00001
00002
00003
00004
00005
00013
00014
00015
00016
00017
00018
00019
00020
00021 #include "Alignment/OfflineValidation/plugins/ValidationMisalignedTracker.h"
00022
00023
00024
00025
00026 #include "DataFormats/TrackReco/interface/Track.h"
00027 #include "SimDataFormats/Track/interface/SimTrackContainer.h"
00028 #include "SimDataFormats/TrackingAnalysis/interface/TrackingParticle.h"
00029
00030 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00031 #include "FWCore/Framework/interface/MakerMacros.h"
00032 #include "TrackingTools/TrajectoryState/interface/FreeTrajectoryState.h"
00033 #include "TrackingTools/PatternTools/interface/TSCPBuilderNoMaterial.h"
00034 #include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
00035 #include "Geometry/CommonDetUnit/interface/GeomDet.h"
00036
00037
00038
00039
00040 ValidationMisalignedTracker::ValidationMisalignedTracker(const edm::ParameterSet& iConfig)
00041 {
00042
00043
00044 mzmu=0.,recmzmu=0.,ptzmu=0.,recptzmu=0.,etazmu=0.,recetazmu=0., thetazmu=0.,recthetazmu=0.,phizmu=0.,recphizmu=0.;
00045 recenezmu=0., enezmu=0., pLzmu=0., recpLzmu=0.,yzmu=0.,recyzmu=0.,mxptmu=0.,recmxptmu=0., minptmu=0.,recminptmu=0.;
00046
00047
00048 flag=0,flagrec=0,count=0,countrec=0;
00049 nAssoc=0;
00050
00051 for (int i=0;i<2;i++){
00052 countpart[i]=0;
00053 countpartrec[i]=0;
00054 for (int j=0;j<2;j++){
00055 ene[i][j]=0.;
00056 p[i][j]=0.;
00057 px[i][j]=0.;
00058 py[i][j]=0.;
00059 pz[i][j]=0.;
00060 ptmu[i][j]=0.;
00061 recene[i][j]=0.;
00062 recp[i][j]=0.;
00063 recpx[i][j]=0.;
00064 recpy[i][j]=0.;
00065 recpz[i][j]=0.;
00066 recptmu[i][j]=0.;
00067 }
00068 }
00069
00070
00071 eventCount_ = 0;
00072
00073 selection_eff = iConfig.getUntrackedParameter<bool>("selection_eff", false);
00074 selection_fake = iConfig.getUntrackedParameter<bool>("selection_fake", true);
00075 ZmassSelection_ = iConfig.getUntrackedParameter<bool>("ZmassSelection", false);
00076 simobject = iConfig.getUntrackedParameter<std::string>("simobject","g4SimHits");
00077 trackassociator = iConfig.getUntrackedParameter<std::string>("TrackAssociator","ByHits");
00078 associators = iConfig.getParameter< std::vector<std::string> >("associators");
00079 label = iConfig.getParameter< std::vector<edm::InputTag> >("label");
00080 label_tp_effic = iConfig.getParameter< edm::InputTag >("label_tp_effic");
00081 label_tp_fake = iConfig.getParameter< edm::InputTag >("label_tp_fake");
00082
00083 rootfile_ = iConfig.getUntrackedParameter<std::string>("rootfile","myroot.root");
00084 file_ = new TFile(rootfile_.c_str(),"RECREATE");
00085
00086
00087 tree_eff = new TTree("EffTracks","Efficiency Tracks Tree");
00088
00089 tree_eff->Branch("Run",&irun,"irun/i");
00090 tree_eff->Branch("Event",&ievt,"ievt/i");
00091
00092
00093 tree_eff->Branch("TrackID",&trackType,"trackType/i");
00094 tree_eff->Branch("pt",&pt,"pt/F");
00095 tree_eff->Branch("eta",&eta,"eta/F");
00096 tree_eff->Branch("CotTheta",&cottheta,"cottheta/F");
00097 tree_eff->Branch("phi",&phi,"phi/F");
00098 tree_eff->Branch("d0",&d0,"d0/F");
00099 tree_eff->Branch("z0",&z0,"z0/F");
00100 tree_eff->Branch("nhit",&nhit,"nhit/i");
00101
00102
00103 tree_eff->Branch("recpt",&recpt,"recpt/F");
00104 tree_eff->Branch("receta",&receta,"receta/F");
00105 tree_eff->Branch("CotRecTheta",&reccottheta,"reccottheta/F");
00106 tree_eff->Branch("recphi",&recphi,"recphi/F");
00107 tree_eff->Branch("recd0",& recd0,"recd0/F");
00108 tree_eff->Branch("recz0",& recz0,"recz0/F");
00109 tree_eff->Branch("nAssoc",&nAssoc,"nAssoc/i");
00110 tree_eff->Branch("recnhit",&recnhit,"recnhit/i");
00111 tree_eff->Branch("CHISQ",&recchiq,"recchiq/F");
00112
00113 tree_eff->Branch("reseta",&reseta,"reseta/F");
00114 tree_eff->Branch("respt",&respt,"respt/F");
00115 tree_eff->Branch("resd0",&resd0,"resd0/F");
00116 tree_eff->Branch("resz0",&resz0,"resz0/F");
00117 tree_eff->Branch("resphi",&resphi,"resphi/F");
00118 tree_eff->Branch("rescottheta",&rescottheta,"rescottheta/F");
00119 tree_eff->Branch("eff",&eff,"eff/F");
00120
00121
00122 tree_eff->Branch("mzmu",&mzmu,"mzmu/F");
00123 tree_eff->Branch("ptzmu",&ptzmu,"ptzmu/F");
00124 tree_eff->Branch("pLzmu",&pLzmu,"pLzmu/F");
00125 tree_eff->Branch("enezmu",&enezmu,"enezmu/F");
00126 tree_eff->Branch("etazmu",&etazmu,"etazmu/F");
00127 tree_eff->Branch("thetazmu",&thetazmu,"thetazmu/F");
00128 tree_eff->Branch("phizmu",&phizmu,"phizmu/F");
00129 tree_eff->Branch("yzmu",&yzmu,"yzmu/F");
00130 tree_eff->Branch("mxptmu",&mxptmu,"mxptmu/F");
00131 tree_eff->Branch("minptmu",&minptmu,"minptmu/F");
00132
00133 tree_eff->Branch("recmzmu",&recmzmu,"recmzmu/F");
00134 tree_eff->Branch("recptzmu",&recptzmu,"recptzmu/F");
00135 tree_eff->Branch("recpLzmu",&recpLzmu,"recpLzmu/F");
00136 tree_eff->Branch("recenezmu",&recenezmu,"recenezmu/F");
00137 tree_eff->Branch("recetazmu",&recetazmu,"recetazmu/F");
00138 tree_eff->Branch("recthetazmu",&recthetazmu,"recthetazmu/F");
00139 tree_eff->Branch("recphizmu",&recphizmu,"recphizmu/F");
00140 tree_eff->Branch("recyzmu",&recyzmu,"recyzmu/F");
00141 tree_eff->Branch("recmxptmu",&recmxptmu,"recmxptmu/F");
00142 tree_eff->Branch("recminptmu",&recminptmu,"recminptmu/F");
00143
00144
00145
00146
00147 tree_eff->Branch("chi2Associator",&recchiq,"recchiq/F");
00148
00149
00150
00151 tree_fake = new TTree("FakeTracks","Fake Rate Tracks Tree");
00152
00153 tree_fake->Branch("Run",&irun,"irun/i");
00154 tree_fake->Branch("Event",&ievt,"ievt/i");
00155
00156
00157 tree_fake->Branch("fakeTrackID",&faketrackType,"faketrackType/i");
00158 tree_fake->Branch("fakept",&fakept,"fakept/F");
00159 tree_fake->Branch("fakeeta",&fakeeta,"fakeeta/F");
00160 tree_fake->Branch("fakeCotTheta",&fakecottheta,"fakecottheta/F");
00161 tree_fake->Branch("fakephi",&fakephi,"fakephi/F");
00162 tree_fake->Branch("faked0",&faked0,"faked0/F");
00163 tree_fake->Branch("fakez0",&fakez0,"fakez0/F");
00164 tree_fake->Branch("fakenhit",&fakenhit,"fakenhit/i");
00165
00166
00167 tree_fake->Branch("fakerecpt",&fakerecpt,"fakerecpt/F");
00168 tree_fake->Branch("fakereceta",&fakereceta,"fakereceta/F");
00169 tree_fake->Branch("fakeCotRecTheta",&fakereccottheta,"fakereccottheta/F");
00170 tree_fake->Branch("fakerecphi",&fakerecphi,"fakerecphi/F");
00171 tree_fake->Branch("fakerecd0",& fakerecd0,"fakerecd0/F");
00172 tree_fake->Branch("fakerecz0",& fakerecz0,"fakerecz0/F");
00173 tree_fake->Branch("fakenAssoc",&fakenAssoc,"fakenAssoc/i");
00174 tree_fake->Branch("fakerecnhit",&fakerecnhit,"fakerecnhit/i");
00175 tree_fake->Branch("fakeCHISQ",&fakerecchiq,"fakerecchiq/F");
00176
00177 tree_fake->Branch("fakereseta",&fakereseta,"fakereseta/F");
00178 tree_fake->Branch("fakerespt",&fakerespt,"fakerespt/F");
00179 tree_fake->Branch("fakeresd0",&fakeresd0,"fakeresd0/F");
00180 tree_fake->Branch("fakeresz0",&fakeresz0,"fakeresz0/F");
00181 tree_fake->Branch("fakeresphi",&fakeresphi,"fakeresphi/F");
00182 tree_fake->Branch("fakerescottheta",&fakerescottheta,"fakerescottheta/F");
00183 tree_fake->Branch("fake",&fake,"fake/F");
00184
00185
00186 tree_fake->Branch("fakemzmu",&fakemzmu,"fakemzmu/F");
00187 tree_fake->Branch("fakeptzmu",&fakeptzmu,"fakeptzmu/F");
00188 tree_fake->Branch("fakepLzmu",&fakepLzmu,"fakepLzmu/F");
00189 tree_fake->Branch("fakeenezmu",&fakeenezmu,"fakeenezmu/F");
00190 tree_fake->Branch("fakeetazmu",&fakeetazmu,"fakeetazmu/F");
00191 tree_fake->Branch("fakethetazmu",&fakethetazmu,"fakethetazmu/F");
00192 tree_fake->Branch("fakephizmu",&fakephizmu,"fakephizmu/F");
00193 tree_fake->Branch("fakeyzmu",&fakeyzmu,"fakeyzmu/F");
00194 tree_fake->Branch("fakemxptmu",&fakemxptmu,"fakemxptmu/F");
00195 tree_fake->Branch("fakeminptmu",&fakeminptmu,"fakeminptmu/F");
00196
00197 tree_fake->Branch("fakerecmzmu",&fakerecmzmu,"fakerecmzmu/F");
00198 tree_fake->Branch("fakerecptzmu",&fakerecptzmu,"fakerecptzmu/F");
00199 tree_fake->Branch("fakerecpLzmu",&fakerecpLzmu,"fakerecpLzmu/F");
00200 tree_fake->Branch("fakerecenezmu",&fakerecenezmu,"fakerecenezmu/F");
00201 tree_fake->Branch("fakerecetazmu",&fakerecetazmu,"fakerecetazmu/F");
00202 tree_fake->Branch("fakerecthetazmu",&fakerecthetazmu,"fakerecthetazmu/F");
00203 tree_fake->Branch("fakerecphizmu",&fakerecphizmu,"fakerecphizmu/F");
00204 tree_fake->Branch("fakerecyzmu",&fakerecyzmu,"fakerecyzmu/F");
00205 tree_fake->Branch("fakerecmxptmu",&fakerecmxptmu,"fakerecmxptmu/F");
00206 tree_fake->Branch("fakerecminptmu",&fakerecminptmu,"fakerecminptmu/F");
00207
00208 tree_fake->Branch("fakechi2Associator",&fakerecchiq,"fakerecchiq/F");
00209
00210 }
00211
00212
00213 ValidationMisalignedTracker::~ValidationMisalignedTracker()
00214 {
00215
00216
00217 std::cout << "ValidationMisalignedTracker::endJob Processed " << eventCount_
00218 << " events" << std::endl;
00219
00220
00221 file_->Write();
00222
00223
00224
00225 file_->Close();
00226 tree_eff=0;
00227 tree_fake=0;
00228 }
00229
00230
00231
00232
00233
00234
00235
00236 void
00237 ValidationMisalignedTracker::analyze(const edm::Event& iEvent, const edm::EventSetup& iSetup)
00238 {
00239 if (watchTrackAssociatorRecord_.check(iSetup)) {
00240 associatore.clear();
00241 edm::ESHandle<TrackAssociatorBase> theAssociator;
00242 for (unsigned int w=0;w<associators.size();w++) {
00243 iSetup.get<TrackAssociatorRecord>().get(associators[w], theAssociator);
00244 associatore.push_back( theAssociator.product() );
00245 }
00246 }
00247
00248 edm::LogInfo("Tracker Misalignment Validation") << "\n Starting!";
00249
00250
00251 skip=false;
00252 std::vector<int> indmu;
00253
00254 if ( selection_eff && ZmassSelection_){
00255 edm::Handle<edm::HepMCProduct> evt;
00256 iEvent.getByLabel("source", evt);
00257 bool accepted = false;
00258 bool foundmuons=false;
00259 HepMC::GenEvent * myGenEvent = new HepMC::GenEvent(*(evt->GetEvent()));
00260
00261 for ( HepMC::GenEvent::particle_iterator p = myGenEvent->particles_begin(); p != myGenEvent->particles_end(); ++p ) {
00262 if ( !accepted && ( (*p)->pdg_id() == 23 ) && (*p)->status() == 3 ) {
00263 accepted=true;
00264 for( HepMC::GenVertex::particle_iterator aDaughter=(*p)->end_vertex()->particles_begin(HepMC::descendants); aDaughter !=(*p)->end_vertex()->particles_end(HepMC::descendants);aDaughter++){
00265 if ( abs((*aDaughter)->pdg_id())==13) {
00266 foundmuons=true;
00267 if ((*aDaughter)->status()!=1 ) {
00268 for( HepMC::GenVertex::particle_iterator byaDaughter=(*aDaughter)->end_vertex()->particles_begin(HepMC::descendants); byaDaughter !=(*aDaughter)->end_vertex()->particles_end(HepMC::descendants);byaDaughter++){
00269 if ((*byaDaughter)->status()==1 && abs((*byaDaughter)->pdg_id())==13) {
00270 indmu.push_back((*byaDaughter)->barcode());
00271 std::cout << "Stable muon from Z with charge " << (*byaDaughter)->pdg_id() << " and index "<< (*byaDaughter)->barcode() << std::endl;
00272 }
00273 }
00274 }
00275 else {
00276 indmu.push_back((*aDaughter)->barcode());
00277 std::cout << "Stable muon from Z with charge " << (*aDaughter)->pdg_id() << " and index "<< (*aDaughter)->barcode() << std::endl;
00278 }
00279 }
00280 }
00281 if (!foundmuons){
00282 std::cout << "No muons from Z ...skip event" << std::endl;
00283 skip=true;
00284 }
00285 }
00286 }
00287 if ( !accepted) {
00288 std::cout << "No Z particles in the event ...skip event" << std::endl;
00289 skip=true;
00290 }
00291 }
00292 else {
00293 skip=false;
00294 }
00295
00296
00297
00298
00299 edm::ESHandle<TrackerGeometry> trackerGeometry;
00300 iSetup.get<TrackerDigiGeometryRecord>().get( trackerGeometry );
00301 GeomDet* testGeomDet = trackerGeometry->detsTOB().front();
00302 std::cout << testGeomDet->position() << std::endl;
00303
00304
00305
00306 irun=iEvent.id().run();
00307 ievt=iEvent.id().event();
00308
00309
00310 int countpart[2]={0,0},countpartrec[2]={0,0},flag=0,flagrec=0,count=0,countrec=0;
00311
00312 float ene[2][2],px[2][2],py[2][2],pz[2][2],ptmu[2][2];
00313 float recene[2][2],recp[2][2],recpx[2][2],recpy[2][2],recpz[2][2],recptmu[2][2];
00314
00315 for (int i=0;i<2;i++){
00316 for (int j=0;j<2;j++){
00317 ene[i][j]=0.;
00318 px[i][j]=0.;
00319 py[i][j]=0.;
00320 pz[i][j]=0.;
00321 ptmu[i][j]=0.;
00322 recene[i][j]=0.;
00323 recp[i][j]=0.;
00324 recpx[i][j]=0.;
00325 recpy[i][j]=0.;
00326 recpz[i][j]=0.;
00327 recptmu[i][j]=0.;
00328 }
00329 }
00330
00331
00332 edm::Handle<TrackingParticleCollection> TPCollectionHeff ;
00333 iEvent.getByLabel(label_tp_effic,TPCollectionHeff);
00334 const TrackingParticleCollection tPCeff = *(TPCollectionHeff.product());
00335
00336 edm::Handle<TrackingParticleCollection> TPCollectionHfake ;
00337 iEvent.getByLabel(label_tp_fake,TPCollectionHfake);
00338 const TrackingParticleCollection tPCfake = *(TPCollectionHfake.product());
00339
00340
00341 int w=0;
00342 for (unsigned int ww=0;ww<associators.size();ww++){
00343
00344
00345
00346
00347 edm::InputTag algo = label[0];
00348
00349 edm::Handle<edm::View<reco::Track> > trackCollection;
00350 iEvent.getByLabel(algo, trackCollection);
00351 const edm::View<reco::Track> tC = *(trackCollection.product());
00352
00353
00354
00355 LogTrace("TrackValidator") << "Calling associateRecoToSim method" << "\n";
00356 reco::RecoToSimCollection recSimColl=associatore[ww]->associateRecoToSim(trackCollection,
00357 TPCollectionHfake,
00358 &iEvent);
00359
00360 LogTrace("TrackValidator") << "Calling associateSimToReco method" << "\n";
00361 reco::SimToRecoCollection simRecColl=associatore[ww]->associateSimToReco(trackCollection,
00362 TPCollectionHeff,
00363 &iEvent);
00364
00365
00366
00367
00368
00369
00370
00371 if (selection_eff && !skip ) {
00372 std::cout << "Computing Efficiency" << std::endl;
00373
00374 edm::LogVerbatim("TrackValidator") << "\n# of TrackingParticles (before cuts): " << tPCeff.size() << "\n";
00375 int ats = 0;
00376 int st=0;
00377 for (TrackingParticleCollection::size_type i=0; i<tPCeff.size(); i++){
00378
00379
00380 eta = 0.,theta=0.,phi=0.,pt=0.,cottheta=0.,costheta=0.;
00381 d0=0.,z0=0.;
00382 nhit=0;
00383 receta = 0.,rectheta = 0.,recphi = 0.,recpt = 0.,reccottheta=0.,recd0=0.,recz0=0.;
00384 respt = 0.,resd0 = 0.,resz0 = 0.,reseta = 0.,resphi=0.,rescottheta=0.;
00385 recchiq = 0.;
00386 recnhit = 0;
00387 trackType = 0;
00388 eff=0;
00389
00390
00391 TrackingParticleRef tp(TPCollectionHeff, i);
00392 if (tp->charge()==0) continue;
00393 st++;
00394
00395
00396
00397
00398 const SimTrack * simulatedTrack = &(*tp->g4Track_begin());
00399
00400 edm::ESHandle<MagneticField> theMF;
00401 iSetup.get<IdealMagneticFieldRecord>().get(theMF);
00402 FreeTrajectoryState
00403 ftsAtProduction(GlobalPoint(tp->vertex().x(),tp->vertex().y(),tp->vertex().z()),
00404 GlobalVector(simulatedTrack->momentum().x(),simulatedTrack->momentum().y(),simulatedTrack->momentum().z()),
00405 TrackCharge(tp->charge()),
00406 theMF.product());
00407 TSCPBuilderNoMaterial tscpBuilder;
00408 TrajectoryStateClosestToPoint tsAtClosestApproach
00409 = tscpBuilder(ftsAtProduction,GlobalPoint(0,0,0));
00410 GlobalPoint v = tsAtClosestApproach.theState().position();
00411 GlobalVector p = tsAtClosestApproach.theState().momentum();
00412
00413
00414
00415
00416 double dxySim = (-v.x()*sin(p.phi())+v.y()*cos(p.phi()));
00417 double dszSim = v.z()*p.perp()/p.mag() - (v.x()*p.x()+v.y()*p.y())/p.perp() * p.z()/p.mag();
00418 d0 = float(-dxySim);
00419 z0 = float(dszSim*p.mag()/p.perp());
00420
00421
00422 if (abs(simulatedTrack->type())==13 && simulatedTrack->genpartIndex() != -1 ) {
00423 std::cout << " TRACCIA SIM DI MUONI " << std::endl;
00424 std::cout << "Gen part " << simulatedTrack->genpartIndex()<< std::endl;
00425 trackType=simulatedTrack->type();
00426 theta=simulatedTrack->momentum().theta();
00427 costheta=cos(theta);
00428 cottheta=1./tan(theta);
00429
00430 eta=simulatedTrack->momentum().eta();
00431 phi=simulatedTrack->momentum().phi();
00432 pt=simulatedTrack->momentum().pt();
00433 nhit=tp->matchedHit();
00434
00435
00436 std::cout << "3) Before assoc: SimTrack of type = " << simulatedTrack->type()
00437 << " ,at eta = " << eta
00438 << " ,with pt at vertex = " << simulatedTrack->momentum().pt() << " GeV/c"
00439 << " ,d0 =" << d0
00440 << " ,z0 =" << z0
00441 << " ,nhit=" << nhit
00442 << std::endl;
00443
00444 if ( ZmassSelection_ ){
00445 if (abs(trackType)==13 && (simulatedTrack->genpartIndex()==indmu[0] || simulatedTrack->genpartIndex()==indmu[1] )) {
00446 std::cout << " TRACK sim of muons from Z " << std::endl;
00447 flag=0;
00448 count=countpart[0];
00449 countpart[0]++;
00450 }
00451 else if (abs(trackType)==11) {
00452
00453 flag=1;
00454 count=countpart[1];
00455 countpart[1]++;
00456 }
00457
00458
00459 px[flag][count]=simulatedTrack->momentum().x();
00460 py[flag][count]=simulatedTrack->momentum().y();
00461 pz[flag][count]=simulatedTrack->momentum().z();
00462 ptmu[flag][count]=simulatedTrack->momentum().pt();
00463 ene[flag][count]=simulatedTrack->momentum().e();
00464 }
00465
00466
00467 std::vector<std::pair<edm::RefToBase<reco::Track>, double> > rt;
00468 if(simRecColl.find(tp) != simRecColl.end()){
00469
00470 rt = simRecColl[tp];
00471 if (rt.size()!=0) {
00472
00473 edm::RefToBase<reco::Track> t = rt.begin()->first;
00474 ats++;
00475
00476
00477
00478
00479
00480
00481
00482
00483 edm::LogVerbatim("TrackValidator") << "TrackingParticle #" << st << " with pt=" << t->pt()
00484 << " associated with quality:" << rt.begin()->second <<"\n";
00485 std::cout << "Reconstructed Track:" << t->pt()<< std::endl;
00486 std::cout << "\tpT: " << t->pt()<< std::endl;
00487 std::cout << "\timpact parameter:d0: " << t->d0()<< std::endl;
00488 std::cout << "\timpact parameter:z0: " << t->dz()<< std::endl;
00489 std::cout << "\tAzimuthal angle of point of closest approach:" << t->phi()<< std::endl;
00490 std::cout << "\tcharge: " << t->charge()<< std::endl;
00491 std::cout << "\teta: " << t->eta()<< std::endl;
00492 std::cout << "\tnormalizedChi2: " << t->normalizedChi2()<< std::endl;
00493
00494 recnhit=t->numberOfValidHits();
00495 recchiq=t->normalizedChi2();
00496 rectheta=t->theta();
00497 reccottheta=1./tan(rectheta);
00498
00499 receta=t->momentum().eta();
00500
00501 recphi=t->phi();
00502 recpt=t->pt();
00503 ptused.push_back(recpt);
00504 recd0=t->d0();
00505 recz0=t->dz();
00506
00507 std::cout << "5) After call to associator: the best match has "
00508 << recnhit << " hits, Chi2 = "
00509 << recchiq << ", pt at vertex = "
00510 << recpt << " GeV/c, "
00511 << ", recd0 = " << recd0
00512 << ", recz0= " << recz0
00513 << std::endl;
00514
00515
00516 respt=recpt - pt;
00517 resd0=recd0-d0;
00518 resz0=recz0-z0;
00519 reseta=receta-eta;
00520 resphi=recphi-phi;
00521 rescottheta=reccottheta-cottheta;
00522 eff=1;
00523
00524 std::cout << "6) Transverse momentum residual=" << respt
00525 << " ,d0 residual=" << resd0
00526 << " ,z0 residual=" << resz0
00527 << " with eff=" << eff << std::endl;
00528
00529 if ( ZmassSelection_ ){
00530
00531 if (abs(trackType)==13) {
00532 std::cout << " TRACCIA RECO DI MUONI " << std::endl;
00533 flagrec=0;
00534 countrec=countpartrec[0];
00535 countpartrec[0]++;
00536 }
00537 else if (abs(trackType)==11) {
00538 std::cout << " TRACCIA RECO DI ELETTRONI " << std::endl;
00539 flagrec=1;
00540 countrec=countpartrec[1];
00541 countpartrec[1]++;
00542 }
00543
00544 recp[flagrec][countrec]=sqrt(t->momentum().mag2());
00545 recpx[flagrec][countrec]=t->momentum().x();
00546 recpy[flagrec][countrec]=t->momentum().y();
00547 recpz[flagrec][countrec]=t->momentum().z();
00548 recptmu[flagrec][countrec]=sqrt( (t->momentum().x()*t->momentum().x()) + (t->momentum().y()*t->momentum().y()) );
00549 if (abs(trackType)==13) recene[flagrec][countrec]=sqrt(recp[flagrec][countrec]*recp[flagrec][countrec]+0.105*0.105);
00550 if (abs(trackType)==11) recene[flagrec][countrec]=sqrt(recp[flagrec][countrec]*recp[flagrec][countrec]+0.0005*0.0005);
00551 }
00552
00553 std::cout << "7) Transverse momentum reconstructed =" << recpt
00554 << " at eta= " << receta
00555 << " and phi= " << recphi
00556 << std::endl;
00557
00558 }
00559 }
00560 else{
00561 edm::LogVerbatim("TrackValidator") << "TrackingParticle #" << st
00562 << " with pt=" << sqrt(tp->momentum().perp2())
00563 << " NOT associated to any reco::Track" << "\n";
00564 receta =-100.;
00565 recphi =-100.;
00566 recpt =-100.;
00567 recd0 =-100.;
00568 recz0 =-100;
00569 respt =-100.;
00570 resd0 =-100.;
00571 resz0 =-100.;
00572 resphi =-100.;
00573 reseta =-100.;
00574 rescottheta=-100.;
00575 recnhit=100;
00576 recchiq=-100;
00577 eff=0;
00578 flagrec=100;
00579 }
00580
00581 std::cout << "Eff=" << eff << std::endl;
00582
00583
00584
00585 std::cout <<"Flag is" << flag << std::endl;
00586 std::cout <<"RecFlag is" << flagrec << std::endl;
00587
00588 if (countpart[0]==2 && flag==0) {
00589 mzmu=sqrt(
00590 (ene[0][0]+ene[0][1])*(ene[0][0]+ene[0][1])-
00591 (px[0][0]+px[0][1])*(px[0][0]+px[0][1])-
00592 (py[0][0]+py[0][1])*(py[0][0]+py[0][1])-
00593 (pz[0][0]+pz[0][1])*(pz[0][0]+pz[0][1])
00594 );
00595 std::cout << "Mzmu " << mzmu << std::endl;
00596 ptzmu=sqrt(
00597 (px[0][0]+px[0][1])*(px[0][0]+px[0][1])+
00598 (py[0][0]+py[0][1])*(py[0][0]+py[0][1])
00599 );
00600
00601 pLzmu=pz[0][0]+pz[0][1];
00602 enezmu=ene[0][0]+ene[0][1];
00603 phizmu=atan2((py[0][0]+py[0][1]),(px[0][0]+px[0][1]));
00604 thetazmu=atan2(ptzmu,(pz[0][0]+pz[0][1]));
00605 etazmu=-log(tan(thetazmu*3.14/360.));
00606 yzmu=0.5*log((enezmu+pLzmu)/(enezmu-pLzmu));
00607 mxptmu=std::max( ptmu[0][0], ptmu[0][1]);
00608 minptmu=std::min( ptmu[0][0], ptmu[0][1]);
00609 }
00610 else {
00611 mzmu=-100.;
00612 ptzmu=-100.;
00613 pLzmu=-100.;
00614 enezmu=-100.;
00615 etazmu=-100.;
00616 phizmu=-100.;
00617 thetazmu=-100.;
00618 yzmu=-100.;
00619 mxptmu=-100.;
00620 minptmu=-100.;
00621 }
00622
00623
00624 if (countpartrec[0]==2 && flagrec==0 ){
00625 recmzmu=sqrt(
00626 (recene[0][0]+recene[0][1])*(recene[0][0]+recene[0][1])-
00627 (recpx[0][0]+recpx[0][1])*(recpx[0][0]+recpx[0][1])-
00628 (recpy[0][0]+recpy[0][1])*(recpy[0][0]+recpy[0][1])-
00629 (recpz[0][0]+recpz[0][1])*(recpz[0][0]+recpz[0][1])
00630 );
00631 std::cout << "RecMzmu " << recmzmu << std::endl;
00632 recptzmu=sqrt(
00633 (recpx[0][0]+recpx[0][1])*(recpx[0][0]+recpx[0][1])+
00634 (recpy[0][0]+recpy[0][1])*(recpy[0][0]+recpy[0][1])
00635 );
00636
00637 recpLzmu=recpz[0][0]+recpz[0][1];
00638 recenezmu=recene[0][0]+recene[0][1];
00639 recphizmu=atan2((recpy[0][0]+recpy[0][1]),(recpx[0][0]+recpx[0][1]));
00640 recthetazmu=atan2(recptzmu,(recpz[0][0]+recpz[0][1]));
00641 recetazmu=-log(tan(recthetazmu*3.14/360.));
00642 recyzmu=0.5*log((recenezmu+recpLzmu)/(recenezmu-recpLzmu));
00643 recmxptmu=std::max(recptmu[0][0], recptmu[0][1]);
00644 recminptmu=std::min( recptmu[0][0], recptmu[0][1]);
00645 }
00646 else {
00647 recmzmu=-100.;
00648 recptzmu=-100.;
00649 recpLzmu=-100.;
00650 recenezmu=-100.;
00651 recetazmu=-100.;
00652 recphizmu=-100.;
00653 recthetazmu=-100.;
00654 recyzmu=-100.;
00655 recmxptmu=-100;
00656 recminptmu=-100.;
00657 }
00658
00659 tree_eff->Fill();
00660
00661 }
00662 }
00663 }
00664
00665
00666
00667
00668 if (selection_fake ) {
00669 std::cout << "Computing Fake Rate" << std::endl;
00670
00671 fakeeta = 0.,faketheta=0.,fakephi=0.,fakept=0.,fakecottheta=0.,fakecostheta=0.;
00672 faked0=0.,fakez0=0.;
00673 fakenhit=0;
00674 fakereceta = 0.,fakerectheta = 0.,fakerecphi = 0.,fakerecpt = 0.,fakereccottheta=0.,fakerecd0=0.,fakerecz0=0.;
00675 fakerespt = 0.,fakeresd0 = 0.,fakeresz0 = 0.,fakereseta = 0.,fakeresphi=0.,fakerescottheta=0.;
00676 fakerecchiq = 0.;
00677 fakerecnhit = 0;
00678 faketrackType = 0;
00679 fake=0;
00680
00681
00682
00683 int rT=0;
00684 for(reco::TrackCollection::size_type i=0; i<tC.size(); ++i){
00685 edm::RefToBase<reco::Track> track(trackCollection, i);
00686 rT++;
00687
00688 fakeeta = 0.,faketheta=0.,fakephi=0.,fakept=0.,fakecottheta=0.,fakecostheta=0.;
00689 faked0=0.,fakez0=0.;
00690 fakenhit=0;
00691 fakereceta = 0.,fakerectheta = 0.,fakerecphi = 0.,fakerecpt = 0.,fakereccottheta=0.,fakerecd0=0.,fakerecz0=0.;
00692 fakerespt = 0.,fakeresd0 = 0.,fakeresz0 = 0.,fakereseta = 0.,fakeresphi=0.,fakerescottheta=0.;
00693 fakerecchiq = 0.;
00694 fakerecnhit = 0;
00695 faketrackType = 0;
00696 fake=0;
00697
00698 fakerecnhit=track->numberOfValidHits();
00699 fakerecchiq=track->normalizedChi2();
00700 fakerectheta=track->theta();
00701 fakereccottheta=1./tan(rectheta);
00702
00703 fakereceta=track->momentum().eta();
00704
00705 fakerecphi=track->phi();
00706 fakerecpt=track->pt();
00707 fakerecd0=track->d0();
00708 fakerecz0=track->dz();
00709
00710 std::cout << "1) Before assoc: TkRecTrack at eta = " << fakereceta << std::endl;
00711 std::cout << "Track number "<< i << std::endl ;
00712 std::cout << "\tPT: " << track->pt()<< std::endl;
00713 std::cout << "\timpact parameter:d0: " << track->d0()<< std::endl;
00714 std::cout << "\timpact parameter:z0: " << track->dz()<< std::endl;
00715 std::cout << "\tAzimuthal angle of point of closest approach:" << track->phi()<< std::endl;
00716 std::cout << "\tcharge: " << track->charge()<< std::endl;
00717 std::cout << "\teta: " << track->eta()<< std::endl;
00718 std::cout << "\tnormalizedChi2: " << track->normalizedChi2()<< std::endl;
00719
00720
00721 std::vector<std::pair<TrackingParticleRef, double> > tp;
00722
00723
00724 if(recSimColl.find(track) != recSimColl.end()){
00725 tp = recSimColl[track];
00726 if (tp.size()!=0) {
00727 edm::LogVerbatim("TrackValidator") << "reco::Track #" << rT << " with pt=" << track->pt()
00728 << " associated with quality:" << tp.begin()->second <<"\n";
00729
00730
00731 TrackingParticleRef tpr = tp.begin()->first;
00732 const SimTrack * fakeassocTrack = &(*tpr->g4Track_begin());
00733
00734 edm::ESHandle<MagneticField> theMF;
00735 iSetup.get<IdealMagneticFieldRecord>().get(theMF);
00736 FreeTrajectoryState
00737 ftsAtProduction(GlobalPoint(tpr->vertex().x(),tpr->vertex().y(),tpr->vertex().z()),
00738 GlobalVector(fakeassocTrack->momentum().x(),fakeassocTrack->momentum().y(),fakeassocTrack->momentum().z()),
00739 TrackCharge(tpr->charge()),
00740 theMF.product());
00741 TSCPBuilderNoMaterial tscpBuilder;
00742 TrajectoryStateClosestToPoint tsAtClosestApproach
00743 = tscpBuilder(ftsAtProduction,GlobalPoint(0,0,0));
00744 GlobalPoint v = tsAtClosestApproach.theState().position();
00745 GlobalVector p = tsAtClosestApproach.theState().momentum();
00746
00747
00748
00749
00750 double dxySim = (-v.x()*sin(p.phi())+v.y()*cos(p.phi()));
00751 double dszSim = v.z()*p.perp()/p.mag() - (v.x()*p.x()+v.y()*p.y())/p.perp() * p.z()/p.mag();
00752 faked0 = float(-dxySim);
00753 fakez0 = float(dszSim*p.mag()/p.perp());
00754
00755
00756 faketrackType=fakeassocTrack->type();
00757 faketheta=fakeassocTrack->momentum().theta();
00758 fakecottheta=1./tan(faketheta);
00759 fakeeta=fakeassocTrack->momentum().eta();
00760 fakephi=fakeassocTrack->momentum().phi();
00761 fakept=fakeassocTrack->momentum().pt();
00762 fakenhit=tpr->matchedHit();
00763
00764 std::cout << "4) After call to associator: the best SimTrack match is of type" << fakeassocTrack->type()
00765 << " ,at eta = " << fakeeta
00766 << " and phi = " << fakephi
00767 << " ,with pt at vertex = " << fakept << " GeV/c"
00768 << " ,d0 global = " << faked0
00769 << " ,z0 = " << fakez0
00770 << std::endl;
00771 fake=1;
00772
00773 fakerespt=fakerecpt-fakept;
00774 fakeresd0=fakerecd0-faked0;
00775 fakeresz0=fakerecz0-fakez0;
00776 fakereseta=-log(tan(fakerectheta/2.))-(-log(tan(faketheta/2.)));
00777 fakeresphi=fakerecphi-fakephi;
00778 fakerescottheta=fakereccottheta-fakecottheta;
00779
00780 }
00781 }
00782 else{
00783 edm::LogVerbatim("TrackValidator") << "reco::Track #" << rT << " with pt=" << track->pt()
00784 << " NOT associated to any TrackingParticle" << "\n";
00785
00786 fakeeta =-100.;
00787 faketheta=-100;
00788 fakephi =-100.;
00789 fakept =-100.;
00790 faked0 =-100.;
00791 fakez0 =-100;
00792 fakerespt =-100.;
00793 fakeresd0 =-100.;
00794 fakeresz0 =-100.;
00795 fakeresphi =-100.;
00796 fakereseta =-100.;
00797 fakerescottheta=-100.;
00798 fakenhit=100;
00799 fake=0;
00800 }
00801
00802 tree_fake->Fill();
00803 }
00804
00805 }
00806
00807 w++;
00808
00809 }
00810 }
00811
00812
00813 void ValidationMisalignedTracker::endJob() {
00814
00815 std::cout << "\t Misalignment analysis completed \n" << std::endl;
00816
00817 }
00818
00819 DEFINE_FWK_MODULE(ValidationMisalignedTracker);