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/data/refman/pasoursint/CMSSW_5_3_10_patch1/src/TrackingTools/PatternTools/src/TempTrajectory.cc

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00001 #include "TrackingTools/PatternTools/interface/TempTrajectory.h"
00002 #include "Geometry/CommonDetUnit/interface/GeomDetUnit.h"
00003 #include "FWCore/Utilities/interface/Exception.h"
00004 
00005 #include <ext/slist>
00006 
00007 TempTrajectory::TempTrajectory( const Trajectory& traj):
00008   theSeed( traj.sharedSeed() ),
00009   theChiSquared(0),
00010   theNumberOfFoundHits(0), theNumberOfLostHits(0),
00011   theDirection(traj.direction()), theDirectionValidity(true),
00012   theValid(traj.isValid()),
00013   theDPhiCache(traj.dPhiCacheForLoopersReconstruction()),
00014   theNLoops(traj.nLoops()) {
00015   
00016   Trajectory::DataContainer::const_iterator begin=traj.measurements().begin();
00017   Trajectory::DataContainer::const_iterator end=traj.measurements().end();
00018   
00019   for(Trajectory::DataContainer::const_iterator it=begin; it!=end; ++it){
00020     push(*it);
00021   }
00022 
00023 }
00024 
00025 TempTrajectory::~TempTrajectory() {}
00026 
00027 void TempTrajectory::pop() { 
00028   if (!empty()) {
00029     if (theData.back().recHit()->isValid())             theNumberOfFoundHits--;
00030     else if(lost(* (theData.back().recHit()) )) theNumberOfLostHits--;
00031     theData.pop_back();
00032   }
00033 }
00034 
00035 void TempTrajectory::push( const TrajectoryMeasurement& tm) {
00036   push( tm, tm.estimate());
00037 }
00038 
00039 #if defined( __GXX_EXPERIMENTAL_CXX0X__)
00040 void TempTrajectory::push( TrajectoryMeasurement&& tm) {
00041   push( std::forward<TrajectoryMeasurement>(tm), tm.estimate());
00042 }
00043 #endif
00044 
00045 void TempTrajectory::push( const TrajectoryMeasurement& tm, double chi2Increment){
00046   pushAux(tm,chi2Increment);
00047   theData.push_back(tm);
00048 }
00049 
00050 #if defined( __GXX_EXPERIMENTAL_CXX0X__)
00051 void TempTrajectory::push(TrajectoryMeasurement&& tm, double chi2Increment){
00052   pushAux(tm,chi2Increment);
00053   theData.push_back(std::move(tm));
00054 }
00055 #endif
00056 
00057 void TempTrajectory::pushAux( const TrajectoryMeasurement& tm, double chi2Increment)
00058 {
00059   if ( tm.recHit()->isValid()) {
00060     theNumberOfFoundHits++;
00061    }
00062   //else if (lost( tm.recHit()) && !inactive(tm.recHit().det())) theNumberOfLostHits++;
00063   else if (lost( *(tm.recHit()) ) )   theNumberOfLostHits++;
00064   
00065  
00066   theChiSquared += chi2Increment;
00067 
00068   // in case of a Trajectory constructed without direction, 
00069   // determine direction from the radii of the first two measurements
00070 
00071   if ( !theDirectionValidity && theData.size() >= 2) {
00072     if (theData.front().updatedState().globalPosition().perp() <
00073         theData.back().updatedState().globalPosition().perp())
00074       theDirection = alongMomentum;
00075     else theDirection = oppositeToMomentum;
00076     theDirectionValidity = true;
00077   }
00078 }
00079 
00080 void TempTrajectory::push( const TempTrajectory& segment) {
00081   assert (segment.direction() == theDirection) ;
00082     __gnu_cxx::slist<const TrajectoryMeasurement*> list;
00083   for (DataContainer::const_iterator it = segment.measurements().rbegin(), ed = segment.measurements().rend(); it != ed; --it) {
00084         list.push_front(&(*it));
00085   }
00086   for(__gnu_cxx::slist<const TrajectoryMeasurement*>::const_iterator it = list.begin(), ed = list.end(); it != ed; ++it) {
00087         push(**it);
00088   }
00089 }
00090 
00091 void TempTrajectory::join( TempTrajectory& segment) {
00092   assert (segment.direction() == theDirection) ;
00093   if (segment.theData.shared()) {
00094       push(segment);
00095       segment.theData.clear(); // obey the contract, and increase the chances it will be not shared one day
00096   } else {
00097       for (DataContainer::const_iterator it = segment.measurements().rbegin(), ed = segment.measurements().rend(); it != ed; --it) {
00098           if ( it->recHit()->isValid())       theNumberOfFoundHits++;
00099           else if (lost( *(it->recHit()) ) ) theNumberOfLostHits++;
00100           theChiSquared += it->estimate();
00101       }
00102       theData.join(segment.theData);
00103 
00104       if ( !theDirectionValidity && theData.size() >= 2) {
00105         if (theData.front().updatedState().globalPosition().perp() <
00106             theData.back().updatedState().globalPosition().perp())
00107           theDirection = alongMomentum;
00108         else theDirection = oppositeToMomentum;
00109         theDirectionValidity = true;
00110       }
00111   }
00112 }
00113 
00114 
00115 /*
00116 Trajectory::RecHitContainer Trajectory::recHits() const {
00117   RecHitContainer hits;
00118   hits.reserve(theData.size());
00119 
00120   for (Trajectory::DataContainer::const_iterator itm
00121          = theData.begin(); itm != theData.end(); itm++) {
00122     hits.push_back((*itm).recHit());
00123   }
00124   return hits;
00125 }
00126 
00127 */
00128 
00129 PropagationDirection TempTrajectory::direction() const {
00130   if (theDirectionValidity) return theDirection;
00131   else throw cms::Exception("TrackingTools/PatternTools","Trajectory::direction() requested but not set");
00132 }
00133 
00134 void TempTrajectory::check() const {
00135   if ( theData.size() == 0) 
00136     throw cms::Exception("TrackingTools/PatternTools","Trajectory::check() - information requested from empty Trajectory");
00137 }
00138 
00139 bool TempTrajectory::lost( const TransientTrackingRecHit& hit)
00140 {
00141   if ( hit.isValid()) return false;
00142   else {
00143   //     // A DetLayer is always inactive in this logic.
00144   //     // The DetLayer is the Det of an invalid RecHit only if no DetUnit 
00145   //     // is compatible with the predicted state, so we don't really expect
00146   //     // a hit in this case.
00147   
00148     if(hit.geographicalId().rawId() == 0) {return false;}
00149     else{
00150       return hit.getType() == TrackingRecHit::missing;
00151     }
00152   }
00153 }
00154 
00155 Trajectory TempTrajectory::toTrajectory() const {
00156   Trajectory traj(theSeed, theDirection);
00157   traj.setNLoops(theNLoops);
00158 
00159   traj.reserve(theData.size());
00160   static std::vector<const TrajectoryMeasurement*> work;
00161   work.resize(theData.size(), 0);
00162   std::vector<const TrajectoryMeasurement*>::iterator workend = work.end(), itwork = workend;
00163   for (TempTrajectory::DataContainer::const_iterator it = theData.rbegin(), ed = theData.rend(); it != ed; --it) {
00164        --itwork;  *itwork = (&(*it));
00165   }
00166   for (; itwork != workend; ++itwork) {
00167         traj.push(**itwork);
00168   }
00169   return traj;
00170 }
00171