynamic_cast<const BarrelDetLayer*>(p);
00260     if (bdl) return bdl->specificSurface().radius();
00261     else return -1.;
00262   }
00263 };
00264 
00265 void MuonDetLayerGeometry::sortLayers() {
00266 
00267   // The following are filled inside-out, no need to re-sort
00268   // precomputed_value_sort(dtLayers.begin(), dtLayers.end(),ExtractR<DetLayer,float>());
00269   // precomputed_value_sort(cscLayers_fw.begin(), cscLayers_fw.end(),ExtractAbsZ<DetLayer,float>());
00270   // precomputed_value_sort(cscLayers_bk.begin(), cscLayers_bk.end(),ExtractAbsZ<DetLayer,float>());
00271   // precomputed_value_sort(rpcLayers_fw.begin(), rpcLayers_fw.end(),ExtractAbsZ<DetLayer,float>());
00272   // precomputed_value_sort(rpcLayers_bk.begin(), rpcLayers_bk.end(),ExtractAbsZ<DetLayer,float>());
00273   // precomputed_value_sort(rpcLayers_barrel.begin(), rpcLayers_barrel.end(), ExtractR<DetLayer,float>());
00274 
00275   // Sort these inside-out
00276   precomputed_value_sort(allBarrel.begin(), allBarrel.end(), ExtractBarrelDetLayerR());
00277   precomputed_value_sort(allBackward.begin(), allBackward.end(), ExtractAbsZ<DetLayer,float>());
00278   precomputed_value_sort(allForward.begin(), allForward.end(), ExtractAbsZ<DetLayer,float>());  
00279 
00280   // Build more complicated vectors with correct sorting
00281 
00282   //cscLayers_all: from -Z to +Z
00283   cscLayers_all.reserve(cscLayers_bk.size()+cscLayers_fw.size());
00284   std::copy(cscLayers_bk.begin(),cscLayers_bk.end(),back_inserter(cscLayers_all));
00285   std::reverse(cscLayers_all.begin(),cscLayers_all.end());
00286   std::copy(cscLayers_fw.begin(),cscLayers_fw.end(),back_inserter(cscLayers_all));
00287 
00288   //rpcLayers_endcap: from -Z to +Z
00289   rpcLayers_endcap.reserve(rpcLayers_bk.size()+rpcLayers_fw.size());
00290   std::copy(rpcLayers_bk.begin(),rpcLayers_bk.end(),back_inserter(rpcLayers_endcap));
00291   std::reverse(rpcLayers_endcap.begin(),rpcLayers_endcap.end());
00292   std::copy(rpcLayers_fw.begin(),rpcLayers_fw.end(),back_inserter(rpcLayers_endcap));
00293 
00294   //rpcLayers_all: order is bw, barrel, fw
00295   rpcLayers_all.reserve(rpcLayers_bk.size()+rpcLayers_barrel.size()+rpcLayers_fw.size());
00296   std::copy(rpcLayers_bk.begin(),rpcLayers_bk.end(),back_inserter(rpcLayers_all));
00297   std::reverse(rpcLayers_all.begin(),rpcLayers_all.end());
00298   std::copy(rpcLayers_barrel.begin(),rpcLayers_barrel.end(),back_inserter(rpcLayers_all));
00299   std::copy(rpcLayers_fw.begin(),rpcLayers_fw.end(),back_inserter(rpcLayers_all));
00300 
00301   // allEndcap: order is  all bw, all fw
00302   allEndcap.reserve(allBackward.size()+allForward.size());
00303   std::copy(allBackward.begin(),allBackward.end(),back_inserter(allEndcap));
00304   std::reverse(allEndcap.begin(),allEndcap.end());
00305   std::copy(allForward.begin(),allForward.end(),back_inserter(allEndcap));
00306 
00307   // allDetLayers: order is  all bw, all barrel, all fw
00308   allDetLayers.reserve(allBackward.size()+allBarrel.size()+allForward.size());
00309   std::copy(allBackward.begin(),allBackward.end(),back_inserter(allDetLayers));
00310   std::reverse(allDetLayers.begin(),allDetLayers.end());
00311   std::copy(allBarrel.begin(),allBarrel.end(),back_inserter(allDetLayers));
00312   std::copy(allForward.begin(),allForward.end(),back_inserter(allDetLayers));
00313 
00314 
00315 }