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00010 #include <memory>
00011 #include <string>
00012 #include <iostream>
00013
00014 #include "FWCore/Framework/interface/Frameworkfwd.h"
00015 #include "FWCore/Framework/interface/EDAnalyzer.h"
00016 #include "FWCore/Framework/interface/Event.h"
00017 #include "FWCore/Framework/interface/MakerMacros.h"
00018
00019 #include "FWCore/ParameterSet/interface/ParameterSet.h"
00020 #include "CalibTracker/SiStripHitEfficiency/interface/HitEff.h"
00021 #include "DataFormats/SiStripDetId/interface/StripSubdetector.h"
00022 #include "DataFormats/Common/interface/Handle.h"
00023 #include "FWCore/Framework/interface/ESHandle.h"
00024 #include "FWCore/Framework/interface/EventSetup.h"
00025 #include "DataFormats/GeometryVector/interface/GlobalPoint.h"
00026 #include "DataFormats/GeometryVector/interface/GlobalVector.h"
00027 #include "DataFormats/GeometryVector/interface/LocalVector.h"
00028 #include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
00029 #include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
00030 #include "Geometry/CommonDetUnit/interface/GeomDetType.h"
00031 #include "Geometry/CommonDetUnit/interface/GeomDetUnit.h"
00032 #include "DataFormats/TrackReco/interface/Track.h"
00033 #include "DataFormats/TrackReco/interface/TrackFwd.h"
00034 #include "DataFormats/TrackReco/interface/TrackExtra.h"
00035 #include "MagneticField/Records/interface/IdealMagneticFieldRecord.h"
00036 #include "TrackingTools/Records/interface/TransientRecHitRecord.h"
00037 #include "DataFormats/TrackingRecHit/interface/TrackingRecHit.h"
00038 #include "CalibTracker/SiStripHitEfficiency/interface/TrajectoryAtInvalidHit.h"
00039 #include "DataFormats/SiStripDetId/interface/TIBDetId.h"
00040 #include "DataFormats/SiStripDetId/interface/TIDDetId.h"
00041 #include "DataFormats/SiStripDetId/interface/TOBDetId.h"
00042 #include "DataFormats/SiStripDetId/interface/TECDetId.h"
00043 #include "RecoLocalTracker/ClusterParameterEstimator/interface/StripClusterParameterEstimator.h"
00044 #include "TrackingTools/GeomPropagators/interface/AnalyticalPropagator.h"
00045 #include "DataFormats/TrackReco/interface/DeDxData.h"
00046 #include "DataFormats/DetId/interface/DetIdCollection.h"
00047 #include "TrackingTools/DetLayers/interface/DetLayer.h"
00048 #include "RecoTracker/MeasurementDet/interface/MeasurementTracker.h"
00049
00050 #include "RecoTracker/Record/interface/CkfComponentsRecord.h"
00051 #include "AnalysisDataFormats/SiStripClusterInfo/interface/SiStripClusterInfo.h"
00052 #include "CalibTracker/Records/interface/SiStripDetCablingRcd.h"
00053 #include "CalibFormats/SiStripObjects/interface/SiStripDetCabling.h"
00054 #include "CalibTracker/Records/interface/SiStripQualityRcd.h"
00055 #include "CalibFormats/SiStripObjects/interface/SiStripQuality.h"
00056 #include "DataFormats/SiStripDetId/interface/SiStripSubStructure.h"
00057 #include "Geometry/TrackerGeometryBuilder/interface/GluedGeomDet.h"
00058 #include "DataFormats/Common/interface/DetSetVector.h"
00059 #include "DataFormats/Common/interface/DetSetVectorNew.h"
00060 #include "DataFormats/SiStripCluster/interface/SiStripCluster.h"
00061
00062 #include "DataFormats/MuonReco/interface/Muon.h"
00063 #include "DataFormats/MuonReco/interface/MuonFwd.h"
00064
00065
00066 #include "TMath.h"
00067 #include "TH1F.h"
00068
00069
00070
00071
00072
00073 using namespace std;
00074 HitEff::HitEff(const edm::ParameterSet& conf) :
00075 conf_(conf)
00076 {
00077 layers =conf_.getParameter<int>("Layer");
00078 DEBUG = conf_.getParameter<bool>("Debug");
00079 }
00080
00081
00082 HitEff::~HitEff() { }
00083
00084 void HitEff::beginJob(){
00085
00086 edm::Service<TFileService> fs;
00087
00088 traj = fs->make<TTree>("traj","tree of trajectory positions");
00089 traj->Branch("TrajGlbX",&TrajGlbX,"TrajGlbX/F");
00090 traj->Branch("TrajGlbY",&TrajGlbY,"TrajGlbY/F");
00091 traj->Branch("TrajGlbZ",&TrajGlbZ,"TrajGlbZ/F");
00092 traj->Branch("TrajLocX",&TrajLocX,"TrajLocX/F");
00093 traj->Branch("TrajLocY",&TrajLocY,"TrajLocY/F");
00094 traj->Branch("TrajLocErrX",&TrajLocErrX,"TrajLocErrX/F");
00095 traj->Branch("TrajLocErrY",&TrajLocErrY,"TrajLocErrY/F");
00096 traj->Branch("TrajLocAngleX",&TrajLocAngleX,"TrajLocAngleX/F");
00097 traj->Branch("TrajLocAngleY",&TrajLocAngleY,"TrajLocAngleY/F");
00098 traj->Branch("ClusterLocX",&ClusterLocX,"ClusterLocX/F");
00099 traj->Branch("ClusterLocY",&ClusterLocY,"ClusterLocY/F");
00100 traj->Branch("ClusterLocErrX",&ClusterLocErrX,"ClusterLocErrX/F");
00101 traj->Branch("ClusterLocErrY",&ClusterLocErrY,"ClusterLocErrY/F");
00102 traj->Branch("ClusterStoN",&ClusterStoN,"ClusterStoN/F");
00103 traj->Branch("ResX",&ResX,"ResX/F");
00104 traj->Branch("ResXSig",&ResXSig,"ResXSig/F");
00105 traj->Branch("ModIsBad",&ModIsBad,"ModIsBad/i");
00106 traj->Branch("SiStripQualBad",&SiStripQualBad,"SiStripQualBad/i");
00107 traj->Branch("withinAcceptance",&withinAcceptance,"withinAcceptance/O");
00108 traj->Branch("nHits",&nHits,"nHits/I");
00109 traj->Branch("nLostHits",&nLostHits,"nLostHits/I");
00110 traj->Branch("chi2",&chi2,"chi2/F");
00111 traj->Branch("p",&p,"p/F");
00112 traj->Branch("pT",&pT,"pT/F");
00113 traj->Branch("trajHitValid", &trajHitValid, "trajHitValid/i");
00114 traj->Branch("Id",&Id,"Id/i");
00115 traj->Branch("run",&run,"run/i");
00116 traj->Branch("event",&event,"event/i");
00117 traj->Branch("layer",&whatlayer,"layer/i");
00118 traj->Branch("timeDT",&timeDT,"timeDT/F");
00119 traj->Branch("timeDTErr",&timeDTErr,"timeDTErr/F");
00120 traj->Branch("timeDTDOF",&timeDTDOF,"timeDTDOF/I");
00121 traj->Branch("timeECAL",&timeECAL,"timeECAL/F");
00122 traj->Branch("dedx",&dedx,"dedx/F");
00123 traj->Branch("dedxNOM",&dedxNOM,"dedxNOM/I");
00124 traj->Branch("tquality",&tquality,"tquality/I");
00125 traj->Branch("istep",&istep,"istep/I");
00126 traj->Branch("bunchx",&bunchx,"bunchx/I");
00127
00128 events = 0;
00129 EventTrackCKF = 0;
00130
00131 }
00132
00133
00134 void HitEff::analyze(const edm::Event& e, const edm::EventSetup& es){
00135
00136
00137
00138 if (DEBUG) cout << "beginning analyze from HitEff" << endl;
00139
00140 using namespace edm;
00141 using namespace reco;
00142
00143
00144 int run_nr = e.id().run();
00145 int ev_nr = e.id().event();
00146 int bunch_nr = e.bunchCrossing();
00147
00148
00149 edm::Handle<reco::TrackCollection> trackCollectionCKF;
00150 edm::InputTag TkTagCKF = conf_.getParameter<edm::InputTag>("combinatorialTracks");
00151 e.getByLabel(TkTagCKF,trackCollectionCKF);
00152
00153 edm::Handle<std::vector<Trajectory> > TrajectoryCollectionCKF;
00154 edm::InputTag TkTrajCKF = conf_.getParameter<edm::InputTag>("trajectories");
00155 e.getByLabel(TkTrajCKF,TrajectoryCollectionCKF);
00156
00157
00158
00159 edm::Handle< edmNew::DetSetVector<SiStripCluster> > theClusters;
00160 e.getByLabel("siStripClusters", theClusters);
00161
00162
00163 edm::ESHandle<TrackerGeometry> tracker;
00164 es.get<TrackerDigiGeometryRecord>().get(tracker);
00165 const TrackerGeometry * tkgeom=&(* tracker);
00166
00167
00168
00169 edm::ESHandle<StripClusterParameterEstimator> parameterestimator;
00170 es.get<TkStripCPERecord>().get("StripCPEfromTrackAngle", parameterestimator);
00171 const StripClusterParameterEstimator &stripcpe(*parameterestimator);
00172
00173
00174 edm::ESHandle<SiStripQuality> SiStripQuality_;
00175 try {
00176 es.get<SiStripQualityRcd>().get("forCluster",SiStripQuality_);
00177 }
00178 catch (...) {
00179 es.get<SiStripQualityRcd>().get(SiStripQuality_);
00180 }
00181
00182 edm::ESHandle<MagneticField> magFieldHandle;
00183 es.get<IdealMagneticFieldRecord>().get(magFieldHandle);
00184 const MagneticField* magField_ = magFieldHandle.product();
00185
00186
00187 edm::Handle< DetIdCollection > fedErrorIds;
00188 e.getByLabel("siStripDigis", fedErrorIds );
00189
00190 ESHandle<MeasurementTracker> measurementTrackerHandle;
00191 es.get<CkfComponentsRecord>().get(measurementTrackerHandle);
00192
00193 edm::ESHandle<Chi2MeasurementEstimatorBase> est;
00194 es.get<TrackingComponentsRecord>().get("Chi2",est);
00195
00196 edm::ESHandle<Propagator> prop;
00197 es.get<TrackingComponentsRecord>().get("PropagatorWithMaterial",prop);
00198 const Propagator* thePropagator = prop.product();
00199
00200 events++;
00201
00202
00203 const edmNew::DetSetVector<SiStripCluster>& input = *theClusters;
00204
00205
00206
00207
00208
00209
00210
00211
00212
00213
00214
00215
00216
00217
00218
00219
00220
00221
00222
00223
00224
00225
00226
00227
00228
00229
00230
00231
00232 const reco::TrackCollection *tracksCKF=trackCollectionCKF.product();
00233 if (DEBUG) cout << "number ckf tracks found = " << tracksCKF->size() << endl;
00234
00235 if (tracksCKF->size() > 0 && tracksCKF->size()<100) {
00236 if (DEBUG) cout << "starting checking good event with < 100 tracks" << endl;
00237
00238 EventTrackCKF++;
00239
00240
00241
00242
00243
00244
00245
00246
00247
00248
00249
00250
00251
00252
00253
00254
00255
00256
00257 Handle<MuonCollection> muH;
00258 if(e.getByLabel("muonsWitht0Correction",muH)){
00259 const MuonCollection & muonsT0 = *muH.product();
00260 if(muonsT0.size()!=0) {
00261 MuonTime mt0 = muonsT0[0].time();
00262 timeDT = mt0.timeAtIpInOut;
00263 timeDTErr = mt0.timeAtIpInOutErr;
00264 timeDTDOF = mt0.nDof;
00265
00266 bool hasCaloEnergyInfo = muonsT0[0].isEnergyValid();
00267 if (hasCaloEnergyInfo) timeECAL = muonsT0[0].calEnergy().ecal_time;
00268 }
00269 } else {
00270 timeDT = -999.0; timeDTErr = -999.0; timeDTDOF = -999; timeECAL = -999.0;
00271 }
00272
00273
00274
00275 for (vector<Trajectory>::const_iterator itraj = TrajectoryCollectionCKF.product()->begin();
00276 itraj != TrajectoryCollectionCKF.product()->end();
00277 itraj++) {
00278
00279
00280 nHits = itraj->foundHits();
00281 nLostHits = itraj->lostHits();
00282 chi2 = (itraj->chiSquared()/itraj->ndof());
00283 pT = sqrt( ( itraj->lastMeasurement().updatedState().globalMomentum().x() *
00284 itraj->lastMeasurement().updatedState().globalMomentum().x()) +
00285 ( itraj->lastMeasurement().updatedState().globalMomentum().y() *
00286 itraj->lastMeasurement().updatedState().globalMomentum().y()) );
00287 p = itraj->lastMeasurement().updatedState().globalMomentum().mag();
00288
00289
00290
00291
00292 std::vector<TrajectoryMeasurement> TMeas=itraj->measurements();
00293 vector<TrajectoryMeasurement>::iterator itm;
00294 double xloc = 0.;
00295 double yloc = 0.;
00296 double xErr = 0.;
00297 double yErr = 0.;
00298 double angleX = -999.;
00299 double angleY = -999.;
00300 double xglob,yglob,zglob;
00301
00302 for (itm=TMeas.begin();itm!=TMeas.end();itm++){
00303 ConstReferenceCountingPointer<TransientTrackingRecHit> theInHit;
00304 theInHit = (*itm).recHit();
00305
00306 if(DEBUG) cout << "theInHit is valid = " << theInHit->isValid() << endl;
00307
00308 unsigned int iidd = theInHit->geographicalId().rawId();
00309
00310 unsigned int TKlayers = checkLayer(iidd);
00311 if (DEBUG) cout << "TKlayer from trajectory: " << TKlayers << " from module = " << iidd << " matched/stereo/rphi = " << ((iidd & 0x3)==0) << "/" << ((iidd & 0x3)==1) << "/" << ((iidd & 0x3)==2) << endl;
00312
00313
00314 if ( TKlayers == 10 || TKlayers == 22 ) {
00315 if (DEBUG) cout << "skipping original TM for TOB 6 or TEC 9" << endl;
00316 continue;
00317 }
00318
00319
00320 std::vector<TrajectoryAtInvalidHit> TMs;
00321
00322
00323 AnalyticalPropagator propagator(magField_,anyDirection);
00324
00325
00326
00327
00328 if (isDoubleSided(iidd) && ((iidd & 0x3)==0) ) {
00329
00330
00331 TMs.push_back(TrajectoryAtInvalidHit(*itm,tkgeom, propagator, 1));
00332 TMs.push_back(TrajectoryAtInvalidHit(*itm,tkgeom, propagator, 2));
00333 } else if ( isDoubleSided(iidd) && (!check2DPartner(iidd, TMeas)) ) {
00334
00335
00336 TMs.push_back(TrajectoryAtInvalidHit(*itm,tkgeom, propagator, 1));
00337 TMs.push_back(TrajectoryAtInvalidHit(*itm,tkgeom, propagator, 2));
00338 if (DEBUG) cout << " found a hit with a missing partner" << endl;
00339 } else {
00340
00341 TMs.push_back(TrajectoryAtInvalidHit(*itm,tkgeom, propagator));
00342 }
00343
00345
00346
00347
00348
00349
00350 bool isValid = theInHit->isValid();
00351 bool isLast = (itm==(TMeas.end()-1));
00352 bool isLastTOB5 = true;
00353 if (!isLast) {
00354 if ( checkLayer((++itm)->recHit()->geographicalId().rawId()) == 9 ) isLastTOB5 = false;
00355 else isLastTOB5 = true;
00356 --itm;
00357 }
00358
00359 if ( TKlayers==9 && isValid && isLastTOB5 ) {
00360
00361
00362 std::vector< BarrelDetLayer*> barrelTOBLayers = measurementTrackerHandle->geometricSearchTracker()->tobLayers() ;
00363 const DetLayer* tob6 = barrelTOBLayers[barrelTOBLayers.size()-1];
00364 const MeasurementEstimator* estimator = est.product();
00365 const LayerMeasurements* theLayerMeasurements = new LayerMeasurements(&*measurementTrackerHandle);
00366 const TrajectoryStateOnSurface tsosTOB5 = itm->updatedState();
00367 vector<TrajectoryMeasurement> tmp = theLayerMeasurements->measurements(*tob6, tsosTOB5, *thePropagator, *estimator);
00368
00369 if ( !tmp.empty()) {
00370 if (DEBUG) cout << "size of TM from propagation = " << tmp.size() << endl;
00371
00372
00373
00374
00375 TrajectoryMeasurement tob6TM(tmp.back());
00376 ConstReferenceCountingPointer<TransientTrackingRecHit> tob6Hit;
00377 tob6Hit = tob6TM.recHit();
00378
00379 if (tob6Hit->geographicalId().rawId()!=0) {
00380 if (DEBUG) cout << "tob6 hit actually being added to TM vector" << endl;
00381 TMs.push_back(TrajectoryAtInvalidHit(tob6TM,tkgeom, propagator));
00382 }
00383 }
00384 }
00385
00386 bool isLastTEC8 = true;
00387 if (!isLast) {
00388 if ( checkLayer((++itm)->recHit()->geographicalId().rawId()) == 21 ) isLastTEC8 = false;
00389 else isLastTEC8 = true;
00390 --itm;
00391 }
00392
00393 if ( TKlayers==21 && isValid && isLastTEC8 ) {
00394
00395 std::vector< ForwardDetLayer*> posTecLayers = measurementTrackerHandle->geometricSearchTracker()->posTecLayers() ;
00396 const DetLayer* tec9pos = posTecLayers[posTecLayers.size()-1];
00397 std::vector< ForwardDetLayer*> negTecLayers = measurementTrackerHandle->geometricSearchTracker()->negTecLayers() ;
00398 const DetLayer* tec9neg = negTecLayers[negTecLayers.size()-1];
00399
00400 const MeasurementEstimator* estimator = est.product();
00401 const LayerMeasurements* theLayerMeasurements = new LayerMeasurements(&*measurementTrackerHandle);
00402 const TrajectoryStateOnSurface tsosTEC9 = itm->updatedState();
00403
00404
00405 if (!iidd == StripSubdetector::TEC) cout << "there is a problem with TEC 9 extrapolation" << endl;
00406 TECDetId tecdetid(iidd);
00407
00408 vector<TrajectoryMeasurement> tmp;
00409 if ( tecdetid.side() == 1 ) {
00410 tmp = theLayerMeasurements->measurements(*tec9neg, tsosTEC9, *thePropagator, *estimator);
00411
00412 }
00413 if ( tecdetid.side() == 2 ) {
00414 tmp = theLayerMeasurements->measurements(*tec9pos, tsosTEC9, *thePropagator, *estimator);
00415
00416 }
00417
00418 if ( !tmp.empty()) {
00419
00420
00421
00422 TrajectoryMeasurement tec9TM(tmp.back());
00423 ConstReferenceCountingPointer<TransientTrackingRecHit> tec9Hit;
00424 tec9Hit = tec9TM.recHit();
00425
00426 unsigned int tec9id = tec9Hit->geographicalId().rawId();
00427 if (DEBUG) cout << "tec9id = " << tec9id << " is Double sided = " << isDoubleSided(tec9id) << " and 0x3 = " << (tec9id & 0x3) << endl;
00428
00429 if (tec9Hit->geographicalId().rawId()!=0) {
00430 if (DEBUG) cout << "tec9 hit actually being added to TM vector" << endl;
00431
00432
00433 if (isDoubleSided(tec9id)) {
00434 TMs.push_back(TrajectoryAtInvalidHit(tec9TM,tkgeom, propagator, 1));
00435 TMs.push_back(TrajectoryAtInvalidHit(tec9TM,tkgeom, propagator, 2));
00436 } else
00437 TMs.push_back(TrajectoryAtInvalidHit(tec9TM,tkgeom, propagator));
00438 }
00439 }
00440 }
00441
00443
00444
00445
00446 for(std::vector<TrajectoryAtInvalidHit>::const_iterator TM=TMs.begin();TM!=TMs.end();++TM) {
00447
00448
00449 iidd = TM->monodet_id();
00450 if (DEBUG) cout << "setting iidd = " << iidd << " before checking efficiency and ";
00451
00452 xloc = TM->localX();
00453 yloc = TM->localY();
00454
00455 xErr = TM->localErrorX();
00456 yErr = TM->localErrorY();
00457
00458 angleX = atan( TM->localDxDz() );
00459 angleY = atan( TM->localDyDz() );
00460
00461 xglob = TM->globalX();
00462 yglob = TM->globalY();
00463 zglob = TM->globalZ();
00464 withinAcceptance = TM->withinAcceptance();
00465
00466 trajHitValid = TM->validHit();
00467
00468
00469 TKlayers = checkLayer(iidd);
00470
00471 if ( (layers == TKlayers) || (layers == 0) ) {
00472 whatlayer = TKlayers;
00473 if (DEBUG) cout << "Looking at layer under study" << endl;
00474 TrajGlbX = 0.0; TrajGlbY = 0.0; TrajGlbZ = 0.0; ModIsBad = 2; Id = 0; SiStripQualBad = 0;
00475 run = 0; event = 0; TrajLocX = 0.0; TrajLocY = 0.0; TrajLocErrX = 0.0; TrajLocErrY = 0.0;
00476 TrajLocAngleX = -999.0; TrajLocAngleY = -999.0; ResX = 0.0; ResXSig = 0.0;
00477 ClusterLocX = 0.0; ClusterLocY = 0.0; ClusterLocErrX = 0.0; ClusterLocErrY = 0.0; ClusterStoN = 0.0;
00478 bunchx = 0;
00479
00480
00481
00482 if (input.size() > 0 ) {
00483 if (DEBUG) cout << "Checking clusters with size = " << input.size() << endl;
00484 int nClusters = 0;
00485 std::vector< std::vector<float> > VCluster_info;
00486 for (edmNew::DetSetVector<SiStripCluster>::const_iterator DSViter = input.begin(); DSViter != input.end(); DSViter++) {
00487
00488
00489 unsigned int ClusterId = DSViter->id();
00490 if (ClusterId == iidd) {
00491 if (DEBUG) cout << "found (ClusterId == iidd) with ClusterId = " << ClusterId << " and iidd = " << iidd << endl;
00492 DetId ClusterDetId(ClusterId);
00493 const StripGeomDetUnit * stripdet=(const StripGeomDetUnit*)tkgeom->idToDetUnit(ClusterDetId);
00494
00495 for(edmNew::DetSet<SiStripCluster>::const_iterator iter=DSViter->begin();iter!=DSViter->end();++iter) {
00496
00497 StripClusterParameterEstimator::LocalValues parameters=stripcpe.localParameters(*iter,*stripdet);
00498 float res = (parameters.first.x() - xloc);
00499 float sigma = checkConsistency(parameters , xloc, xErr);
00500
00501
00502
00503
00504
00505
00506 SiStripClusterInfo clusterInfo = SiStripClusterInfo(*iter, es, ClusterId);
00507
00508
00509
00510 std::vector< float > cluster_info;
00511 cluster_info.push_back(res);
00512 cluster_info.push_back(sigma);
00513 cluster_info.push_back(parameters.first.x());
00514 cluster_info.push_back(sqrt(parameters.second.xx()));
00515 cluster_info.push_back(parameters.first.y());
00516 cluster_info.push_back(sqrt(parameters.second.yy()));
00517 cluster_info.push_back( clusterInfo.signalOverNoise() );
00518
00519 VCluster_info.push_back(cluster_info);
00520 nClusters++;
00521 if (DEBUG) cout << "Have ID match. residual = " << VCluster_info.back()[0] << " res sigma = " << VCluster_info.back()[1] << endl;
00522 if (DEBUG) cout << "trajectory measurement compatability estimate = " << (*itm).estimate() << endl;
00523 if (DEBUG) cout << "hit position = " << parameters.first.x() << " hit error = " << sqrt(parameters.second.xx()) << " trajectory position = " << xloc << " traj error = " << xErr << endl;
00524 }
00525 }
00526 }
00527 float FinalResSig = 1000.0;
00528 float FinalCluster[7]= {1000.0, 1000.0, 0.0, 0.0, 0.0, 0.0, 0.0};
00529 if (nClusters > 0) {
00530 if (DEBUG) cout << "found clusters > 0" << endl;
00531 if (nClusters > 1) {
00532
00533 vector< vector<float> >::iterator ires;
00534 for (ires=VCluster_info.begin(); ires!=VCluster_info.end(); ires++){
00535 if ( abs((*ires)[1]) < abs(FinalResSig)) {
00536 FinalResSig = (*ires)[1];
00537 for (unsigned int i = 0; i<ires->size(); i++) {
00538 if (DEBUG) cout << "filling final cluster. i = " << i << " before fill FinalCluster[i]=" << FinalCluster[i] << " and (*ires)[i] =" << (*ires)[i] << endl;
00539 FinalCluster[i] = (*ires)[i];
00540 if (DEBUG) cout << "filling final cluster. i = " << i << " after fill FinalCluster[i]=" << FinalCluster[i] << " and (*ires)[i] =" << (*ires)[i] << endl;
00541 }
00542 }
00543 if (DEBUG) cout << "iresidual = " << (*ires)[0] << " isigma = " << (*ires)[1] << " and FinalRes = " << FinalCluster[0] << endl;
00544 }
00545 }
00546 else {
00547 FinalResSig = VCluster_info.at(0)[1];
00548 for (unsigned int i = 0; i<VCluster_info.at(0).size(); i++) {
00549 FinalCluster[i] = VCluster_info.at(0)[i];
00550 }
00551 }
00552 nClusters=0;
00553 VCluster_info.clear();
00554 }
00555
00556 if (DEBUG) cout << "Final residual in X = " << FinalCluster[0] << "+-" << (FinalCluster[0]/FinalResSig) << endl;
00557 if (DEBUG) cout << "Checking location of trajectory: abs(yloc) = " << abs(yloc) << " abs(xloc) = " << abs(xloc) << endl;
00558 if (DEBUG) cout << "Checking location of cluster hit: yloc = " << FinalCluster[4] << "+-" << FinalCluster[5] << " xloc = " << FinalCluster[2] << "+-" << FinalCluster[3] << endl;
00559 if (DEBUG) cout << "Final cluster signal to noise = " << FinalCluster[6] << endl;
00560
00561 float exclusionWidth = 0.4;
00562 float TOBexclusion = 0.0;
00563 float TECexRing5 = -0.89;
00564 float TECexRing6 = -0.56;
00565 float TECexRing7 = 0.60;
00566
00567 int subdetector = ((iidd>>25) & 0x7);
00568 int ringnumber = ((iidd>>5) & 0x7);
00569
00570
00571 if((TKlayers >= 5 && TKlayers < 11)||((subdetector == 6)&&( (ringnumber >= 5)&&(ringnumber <=7) ))) {
00572
00573 float highzone = 0.0;
00574 float lowzone = 0.0;
00575 float higherr = yloc + 5.0*yErr;
00576 float lowerr = yloc - 5.0*yErr;
00577 if(TKlayers >= 5 && TKlayers < 11) {
00578
00579 highzone = TOBexclusion + exclusionWidth;
00580 lowzone = TOBexclusion - exclusionWidth;
00581 } else if (ringnumber == 5) {
00582
00583 highzone = TECexRing5 + exclusionWidth;
00584 lowzone = TECexRing5 - exclusionWidth;
00585 } else if (ringnumber == 6) {
00586
00587 highzone = TECexRing6 + exclusionWidth;
00588 lowzone = TECexRing6 - exclusionWidth;
00589 } else if (ringnumber == 7) {
00590
00591 highzone = TECexRing7 + exclusionWidth;
00592 lowzone = TECexRing7 - exclusionWidth;
00593 }
00594
00595 if((highzone <= higherr)&&(highzone >= lowerr)) withinAcceptance = false;
00596 if((lowzone >= lowerr)&&(lowzone <= higherr)) withinAcceptance = false;
00597 if((higherr <= highzone)&&(higherr >= lowzone)) withinAcceptance = false;
00598 if((lowerr >= lowzone)&&(lowerr <= highzone)) withinAcceptance = false;
00599 }
00600
00601
00602
00603 TrajGlbX = xglob;
00604 TrajGlbY = yglob;
00605 TrajGlbZ = zglob;
00606 Id = iidd;
00607 run = run_nr;
00608 event = ev_nr;
00609 bunchx = bunch_nr;
00610
00611 if ( SiStripQuality_->getBadApvs(iidd)!=0 ) {
00612 SiStripQualBad = 1;
00613 if(DEBUG) cout << "strip is bad from SiStripQuality" << endl;
00614 } else {
00615 SiStripQualBad = 0;
00616 if(DEBUG) cout << "strip is good from SiStripQuality" << endl;
00617 }
00618
00619
00620 for (unsigned int ii=0;ii< fedErrorIds->size();ii++) {
00621 if (iidd == (*fedErrorIds)[ii].rawId() )
00622 SiStripQualBad = 1;
00623 }
00624
00625 TrajLocX = xloc;
00626 TrajLocY = yloc;
00627 TrajLocErrX = xErr;
00628 TrajLocErrY = yErr;
00629 TrajLocAngleX = angleX;
00630 TrajLocAngleY = angleY;
00631 ResX = FinalCluster[0];
00632 ResXSig = FinalResSig;
00633 if (FinalResSig != FinalCluster[1]) if (DEBUG) cout << "Problem with best cluster selection because FinalResSig = " << FinalResSig << " and FinalCluster[1] = " << FinalCluster[1] << endl;
00634 ClusterLocX = FinalCluster[2];
00635 ClusterLocY = FinalCluster[4];
00636 ClusterLocErrX = FinalCluster[3];
00637 ClusterLocErrY = FinalCluster[5];
00638 ClusterStoN = FinalCluster[6];
00639
00640 if (DEBUG) cout << "before check good" << endl;
00641
00642 if ( FinalResSig < 999.0) {
00643
00644 if (DEBUG) cout << "hit being counted as good " << FinalCluster[0] << " FinalRecHit " <<
00645 iidd << " TKlayers " << TKlayers << " xloc " << xloc << " yloc " << yloc << " module " << iidd <<
00646 " matched/stereo/rphi = " << ((iidd & 0x3)==0) << "/" << ((iidd & 0x3)==1) << "/" << ((iidd & 0x3)==2) << endl;
00647 ModIsBad = 0;
00648 traj->Fill();
00649 }
00650 else {
00651 if (DEBUG) cout << "hit being counted as bad ######### Invalid RPhi FinalResX " << FinalCluster[0] << " FinalRecHit " <<
00652 iidd << " TKlayers " << TKlayers << " xloc " << xloc << " yloc " << yloc << " module " << iidd <<
00653 " matched/stereo/rphi = " << ((iidd & 0x3)==0) << "/" << ((iidd & 0x3)==1) << "/" << ((iidd & 0x3)==2) << endl;
00654 ModIsBad = 1;
00655 traj->Fill();
00656
00657 if (DEBUG) cout << " RPhi Error " << sqrt(xErr*xErr + yErr*yErr) << " ErrorX " << xErr << " yErr " << yErr << endl;
00658 } if (DEBUG) cout << "after good location check" << endl;
00659 } if (DEBUG) cout << "after list of clusters" << endl;
00660 } if (DEBUG) cout << "After layers=TKLayers if" << endl;
00661 } if (DEBUG) cout << "After looping over TrajAtValidHit list" << endl;
00662 } if (DEBUG) cout << "end TMeasurement loop" << endl;
00663 } if (DEBUG) cout << "end of trajectories loop" << endl;
00664 }
00665 }
00666
00667 void HitEff::endJob(){
00668 traj->GetDirectory()->cd();
00669 traj->Write();
00670
00671 if (DEBUG) cout << " Events Analysed " << events << endl;
00672 if (DEBUG) cout << " Number Of Tracked events " << EventTrackCKF << endl;
00673 }
00674
00675 double HitEff::checkConsistency(StripClusterParameterEstimator::LocalValues parameters, double xx, double xerr) {
00676 double error = sqrt(parameters.second.xx() + xerr*xerr);
00677 double separation = abs(parameters.first.x() - xx);
00678 double consistency = separation/error;
00679 return consistency;
00680 }
00681
00682 bool HitEff::isDoubleSided(unsigned int iidd) const {
00683 StripSubdetector strip=StripSubdetector(iidd);
00684 unsigned int subid=strip.subdetId();
00685 unsigned int layer = 0;
00686 if (subid == StripSubdetector::TIB) {
00687 TIBDetId tibid(iidd);
00688 layer = tibid.layer();
00689 if (layer == 1 || layer == 2) return true;
00690 else return false;
00691 }
00692 else if (subid == StripSubdetector::TOB) {
00693 TOBDetId tobid(iidd);
00694 layer = tobid.layer() + 4 ;
00695 if (layer == 5 || layer == 6) return true;
00696 else return false;
00697 }
00698 else if (subid == StripSubdetector::TID) {
00699 TIDDetId tidid(iidd);
00700 layer = tidid.ring() + 10;
00701 if (layer == 11 || layer == 12) return true;
00702 else return false;
00703 }
00704 else if (subid == StripSubdetector::TEC) {
00705 TECDetId tecid(iidd);
00706 layer = tecid.ring() + 13 ;
00707 if (layer == 14 || layer == 15 || layer == 18) return true;
00708 else return false;
00709 }
00710 else
00711 return false;
00712 }
00713
00714 bool HitEff::check2DPartner(unsigned int iidd, std::vector<TrajectoryMeasurement> traj) {
00715 unsigned int partner_iidd = 0;
00716 bool found2DPartner = false;
00717
00718 if ((iidd & 0x3)==1) partner_iidd = iidd+1;
00719 if ((iidd & 0x3)==2) partner_iidd = iidd-1;
00720
00721
00722 for (std::vector<TrajectoryMeasurement>::const_iterator iTM=traj.begin(); iTM!=traj.end(); ++iTM) {
00723 if (iTM->recHit()->geographicalId().rawId()==partner_iidd) {
00724 found2DPartner = true;
00725 }
00726 }
00727 return found2DPartner;
00728 }
00729
00730 unsigned int HitEff::checkLayer( unsigned int iidd) {
00731 StripSubdetector strip=StripSubdetector(iidd);
00732 unsigned int subid=strip.subdetId();
00733 if (subid == StripSubdetector::TIB) {
00734 TIBDetId tibid(iidd);
00735 return tibid.layer();
00736 }
00737 if (subid == StripSubdetector::TOB) {
00738 TOBDetId tobid(iidd);
00739 return tobid.layer() + 4 ;
00740 }
00741 if (subid == StripSubdetector::TID) {
00742 TIDDetId tidid(iidd);
00743 return tidid.wheel() + 10;
00744 }
00745 if (subid == StripSubdetector::TEC) {
00746 TECDetId tecid(iidd);
00747 return tecid.wheel() + 13 ;
00748 }
00749 return 0;
00750 }
00751
00752
00753 DEFINE_FWK_MODULE(HitEff);