d4/db3/RPCSeedOverlapper_8cc_source.html

 #include "RecoMuon/MuonSeedGenerator/src/RPCSeedOverlapper.h"

 #include <Geometry/Records/interface/MuonGeometryRecord.h>

 #include <Geometry/CommonDetUnit/interface/GeomDetUnit.h>


 using namespace std;

 using namespace edm;


 RPCSeedOverlapper::RPCSeedOverlapper() {


     isConfigured = false;

     isIOset = false;

     isEventSetupset = false;

 }


 RPCSeedOverlapper::~RPCSeedOverlapper() {


 }


 void RPCSeedOverlapper::configure(const edm::ParameterSet& iConfig) {


     isCheckgoodOverlap = iConfig.getParameter<bool>("isCheckgoodOverlap");

     isCheckcandidateOverlap = iConfig.getParameter<bool>("isCheckcandidateOverlap");

     ShareRecHitsNumberThreshold = iConfig.getParameter<unsigned int>("ShareRecHitsNumberThreshold");

     isConfigured = true;

 }


 void RPCSeedOverlapper::setIO(std::vector<weightedTrajectorySeed> *goodweightedRef, std::vector<weightedTrajectorySeed> *candidateweightedRef) {


     goodweightedSeedsRef = goodweightedRef;

     candidateweightedSeedsRef = candidateweightedRef;

     isIOset = true;

 }


 void RPCSeedOverlapper::unsetIO() {


     isIOset = false;

 }


 void RPCSeedOverlapper::setEventSetup(const edm::EventSetup& iSetup) {


     eSetup = &iSetup;

     isEventSetupset = true;

 }


 void RPCSeedOverlapper::run() {


     if(isConfigured == false || isIOset == false || isEventSetupset == false) {

         cout << "Configuration or IO is not set yet" << endl;

         return;

     }

     if(isCheckgoodOverlap == true)

         CheckOverlap(*eSetup, goodweightedSeedsRef);

     if(isCheckcandidateOverlap == true)

         CheckOverlap(*eSetup, candidateweightedSeedsRef);

 }


 void RPCSeedOverlapper::CheckOverlap(const edm::EventSetup& iSetup, std::vector<weightedTrajectorySeed> *weightedSeedsRef) {


     std::vector<weightedTrajectorySeed> sortweightedSeeds;

     std::vector<weightedTrajectorySeed> tempweightedSeeds;

     edm::OwnVector<TrackingRecHit> tempRecHits;


     edm::ESHandle<RPCGeometry> rpcGeometry;

     iSetup.get<MuonGeometryRecord>().get(rpcGeometry);


     while(weightedSeedsRef->size() != 0) {

         cout << "Finding the weighted seeds group from " << weightedSeedsRef->size() << " seeds which share some recHits" << endl;

         // Take 1st seed in SeedsRef as referrence and find a collection which always share some recHits with some other

         tempRecHits.clear();

         tempweightedSeeds.clear();

         int N = 0;

         for(vector<weightedTrajectorySeed>::iterator itweightedseed = weightedSeedsRef->begin(); itweightedseed != weightedSeedsRef->end(); N++) {

             TrajectorySeed::range RecHitsRange = itweightedseed->first.recHits();

             if(N == 0) {

                 cout << "Always take the 1st weighted seed to be the referrence." << endl;

                 for(TrajectorySeed::const_iterator it = RecHitsRange.first; it != RecHitsRange.second; it++) {

                     cout << "Put its recHits to tempRecHits" << endl;

                     tempRecHits.push_back(it->clone());

                 }

                 cout << "Put it to tempweightedSeeds" << endl;

                 tempweightedSeeds.push_back(*itweightedseed);

                 cout << "Then erase from weightedSeedsRef->" << endl;

                 itweightedseed = weightedSeedsRef->erase(itweightedseed);

             }

             else {

                 cout << "Come to other weighted seed for checking " << itweightedseed->first.nHits() << " recHits from " << tempRecHits.size() << " temp recHits" << endl;

                 unsigned int ShareRecHitsNumber = 0;

                 for(TrajectorySeed::const_iterator it = RecHitsRange.first; it != RecHitsRange.second; it++) {

                     if(isShareHit(tempRecHits, *it, rpcGeometry))

                         ShareRecHitsNumber++;

                 }

                 if(ShareRecHitsNumber >= ShareRecHitsNumberThreshold) {

                     cout <<"This seed is found to belong to current share group" << endl;

                     for(TrajectorySeed::const_iterator it = RecHitsRange.first; it != RecHitsRange.second; it++) {

                         if(!isShareHit(tempRecHits, *it, rpcGeometry)) {

                             cout << "Put its extra recHits to tempRecHits" << endl;

                             tempRecHits.push_back(it->clone());

                         }

                     }

                     cout << "Put it to tempSeeds" << endl;

                     tempweightedSeeds.push_back(*itweightedseed);

                     cout << "Then erase from SeedsRef" << endl;

                     itweightedseed = weightedSeedsRef->erase(itweightedseed);

                 }

                 else

                     itweightedseed++;

             }

         }

         // Find the best weighted seed and kick out those share recHits with it

         // The best weighted seed save in sortweightedSeeds, those don't share recHits with it will be push back to weightedSeedsRef for next while loop

         weightedTrajectorySeed bestweightedSeed;

         vector<weightedTrajectorySeed>::iterator bestweightediter;

         // Find the min Spt wrt Pt as the best Seed

         double Quality = 1000000;

         unsigned NumberofHits = 0;

         cout << "Find " << tempweightedSeeds.size() << " seeds into one trajectory group" << endl;

         for(vector<weightedTrajectorySeed>::iterator itweightedseed = tempweightedSeeds.begin(); itweightedseed != tempweightedSeeds.end(); itweightedseed++) {

             unsigned int nHits = itweightedseed->first.nHits();

             //std::vector<float> seed_error = itweightedseed->first.startingState().errorMatrix();

             //double Spt = seed_error[1];

             double weightedQuality = itweightedseed->second;

             cout << "Find a weighted seed with quality " << weightedQuality << endl;

             if((NumberofHits < nHits) || (NumberofHits == nHits && weightedQuality < Quality)) {

                 NumberofHits = nHits;

                 Quality = weightedQuality;

                 bestweightedSeed = *itweightedseed;

                 bestweightediter = itweightedseed;

             }

         }

         cout << "Best good temp seed's quality is " << Quality <<endl;

         sortweightedSeeds.push_back(bestweightedSeed);

         tempweightedSeeds.erase(bestweightediter);

         tempRecHits.clear();


         for(TrajectorySeed::const_iterator it = bestweightedSeed.first.recHits().first; it != bestweightedSeed.first.recHits().second; it++)

             tempRecHits.push_back(it->clone());


         for(vector<weightedTrajectorySeed>::iterator itweightedseed = tempweightedSeeds.begin(); itweightedseed != tempweightedSeeds.end(); ) {

             cout << "Checking the temp weighted seed's " << itweightedseed->first.nHits() << " hits to " << tempRecHits.size() << " temp recHits" << endl;

             TrajectorySeed::range RecHitsRange = itweightedseed->first.recHits();

             bool isShare = false;

             for(TrajectorySeed::const_iterator it = RecHitsRange.first; it != RecHitsRange.second; it++)

                 if(isShareHit(tempRecHits, *it, rpcGeometry))

                     isShare = true;


             if(isShare == true) {

                 cout << "Find one temp seed share some recHits with best weighted seed" << endl;

                 itweightedseed = tempweightedSeeds.erase(itweightedseed);

             }

             else {

                 cout << "This seed has no relation with best weighted seed" << endl;

                 weightedSeedsRef->push_back(*itweightedseed);

                 itweightedseed = tempweightedSeeds.erase(itweightedseed);

             }

         }

     }

     // At the end exchange SeedsRef with sortSeeds

     weightedSeedsRef->clear();

     *weightedSeedsRef = sortweightedSeeds;

 }


 bool RPCSeedOverlapper::isShareHit(const edm::OwnVector<TrackingRecHit> &RecHits, const TrackingRecHit& hit, edm::ESHandle<RPCGeometry> rpcGeometry) {


     bool istheSame = false;

     unsigned int n = 1;

     cout << "Checking from " << RecHits.size() << " temp recHits" << endl;


     LocalPoint lpos1 = hit.localPosition();

     DetId RPCId1 = hit.geographicalId();

     const GeomDetUnit *rpcroll1 = rpcGeometry->idToDetUnit(RPCId1);

     GlobalPoint gpos1 = rpcroll1->toGlobal(lpos1);

     cout << "The hit's position: " << gpos1.x() << ", " << gpos1.y() << ", " << gpos1.z() << endl;

     for(edm::OwnVector<TrackingRecHit>::const_iterator it = RecHits.begin(); it !=RecHits.end(); it++, n++) {

         cout << "Checking the " << n << " th recHit from tempRecHits" << endl;

         LocalPoint lpos2 = it->localPosition();

         DetId RPCId2 = it->geographicalId();

         const GeomDetUnit *rpcroll2 = rpcGeometry->idToDetUnit(RPCId2);

         GlobalPoint gpos2 = rpcroll2->toGlobal(lpos2);

         cout << "The temp hit's position: " << gpos2.x() << ", " << gpos2.y() << ", " << gpos2.z() << endl;


         if((gpos1.x() == gpos2.x()) && (gpos1.y() == gpos2.y()) && (gpos1.z() == gpos2.z())) {

             cout << "This hit is found to be the same" << endl;

             istheSame = true;

         }

     }

     return istheSame;

 }

ecaldqm::Quality
Quality
Definition: DBWriterWorkers.cc:55

edm::ParameterSet::getParameter
T getParameter(std::string const &) const

RPCSeedOverlapper.h

MuonGeometryRecord.h

RPCSeedOverlapper::~RPCSeedOverlapper
~RPCSeedOverlapper()
Definition: RPCSeedOverlapper.cc:21

GeomDet::toGlobal
GlobalPoint toGlobal(const Local2DPoint &lp) const
Conversion to the global R.F. from the R.F. of the GeomDet.
Definition: GeomDet.h:52

GeomDet
Definition: GeomDet.h:29

edm::OwnVector::size
size_type size() const
Definition: OwnVector.h:254

PV3DBase::y
T y() const
Definition: PV3DBase.h:63

TrackingRecHit
Definition: TrackingRecHit.h:23

RPCSeedOverlapper::weightedTrajectorySeed
RPCSeedPattern::weightedTrajectorySeed weightedTrajectorySeed
Definition: RPCSeedOverlapper.h:23

MuonGeometryRecord
Definition: MuonGeometryRecord.h:28

edm::OwnVector::begin
iterator begin()
Definition: OwnVector.h:234

edm::OwnVector::push_back
void push_back(D *&d)
Definition: OwnVector.h:280

edm::OwnVector< TrackingRecHit >

RPCSeedOverlapper::isShareHit
bool isShareHit(const edm::OwnVector< TrackingRecHit > &RecHits, const TrackingRecHit &hit, edm::ESHandle< RPCGeometry > rpcGeometry)
Definition: RPCSeedOverlapper.cc:168

TrajectorySeed::const_iterator
recHitContainer::const_iterator const_iterator
Definition: TrajectorySeed.h:21

edm::ESHandle< RPCGeometry >

PV3DBase::z
T z() const
Definition: PV3DBase.h:64

edm::OwnVector::clear
void clear()
Definition: OwnVector.h:377

TrajectorySeed::range
std::pair< const_iterator, const_iterator > range
Definition: TrajectorySeed.h:22

RPCSeedOverlapper::RPCSeedOverlapper
RPCSeedOverlapper()
Definition: RPCSeedOverlapper.cc:14

edm::EventSetup
Definition: EventSetup.h:44

GeomDetUnit.h

DetId
Definition: DetId.h:18

edm::OwnVector::end
iterator end()
Definition: OwnVector.h:239

N
#define N
Definition: blowfish.cc:9

edm::EventSetup::get
const T & get() const
Definition: EventSetup.h:55

RPCSeedOverlapper::configure
void configure(const edm::ParameterSet &iConfig)
Definition: RPCSeedOverlapper.cc:25

RPCSeedOverlapper::setEventSetup
void setEventSetup(const edm::EventSetup &iSetup)
Definition: RPCSeedOverlapper.cc:45

gen::n
int n
Definition: Cascade2Hadronizer.cc:79

hit
Definition: SiStripHitEffFromCalibTree.cc:85

Point3DBase< float, LocalTag >

RPCSeedOverlapper::unsetIO
void unsetIO()
Definition: RPCSeedOverlapper.cc:40

edm::OwnVector::const_iterator
Definition: OwnVector.h:42

edm::ParameterSet
Definition: ParameterSet.h:35

gather_cfg.cout
tuple cout
Definition: gather_cfg.py:121

RPCSeedOverlapper::run
void run()
Definition: RPCSeedOverlapper.cc:51

TrackingRecHit::geographicalId
DetId geographicalId() const
Definition: TrackingRecHit.h:116

RPCSeedOverlapper::CheckOverlap
void CheckOverlap(const edm::EventSetup &iSetup, std::vector< weightedTrajectorySeed > *SeedsRef)
Definition: RPCSeedOverlapper.cc:63

PV3DBase::x
T x() const
Definition: PV3DBase.h:62

TrackingRecHit::localPosition
virtual LocalPoint localPosition() const =0

RPCSeedOverlapper::setIO
void setIO(std::vector< weightedTrajectorySeed > *goodweightedRef, std::vector< weightedTrajectorySeed > *candidateweightedRef)
Definition: RPCSeedOverlapper.cc:33

CheckOverlap
Definition: CheckOverlap.h:19