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/data/refman/pasoursint/CMSSW_5_3_3/src/RecoPixelVertexing/PixelTriplets/plugins/PixelTripletHLTGenerator.cc

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00001 #include "PixelTripletHLTGenerator.h"
00002 
00003 #include "RecoPixelVertexing/PixelTriplets/interface/ThirdHitPredictionFromInvParabola.h"
00004 #include "RecoPixelVertexing/PixelTriplets/interface/ThirdHitRZPrediction.h"
00005 #include "RecoTracker/TkMSParametrization/interface/PixelRecoUtilities.h"
00006 #include "FWCore/Framework/interface/ESHandle.h"
00007 
00008 #include "Geometry/TrackerGeometryBuilder/interface/TrackerGeometry.h"
00009 #include "Geometry/Records/interface/TrackerDigiGeometryRecord.h"
00010 #include "ThirdHitCorrection.h"
00011 #include "RecoTracker/TkHitPairs/interface/RecHitsSortedInPhi.h"
00012 #include "FWCore/MessageLogger/interface/MessageLogger.h"
00013 #include <iostream>
00014 
00015 #include "RecoTracker/TkSeedingLayers/interface/SeedComparitorFactory.h"
00016 #include "RecoTracker/TkSeedingLayers/interface/SeedComparitor.h"
00017 
00018 #include "DataFormats/GeometryVector/interface/Pi.h"
00019 
00020 using pixelrecoutilities::LongitudinalBendingCorrection;
00021 typedef PixelRecoRange<float> Range;
00022 
00023 using namespace std;
00024 using namespace ctfseeding;
00025 
00026 PixelTripletHLTGenerator:: PixelTripletHLTGenerator(const edm::ParameterSet& cfg)
00027     : thePairGenerator(0),
00028       theLayerCache(0),
00029       useFixedPreFiltering(cfg.getParameter<bool>("useFixedPreFiltering")),
00030       extraHitRZtolerance(cfg.getParameter<double>("extraHitRZtolerance")),
00031       extraHitRPhitolerance(cfg.getParameter<double>("extraHitRPhitolerance")),
00032       useMScat(cfg.getParameter<bool>("useMultScattering")),
00033       useBend(cfg.getParameter<bool>("useBending"))
00034 {
00035   theMaxElement=cfg.getParameter<unsigned int>("maxElement");
00036   dphi =  (useFixedPreFiltering) ?  cfg.getParameter<double>("phiPreFiltering") : 0;
00037 
00038   edm::ParameterSet comparitorPSet =
00039     cfg.getParameter<edm::ParameterSet>("SeedComparitorPSet");
00040   std::string comparitorName = comparitorPSet.getParameter<std::string>("ComponentName");
00041   theComparitor = (comparitorName == "none") ? 
00042     0 :  SeedComparitorFactory::get()->create( comparitorName, comparitorPSet);   
00043 
00044 }
00045 
00046 PixelTripletHLTGenerator::~PixelTripletHLTGenerator() 
00047 
00048 { delete thePairGenerator; 
00049   delete theComparitor; 
00050 }
00051 
00052 void PixelTripletHLTGenerator::init( const HitPairGenerator & pairs,
00053       const std::vector<SeedingLayer> & layers,
00054       LayerCacheType* layerCache)
00055 {
00056   thePairGenerator = pairs.clone();
00057   theLayers = layers;
00058   theLayerCache = layerCache;
00059 }
00060 
00061 void PixelTripletHLTGenerator::hitTriplets( 
00062     const TrackingRegion& region, 
00063     OrderedHitTriplets & result,
00064     const edm::Event & ev,
00065     const edm::EventSetup& es)
00066 {
00067   if (theComparitor) theComparitor->init(es);
00068   OrderedHitPairs pairs; pairs.reserve(30000);
00069   OrderedHitPairs::const_iterator ip;
00070   
00071   thePairGenerator->hitPairs(region,pairs,ev,es);
00072 
00073   if (pairs.empty()) return;
00074 
00075   int size = theLayers.size();
00076 
00077   typedef std::vector<ThirdHitRZPrediction<PixelRecoLineRZ> >  Preds;
00078   Preds preds(size);
00079 
00080   std::vector<const RecHitsSortedInPhi *> thirdHitMap(size);
00081   typedef RecHitsSortedInPhi::Hit Hit;
00082   vector<Hit> thirdHits;
00083 
00084   // fill the prediciton vetor
00085   for (int il=0; il!=size; ++il) {
00086      thirdHitMap[il] = &(*theLayerCache)(&theLayers[il], region, ev, es);
00087      ThirdHitRZPrediction<PixelRecoLineRZ> & pred = preds[il];
00088      pred.initLayer(theLayers[il].detLayer());
00089      pred.initTolerance(extraHitRZtolerance);
00090   }
00091 
00092 
00093   double imppar = region.originRBound();
00094   double curv = PixelRecoUtilities::curvature(1/region.ptMin(), es);
00095 
00096   for (ip = pairs.begin(); ip != pairs.end(); ip++) {
00097   
00098     GlobalPoint gp1tmp = (*ip).inner()->globalPosition();
00099     GlobalPoint gp2tmp = (*ip).outer()->globalPosition();
00100     GlobalPoint gp1(gp1tmp.x()-region.origin().x(), gp1tmp.y()-region.origin().y(), gp1tmp.z());
00101     GlobalPoint gp2(gp2tmp.x()-region.origin().x(), gp2tmp.y()-region.origin().y(), gp2tmp.z());
00102 
00103     PixelRecoPointRZ point1(gp1.perp(), gp1.z());
00104     PixelRecoPointRZ point2(gp2.perp(), gp2.z());
00105     PixelRecoLineRZ  line(point1, point2);
00106     ThirdHitPredictionFromInvParabola predictionRPhi(gp1,gp2,imppar,curv,extraHitRPhitolerance);
00107     ThirdHitPredictionFromInvParabola predictionRPhitmp(gp1tmp,gp2tmp,imppar+region.origin().perp(),curv,extraHitRPhitolerance);
00108 
00109 
00110     for (int il=0; il!=size; ++il) {
00111       const DetLayer * layer = theLayers[il].detLayer();
00112 //      bool pixelLayer = (    layer->subDetector() == GeomDetEnumerators::PixelBarrel 
00113 //                          || layer->subDetector() == GeomDetEnumerators::PixelEndcap); 
00114       bool barrelLayer = (layer->location() == GeomDetEnumerators::barrel);
00115 
00116       ThirdHitCorrection correction(es, region.ptMin(), layer, line, point2, useMScat, useBend); 
00117       
00118       ThirdHitRZPrediction<PixelRecoLineRZ> & predictionRZ =  preds[il];
00119 
00120       predictionRZ.initPropagator(&line);
00121       Range rzRange = predictionRZ();
00122 
00123       correction.correctRZRange(rzRange);
00124       Range phiRange;
00125       if (useFixedPreFiltering) { 
00126         float phi0 = (*ip).outer()->globalPosition().phi();
00127         phiRange = Range(phi0-dphi,phi0+dphi);
00128       }
00129       else {
00130         Range radius;
00131         if (barrelLayer) {
00132           radius =  predictionRZ.detRange();
00133         } else {
00134           radius = Range(
00135               max(rzRange.min(), predictionRZ.detSize().min()),
00136               min(rzRange.max(), predictionRZ.detSize().max()) );
00137         }
00138         if (radius.empty()) continue;
00139         Range rPhi1m = predictionRPhitmp(radius.max(), -1);
00140         Range rPhi1p = predictionRPhitmp(radius.max(),  1);
00141         Range rPhi2m = predictionRPhitmp(radius.min(), -1);
00142         Range rPhi2p = predictionRPhitmp(radius.min(),  1);
00143         Range rPhi1 = rPhi1m.sum(rPhi1p);
00144         Range rPhi2 = rPhi2m.sum(rPhi2p);
00145         correction.correctRPhiRange(rPhi1);
00146         correction.correctRPhiRange(rPhi2);
00147         rPhi1.first  /= radius.max();
00148         rPhi1.second /= radius.max();
00149         rPhi2.first  /= radius.min();
00150         rPhi2.second /= radius.min();
00151         phiRange = mergePhiRanges(rPhi1,rPhi2);
00152       }
00153       
00154 //      LayerHitMapLoop thirdHits = 
00155 //          pixelLayer ? thirdHitMap[il]->loop(phiRange, rzRange) : 
00156 //          thirdHitMap[il]->loop();
00157 
00158       thirdHits.clear();
00159       thirdHitMap[il]->hits(phiRange.min(),phiRange.max(), thirdHits);
00160   
00161       static float nSigmaRZ = std::sqrt(12.f);
00162       static float nSigmaPhi = 3.f;
00163    
00164       typedef vector<Hit>::const_iterator IH;
00165       for (IH th=thirdHits.begin(), eh=thirdHits.end(); th !=eh; ++th) {
00166 
00167         if (theMaxElement!=0 && result.size() >= theMaxElement){
00168           result.clear();
00169           edm::LogError("TooManyTriplets")<<" number of triples exceed maximum. no triplets produced.";
00170           return;
00171         }
00172         const Hit& hit = (*th);
00173         GlobalPoint point(hit->globalPosition().x()-region.origin().x(),
00174                           hit->globalPosition().y()-region.origin().y(),
00175                           hit->globalPosition().z() ); 
00176         float p3_r = point.perp();
00177         float p3_z = point.z();
00178         float p3_phi = point.phi();
00179  
00180         if (barrelLayer) {
00181           Range allowedZ = predictionRZ(p3_r);
00182           correction.correctRZRange(allowedZ);
00183 
00184           float zErr = nSigmaRZ * hit->errorGlobalZ();
00185           Range hitRange(p3_z-zErr, p3_z+zErr);
00186           Range crossingRange = allowedZ.intersection(hitRange);
00187           if (crossingRange.empty())  continue;
00188         } else {
00189           Range allowedR = predictionRZ(p3_z);
00190           correction.correctRZRange(allowedR); 
00191           float rErr = nSigmaRZ * hit->errorGlobalR();
00192           Range hitRange(p3_r-rErr, p3_r+rErr);
00193           Range crossingRange = allowedR.intersection(hitRange);
00194           if (crossingRange.empty())  continue;
00195         }
00196 
00197         float phiErr = nSigmaPhi*hit->errorGlobalRPhi()/p3_r;
00198         for (int icharge=-1; icharge <=1; icharge+=2) {
00199           Range rangeRPhi = predictionRPhi(p3_r, icharge);
00200           correction.correctRPhiRange(rangeRPhi);
00201           if (checkPhiInRange(p3_phi, rangeRPhi.first/p3_r-phiErr, rangeRPhi.second/p3_r+phiErr)) {
00202             // insert here check with comparitor 
00203             OrderedHitTriplet hittriplet( (*ip).inner(), (*ip).outer(), hit);
00204             if(!theComparitor  || theComparitor->compatible(hittriplet,region) ) {
00205               result.push_back( hittriplet ); 
00206             } else {
00207               LogDebug("RejectedTriplet") << "rejected triplet from comparitor " 
00208                                           << hittriplet.outer()->globalPosition().x() << " "
00209                                           << hittriplet.outer()->globalPosition().y() << " "
00210                                           << hittriplet.outer()->globalPosition().z();
00211             }
00212             break;
00213           } 
00214         }
00215       } 
00216     }
00217   }
00218 
00219 }
00220 
00221 bool PixelTripletHLTGenerator::checkPhiInRange(float phi, float phi1, float phi2) const
00222 {
00223   while (phi > phi2) phi -=  Geom::ftwoPi();
00224   while (phi < phi1) phi +=  Geom::ftwoPi();
00225   return (  (phi1 <= phi) && (phi <= phi2) );
00226 }  
00227 
00228 std::pair<float,float> PixelTripletHLTGenerator::mergePhiRanges(
00229     const std::pair<float,float>& r1, const std::pair<float,float>& r2) const 
00230 {
00231   float r2_min=r2.first;
00232   float r2_max=r2.second;
00233   while (r1.first-r2_min > Geom::fpi()) { r2_min += Geom::ftwoPi(); r2_max += Geom::ftwoPi();}
00234   while (r1.first-r2_min < -Geom::fpi()) { r2_min -= Geom::ftwoPi();  r2_max -= Geom::ftwoPi(); }
00235   
00236   return std::make_pair(min(r1.first,r2_min),max(r1.second,r2_max));
00237 }