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/data/refman/pasoursint/CMSSW_5_3_10/src/RecoLocalMuon/CSCRecHitD/src/CSCHitFromWireOnly.cc

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00001 /* This is CSCHitFromWireOnly
00002  *
00003  * Finds wiregroup with hits, and fill in CSCWireHitCollection
00004  * which includes only DetId and wiregroup #
00005  *
00006  */
00007 
00008 #include <RecoLocalMuon/CSCRecHitD/src/CSCHitFromWireOnly.h>
00009 #include <RecoLocalMuon/CSCRecHitD/src/CSCWireHit.h>
00010 
00011 #include <Geometry/CSCGeometry/interface/CSCLayer.h>
00012 #include <Geometry/CSCGeometry/interface/CSCLayerGeometry.h>
00013 
00014 #include <DataFormats/CSCDigi/interface/CSCWireDigi.h>
00015 
00016 #include <FWCore/MessageLogger/interface/MessageLogger.h>
00017 
00018 #include <iostream>
00019 
00020 
00021 CSCHitFromWireOnly::CSCHitFromWireOnly( const edm::ParameterSet& ps ) : recoConditions_(0){
00022   
00023   deltaT                 = ps.getParameter<int>("CSCWireClusterDeltaT");
00024   //clusterSize            = ps.getParameter<int>("CSCWireClusterMaxSize");
00025 }
00026 
00027 
00028 CSCHitFromWireOnly::~CSCHitFromWireOnly(){}
00029 
00030 
00031 std::vector<CSCWireHit> CSCHitFromWireOnly::runWire( const CSCDetId& id, const CSCLayer* layer, const CSCWireDigiCollection::Range& rwired ) {
00032   
00033   std::vector<CSCWireHit> hitsInLayer;
00034 
00035   id_        = id;
00036   layer_ = layer;
00037   layergeom_ = layer->geometry();
00038   bool any_digis = true;
00039   int n_wgroup = 0;
00040 
00041 
00042   // Loop over wire digi collection
00043   for ( CSCWireDigiCollection::const_iterator it = rwired.first; it != rwired.second; ++it ) {
00044     
00045     const CSCWireDigi wdigi = *it;
00046 
00047     if(isDeadWG( id, wdigi.getWireGroup())){     
00048       continue;          
00049     }
00050     if ( any_digis ) {
00051       any_digis = false;
00052       makeWireCluster( wdigi );
00053       n_wgroup = 1;
00054     } else {
00055       if ( !addToCluster( wdigi ) ) {
00056               // Make Wire Hit from cluster, delete old cluster and start new one
00057         float whit_pos = findWireHitPosition();
00058         bool deadWG_left = isDeadWG( id, wire_in_cluster.at(0) -1 ); 
00059         bool deadWG_right = isDeadWG( id, wire_in_cluster.at(wire_in_cluster.size()-1) + 1);
00060         short int aDeadWG = 0;
00061         if(!deadWG_left && !deadWG_right){
00062           aDeadWG = 0;
00063         }
00064         else if(deadWG_left && deadWG_right){
00065           aDeadWG = 255;
00066         }
00067         else{
00068           if(deadWG_left){
00069             aDeadWG = wire_in_cluster.at(0) -1;
00070           }
00071           else{
00072             aDeadWG = wire_in_cluster.at(wire_in_cluster.size()-1) + 1;
00073           }
00074         }
00075        // Set time bins for wire hit as the time bins of the central wire digi, lower of central two if an even number of digis.
00076       std::vector <int> timeBinsOn=wire_cluster[n_wgroup/2].getTimeBinsOn();
00077       //CSCWireHit whit(id, whit_pos, wire_in_clusterAndBX, theTime, isDeadWGAround, timeBinsOn );
00078       CSCWireHit whit(id, whit_pos, wire_in_clusterAndBX, theTime, aDeadWG, timeBinsOn );
00079       hitsInLayer.push_back( whit );    
00080       makeWireCluster( wdigi );
00081       n_wgroup = 1;
00082       } else {
00083               n_wgroup++;
00084       }
00085     }
00086     // Don't forget to fill last wire hit !!!
00087     if ( rwired.second - it == 1) {           
00088       float whit_pos = findWireHitPosition();
00089       bool deadWG_left = isDeadWG( id, wire_in_cluster.at(0) -1 ); 
00090       bool deadWG_right = isDeadWG( id, wire_in_cluster.at(wire_in_cluster.size()-1) + 1); 
00091       short int aDeadWG = 0;
00092       if(!deadWG_left && !deadWG_right){
00093         aDeadWG = 0;
00094       }
00095       else if(deadWG_left && deadWG_right){
00096         aDeadWG = 255;
00097       }
00098       else{
00099         if(deadWG_left){
00100           aDeadWG = wire_in_cluster.at(0) -1;
00101         }
00102         else{
00103           aDeadWG = wire_in_cluster.at(wire_in_cluster.size()-1) + 1;
00104         }
00105       }
00106       std::vector <int> timeBinsOn=wire_cluster[n_wgroup/2].getTimeBinsOn();
00108       //CSCWireHit whit(id, whit_pos, wire_in_clusterAndBX, theTime, isDeadWGAround, timeBinsOn );
00109       CSCWireHit whit(id, whit_pos, wire_in_clusterAndBX, theTime, aDeadWG, timeBinsOn );
00110       hitsInLayer.push_back( whit );
00111       n_wgroup++;
00112     }
00113   }
00114 
00116   /*
00117       for(std::vector<CSCWireHit>::const_iterator itWHit=hitsInLayer.begin(); itWHit!=hitsInLayer.end(); ++itWHit){
00118          (*itWHit).print(); 
00119          }  
00120   */
00121 
00122   return hitsInLayer;
00123 }
00124 
00125 
00126 void CSCHitFromWireOnly::makeWireCluster(const CSCWireDigi & digi) {
00127   wire_cluster.clear();
00128   wire_in_cluster.clear();
00129   wire_in_clusterAndBX.clear(); 
00130   theLastChannel  = digi.getWireGroup();
00131   theTime         = digi.getTimeBin();
00132   wire_cluster.push_back( digi );
00133 }
00134 
00135 
00136 bool CSCHitFromWireOnly::addToCluster(const CSCWireDigi & digi) {
00137 
00138   
00139   int iwg = digi.getWireGroup();
00140   
00141   if ( iwg == theLastChannel ){
00142     return true;  // Same wire group but different tbin -> ignore
00143   }
00144   else{
00145     if ( (iwg == theLastChannel+1) && (abs(digi.getTimeBin()-theTime)<= deltaT) ) {
00146       theLastChannel = iwg;
00147       wire_cluster.push_back( digi );
00148       return true;
00149     }
00150   }
00151   
00152   return false;
00153 }
00154 
00155 
00156 /* findWireHitPosition
00157  *
00158  * This position is expressed in terms of wire #... is a float since it may be a fraction.
00159  */
00160 float CSCHitFromWireOnly::findWireHitPosition() {
00161   
00162   // Again use center of mass to determine position of wire hit
00163   // To do so, need to know wire spacing and # of wires
00164   
00165   float y = 0.0;
00166   
00167   for ( unsigned i = 0; i < wire_cluster.size(); ++i ) {
00168     CSCWireDigi wdigi = wire_cluster[i];
00169     int wgroup = wdigi.getWireGroup();
00170     wire_in_cluster.push_back( wgroup );
00171     int wgroupAndBX = wdigi.getBXandWireGroup(); 
00172     //std::cout << " wgroupAndBX: " << std::hex << wgroupAndBX << std::dec << std::endl;
00173     wire_in_clusterAndBX.push_back( wgroupAndBX ); 
00174     y += float( wgroup );
00175   }       
00176 
00177   float wiregpos = y /wire_cluster.size() ;
00178 
00179   return wiregpos;
00180 
00181 }
00182 
00183 bool CSCHitFromWireOnly::isDeadWG(const CSCDetId& id, int WG){
00184 
00185   const std::bitset<112> & deadWG = recoConditions_->badWireWord( id );
00186   bool isDead = false;
00187   if(WG>-1 && WG<112){
00188     isDead = deadWG.test(WG);
00189   }
00190   return isDead;
00191 }