Go to the documentation of this file.00001 #include "RecoVertex/KalmanVertexFit/interface/VertexFitterResult.h"
00002 #include "CommonTools/Statistics/interface/ChiSquaredProbability.h"
00003 #include "SimTracker/TrackAssociation/interface/TrackAssociatorBase.h"
00004 #include "TrackingTools/TransientTrack/interface/TrackTransientTrack.h"
00005
00006 using namespace reco;
00007 using namespace std;
00008
00009 VertexFitterResult::VertexFitterResult(const int maxTracks, TrackAssociatorByChi2 *associator)
00010 : associatorForParamAtPca(associator)
00011 {
00012 theMaxTracks = maxTracks;
00013 if (associatorForParamAtPca==0) theMaxTracks=0;
00014 for ( int i=0; i<5; i++ ) {
00015 if ( maxTracks>0 ) {
00016 simPars[i] = new float[maxTracks];
00017 recPars[i] = new float[maxTracks];
00018 refPars[i] = new float[maxTracks];
00019 recErrs[i] = new float[maxTracks];
00020 refErrs[i] = new float[maxTracks];
00021 }
00022 else {
00023 simPars[i] = 0;
00024 recPars[i] = 0;
00025 refPars[i] = 0;
00026 recErrs[i] = 0;
00027 refErrs[i] = 0;
00028 }
00029 }
00030 trackWeight = new float[maxTracks];
00031 simIndex = new int[maxTracks];
00032 recIndex = new int[maxTracks];
00033 numberOfRecTracks=theMaxTracks;
00034 numberOfSimTracks=theMaxTracks;
00035 reset();
00036 }
00037
00038 VertexFitterResult::~VertexFitterResult()
00039 {
00040
00041
00042
00043 for ( int i=0; i<5; i++ ) {
00044 delete [] simPars[i];
00045 delete [] recPars[i];
00046 delete [] refPars[i];
00047 delete [] recErrs[i];
00048 delete [] refErrs[i];
00049 }
00050 delete trackWeight;
00051 delete simIndex;
00052 delete recIndex;
00053 }
00054
00055 void VertexFitterResult::fill(const TransientVertex & recVertex,
00056 const TrackingVertex * simv, reco::RecoToSimCollection *recSimColl,
00057 const float &time)
00058 {
00059 TTrackCont recTrackV;
00060 if (recVertex.isValid()) recTrackV = recVertex.originalTracks();
00061 fill(recVertex, recTrackV, simv, recSimColl, time);
00062 }
00063
00064 void VertexFitterResult::fill(const TransientVertex & recVertex,
00065 const TTrackCont & recTrackV, const TrackingVertex * simv,
00066 reco::RecoToSimCollection *recSimColl, const float &time)
00067 {
00068 TrackingParticleRefVector simTrackV;
00069
00070 Basic3DVector<double> vert;
00071 if (recVertex.isValid()) {
00072 recPos[0] = recVertex.position().x();
00073 recPos[1] = recVertex.position().y();
00074 recPos[2] = recVertex.position().z();
00075
00076 recErr[0] = sqrt(recVertex.positionError().cxx());
00077 recErr[1] = sqrt(recVertex.positionError().cyy());
00078 recErr[2] = sqrt(recVertex.positionError().czz());
00079 vert = (Basic3DVector<double>) recVertex.position();
00080
00081 chi[0] = recVertex.totalChiSquared();
00082 chi[1] = recVertex.degreesOfFreedom();
00083 chi[2] = ChiSquaredProbability(recVertex.totalChiSquared(),
00084 recVertex.degreesOfFreedom());
00085 vertex = 2;
00086 fitTime = time;
00087 tracks[1] = recVertex.originalTracks().size();
00088 }
00089
00090 if (simv!=0) {
00091 simPos[0] = simv->position().x();
00092 simPos[1] = simv->position().y();
00093 simPos[2] = simv->position().z();
00094
00095 simTrackV = simv->daughterTracks();
00096 vertex += 1;
00097 for(TrackingVertex::tp_iterator simTrack = simv->daughterTracks_begin();
00098 (simTrack != simv->daughterTracks_end() && (numberOfSimTracks<theMaxTracks));
00099 simTrack++) {
00100
00101 Basic3DVector<double> momAtVtx((**simTrack).momentum());
00102
00103 std::pair<bool, reco::TrackBase::ParameterVector> paramPair =
00104 associatorForParamAtPca->parametersAtClosestApproach(vert, momAtVtx,
00105 (float) (**simTrack).charge(), recTrackV.front().stateAtBeamLine().beamSpot());
00106 if (paramPair.first) {
00107 fillParameters(paramPair.second, simPars, numberOfSimTracks);
00108 simIndex[numberOfSimTracks] = -1;
00109 ++numberOfSimTracks;
00110 }
00111 }
00112 tracks[0] = numberOfSimTracks;
00113 }
00114
00115
00116
00117
00118 for(TTrackCont::const_iterator recTrack =recTrackV.begin();
00119 (recTrack != recTrackV.end()
00120 && (numberOfRecTracks<theMaxTracks));
00121 recTrack++) {
00122
00123
00124
00125 simIndex[numberOfRecTracks] = -1;
00126
00127 std::vector<std::pair<TrackingParticleRef, double> > simFound;
00128 try {
00129 const TrackTransientTrack* ttt = dynamic_cast<const TrackTransientTrack*>(recTrack->basicTransientTrack());
00130 if ((ttt!=0) && (recSimColl!=0)) simFound = (*recSimColl)[ttt->trackBaseRef()];
00131
00132
00133
00134 } catch (cms::Exception e) {
00135
00136
00137
00138 }
00139
00140 if(simFound.size() != 0) {
00141
00142 TrackingParticleRefVector::const_iterator simTrackI =
00143 find(simTrackV.begin(), simTrackV.end(), simFound[0].first);
00144 if (simTrackI!=simTrackV.end()) ++tracks[2];
00145 int simTrackIndex = simTrackI-simTrackV.begin();
00146 if (simTrackIndex<numberOfSimTracks) {
00147 simIndex[numberOfRecTracks] = simTrackIndex;
00148 recIndex[simTrackIndex] = numberOfRecTracks;
00149
00150 }
00151 }
00152
00153 TrajectoryStateClosestToPoint tscp = recTrack->trajectoryStateClosestToPoint(recVertex.position());
00154 fillParameters(recTrack->track().parameters(), recPars, numberOfRecTracks);
00155 fillErrors(tscp.perigeeError(), recErrs, numberOfRecTracks);
00156
00157
00158
00159
00160
00161
00162
00163
00164
00165
00166
00167
00168
00169
00170
00171
00172
00173
00174
00175
00176
00177 ++numberOfRecTracks;
00178 }
00179
00180 }
00181
00182 void VertexFitterResult::fillParameters (const reco::TrackBase::ParameterVector& perigee,
00183 float* params[5], int trackNumber)
00184 {
00185 params[0][trackNumber] = perigee[0];
00186 params[1][trackNumber] = perigee[1];
00187 params[2][trackNumber] = perigee[2];
00188 params[3][trackNumber] = perigee[3];
00189 params[4][trackNumber] = perigee[4];
00190 }
00191
00192 void VertexFitterResult::fillParameters (const PerigeeTrajectoryParameters & ptp,
00193 float* params[5], int trackNumber)
00194 {
00195 const AlgebraicVector & perigee = ptp.vector_old();
00196 params[0][trackNumber] = perigee[0];
00197 params[1][trackNumber] = perigee[1];
00198 params[2][trackNumber] = perigee[2];
00199 params[3][trackNumber] = perigee[3];
00200 params[4][trackNumber] = perigee[4];
00201 }
00202
00203 void VertexFitterResult::fillErrors (const PerigeeTrajectoryError & pte,
00204 float* errors[5], int trackNumber)
00205 {
00206 errors[0][trackNumber] = pte.transverseCurvatureError();
00207 errors[1][trackNumber] = pte.thetaError();
00208 errors[2][trackNumber] = pte.phiError();
00209 errors[3][trackNumber] = pte.transverseImpactParameterError();
00210 errors[4][trackNumber] = pte.longitudinalImpactParameterError();
00211 }
00212
00213 void VertexFitterResult::reset()
00214 {
00215 for ( int i=0; i<3; ++i ) {
00216 simPos[i] = 0.;
00217 recPos[i] = 0.;
00218 recErr[i] = 0.;
00219 chi[i] = 0.;
00220 tracks[i] = 0;
00221 }
00222 vertex =0;
00223 fitTime = 0;
00224
00225 for ( int j=0; j<numberOfRecTracks; ++j ) {
00226 for ( int i=0; i<5; ++i ) {
00227 recPars[i][j] = 0;
00228 refPars[i][j] = 0;
00229 recErrs[i][j] = 0;
00230 refErrs[i][j] = 0;
00231 }
00232 trackWeight[j] = 0;
00233 simIndex[j] = -1;
00234 }
00235 for ( int j=0; j<numberOfSimTracks; ++j ) {
00236 for ( int i=0; i<5; ++i ) {
00237 simPars[i][j] = 0;
00238 }
00239 recIndex[j] = -1;
00240 }
00241
00242 numberOfRecTracks=0;
00243 numberOfSimTracks=0;
00244 }