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/data/refman/pasoursint/CMSSW_6_1_2_SLHC2/src/RecoParticleFlow/PFRootEvent/src/DisplayManager.cc

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00001 #include <iostream>
00002 #include <fstream>
00003 #include <stdlib.h>
00004 
00005 #include "RecoParticleFlow/PFRootEvent/interface/IO.h"
00006 
00007 #include "DataFormats/ParticleFlowReco/interface/PFBlock.h"
00008 #include "RecoParticleFlow/PFTracking/interface/PFGeometry.h"
00009 #include "DataFormats/ParticleFlowReco/interface/PFBlockElement.h"
00010 #include "DataFormats/ParticleFlowReco/interface/PFClusterFwd.h"
00011 
00012 #include "DataFormats/Math/interface/Point3D.h"
00013 
00014 #include "DataFormats/FWLite/interface/ChainEvent.h"
00015 
00016 #include "RecoParticleFlow/PFRootEvent/interface/PFRootEventManager.h"
00017 #include "RecoParticleFlow/PFRootEvent/interface/DisplayManager.h"
00018 #include "RecoParticleFlow/PFRootEvent/interface/GPFRecHit.h"
00019 #include "RecoParticleFlow/PFRootEvent/interface/GPFCluster.h"
00020 #include "RecoParticleFlow/PFRootEvent/interface/GPFTrack.h"
00021 #include "RecoParticleFlow/PFRootEvent/interface/GPFSimParticle.h"
00022 #include "RecoParticleFlow/PFRootEvent/interface/GPFGenParticle.h"
00023 #include "RecoParticleFlow/PFRootEvent/interface/GPFBase.h"
00024 
00025 #include <TH2.h>
00026 #include <TTree.h>
00027 #include <TVector3.h>
00028 #include <TH2F.h>
00029 #include <TEllipse.h>
00030 #include <TLine.h>
00031 #include <TLatex.h>
00032 #include <TList.h>
00033 #include <TColor.h>
00034 #include <TMath.h>
00035 #include <TApplication.h>
00036 
00037 using namespace std;
00038 
00039 //________________________________________________________________
00040 
00041 DisplayManager::DisplayManager(PFRootEventManager *em,
00042                                const char* optfile ) : 
00043   em_(em), 
00044   options_(0),
00045   maxERecHitEcal_(-1),
00046   maxERecHitHcal_(-1),
00047   maxERecHitHo_(-1),
00048   isGraphicLoaded_(false),
00049   shiftId_(SHIFTID) {
00050         
00051   readOptions( optfile );
00052         
00053   eventNumber_  = em_->eventNumber();
00054   //TODOLIST: re_initialize if new option file- better in em
00055   maxEvents_= em_->ev_->size();  
00056   createCanvas();
00057 }
00058 //________________________________________________________
00059 DisplayManager::~DisplayManager()
00060 {
00061   reset();
00062 } 
00063 
00064 //________________________________________________________
00065 void DisplayManager::readOptions( const char* optfile ) {
00066         
00067   try {
00068     delete options_;
00069     options_ = new IO(optfile);
00070   }
00071   catch( const string& err ) {
00072     cout<<err<<endl;
00073     return;
00074   }
00075       
00076   drawHO_=true;
00077   options_->GetOpt("display", "drawHO", drawHO_);  
00078 
00079 
00080 
00081   viewSizeEtaPhi_.clear();
00082   options_->GetOpt("display", "viewsize_etaphi", viewSizeEtaPhi_);
00083   if(viewSizeEtaPhi_.size() != 2) {
00084     cerr<<"PFRootEventManager::ReadOptions, bad display/viewsize_etaphi tag...using 700/350"
00085         <<endl;
00086     viewSizeEtaPhi_.clear();
00087     viewSizeEtaPhi_.push_back(700); 
00088     viewSizeEtaPhi_.push_back(350); 
00089   }
00090         
00091   viewSize_.clear();
00092   options_->GetOpt("display", "viewsize_xy", viewSize_);
00093   if(viewSize_.size() != 2) {
00094     cerr<<"PFRootEventManager::ReadOptions, bad display/viewsize_xy tag...using 700/350"
00095         <<endl;
00096     viewSize_.clear();
00097     viewSize_.push_back(600); 
00098     viewSize_.push_back(600); 
00099   } 
00100         
00101   clusterAttributes_.clear();
00102   options_->GetOpt("display", "cluster_attributes", clusterAttributes_);
00103   if(clusterAttributes_.size() != 7) {
00104     cerr<<"PFRootEventManager::::ReadOptions, bad display/cluster_attributes tag...using 20 10 2 5"
00105         <<endl;
00106     clusterAttributes_.clear();
00107     clusterAttributes_.push_back(2); //color
00108     clusterAttributes_.push_back(5);  // color if clusterPS
00109     clusterAttributes_.push_back(20); // marker style
00110     clusterAttributes_.push_back(1.0); 
00111     clusterAttributes_.push_back(6); //For ECAL
00112     clusterAttributes_.push_back(9); //For HF_EM
00113     clusterAttributes_.push_back(46); //For HO
00114   }
00115 
00116   trackAttributes_.clear();
00117   options_->GetOpt("display", "track_attributes", trackAttributes_);
00118   if(trackAttributes_.size() != 4) {
00119     cerr<<"PFRootEventManager::::ReadOptions, bad display/track_attributes tag...using 103 1 8 8"
00120         <<endl;
00121     trackAttributes_.clear();
00122     trackAttributes_.push_back(103); //color Line and Marker
00123     trackAttributes_.push_back(1);  //line style
00124     trackAttributes_.push_back(8);   //Marker style
00125     trackAttributes_.push_back(1.0);   //Marker size
00126   }
00127   gsfAttributes_.clear();
00128   options_->GetOpt("display", "gsf_attributes", gsfAttributes_);
00129   if(gsfAttributes_.size() != 4) {
00130     cerr<<"PFRootEventManager::::ReadOptions, bad display/gsf_attributes tag...using 105 1 8 8"
00131         <<endl;
00132     gsfAttributes_.clear();
00133     gsfAttributes_.push_back(105); //color Line and Marker
00134     gsfAttributes_.push_back(1);  //line style
00135     gsfAttributes_.push_back(8);   //Marker style
00136     gsfAttributes_.push_back(1.0);   //Marker size
00137   }
00138   bremAttributes_.clear();
00139   options_->GetOpt("display", "brem_attributes", bremAttributes_);
00140   if(bremAttributes_.size() != 4) {
00141     cerr<<"PFRootEventManager::::ReadOptions, bad display/gsf_attributes tag...using 106 1 8 8"
00142         <<endl;
00143     bremAttributes_.clear();
00144     bremAttributes_.push_back(106); //color Line and Marker
00145     bremAttributes_.push_back(1);  //line style
00146     bremAttributes_.push_back(8);   //Marker style
00147     bremAttributes_.push_back(1.0);   //Marker size
00148   }     
00149         
00150   double attrScale = (drawHO_) ? 0.8 : 1.0;
00151 
00152   clusPattern_ = new TAttMarker( (int)clusterAttributes_[0],
00153                                  (int)clusterAttributes_[2],
00154                                  attrScale*clusterAttributes_[3]);
00155 
00156   clusPatternecal_ = new TAttMarker( (int)clusterAttributes_[4],
00157                                  (int)clusterAttributes_[2],
00158                                  attrScale*clusterAttributes_[3]);
00159 
00160   clusPatternhfem_ = new TAttMarker( (int)clusterAttributes_[5],
00161                                  (int)clusterAttributes_[2],
00162                                  attrScale*clusterAttributes_[3]);
00163 
00164   clusPatternho_ = new TAttMarker( (int)clusterAttributes_[6],
00165                                  (int)clusterAttributes_[2],
00166                                  attrScale*clusterAttributes_[3]);
00167 
00168   clusPSPattern_ = new TAttMarker( (int)clusterAttributes_[1],
00169                                    (int)clusterAttributes_[2],
00170                                    attrScale*clusterAttributes_[3]);
00171   trackPatternL_ = new TAttLine( (int)trackAttributes_[0],
00172                                  (int)trackAttributes_[1],
00173                                  1);
00174   trackPatternM_ = new TAttMarker( (int)trackAttributes_[0],
00175                                    (int)trackAttributes_[2],
00176                                    attrScale*trackAttributes_[3]);
00177 
00178   gsfPatternL_ = new TAttLine( (int)gsfAttributes_[0],
00179                          (int)gsfAttributes_[1],
00180                          1);
00181   gsfPatternM_ = new TAttMarker( (int)gsfAttributes_[0],
00182                                    (int)gsfAttributes_[2],
00183                                    attrScale*gsfAttributes_[3]);
00184 
00185   bremPatternL_ = new TAttLine( (int)bremAttributes_[0],
00186                          (int)bremAttributes_[1],
00187                          1);
00188   bremPatternM_ = new TAttMarker( (int)bremAttributes_[0],
00189                                    (int)bremAttributes_[2],
00190                                    attrScale*bremAttributes_[3]);
00191   
00192   genPartPattern_= new TAttMarker(kGreen-1,22,1.);
00193   
00194 
00195   std::vector<float> simPartAttributes;
00196 
00197   simPartAttributes.clear();
00198   options_->GetOpt("display", "simPart_attributes", simPartAttributes);
00199   if(simPartAttributes.size() != 3) {
00200     cerr<<"PFRootEventManager::::ReadOptions, bad display/simPart_attributes tag...using 103 1 8 8"
00201         <<endl;
00202     simPartAttributes.clear();
00203     simPartAttributes.push_back(3); //color Line and Marker
00204     simPartAttributes.push_back(2);  //line style
00205     simPartAttributes.push_back(0.6);   
00206   }
00207  
00208   int simColor = (int)simPartAttributes[0];
00209   int simLStyle = (int)simPartAttributes[1];
00210   float simMSize = attrScale*simPartAttributes[2];
00211 
00212   simPartPatternPhoton_ = new TAttMarker(simColor,3,simMSize);
00213   simPartPatternElec_   = new TAttMarker(simColor,5,simMSize);
00214   simPartPatternMuon_   = new TAttMarker(simColor,2,simMSize);
00215   simPartPatternK_      = new TAttMarker(simColor,24,simMSize);
00216   simPartPatternPi_     = new TAttMarker(simColor,25,simMSize);
00217   simPartPatternProton_ = new TAttMarker(simColor,26,simMSize);
00218   simPartPatternNeutron_= new TAttMarker(simColor,27,simMSize);
00219   simPartPatternDefault_= new TAttMarker(simColor,30,simMSize);
00220         
00221   simPartPatternL_ = new TAttLine(simColor,simLStyle,1);
00222   simPartPatternM_.resize(8);
00223         
00224   setNewAttrToSimParticles();
00225         
00226   drawHits_= true;
00227   options_->GetOpt("display", "rechits",drawHits_);
00228         
00229   drawClus_ = true;
00230   options_->GetOpt("display", "clusters",drawClus_);
00231         
00232   drawClusterL_ = false;
00233   options_->GetOpt("display", "cluster_lines", drawClusterL_);
00234         
00235   drawTracks_ = true;
00236   options_->GetOpt("display", "rectracks", drawTracks_);
00237 
00238   drawGsfTracks_ = true;
00239   options_->GetOpt("display", "gsftracks", drawGsfTracks_);
00240 
00241   drawBrems_ = false;
00242   options_->GetOpt("display", "brems", drawBrems_);
00243         
00244   drawParticles_ = true;
00245   options_->GetOpt("display", "particles", drawParticles_);
00246         
00247   particlePtMin_ = -1;
00248   options_->GetOpt("display", "particles_ptmin", particlePtMin_);
00249   
00250   
00251   drawGenParticles_=false;
00252   genParticlePtMin_ = 0;
00253   
00254   
00255   trackPtMin_ = -1;
00256   options_->GetOpt("display", "rectracks_ptmin", trackPtMin_);
00257 
00258   gsfPtMin_ = -1;
00259   options_->GetOpt("display", "gsfrectracks_ptmin", gsfPtMin_);
00260         
00261   hitEnMin_ = -1;
00262   options_->GetOpt("display","rechits_enmin",hitEnMin_);
00263         
00264   clusEnMin_ = -1;
00265   options_->GetOpt("display","clusters_enmin",clusEnMin_);
00266         
00267         
00268   drawPFBlocks_  = false;
00269   options_->GetOpt("display","drawPFBlock",drawPFBlocks_);
00270   //redrawWithoutHits_=false;
00271         
00272   zoomFactor_ = 10;  
00273   options_->GetOpt("display", "zoom_factor", zoomFactor_);
00274 
00275 }
00276 
00277 //________________________________________________________
00278 void DisplayManager::createCanvas()
00279 {
00280         
00281   //TODOLIST: better TCanvas *displayView_[4]
00282   displayView_.resize(NViews);
00283   displayHist_.resize(NViews);
00284         
00285   // TODOLIST:Canvases size  
00286   // Add menu to mofify canvas size
00287   // Add menu of views to be drawn
00288         
00289   displayView_[XY] = new TCanvas("displayXY_", "XY view",viewSize_[0], viewSize_[1]);
00290   displayView_[RZ] = new TCanvas("displayRZ_", "RZ view",viewSize_[0], viewSize_[1]);
00291   displayView_[EPE] = new TCanvas("displayEPE_", "eta/phi view, ECAL",viewSize_[0], viewSize_[1]);
00292   displayView_[EPH] = new TCanvas("displayEPH_", "eta/phi view, HCAL",viewSize_[0], viewSize_[1]);
00293   if (drawHO_) displayView_[EHO] = new TCanvas("displayEHO_", "eta/phi view, HO",viewSize_[0], viewSize_[1]);
00294 
00295   for (int viewType=0;viewType<NViews;++viewType) {
00296     if (!drawHO_ && viewType==EHO) continue;
00297     displayView_[viewType]->SetGrid(0, 0);
00298     displayView_[viewType]->SetBottomMargin(0.14);
00299     displayView_[viewType]->SetLeftMargin(0.15);
00300     displayView_[viewType]->SetRightMargin(0.05);
00301     displayView_[viewType]->ToggleToolBar();
00302   } 
00303   // Draw support histogram
00304   double zLow = -650.;
00305   double zUp  = +650.;
00306   double rLow = -450.;
00307   double rUp  = +450.;
00308   
00309   if (!drawHO_) {zLow = -500.; zUp  = +500.; rLow = -300.; rUp  = +300.;}
00310 
00311   displayHist_[XY] = new TH2F("hdisplayHist_XY", "", 500, rLow, rUp, 
00312                               500, rLow, rUp);
00313   displayHist_[XY]->SetXTitle("X [cm]");
00314   displayHist_[XY]->SetYTitle("Y [cm]");
00315         
00316   displayHist_[RZ] = new TH2F("hdisplayHist_RZ", "",500, zLow, zUp, 
00317                               500, rLow, rUp); 
00318   displayHist_[RZ]->SetXTitle("Z [cm]");
00319   displayHist_[RZ]->SetYTitle("R [cm]");
00320         
00321   displayHist_[EPE] = new TH2F("hdisplayHist_EP", "", 500, -5, 5, 
00322                                500, -3.5, 3.5);
00323   displayHist_[EPE]->SetXTitle("#eta");
00324   displayHist_[EPE]->SetYTitle("#phi [rad]");
00325         
00326   displayHist_[EPH] = displayHist_[EPE];
00327 
00328   //  displayHist_[EHO] = new TH2F("hdisplayHist_HO", "", 150, -1.5, 1.5, 
00329   //  500, -3.5, 3.5);
00330   //  displayHist_[EHO]->SetXTitle("#eta");
00331   //  displayHist_[EHO]->SetYTitle("#phi [rad]");
00332   
00333   if (drawHO_) displayHist_[EHO] = displayHist_[EPE];
00334         
00335   for (int viewType=0;viewType<NViews;++viewType){
00336     if (!drawHO_ && viewType==EHO) continue;
00337     displayHist_[viewType]->SetStats(kFALSE);
00338     displayHist_[viewType]->GetYaxis()->SetTitleSize(0.06);
00339     displayHist_[viewType]->GetYaxis()->SetTitleOffset(1.2);
00340     displayHist_[viewType]->GetXaxis()->SetTitleSize(0.06);
00341     displayHist_[viewType]->GetYaxis()->SetLabelSize(0.045);
00342     displayHist_[viewType]->GetXaxis()->SetLabelSize(0.045);
00343   }  
00344   
00345   // Draw ECAL front face
00346   frontFaceECALXY_.SetX1(0);
00347   frontFaceECALXY_.SetY1(0);
00348   frontFaceECALXY_.SetR1(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
00349   frontFaceECALXY_.SetR2(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
00350   frontFaceECALXY_.SetFillStyle(0);
00351 
00352   // Draw HCAL front face
00353   frontFaceHCALXY_.SetX1(0);
00354   frontFaceHCALXY_.SetY1(0);
00355   frontFaceHCALXY_.SetR1(PFGeometry::innerRadius(PFGeometry::HCALBarrel));
00356   frontFaceHCALXY_.SetR2(PFGeometry::innerRadius(PFGeometry::HCALBarrel));
00357   frontFaceHCALXY_.SetFillStyle(0);
00358 
00359   if (drawHO_) {
00360     // Draw HO front face
00361     frontFaceHOXY_.SetX1(0);
00362     frontFaceHOXY_.SetY1(0);
00363     frontFaceHOXY_.SetR1(PFGeometry::innerRadius(PFGeometry::HOBarrel));
00364     frontFaceHOXY_.SetR2(PFGeometry::outerRadius(PFGeometry::HOBarrel));
00365     frontFaceHOXY_.SetFillStyle(0);
00366   }
00367 
00368   // Draw ECAL side
00369   frontFaceECALRZ_.SetX1(-1.*PFGeometry::innerZ(PFGeometry::ECALEndcap));
00370   frontFaceECALRZ_.SetY1(-1.*PFGeometry::innerRadius(PFGeometry::ECALBarrel));
00371   frontFaceECALRZ_.SetX2(PFGeometry::innerZ(PFGeometry::ECALEndcap));
00372   frontFaceECALRZ_.SetY2(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
00373   frontFaceECALRZ_.SetFillStyle(0);
00374   cout <<"End of DisplayManager::createCanvas()"<<endl; 
00375 
00376 }
00377 //_________________________________________________________________________
00378 void DisplayManager::createGCluster(const reco::PFCluster& cluster, 
00379                                     int ident, 
00380                                     double phi0)
00381 {
00382 
00383   double eta = cluster.position().Eta();
00384   double phi = cluster.position().Phi();
00385   
00386   //   int type = cluster.type();
00387   //   if(algosToDisplay_.find(type) == algosToDisplay_.end() )
00388   //     return;
00389         
00390   //   TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");  
00391   //   if( cutg && !cutg->IsInside( eta, phi ) ) return;
00392         
00393         
00394   //int color = clusterAttributes_[2];
00395   //if ( cluster.layer()==PFLayer::PS1 || cluster.layer()==PFLayer::PS2 )
00396   //  color = clusterAttributes_[3];
00397     
00398   //int markerSize = clusterAttributes_[1];
00399   //int markerStyle = clusterAttributes_[0];
00400         
00401   int clusType=0;
00402         
00403   if ( cluster.layer()==PFLayer::PS1 || cluster.layer()==PFLayer::PS2 )
00404     clusType=1;  
00405   
00406   if ( cluster.layer()==PFLayer::ECAL_BARREL || cluster.layer()==PFLayer::ECAL_ENDCAP)
00407     clusType=2;  
00408 
00409   if ( cluster.layer()==PFLayer::HF_EM) clusType=3;  
00410 
00411   if ( cluster.layer()==PFLayer::HCAL_BARREL2) clusType=4;  
00412   
00413 
00414 
00415   const math::XYZPoint& xyzPos = cluster.position();
00416 
00417   GPFCluster *gc;
00418         
00419   for (int viewType=0;viewType<NViews;viewType++){
00420     if (!drawHO_ && viewType==EHO) continue;
00421     switch(viewType) {
00422     case XY:
00423       {
00424         if (clusType==0) {
00425           gc = new  GPFCluster(this,
00426                                viewType,ident,
00427                                &cluster,
00428                                xyzPos.X(), xyzPos.Y(), clusPattern_);
00429         } else if (clusType==1) {
00430           gc = new  GPFCluster(this,
00431                                viewType,ident,
00432                                &cluster,
00433                                xyzPos.X(), xyzPos.Y(), clusPSPattern_);
00434              
00435         } else if (clusType==2) {
00436           gc = new  GPFCluster(this,
00437                                viewType,ident,
00438                                &cluster,
00439                                xyzPos.X(), xyzPos.Y(), clusPatternecal_);
00440         } else if (clusType==3) {
00441           gc = new  GPFCluster(this,
00442                                viewType,ident,
00443                                &cluster,
00444                                xyzPos.X(), xyzPos.Y(), clusPatternhfem_);
00445         } else {
00446           gc = new  GPFCluster(this,
00447                                viewType,ident,
00448                                &cluster,
00449                                xyzPos.X(), xyzPos.Y(), clusPatternho_);
00450         }                                     
00451         graphicMap_.insert(pair<int,GPFBase *> (ident, gc));
00452       }
00453       break;
00454     case RZ:
00455       {
00456         double sign = 1.;
00457         if (cos(phi0 - phi) < 0.)
00458           sign = -1.;
00459         if ( clusType==0) { 
00460           gc = new  GPFCluster(this,
00461                                viewType,ident,
00462                                &cluster,
00463                                xyzPos.z(),sign*xyzPos.Rho(),
00464                                clusPattern_);
00465         } else if (clusType==1) { 
00466           gc = new  GPFCluster(this,
00467                                viewType,ident,
00468                                &cluster,
00469                                xyzPos.z(),sign*xyzPos.Rho(),
00470                                clusPSPattern_);
00471         } else if (clusType==2) { 
00472           gc = new  GPFCluster(this,
00473                                viewType,ident,
00474                                &cluster,
00475                                xyzPos.z(),sign*xyzPos.Rho(),
00476                                clusPatternecal_);
00477         } else if (clusType==3) { 
00478           gc = new  GPFCluster(this,
00479                                viewType,ident,
00480                                &cluster,
00481                                xyzPos.z(),sign*xyzPos.Rho(),
00482                                clusPatternhfem_);
00483 
00484         } else {
00485           gc = new  GPFCluster(this,
00486                                viewType,ident,
00487                                &cluster,
00488                                xyzPos.z(),sign*xyzPos.Rho(),
00489                                clusPatternho_);
00490         }          
00491         graphicMap_.insert(pair<int,GPFBase *>  (ident, gc));   
00492       } 
00493       break;
00494     case EPE:
00495       {
00496         if( cluster.layer()<0 || cluster.layer()==PFLayer::HF_EM) {
00497           if (clusType==2) {
00498             gc = new  GPFCluster(this,
00499                                  viewType,ident,
00500                                  &cluster,
00501                                  eta,phi,
00502                                  clusPatternecal_);
00503           }
00504           else if (clusType==3) {
00505             gc = new  GPFCluster(this,
00506                                  viewType,ident,
00507                                  &cluster,
00508                                  eta,phi,
00509                                  clusPatternhfem_);
00510           }       
00511           else {
00512             gc = new  GPFCluster(this,
00513                                  viewType,ident,
00514                                  &cluster,
00515                                  eta,phi,
00516                                  clusPSPattern_);
00517           }                              
00518                                          
00519           graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));
00520         }
00521 
00522       } 
00523       break;
00524     case EPH:
00525       {
00526         if( cluster.layer()>0 && cluster.layer()!=PFLayer::HF_EM  && cluster.layer()!=PFLayer::HCAL_BARREL2) {
00527           if (clusType==0) {
00528             gc = new  GPFCluster(this,
00529                                  viewType,ident,
00530                                  &cluster,
00531                                  eta,phi,clusPattern_);
00532           } 
00533           else {
00534             gc = new  GPFCluster(this,
00535                                  viewType,ident,
00536                                  &cluster,
00537                                  eta,phi,clusPSPattern_);
00538           }
00539             
00540                                          
00541           graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));          
00542         }
00543       } 
00544       break;
00545       
00546     case EHO:
00547       {
00548         if( cluster.layer()>0 && cluster.layer()==PFLayer::HCAL_BARREL2) {
00549           if (clusType==4) {
00550             gc = new  GPFCluster(this,
00551                                  viewType,ident,
00552                                  &cluster,
00553                                  eta,phi,clusPatternho_);
00554           }
00555           else {
00556             gc = new  GPFCluster(this,
00557                                  viewType,ident,
00558                                  &cluster,
00559                                  eta,phi,clusPSPattern_);
00560           }
00561             
00562                                          
00563           graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));          
00564         }
00565       } 
00566       break;
00567 
00568     default :break; 
00569     } 
00570   }      
00571 }
00572 //________________________________________________________________________________________
00573 void DisplayManager::createGPart( const reco::PFSimParticle &ptc,
00574                                   const std::vector<reco::PFTrajectoryPoint>& points, 
00575                                   int ident,double pt,double phi0, double sign, bool displayInitial,
00576                                   int markerIndex)
00577 {
00578   //bool inside = false; 
00579   //TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");
00580   bool debug_createGpart = false;
00581   //    bool debug_createGpart = true;
00582   for (int viewType=0;viewType<NViews;++viewType) {
00583     if (!drawHO_ && viewType==EHO) continue;
00584     //  for (int viewType=0;viewType<4;++viewType) {
00585     // reserving space. nb not all trajectory points are valid
00586     vector<double> xPos;
00587     xPos.reserve( points.size() );
00588     vector<double> yPos;
00589     yPos.reserve( points.size() );
00590                 
00591     for(unsigned i=0; i<points.size(); i++) {
00592 
00593       if( !points[i].isValid() ) continue;
00594         
00595       const math::XYZPoint& xyzPos = points[i].position();      
00596 
00597       double eta = xyzPos.Eta();
00598       double phi = xyzPos.Phi();
00599                         
00600       // always take momentum for the first point 
00601       // otherwise decay products from resonances will have wrong eta, phi
00602       //calculated from position (0,0,0) (MDN 11 June 2008)
00603       if( points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
00604                                 
00605         //      if( !displayInitial && 
00606         //              points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
00607         const math::XYZTLorentzVector& mom = points[i].momentum();
00608         eta = mom.Eta();
00609         phi = mom.Phi();
00610       }
00611                         
00612       //if( !cutg || cutg->IsInside( eta, phi ) ) 
00613       //  inside = true;
00614                         
00615       switch(viewType) {
00616       case XY:
00617         xPos.push_back(xyzPos.X());
00618         yPos.push_back(xyzPos.Y());
00619         break;
00620       case RZ:
00621         xPos.push_back(xyzPos.Z());
00622         yPos.push_back(sign*xyzPos.Rho());
00623         break;
00624       case EPE:
00625       case EPH:
00626       case EHO:
00627         xPos.push_back( eta );
00628         yPos.push_back( phi );
00629         break;
00630       default:break;
00631       }
00632     }  
00633     if (viewType == EPE && debug_createGpart) {
00634       cout << " display PFsim eta/phi view ECAL" << endl;
00635       cout << " nb of points for display " << xPos.size() << endl;
00636       for(unsigned i=0; i<xPos.size(); i++) {
00637         cout << " point " << i << " x/y " << xPos[i] <<"/" << yPos[i]<< endl;
00638       }
00639     }
00640                 
00642     //if( !inside ) return;
00643     //int color = 4;
00644     GPFSimParticle *gc   = new GPFSimParticle(this,
00645                                               viewType, ident,
00646                                               &ptc,
00647                                               xPos.size(),&xPos[0],&yPos[0],
00648                                               pt,
00649                                               simPartPatternM_[markerIndex],
00650                                               simPartPatternL_,
00651                                               "pl");
00652                                               
00653     graphicMap_.insert(pair<int,GPFBase *>      (ident, gc));                                 
00654     //graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFSimParticle(this,viewType,ident,&ptc,xPos.size(),&xPos[0],&yPos[0],pt,simPartPattern_[indexMarker], "pl")));
00655   }
00656 }
00657 //____________________________________________________________________
00658 void DisplayManager::createGRecHit(reco::PFRecHit& rh,int ident, double maxe, double phi0, int color)
00659 {
00660         
00661   double me = maxe;
00662   double thresh = 0;
00663   int layer = rh.layer();
00664         
00665         
00666   switch(layer) {
00667   case PFLayer::ECAL_BARREL:
00668     thresh = em_->clusterAlgoECAL_.threshBarrel();
00669     break;     
00670   case PFLayer::ECAL_ENDCAP:
00671     thresh = em_->clusterAlgoECAL_.threshEndcap();
00672     break;     
00673   case PFLayer::HCAL_BARREL1:
00674   case PFLayer::HCAL_BARREL2:
00675     thresh = em_->clusterAlgoHCAL_.threshBarrel();
00676     break;           
00677   case PFLayer::HCAL_ENDCAP:
00678     thresh = em_->clusterAlgoHCAL_.threshEndcap();
00679     break;                     
00680   case PFLayer::HF_HAD: 
00681     // how to handle a different threshold for HF?
00682     thresh = em_->clusterAlgoHFHAD_.threshEndcap();
00683     break;           
00684   case PFLayer::HF_EM: 
00685     // how to handle a different threshold for HF?
00686     thresh = em_->clusterAlgoHFEM_.threshEndcap();
00687     break;           
00688   case PFLayer::PS1:
00689   case PFLayer::PS2:
00690     me = -1;
00691     thresh = em_->clusterAlgoPS_.threshBarrel();
00692     break;
00693   default:
00694     {
00695       cerr<<"DisplayManager::createGRecHit : manage other layers."
00696           <<" GRechit notcreated."<<endl;
00697       return;
00698     }
00699   }
00700   if( rh.energy() < thresh ) return;
00701         
00702   //loop on all views
00703   for(int viewType=0;viewType<NViews;++viewType) {
00704     if (!drawHO_ && viewType==EHO) continue;
00705 
00706     bool isHCAL = (layer == PFLayer::HCAL_BARREL1 || 
00707                    //                   layer == PFLayer::HCAL_BARREL2 || 
00708                    layer == PFLayer::HCAL_ENDCAP || 
00709                    layer == PFLayer::HF_HAD);
00710     
00711     if(  viewType == EPH && 
00712          ! isHCAL) {
00713       continue;
00714     }
00715     // on EPE view, draw only HCAL and preshower
00716     if(  viewType == EPE && (isHCAL || layer ==PFLayer::HCAL_BARREL2)) {
00717       continue;
00718     }
00719 
00720     if (viewType == EHO && layer !=PFLayer::HCAL_BARREL2) continue;
00721 
00722 
00723     double rheta = rh.position().Eta();
00724     double rhphi = rh.position().Phi();
00725 
00726     double sign = 1.;
00727     if (cos(phi0 - rhphi) < 0.) sign = -1.;
00728                 
00729                 
00730     double etaSize[4];
00731     double phiSize[4];
00732     double x[5];
00733     double y[5];
00734     double z[5];
00735     double r[5];
00736     double eta[5];
00737     double phi[5];
00738     double xprop[5];
00739     double yprop[5];
00740     double etaprop[5];
00741     double phiprop[5];
00742                 
00743                 
00744     const std::vector< math::XYZPoint >& corners = rh.getCornersXYZ();
00745     assert(corners.size() == 4);
00746     double propfact = 0.95; // so that the cells don't overlap ? 
00747     double ampl=0;
00748     if(me>0) ampl = (log(rh.energy() + 1.)/log(me + 1.));
00749     for ( unsigned jc=0; jc<4; ++jc ) { 
00750 
00751       phiSize[jc] = rhphi-corners[jc].Phi();
00752       etaSize[jc] = rheta-corners[jc].Eta();
00753       if ( phiSize[jc] > 1. ) phiSize[jc] -= 2.*TMath::Pi();  
00754       if ( phiSize[jc] < -1. ) phiSize[jc]+= 2.*TMath::Pi();
00755 
00756       phiSize[jc] *= propfact;
00757       etaSize[jc] *= propfact;
00758                         
00759       math::XYZPoint cornerposxyz = corners[jc];
00760                         
00761       x[jc] = cornerposxyz.X();
00762       y[jc] = cornerposxyz.Y();
00763       z[jc] = cornerposxyz.Z();
00764       r[jc] = sign*cornerposxyz.Rho();
00765       eta[jc] = rheta - etaSize[jc];
00766       phi[jc] = rhphi - phiSize[jc];
00767                         
00768                         
00769       // cell area is prop to log(E)
00770       // not drawn for preshower. 
00771       // otherwise, drawn for eta/phi view, and for endcaps in xy view
00772       if( layer != PFLayer::PS1 && 
00773           layer != PFLayer::PS2 && 
00774           ( viewType == EPE || 
00775             viewType == EPH || 
00776             viewType == EHO || 
00777             ( viewType == XY &&  
00778               ( layer == PFLayer::ECAL_ENDCAP || 
00779                 layer == PFLayer::HCAL_ENDCAP || 
00780                 layer == PFLayer::HF_HAD
00781                 ) ) ) ) {
00782       
00783         math::XYZPoint centreXYZrot = rh.position();
00784         
00785         math::XYZPoint centertocorner(x[jc] - centreXYZrot.X(), 
00786                                       y[jc] - centreXYZrot.Y(),
00787                                       0 );
00788         
00789         math::XYZPoint centertocornerep(eta[jc] - centreXYZrot.Eta(), 
00790                                         phi[jc] - centreXYZrot.Phi(),
00791                                         0 );
00792         
00793         
00794         // centertocorner -= centreXYZrot;
00795         xprop[jc] = centreXYZrot.X() + centertocorner.X()*ampl;
00796         yprop[jc] = centreXYZrot.Y() + centertocorner.Y()*ampl;
00797                                 
00798         etaprop[jc] = centreXYZrot.Eta() + centertocornerep.X()*ampl;
00799         phiprop[jc] = centreXYZrot.Phi() + centertocornerep.Y()*ampl;
00800       }
00801     }//loop on jc 
00802                 
00803     if(layer == PFLayer::ECAL_BARREL  || 
00804        layer == PFLayer::HCAL_BARREL1 || 
00805        layer == PFLayer::HCAL_BARREL2 || viewType == RZ) {
00806                         
00807       // we are in the barrel. Determining which corners to shift 
00808       // away from the center to represent the cell energy
00809                         
00810       int i1 = -1;
00811       int i2 = -1;
00812                         
00813       if(fabs(phiSize[1]-phiSize[0]) > 0.0001) {
00814         if (viewType == XY) {
00815           i1 = 2;
00816           i2 = 3;
00817         } else if (viewType == RZ) {
00818           i1 = 1;
00819           i2 = 2;
00820         }
00821       } else {
00822         if (viewType == XY) {
00823           i1 = 1;
00824           i2 = 2;
00825         } else if (viewType == RZ) {
00826           i1 = 2;
00827           i2 = 3;
00828         }
00829       }
00830       
00831       double signx=1.;
00832       if(layer == PFLayer::HCAL_BARREL2) { signx=-1.;}
00833                         
00834       x[i1] *= 1+signx*ampl/2.;
00835       x[i2] *= 1+signx*ampl/2.;
00836       y[i1] *= 1+signx*ampl/2.;
00837       y[i2] *= 1+signx*ampl/2.;
00838       z[i1] *= 1+signx*ampl/2.;
00839       z[i2] *= 1+signx*ampl/2.;
00840       r[i1] *= 1+signx*ampl/2.;
00841       r[i2] *= 1+signx*ampl/2.;
00842 
00843     }
00844 
00845     x[4]=x[0];
00846     y[4]=y[0]; // closing the polycell
00847     z[4]=z[0];
00848     r[4]=r[0]; // closing the polycell
00849     eta[4]=eta[0];
00850     phi[4]=phi[0]; // closing the polycell
00851                 
00852     int npoints=5;
00853                 
00854     switch( viewType ) {
00855     case  XY:
00856       {
00857         if(layer == PFLayer::ECAL_BARREL || 
00858            layer == PFLayer::HCAL_BARREL1 || 
00859            layer == PFLayer::HCAL_BARREL2) {
00860           graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,x,y,color,"f")));
00861                                         
00862         } else {
00863           graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,x,y,color,"l")));
00864           if( ampl>0 ) { // not for preshower
00865             xprop[4]=xprop[0];
00866             yprop[4]=yprop[0]; // closing the polycell    
00867             graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,xprop,yprop,color,"f")));
00868           }
00869         }
00870       } 
00871       break;
00872                                 
00873     case RZ:
00874       graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,z,r,color,"f")));
00875       break;
00876                                 
00877     case EPE:
00878       {
00879         graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
00880                                 
00881         if( ampl>0 ) { // not for preshower
00882           etaprop[4]=etaprop[0];
00883           phiprop[4]=phiprop[0]; // closing the polycell    
00884           graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
00885         }
00886       }  
00887       break;
00888     case EPH:
00889       {      
00890         if(layer == PFLayer::ECAL_BARREL || 
00891            layer == PFLayer::HCAL_BARREL1) {
00892           graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
00893           
00894           if( ampl>0 ) { // not for preshower
00895             etaprop[4]=etaprop[0];
00896             phiprop[4]=phiprop[0]; // closing the polycell    
00897             graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
00898           }
00899         } 
00900       }
00901       break;
00902 
00903     case EHO:
00904       {
00905         
00906         graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
00907         if(layer == PFLayer::HCAL_BARREL2) {                        
00908           if( ampl>0 ) { // not for preshower
00909             etaprop[4]=etaprop[0];
00910             phiprop[4]=phiprop[0]; // closing the polycell    
00911             graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
00912           }
00913         } 
00914       }
00915       break;
00916 
00917 
00918                                 
00919     default: break;
00920     }//switch end
00921                 
00922   } //loop on views
00923 }
00924 
00925 //_________________________________________________________________________________________
00926 void DisplayManager::createGTrack( reco::PFRecTrack &tr,
00927                                    const std::vector<reco::PFTrajectoryPoint>& points, 
00928                                    int ident,double pt,double phi0, double sign, bool displayInitial,
00929                                    int linestyle,int kfgsfbrem) 
00930 {
00931         
00932   //   bool inside = false; 
00933   //TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");
00934         
00935   for (int viewType=0;viewType<NViews;++viewType) {
00936     if (!drawHO_ && viewType==EHO) continue;
00937     // reserving space. nb not all trajectory points are valid
00938     vector<double> xPos;
00939     xPos.reserve( points.size() );
00940     vector<double> yPos;
00941     yPos.reserve( points.size() );
00942                 
00943     for(unsigned i=0; i<points.size(); i++) {
00944       if( !points[i].isValid() ) continue;
00945       
00946       const math::XYZPoint& xyzPos = points[i].position();
00947       //muriel      
00948       //if(kfgsfbrem) 
00949       //   std::cout << xyzPos << std::endl;
00950       double eta = xyzPos.Eta();
00951       double phi = xyzPos.Phi();
00952                         
00953       if( !displayInitial && 
00954           points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
00955         const math::XYZTLorentzVector& mom = points[i].momentum();
00956         eta = mom.Eta();
00957         phi = mom.Phi();
00958       }
00959                         
00960       //if( !cutg || cutg->IsInside( eta, phi ) ) 
00961       //  inside = true;
00962                         
00963                         
00964       switch(viewType) {
00965       case XY:
00966         xPos.push_back(xyzPos.X());
00967         yPos.push_back(xyzPos.Y());
00968         break;
00969       case RZ:
00970         xPos.push_back(xyzPos.Z());
00971         yPos.push_back(sign*xyzPos.Rho());
00972         break;
00973       case EPE:
00974       case EPH:
00975       case EHO: 
00976         xPos.push_back( eta );
00977         yPos.push_back( phi );
00978         break;
00979       }
00980     }  
00982     //if( !inside ) return;
00983                 
00984     //fill map with graphic objects
00985       GPFTrack *gt=0;
00986       if(kfgsfbrem==0) {
00987         gt = new  GPFTrack(this,
00988                            viewType,ident,
00989                            &tr,
00990                            xPos.size(),&xPos[0],&yPos[0],pt,
00991                            trackPatternM_,trackPatternL_,"pl");
00992       }
00993       else if (kfgsfbrem==1) {
00994         //      std::cout << " Creating the GSF track " << std::endl;
00995         gt = new  GPFTrack(this,
00996                            viewType,ident,
00997                            &tr,
00998                            xPos.size(),&xPos[0],&yPos[0],pt,
00999                            gsfPatternM_,gsfPatternL_,"pl");
01000       }
01001       else if (kfgsfbrem==2) {
01002         //      std::cout << " Creating the Brem " << std::endl;
01003         //      std::cout<<"adr brem dans create:"<<&tr<<std::flush<<std::endl;
01004         gt = new  GPFTrack(this,
01005                            viewType,ident,
01006                            &tr,
01007                            xPos.size(),&xPos[0],&yPos[0],pt,
01008                            bremPatternM_,bremPatternL_,"pl");
01009       }
01010       graphicMap_.insert(pair<int,GPFBase *> (ident, gt));
01011   }   
01012 }
01013 
01014 
01015 void DisplayManager::displayEvent(int run, int lumi, int event) {
01016   reset();
01017   em_->processEvent(run, lumi, event);  
01018   eventNumber_= em_->eventNumber();
01019   loadGraphicObjects();
01020   isGraphicLoaded_= true;
01021   displayAll();
01022 }
01023 
01024 
01025 //________________________________________________________
01026 void DisplayManager::display(int ientry)
01027 {
01028   if (ientry<0 || ientry>maxEvents_) {
01029     std::cerr<<"DisplayManager::no event matching criteria"<<std::endl;
01030     return;
01031   }  
01032   reset();
01033   em_->processEntry(ientry);  
01034   eventNumber_= em_->eventNumber();
01035   loadGraphicObjects();
01036   isGraphicLoaded_= true;
01037 
01038   displayAll();
01039 
01040 }
01041 //________________________________________________________________________________
01042 void DisplayManager::displayAll(bool noRedraw)
01043 {
01044 
01045   if (!isGraphicLoaded_) {
01046     std::cout<<" no Graphic Objects to draw"<<std::endl;
01047     return;
01048   }
01049   if (noRedraw) { 
01050     for (int viewType=0;viewType<NViews;++viewType) {
01051       if (!drawHO_ && viewType==EHO) continue;
01052       displayView_[viewType]->cd();
01053       gPad->Clear();
01054     } 
01055     //TODOLIST: add test on view to draw 
01056     displayCanvas();
01057   }  
01058   
01059   std::multimap<int,GPFBase *>::iterator p;
01060 
01061   for (p=graphicMap_.begin();p!=graphicMap_.end();p++) {
01062     int ident=p->first;
01063     int type=ident >> shiftId_;
01064     int view = p->second->getView();
01065     
01066     if (!drawHO_ && (view ==EHO || type==CLUSTERHOID || type==RECHITHOID)) continue;
01067     
01068     switch (type) {
01069     case CLUSTERECALID: 
01070     case CLUSTERHCALID: 
01071     case CLUSTERHOID: 
01072     case CLUSTERHFEMID: 
01073     case CLUSTERHFHADID: 
01074     case CLUSTERPSID: 
01075     case CLUSTERIBID:
01076       {
01077         //      cout<<"displaying "<<type<<" "<<p->second->getEnergy()<<" "<<clusEnMin_<<" on view "<<view<<endl;
01078         if (drawClus_)
01079           if (p->second->getEnergy() > clusEnMin_) {
01080             displayView_[view]->cd();
01081             p->second->draw();
01082           }        
01083       }
01084       break;
01085     case RECHITECALID: 
01086     case RECHITHCALID: 
01087     case RECHITHOID: 
01088     case RECHITHFEMID: 
01089     case RECHITHFHADID: 
01090     case RECHITPSID:
01091       {
01092         if (!noRedraw) break; 
01093         if (drawHits_) 
01094           if(p->second->getEnergy() > hitEnMin_)  {
01095             displayView_[view]->cd();
01096             p->second->draw();
01097           }
01098         break;  
01099       }  
01100     case RECTRACKID:
01101       {
01102         if (drawTracks_) 
01103           if (p->second->getPt() > trackPtMin_) {
01104             displayView_[view]->cd();
01105             p->second->draw();
01106           }
01107       }
01108       break;
01109     case GSFRECTRACKID:
01110       {
01111         if (drawGsfTracks_) 
01112           if (p->second->getPt() > gsfPtMin_) {
01113             displayView_[view]->cd();
01114             p->second->draw();
01115           }
01116       }
01117       break;
01118     case BREMID:
01119       {
01120         if (drawBrems_)
01121           {
01122             displayView_[view]->cd();
01123             p->second->draw();
01124           }
01125       }
01126       break;
01127     case SIMPARTICLEID:
01128       {
01129         if (drawParticles_)
01130           if (p->second->getPt() > particlePtMin_) {
01131             displayView_[view]->cd();
01132             p->second->draw();
01133           }
01134       }
01135       break;
01136     case GENPARTICLEID:
01137       {  
01138         if (drawGenParticles_) 
01139           if (p->second->getPt() > genParticlePtMin_) 
01140             if (view == EPH || view ==EPE || view ==EHO) {
01141               displayView_[view]->cd();
01142               p->second->draw();
01143             }  
01144       } 
01145       break;           
01146     default : std::cout<<"DisplayManager::displayAll()-- unknown object "<<std::endl;               
01147     }  //switch end
01148   }   //for end
01149 
01150   for (int i=0;i<NViews;i++) {
01151     if (!drawHO_ && i==EHO) continue;
01152     displayView_[i]->cd();
01153     gPad->Modified();
01154     displayView_[i]->Update();
01155   }  
01156 }
01157 //___________________________________________________________________________________
01158 void DisplayManager::drawWithNewGraphicAttributes()
01159 {
01160   std::multimap<int,GPFBase *>::iterator p;
01161         
01162   for (p=graphicMap_.begin();p!=graphicMap_.end();p++) {
01163     int ident=p->first;
01164     int type=ident >> shiftId_;
01165     if (!drawHO_ && (type==CLUSTERHOID)) continue;
01166     switch (type) {
01167     case CLUSTERECALID: case CLUSTERHCALID:  case CLUSTERHOID: case  CLUSTERPSID: case CLUSTERIBID:
01168       {
01169         p->second->setNewStyle();
01170         p->second->setNewSize();
01171         p->second->setColor();  
01172       }
01173       break;
01174     case RECTRACKID:
01175       {
01176         p->second->setColor();
01177         p->second->setNewStyle();
01178         p->second->setNewSize();
01179       }
01180       break;
01181     case SIMPARTICLEID:
01182       {
01183       }
01184       break;
01185     default : break;            
01186     }  //switch end
01187   }   //for end
01188   displayAll(false);
01189 }
01190 //___________________________________________________________________________________
01191 void DisplayManager::displayCanvas()
01192 {
01193   double zLow = -500.;
01194   double zUp  = +500.;
01195   double rUp  = +400.;
01196   if (!drawHO_) rUp=300.0;
01197   double etarng=(drawHO_) ? 1.19 : 1.39;
01198   double ratio =(drawHO_) ? 1.15 : 0.90;
01199   double scal = (drawHO_) ? 1.00 : 0.85;
01200         
01201   //TODOLIST : test wether view on/off
01202   //if (!displayView_[viewType] || !gROOT->GetListOfCanvases()->FindObject(displayView_[viewType]) ) {
01203   //   assert(viewSize_.size() == 2);
01204         
01205 
01206 
01207   for (int viewType=0;viewType<NViews;++viewType) {
01208     if (!drawHO_ && viewType==EHO) continue;
01209     displayView_[viewType]->cd();
01210     displayHist_[viewType]->Draw();
01211     switch(viewType) {
01212     case XY: 
01213       frontFaceECALXY_.Draw();
01214       frontFaceHCALXY_.Draw();
01215       frontFaceHOXY_.Draw();
01216       break;
01217     case RZ:    
01218       {// Draw lines at different etas
01219         TLine l;
01220         l.SetLineColor(1);
01221         l.SetLineStyle(3);
01222         TLatex etaLeg;
01223         etaLeg.SetTextSize( (drawHO_) ? 0.03 : 0.02);
01224         float etaMin = -3.;
01225         float etaMax = +3.;
01226         float etaBin = 0.2;
01227         int nEtas = int((etaMax - etaMin)/0.2) + 1;
01228         for (int iEta = 0; iEta <= nEtas; iEta++) {
01229           float eta = etaMin + iEta*etaBin;
01230           float r = ratio*rUp;
01231           TVector3 etaImpact;
01232           etaImpact.SetPtEtaPhi(r, eta, 0.);
01233           etaLeg.SetTextAlign(21);
01234           if (eta <= -etarng) {
01235             etaImpact.SetXYZ(0.,scal*zLow*tan(etaImpact.Theta()),scal*zLow);
01236             etaLeg.SetTextAlign(31);
01237           } else if (eta >= etarng) {
01238             etaImpact.SetXYZ(0.,scal*zUp*tan(etaImpact.Theta()),scal*zUp);
01239             etaLeg.SetTextAlign(11);
01240           }
01241           if (drawHO_) {
01242             if (fabs(eta)<1.29) {
01243               etaLeg.SetTextSize(0.030);
01244             } else {
01245               etaLeg.SetTextSize(0.022);
01246             }
01247           }
01248           l.DrawLine(0., 0., etaImpact.Z(), etaImpact.Perp());
01249           etaLeg.DrawLatex(1.0*etaImpact.Z(), etaImpact.Perp(), Form("%2.1f", eta));
01250         }
01251         frontFaceECALRZ_.Draw();
01252       } 
01253       break;
01254     default: break;
01255     } //end switch
01256   }
01257 }
01258 //________________________________________________________________________________
01259 void DisplayManager::displayNext()
01260 {
01261   int eventNumber_=em_->eventNumber();
01262   display(++eventNumber_);
01263 }
01264 //_________________________________________________________________________________
01265 void DisplayManager::displayNextInteresting(int ientry)
01266 {
01267   bool ok=false;
01268   while (!ok && ientry<em_->ev_->size() ) {
01269     ok = em_->processEntry(ientry);
01270     ientry++;
01271   }
01272   eventNumber_ = em_->eventNumber();
01273   if (ok) {
01274     reset();
01275     loadGraphicObjects();
01276     isGraphicLoaded_= true;
01277     displayAll();
01278   }
01279   else 
01280     std::cerr<<"DisplayManager::dislayNextInteresting : no event matching criteria"<<std::endl;
01281 }
01282 //_________________________________________________________________________________
01283 void DisplayManager::displayPrevious()
01284 {
01285   int eventNumber_=em_->eventNumber();
01286   display(--eventNumber_);
01287 }
01288 //______________________________________________________________________________
01289 void DisplayManager::rubOutGPFBlock()
01290 {
01291   int size = selectedGObj_.size();
01292   bool toInitial=true;
01293   int color=0;
01294   for (int i=0;i<size;i++) 
01295     drawGObject(selectedGObj_[i],color,toInitial);
01296 }
01297 //_______________________________________________________________________________
01298 void DisplayManager::displayPFBlock(int blockNb) 
01299 {
01300   rubOutGPFBlock();
01301   selectedGObj_.clear();
01302   if (!drawPFBlocks_) return;
01303   int color=1;
01304   multimap<int,pair <int,int > >::const_iterator p;
01305   p= blockIdentsMap_.find(blockNb);
01306   if (p !=blockIdentsMap_.end()) {
01307     do {
01308       int ident=(p->second).first;
01309       drawGObject(ident,color,false);
01310       p++;
01311     } while (p!=blockIdentsMap_.upper_bound(blockNb));
01312   }
01313   else 
01314     cout<<"DisplayManager::displayPFBlock :not found"<<endl;    
01315 }  
01316 //_______________________________________________________________________________
01317 void DisplayManager::drawGObject(int ident,int color,bool toInitial) 
01318 {
01319   typedef std::multimap<int,GPFBase *>::const_iterator iter;
01320   iter p;
01321   std::pair<iter, iter > result = graphicMap_.equal_range(ident);
01322   if(result.first == graphicMap_.end()) {
01323     std::cout<<"pas d'objet avec cet ident: "<<ident<<std::flush<<std::endl; 
01324     return;
01325   }
01326   p=result.first;
01327   while (p != result.second) {
01328     int view=p->second->getView();
01329     if (!drawHO_ && view ==EHO) continue; 
01330     displayView_[view]->cd();
01331     if (toInitial) p->second->setInitialColor();
01332     else p->second->setColor(color);
01333     p->second->draw();
01334     gPad->Modified();
01335     //      displayView_[view]->Update();
01336     if (!toInitial) selectedGObj_.push_back(ident);
01337     p++; 
01338   }
01339 }
01340 //______________________________________________________________________________
01341 void DisplayManager::enableDrawPFBlock(bool state)
01342 {
01343   drawPFBlocks_=state;
01344 }
01345 //______________________________________________________________________________
01346 void DisplayManager::enableDrawBrem(bool state)
01347 {
01348   drawBrems_=state;
01349 }  
01350 //_______________________________________________________________________________
01351 void DisplayManager::findAndDraw(int ident) 
01352 {       
01353   int type=ident >> shiftId_;            // defined in DisplayCommon.h
01354   if (drawHO_ || type!=RECHITHOID) {
01355     int color=1;
01356     if (type>15) {
01357       std ::cout<<"DisplayManager::findAndDraw :object Type unknown"<<std::endl;
01358       return;
01359     }  
01360     if (drawPFBlocks_==0  ||
01361         type==RECHITECALID || type==RECHITHCALID  || type==RECHITHOID  || 
01362         type==RECHITHFEMID || type==RECHITHFHADID ||
01363         type==RECHITPSID   || type==SIMPARTICLEID)   {
01364       rubOutGPFBlock();
01365       selectedGObj_.clear();
01366       bool toInitial=false;
01367       drawGObject(ident,color,toInitial);
01368       if (type<HITTYPES) {
01369         //redrawWithoutHits_=true;
01370         displayAll(false);
01371         //redrawWithoutHits_=false;
01372       }
01373     }     
01374     updateDisplay();
01375   }
01376 }
01377 //___________________________________________________________________________________
01378 void DisplayManager::findBlock(int ident) 
01379 {
01380   int blockNb=-1;
01381   int elemNb=-1;
01382   multimap<int, pair <int,int > >::const_iterator p;
01383   for (p=blockIdentsMap_.begin();p!=blockIdentsMap_.end();p++) {
01384     int id=(p->second).first;
01385     if (id == ident) {
01386       blockNb=p->first;
01387       elemNb=(p->second).second;
01388       break;
01389     }   
01390   }
01391   if (blockNb > -1) {
01392     std::cout<<"this object is element "<<elemNb<<" of PFblock nb "<<blockNb<<std::endl;
01393     assert( blockNb < static_cast<int>(em_->blocks().size()) );
01394     const reco::PFBlock& block = em_->blocks()[blockNb];
01395     std::cout<<block<<std::endl;
01396     displayPFBlock(blockNb);
01397   }   
01398   updateDisplay();
01399 }
01400 //_______________________________________________________________________ 
01401 bool DisplayManager::findBadBremsId(int ident)
01402 {
01403   for (unsigned i=0;i<badBremsId_.size();i++)
01404     if (badBremsId_[i]==ident) return true;
01405   return false;  
01406 }
01407 //_________________________________________________________________________
01408 
01409 void DisplayManager::updateDisplay() {
01410   for(unsigned i=0; i<displayView_.size(); i++) {
01411     if (!drawHO_ && i==EHO) continue;
01412     TPad* p =  displayView_[i];
01413     assert( p );
01414     p->Modified();
01415     p->Update();
01416   }
01417 }
01418 
01419 
01420 //_________________________________________________________________________
01421 double DisplayManager::getMaxE(int layer) const
01422 {
01423         
01424   double maxe = -9999;
01425         
01426   // in which vector should we look for these rechits ?
01427         
01428   const reco::PFRecHitCollection* vec = 0;
01429   switch(layer) {
01430   case PFLayer::ECAL_ENDCAP:
01431   case PFLayer::ECAL_BARREL:
01432     vec = &(em_->rechitsECAL_);
01433     break;
01434   case PFLayer::HCAL_ENDCAP:
01435   case PFLayer::HCAL_BARREL1:
01436     //  case PFLayer::HCAL_BARREL2:
01437     vec = &(em_->rechitsHCAL_);
01438     break;
01439   case PFLayer::HCAL_BARREL2:
01440     vec = &(em_->rechitsHO_);
01441     break;
01442 
01443   case PFLayer::HF_EM: 
01444     vec = &(em_->rechitsHFEM_);
01445     break;
01446   case PFLayer::HF_HAD: 
01447     vec = &(em_->rechitsHFHAD_);
01448     break;
01449   case PFLayer::PS1:
01450   case PFLayer::PS2:
01451     vec = &(em_->rechitsPS_);
01452     break;
01453   default:
01454     cerr<<"DisplayManager::getMaxE : manage other layers"<<endl;
01455     return maxe;
01456   }
01457         
01458   for( unsigned i=0; i<vec->size(); i++) {
01459     if( (*vec)[i].layer() != layer ) continue;
01460     if( (*vec)[i].energy() > maxe)
01461       maxe = (*vec)[i].energy();
01462   }
01463         
01464   return maxe;
01465 }
01466 //____________________________________________________________________________
01467 double DisplayManager::getMaxEEcal() {
01468         
01469   if( maxERecHitEcal_<0 ) {
01470     double maxeec = getMaxE( PFLayer::ECAL_ENDCAP );
01471     double maxeb =  getMaxE( PFLayer::ECAL_BARREL );
01472     double maxehf =  getMaxE( PFLayer::HF_EM );
01473     maxERecHitEcal_ =  maxeec>maxeb  ?  maxeec:maxeb;
01474     maxERecHitEcal_ = maxERecHitEcal_>maxehf ? maxERecHitEcal_:maxehf;
01475     // max of both barrel and endcap
01476   }
01477   return  maxERecHitEcal_;
01478 }
01479 //_______________________________________________________________________________
01480 double DisplayManager::getMaxEHcal() {
01481         
01482   if(maxERecHitHcal_ < 0) {
01483     double maxehf = getMaxE( PFLayer::HF_HAD );
01484     double maxeec = getMaxE( PFLayer::HCAL_ENDCAP );
01485     double maxeb =  getMaxE( PFLayer::HCAL_BARREL1 );
01486     maxERecHitHcal_ =  maxeec>maxeb  ?  maxeec:maxeb;
01487     maxERecHitHcal_ = maxERecHitHcal_>maxehf ? maxERecHitHcal_:maxehf;
01488   }
01489   return maxERecHitHcal_;
01490 } 
01491 
01492 //_______________________________________________________________________________
01493 double DisplayManager::getMaxEHo() {
01494         
01495   if(maxERecHitHo_ < 0) {
01496     maxERecHitHo_ =  getMaxE( PFLayer::HCAL_BARREL2 );
01497   }
01498   return maxERecHitHo_;
01499 } 
01500 
01501 
01502 //________________________________________________________________________________________________
01503 void DisplayManager::loadGGenParticles()
01504 {
01505   
01506   const HepMC::GenEvent* myGenEvent = em_->MCTruth_.GetEvent();
01507   if(!myGenEvent) return;
01508   for ( HepMC::GenEvent::particle_const_iterator piter  = myGenEvent->particles_begin();
01509         piter != myGenEvent->particles_end(); 
01510         ++piter ) {
01511     HepMC::GenParticle* p = *piter;
01512 
01513     createGGenParticle(p);
01514   } 
01515 }
01516 //____________________________________________________________________________
01517 void DisplayManager::createGGenParticle(HepMC::GenParticle* p)
01518 {
01519   // these are the beam protons
01520   if ( !p->production_vertex() && p->pdg_id() == 2212 ) return;
01521     
01522   int partId = p->pdg_id();
01523 
01524   std::string name;
01525   std::string latexStringName;
01526 
01527   name = em_->getGenParticleName(partId,latexStringName);
01528   int barcode = p->barcode();
01529   int genPartId=(GENPARTICLEID<<shiftId_) | barcode;
01530     
01531     
01532 //   int vertexId1 = 0;
01533 //   vertexId1 = p->production_vertex()->barcode();
01534     
01535 //   math::XYZVector vertex1 (p->production_vertex()->position().x(),
01536 //                            p->production_vertex()->position().y(),
01537 //                            p->production_vertex()->position().z());
01538                              
01539   math::XYZTLorentzVector momentum1(p->momentum().px(),
01540                                     p->momentum().py(),
01541                                     p->momentum().pz(),
01542                                     p->momentum().e());
01543                                       
01544   double eta = momentum1.eta();
01545   if ( eta > +10. ) eta = +10.;
01546   if ( eta < -10. ) eta = -10.;
01547     
01548   double phi = momentum1.phi();
01549     
01550   double pt = momentum1.pt();
01551   double e = momentum1.e();
01552     
01553   //mother ?    
01554 
01555   // Colin: the following line gives a segmentation fault when there is 
01556   // no particles entering the production vertex.
01557     
01558   // const HepMC::GenParticle* mother = 
01559   //  *(p->production_vertex()->particles_in_const_begin());
01560     
01561   // protecting against this in the following way:
01562   const HepMC::GenParticle* mother = 0;
01563   if(p->production_vertex() && 
01564      p->production_vertex()->particles_in_size() ) {
01565     mother = 
01566       *(p->production_vertex()->particles_in_const_begin()); 
01567   }
01568 
01569   // Colin: no need to declare this pointer in this context.
01570   // the declaration can be more local.
01571   // GPFGenParticle *gp; 
01572 
01573   int modnViews = (drawHO_) ? NViews : NViews-1;
01574   if ( mother ) {
01575     int barcodeMother = mother->barcode();
01576     math::XYZTLorentzVector momentumMother(mother->momentum().px(),
01577                                            mother->momentum().py(),
01578                                            mother->momentum().pz(),
01579                                            mother->momentum().e());
01580     double etaMother = momentumMother.eta();                                  
01581     if ( etaMother > +10. ) etaMother = +10.;
01582     if ( etaMother < -10. ) etaMother = -10.;
01583     double phiMother = momentumMother.phi();
01584     
01585        
01586     double x[2],y[2];
01587     
01588 
01589     x[0]=etaMother;x[1]=eta;
01590     y[0]=phiMother;y[1]=phi;
01591        
01592     for (int view = 2; view< modnViews; view++) {
01593       GPFGenParticle* gp   = new GPFGenParticle(this,             
01594                                                 view, genPartId,
01595                                                 x, y,              //double *, double *
01596                                                 e,pt,barcode,barcodeMother,
01597                                                 genPartPattern_, 
01598                                                 name,latexStringName);
01599       graphicMap_.insert(pair<int,GPFBase *>    (genPartId, gp));
01600     }
01601   }
01602   else {     //no Mother    
01603     for (int view = 2; view< modnViews; view++) {
01604       GPFGenParticle* gp   = new GPFGenParticle(this,
01605                                                 view, genPartId,
01606                                                 eta, phi,                  //double double
01607                                                 e,pt,barcode,
01608                                                 genPartPattern_,
01609                                                 name, latexStringName);
01610       graphicMap_.insert(pair<int,GPFBase *>    (genPartId, gp));
01611     }                                         
01612   }
01613 }
01614 //____________________________________________________________________________  
01615 void DisplayManager::loadGClusters()
01616 {
01617   double phi0=0;
01618         
01619   for(unsigned i=0; i<em_->clustersECAL_->size(); i++){
01620     //int clusId=(i<<shiftId_) | CLUSTERECALID;
01621     int clusId=(CLUSTERECALID<<shiftId_) | i;
01622     createGCluster( (*(em_->clustersECAL_))[i],clusId, phi0);
01623   }    
01624   for(unsigned i=0; i<em_->clustersHCAL_->size(); i++) {
01625     //int clusId=(i<<shiftId_) | CLUSTERHCALID;
01626     int clusId=(CLUSTERHCALID<<shiftId_) | i;
01627     createGCluster( (*(em_->clustersHCAL_))[i],clusId, phi0);
01628   }    
01629 
01630   if (drawHO_) {
01631     for(unsigned i=0; i<em_->clustersHO_->size(); i++) {
01632       //int clusId=(i<<shiftId_) | CLUSTERHOID;
01633       int clusId=(CLUSTERHOID<<shiftId_) | i;
01634       createGCluster( (*(em_->clustersHO_))[i],clusId, phi0);
01635     }
01636   }
01637 
01638   for(unsigned i=0; i<em_->clustersHFEM_->size(); i++) {
01639     //int clusId=(i<<shiftId_) | CLUSTERHFEMID;
01640     int clusId=(CLUSTERHFEMID<<shiftId_) | i;
01641     createGCluster( (*(em_->clustersHFEM_))[i],clusId, phi0);
01642   }    
01643   for(unsigned i=0; i<em_->clustersHFHAD_->size(); i++) {
01644     //int clusId=(i<<shiftId_) | CLUSTERHFHADID;
01645     int clusId=(CLUSTERHFHADID<<shiftId_) | i;
01646     createGCluster( (*(em_->clustersHFHAD_))[i],clusId, phi0);
01647   }    
01648   for(unsigned i=0; i<em_->clustersPS_->size(); i++){ 
01649     //int clusId=(i<<shiftId_) | CLUSTERPSID;
01650     int clusId=(CLUSTERPSID<<shiftId_) | i;
01651     createGCluster( (*(em_->clustersPS_))[i],clusId,phi0);
01652   }
01653 //   for(unsigned i=0; i<em_->clustersIslandBarrel_.size(); i++) {
01654 //     PFLayer::Layer layer = PFLayer::ECAL_BARREL;
01655 //     //int clusId=(i<<shiftId_) | CLUSTERIBID;
01656 //     int clusId=(CLUSTERIBID<<shiftId_) | i;
01657                 
01658 //     reco::PFCluster cluster( layer, 
01659 //                              em_->clustersIslandBarrel_[i].energy(),
01660 //                              em_->clustersIslandBarrel_[i].x(),
01661 //                              em_->clustersIslandBarrel_[i].y(),
01662 //                              em_->clustersIslandBarrel_[i].z() ); 
01663 //     createGCluster( cluster,clusId, phi0);
01664 //   }  
01665 }
01666 //_____________________________________________________________________
01667 void DisplayManager::retrieveBadBrems()
01668 {
01669 
01670   //selects Brems with no information in PFBlock.Those selected Brems are not displayed
01671    
01672   int size = em_->pfBlocks_->size();
01673   for (int ibl=0;ibl<size;ibl++) {
01674      edm::OwnVector< reco::PFBlockElement >::const_iterator iter;
01675     for( iter =((*(em_->pfBlocks_))[ibl].elements()).begin();
01676          iter != ((*(em_->pfBlocks_))[ibl].elements()).end();iter++) {
01677        int ident=-1;  
01678        reco::PFBlockElement::Type type = (*iter).type();
01679        if (type == reco::PFBlockElement::BREM) {
01680           std::multimap<double, unsigned> ecalElems;
01681            
01682           (*(em_->pfBlocks_))[ibl].associatedElements( (*iter).index(),(*(em_->pfBlocks_))[ibl].linkData(),
01683                                                         ecalElems ,
01684                                                         reco::PFBlockElement::ECAL,
01685                                                         reco::PFBlock::LINKTEST_ALL );
01686 
01687        
01688           if (ecalElems.size()==0) {
01689             //             std::cout<<" PfBlock Nb "<<ibl<<" -- brem elem  "<<(*iter).index()<<"-type "<<(*iter).type()<<" not drawn"<<std::flush<<std::endl;
01690              const reco::PFBlockElementBrem * Brem =  dynamic_cast<const reco::PFBlockElementBrem*>(&(*iter)); 
01691              reco::GsfPFRecTrackRef trackref = Brem->GsftrackRefPF();
01692              unsigned ind=trackref.key()*40+Brem->indTrajPoint();
01693              ident = (BREMID << shiftId_ ) | ind ;
01694              badBremsId_.push_back(ident); 
01695           }
01696        }   
01697     }     
01698   }
01699 }
01700 //_____________________________________________________________________
01701 void DisplayManager::loadGPFBlocks()
01702 {
01703   int size = em_->pfBlocks_->size();
01704   for (int ibl=0;ibl<size;ibl++) {
01705     //int elemNb=((*(em_->pfBlocks_))[ibl].elements()).size();
01706     //std::cout<<"block "<<ibl<<":"<<elemNb<<" elements"<<std::flush<<std::endl;
01707     edm::OwnVector< reco::PFBlockElement >::const_iterator iter;
01708     for( iter =((*(em_->pfBlocks_))[ibl].elements()).begin();
01709          iter != ((*(em_->pfBlocks_))[ibl].elements()).end();iter++) {
01710 
01711       //COLIN
01712 //       std::cout<<"elem index "<<(*iter).index()<<"-type:"
01713 //            <<(*iter).type()<<std::flush<<std::endl;
01714       int ident=-1;  
01715        
01716       reco::PFBlockElement::Type type = (*iter).type();
01717       if (!drawHO_ && type==reco::PFBlockElement::HO) continue;
01718       switch (type) {
01719       case reco::PFBlockElement::NONE :
01720         assert(0);
01721         break;
01722       case reco::PFBlockElement::TRACK:
01723         {
01724           reco::PFRecTrackRef trackref =(*iter).trackRefPF();  
01725           assert( !trackref.isNull() );
01726           // std::cout<<" - key "<<trackref.key()<<std::flush<<std::endl<<std::endl;
01727           ident=(RECTRACKID <<shiftId_) | trackref.key();
01728         }
01729       break;
01730       case reco::PFBlockElement::PS1:
01731         {
01732           reco::PFClusterRef clusref=(*iter).clusterRef();
01733           assert( !clusref.isNull() );
01734           //std::cout<<"- key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01735           ident=(CLUSTERPSID <<shiftId_) |clusref.key();
01736         }
01737       break;
01738       case reco::PFBlockElement::PS2:
01739         {
01740           reco::PFClusterRef clusref=(*iter).clusterRef();
01741           assert( !clusref.isNull() );
01742           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01743           ident=(CLUSTERPSID <<shiftId_) |clusref.key();
01744         }
01745       break;
01746       case reco::PFBlockElement::ECAL:
01747         {
01748           reco::PFClusterRef clusref=(*iter).clusterRef();
01749           assert( !clusref.isNull() );
01750           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01751           ident=(CLUSTERECALID <<shiftId_) |clusref.key();
01752         }
01753       break;
01754       case reco::PFBlockElement::HCAL:
01755         {
01756           reco::PFClusterRef clusref=(*iter).clusterRef();
01757           assert( !clusref.isNull() );
01758           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01759           ident=(CLUSTERHCALID <<shiftId_) |clusref.key();
01760         }
01761       break;
01762 
01763       case reco::PFBlockElement::HO:
01764         {
01765           reco::PFClusterRef clusref=(*iter).clusterRef();
01766           assert( !clusref.isNull() );
01767           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01768           ident=(CLUSTERHOID <<shiftId_) |clusref.key();
01769         }
01770       break;
01771 
01772       case reco::PFBlockElement::HFEM:
01773         {
01774           reco::PFClusterRef clusref=(*iter).clusterRef();
01775           assert( !clusref.isNull() );
01776           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01777           ident=(CLUSTERHFEMID <<shiftId_) |clusref.key();
01778         }
01779       break;
01780       case reco::PFBlockElement::HFHAD:
01781         {
01782           reco::PFClusterRef clusref=(*iter).clusterRef();
01783           assert( !clusref.isNull() );
01784           //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
01785           ident=(CLUSTERHFHADID <<shiftId_) |clusref.key();
01786         }
01787       break;
01788       case reco::PFBlockElement::GSF:
01789         {
01790           const reco::PFBlockElementGsfTrack *  GsfEl =  
01791             dynamic_cast<const reco::PFBlockElementGsfTrack*>(&(*iter));
01792           
01793           reco::GsfPFRecTrackRef trackref=GsfEl->GsftrackRefPF();
01794           assert( !trackref.isNull() ); 
01795           ident=(GSFRECTRACKID << shiftId_) | trackref.key();
01796         }
01797       break;
01798       case reco::PFBlockElement::BREM:
01799         {
01800           const reco::PFBlockElementBrem * Brem =  dynamic_cast<const reco::PFBlockElementBrem*>(&(*iter)); 
01801           reco::GsfPFRecTrackRef trackref = Brem->GsftrackRefPF();
01802           unsigned index=trackref.key()*40+Brem->indTrajPoint();
01803           ident = (BREMID << shiftId_ ) | index ;
01804           if (findBadBremsId(ident))  ident=-1;
01805         }
01806       break;
01807 
01808       case reco::PFBlockElement::SC:
01809         {
01810           const reco::PFBlockElementSuperCluster * sc =  dynamic_cast<const reco::PFBlockElementSuperCluster*>(&(*iter)); 
01811           reco::SuperClusterRef scref = sc->superClusterRef();
01812           assert( !scref.isNull() ); 
01813           ident = (CLUSTERIBID << shiftId_ ) | scref.key();
01814         }
01815       break;
01816 
01817       default: 
01818         std::cout<<"unknown PFBlock element of type "<<type<<std::endl;
01819         break; 
01820       } //end switch 
01821       pair <int, int> idElem;
01822       idElem.first=ident;
01823       idElem.second=(*iter).index();
01824       if (ident != -1) blockIdentsMap_.insert(pair<int,pair <int,int> > (ibl,idElem));            
01825     }   //end for elements
01826   }   //end for blocks
01827         
01828 }
01829 //__________________________________________________________________________________
01830 void DisplayManager::loadGraphicObjects()
01831 {
01832   loadGClusters();
01833   loadGRecHits();
01834   loadGRecTracks();
01835   loadGGsfRecTracks();
01836   loadGSimParticles();
01837   loadGPFBlocks();
01838   loadGGenParticles();
01839 }
01840 //________________________________________________________
01841 void DisplayManager::loadGRecHits()
01842 {
01843   double phi0=0;
01844         
01845   double maxee = getMaxEEcal();
01846   double maxeh = getMaxEHcal();
01847   double maxe = maxee>maxeh ? maxee : maxeh;
01848         
01849   int color = TColor::GetColor(210,210,210);
01850   int seedcolor = TColor::GetColor(145,145,145);
01851   int specialcolor = TColor::GetColor(255,140,0);
01852         
01853   for(unsigned i=0; i<em_->rechitsECAL_.size(); i++) { 
01854     int rhcolor = color;
01855     if( unsigned col = em_->clusterAlgoECAL_.color(i) ) {
01856       switch(col) {
01857       case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01858       case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01859       default:
01860         cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01861       }
01862     }
01863     //int recHitId=(i<<shiftId_) | RECHITECALID;
01864     int recHitId=i;
01865     createGRecHit(em_->rechitsECAL_[i],recHitId, maxe, phi0, rhcolor);
01866   }
01867         
01868   for(unsigned i=0; i<em_->rechitsHCAL_.size(); i++) { 
01869     int rhcolor = color;
01870     if(unsigned col = em_->clusterAlgoHCAL_.color(i) ) {
01871       switch(col) {
01872       case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01873       case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01874       default:
01875         cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01876       }
01877     }
01878     //int recHitId=(i<<shiftId_) | RECHITHCALID;
01879     int recHitId=(RECHITHCALID <<shiftId_) | i;
01880     createGRecHit(em_->rechitsHCAL_[i],recHitId, maxe, phi0, rhcolor);
01881   }
01882       
01883   if (drawHO_) {
01884     for(unsigned i=0; i<em_->rechitsHO_.size(); i++) { 
01885       int rhcolor = color;
01886       if(unsigned col = em_->clusterAlgoHO_.color(i) ) {
01887         switch(col) {
01888         case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01889         case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01890         default:
01891           cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01892         }
01893       }
01894       //int recHitId=(i<<shiftId_) | RECHITHOID;
01895       int recHitId=(RECHITHOID <<shiftId_) | i;
01896       createGRecHit(em_->rechitsHO_[i],recHitId, 2*maxe, phi0, rhcolor);
01897     }
01898   }
01899  
01900   for(unsigned i=0; i<em_->rechitsHFEM_.size(); i++) { 
01901     int rhcolor = color;
01902     if(unsigned col = em_->clusterAlgoHFEM_.color(i) ) {
01903       switch(col) {
01904       case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01905       case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01906       default:
01907         cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01908       }
01909     }
01910     //int recHitId=(i<<shiftId_) | RECHITHFEMID;
01911     int recHitId=(RECHITHFEMID <<shiftId_) | i;
01912     createGRecHit(em_->rechitsHFEM_[i],recHitId, maxe, phi0, rhcolor);
01913   }
01914         
01915   for(unsigned i=0; i<em_->rechitsHFHAD_.size(); i++) { 
01916     int rhcolor = color;
01917     if(unsigned col = em_->clusterAlgoHFHAD_.color(i) ) {
01918       switch(col) {
01919       case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01920       case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01921       default:
01922         cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01923       }
01924     }
01925     //int recHitId=(i<<shiftId_) | RECHITHFHADID;
01926     int recHitId=(RECHITHFHADID <<shiftId_) | i;
01927     createGRecHit(em_->rechitsHFHAD_[i],recHitId, maxe, phi0, rhcolor);
01928   }
01929         
01930   for(unsigned i=0; i<em_->rechitsPS_.size(); i++) { 
01931     int rhcolor = color;
01932     if( unsigned col = em_->clusterAlgoPS_.color(i) ) {
01933       switch(col) {
01934       case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
01935       case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
01936       default:
01937         cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
01938       }
01939     }
01940     //int recHitId=(i<<shiftId_) | RECHITPSID;
01941     int recHitId=(RECHITPSID<<shiftId_) | i;
01942                 
01943     createGRecHit(em_->rechitsPS_[i],recHitId, maxe, phi0, rhcolor);
01944   }
01945 } 
01946 //________________________________________________________________________
01947 void DisplayManager::loadGRecTracks()
01948 {
01949   double phi0=0;
01950         
01951   int ind=-1;
01952   std::vector<reco::PFRecTrack>::iterator itRecTrack;
01953   for (itRecTrack = em_->recTracks_.begin(); itRecTrack != em_->recTracks_.end();itRecTrack++) {
01954     double sign = 1.;
01955     const reco::PFTrajectoryPoint& tpinitial 
01956       = itRecTrack->extrapolatedPoint(reco::PFTrajectoryPoint::ClosestApproach);
01957     double pt = tpinitial.momentum().Pt();
01958     //if( pt<em_->displayRecTracksPtMin_ ) continue;
01959                 
01960     const reco::PFTrajectoryPoint& tpatecal 
01961       = itRecTrack->trajectoryPoint(itRecTrack->nTrajectoryMeasurements() +
01962                                     reco::PFTrajectoryPoint::ECALEntrance );
01963                 
01964     if ( cos(phi0 - tpatecal.momentum().Phi()) < 0.)
01965       sign = -1.;
01966                 
01967     const std::vector<reco::PFTrajectoryPoint>& points = 
01968       itRecTrack->trajectoryPoints();
01969                 
01970     int    linestyle = itRecTrack->algoType();
01971     ind++;
01972     //int recTrackId=(ind<<shiftId_) | RECTRACKID;
01973     int recTrackId=(RECTRACKID <<shiftId_) | ind; 
01974                 
01975     createGTrack(*itRecTrack,points,recTrackId, pt, phi0, sign, false,linestyle);
01976   }
01977 }
01978 
01979 //________________________________________________________________________
01980 void DisplayManager::loadGGsfRecTracks()
01981 {
01982   double phi0=0;
01983         
01984   int ind=-1;
01985   int indbrem=-1;
01986   
01987   // allows not to draw Brems with no informations in PFBlocks
01988   retrieveBadBrems();
01989   
01990   std::vector<reco::GsfPFRecTrack>::iterator itRecTrack;
01991   for (itRecTrack = em_->gsfrecTracks_.begin(); itRecTrack != em_->gsfrecTracks_.end();itRecTrack++) {
01992     double sign = 1.;
01993     const reco::PFTrajectoryPoint& tpinitial 
01994       = itRecTrack->extrapolatedPoint(reco::PFTrajectoryPoint::ClosestApproach);
01995     double pt = tpinitial.momentum().Pt();
01996     //if( pt<em_->displayRecTracksPtMin_ ) continue;
01997                 
01998     const reco::PFTrajectoryPoint& tpatecal 
01999       = itRecTrack->trajectoryPoint(itRecTrack->nTrajectoryMeasurements() +
02000                                     reco::PFTrajectoryPoint::ECALEntrance );
02001                 
02002     if ( cos(phi0 - tpatecal.momentum().Phi()) < 0.)
02003       sign = -1.;
02004                 
02005     const std::vector<reco::PFTrajectoryPoint>& points = 
02006       itRecTrack->trajectoryPoints();
02007                 
02008     int    linestyle = itRecTrack->algoType();
02009     ind++;
02010     int recTrackId=(GSFRECTRACKID <<shiftId_) | ind; 
02011     
02012     createGTrack(*itRecTrack,points,recTrackId, pt, phi0, sign, false,linestyle,1);
02013 
02014     // now the Brems - bad to copy, but problems otherwise
02015     std::vector<reco::PFBrem> brems=itRecTrack->PFRecBrem();
02016     unsigned nbrems=brems.size();
02017     for(unsigned ibrem=0;ibrem<nbrems;++ibrem)
02018       {
02019         unsigned indTrajPoint=brems[ibrem].indTrajPoint();
02020         if(indTrajPoint==99) continue;
02021         double signBrem = 1. ; // this is not the charge
02022         int  linestyleBrem = brems[ibrem].algoType(); 
02023         indbrem++;
02024         // build the index by hand. Assume that there are less 40 Brems per GSF track (ultrasafe!)
02025         // make it from the GSF index and the brem index
02026         unsigned indexBrem= ind*40+brems[ibrem].indTrajPoint();
02027         int recTrackIdBrem=(BREMID << shiftId_ ) | indexBrem;
02028         
02029         //check if there is information on this brem in the PFBlock
02030         //before creating a graphic object
02031         if (!findBadBremsId(recTrackIdBrem)) {
02032 
02033           // the vertex is not stored, need to make it by hand
02034           std::vector<reco::PFTrajectoryPoint> pointsBrem;
02035           //the first two trajectory points are dummy; copy them
02036           pointsBrem.push_back(brems[ibrem].trajectoryPoints()[0]);
02037           pointsBrem.push_back(brems[ibrem].trajectoryPoints()[1]);
02038 
02039           // then get the vertex from the GSF track
02040           pointsBrem.push_back(itRecTrack->trajectoryPoint(indTrajPoint));
02041         
02042           unsigned ntp=brems[ibrem].trajectoryPoints().size();
02043           for(unsigned itp=2;itp<ntp;++itp)
02044            {
02045             pointsBrem.push_back(brems[ibrem].trajectoryPoints()[itp]);
02046            }
02047 
02048           double deltaP=brems[ibrem].DeltaP();
02049           const reco::PFTrajectoryPoint& tpatecalbrem
02050             = brems[ibrem].trajectoryPoint(brems[ibrem].nTrajectoryMeasurements() +
02051                                          reco::PFTrajectoryPoint::ECALEntrance );
02052         
02053           if ( cos(phi0 - tpatecalbrem.momentum().Phi()) < 0.)
02054             signBrem = -1.; // again, not the charge
02055         
02056           createGTrack(brems[ibrem],pointsBrem,recTrackIdBrem,deltaP,phi0,signBrem,false,linestyleBrem,2);
02057         }  
02058       }
02059   }
02060  
02061 }
02062 
02063 //___________________________________________________________________________
02064 void DisplayManager::loadGSimParticles()
02065 {
02066   double phi0=0;
02067   //    bool debug_loadGSim = true;
02068   unsigned simParticlesVSize = em_->trueParticles_.size();
02069         
02070   for(unsigned i=0; i<simParticlesVSize; i++) {
02071                 
02072     const reco::PFSimParticle& ptc = em_->trueParticles_[i];
02073                 
02074     const reco::PFTrajectoryPoint& tpinitial 
02075       = ptc.extrapolatedPoint( reco::PFTrajectoryPoint::ClosestApproach );
02076                 
02077     double pt = tpinitial.momentum().Pt();
02078     //if( pt<em_->getDisplayTrueParticlesPtMin()) continue;
02079                 
02080     double sign = 1.;
02081     const reco::PFTrajectoryPoint& tpFirst = ptc.trajectoryPoint(0);
02082     if ( tpFirst.position().X() < 0. )
02083       sign = -1.;
02084     //double sign2 = 1.;
02085     // if position vector is 0,0,0: X component is undefined  (MDN 11 June 2008)
02086     // const reco::PFTrajectoryPoint& tpFirst = ptc.trajectoryPoint(0);
02087     //  if ( tpFirst.positionXYZ().X() < 0. )
02088     //   sign2 = -1.;
02089 
02090     const std::vector<reco::PFTrajectoryPoint>& points = 
02091       ptc.trajectoryPoints();
02092       
02093 
02094     int indexMarker;
02095     switch( std::abs(ptc.pdgCode() ) ) {
02096     case 22:   indexMarker=0; break; // photons
02097     case 11:   indexMarker=1;  break; // electrons 
02098     case 13:   indexMarker=2;  break; // muons 
02099     case 130:  
02100     case 321:  indexMarker=3; break; // K
02101     case 211:  indexMarker=4; break; // pi+/pi-
02102     case 2212: indexMarker=5; break; // protons
02103     case 2112: indexMarker=6; break; // neutrons  
02104     default:   indexMarker=7; break; 
02105     }
02106 
02107     bool displayInitial=true;
02108     if( ptc.motherId() < 0 ) displayInitial=false;
02109     int partId=(SIMPARTICLEID << shiftId_) | i; 
02110     createGPart(ptc, points,partId, pt, phi0, sign, displayInitial,indexMarker);
02111     //cout << " sign " << sign << " sign2 " << sign2 << endl;
02112     //if ( sign*sign2 <0 ) cout << " ++++++Warning sign*sign2 <0 ++++++++++++++++++ " << endl;
02113                 
02114   }
02115 }
02116 //_____________________________________________________________________________
02117 void DisplayManager::lookForMaxRecHit(bool ecal)
02118 {
02119   // look for the rechit with max e in ecal or hcal
02120   double maxe = -999;
02121   reco::PFRecHit* maxrh = 0;
02122         
02123   reco::PFRecHitCollection* rechits = 0;
02124   if(ecal) rechits = &(em_->rechitsECAL_);
02125   else rechits = &(em_->rechitsHCAL_);
02126   assert(rechits);
02127         
02128   for(unsigned i=0; i<(*rechits).size(); i++) {
02129                 
02130     double energy = (*rechits)[i].energy();
02131                 
02132     if(energy > maxe ) {
02133       maxe = energy;
02134       maxrh = &((*rechits)[i]);
02135     }      
02136   }
02137         
02138   if(!maxrh) return;
02139         
02140   // center view on this rechit
02141         
02142         
02143   // get the cell size to set the eta and phi width 
02144   // of the display window from one of the cells
02145         
02146   double phisize = -1;
02147   double etasize = -1;
02148   maxrh->size(phisize, etasize);
02149         
02150   double etagate = zoomFactor_ * etasize;
02151   double phigate = zoomFactor_ * phisize;
02152   
02153   double eta =  maxrh->position().Eta();
02154   double phi =  maxrh->position().Phi();
02155   
02156   if(displayHist_[EPE]) {
02157     displayHist_[EPE]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02158     displayHist_[EPE]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02159     displayView_[EPE]->Modified();
02160     displayView_[EPE]->Update();
02161   }
02162         
02163   if(displayHist_[EPH]) {
02164     displayHist_[EPH]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02165     displayHist_[EPH]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02166     displayView_[EPH]->Modified();
02167     displayView_[EPH]->Update();
02168   }
02169 
02170   if(drawHO_ && displayHist_[EHO]) {
02171     displayHist_[EHO]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02172     displayHist_[EHO]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02173     displayView_[EHO]->Modified();
02174     displayView_[EHO]->Update();
02175   }
02176 
02177 
02178 }
02179 //________________________________________________________________________________
02180 void DisplayManager::lookForGenParticle(unsigned barcode) {
02181         
02182   const HepMC::GenEvent* event = em_->MCTruth_.GetEvent();
02183   if(!event) {
02184     cerr<<"no GenEvent"<<endl;
02185     return;
02186   }
02187         
02188   const HepMC::GenParticle* particle = event->barcode_to_particle(barcode);
02189   if(!particle) {
02190     cerr<<"no particle with barcode "<<barcode<<endl;
02191     return;
02192   }
02193         
02194   math::XYZTLorentzVector momentum(particle->momentum().px(),
02195                                    particle->momentum().py(),
02196                                    particle->momentum().pz(),
02197                                    particle->momentum().e());
02198         
02199   double eta = momentum.Eta();
02200   double phi = momentum.phi();
02201         
02202   double phisize = 0.05;
02203   double etasize = 0.05;
02204         
02205   double etagate = zoomFactor_ * etasize;
02206   double phigate = zoomFactor_ * phisize;
02207         
02208   if(displayHist_[EPE]) {
02209     displayHist_[EPE]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02210     displayHist_[EPE]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02211     displayView_[EPE]->Modified();
02212     displayView_[EPE]->Update();
02213                 
02214   }
02215   if(displayHist_[EPH]) {
02216     displayHist_[EPH]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02217     displayHist_[EPH]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02218     displayView_[EPH]->Modified();
02219     displayView_[EPH]->Update();
02220   }
02221 
02222   if(drawHO_ && displayHist_[EHO]) {
02223     displayHist_[EHO]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
02224     displayHist_[EHO]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
02225     displayView_[EHO]->Modified();
02226     displayView_[EHO]->Update();
02227   }
02228 
02229 }
02230 //_______________________________________________________________________
02231 void DisplayManager::printDisplay(const char* sdirectory ) const
02232 {
02233   string directory = sdirectory;
02234   if( directory.empty() ) {   
02235     directory = "Event_";
02236   }
02237   char num[10];
02238   sprintf(num,"%d", eventNumber_);
02239   directory += num;
02240         
02241   string mkdir = "mkdir "; mkdir += directory;
02242   int code = system( mkdir.c_str() );
02243         
02244   if( code ) {
02245     cerr<<"cannot create directory "<<directory<<endl;
02246     return;
02247   }
02248         
02249   cout<<"Event display printed in directory "<<directory<<endl;
02250         
02251   directory += "/";
02252         
02253   for(unsigned iView=0; iView<displayView_.size(); iView++) {
02254     if( !displayView_[iView] ) continue;
02255                 
02256     string name = directory;
02257     name += displayView_[iView]->GetName();
02258                 
02259     cout<<displayView_[iView]->GetName()<<endl;
02260                 
02261     string eps = name; eps += ".eps";
02262     displayView_[iView]->SaveAs( eps.c_str() );
02263                 
02264     string png = name; png += ".png";
02265     displayView_[iView]->SaveAs( png.c_str() );
02266   }
02267         
02268   string txt = directory;
02269   txt += "event.txt";
02270   ofstream out( txt.c_str() );
02271   if( !out ) 
02272     cerr<<"cannot open "<<txt<<endl;
02273   em_->print( out );
02274 }
02275 //_____________________________________________________________________________
02276 void DisplayManager::reset()
02277 {
02278   maxERecHitEcal_=-1;
02279   maxERecHitHcal_=-1;
02280   maxERecHitHo_=-1;
02281   isGraphicLoaded_= false;
02282   
02283   std::multimap<int,GPFBase *>::iterator p;
02284   for (p=graphicMap_.begin();p!=graphicMap_.end();p++)
02285     delete p->second;
02286   graphicMap_.clear();
02287 
02288   blockIdentsMap_.clear(); 
02289   selectedGObj_.clear();
02290   badBremsId_.clear();
02291   
02292 
02293 }
02294 //_______________________________________________________________________________
02295 void DisplayManager::unZoom()
02296 {
02297   for( unsigned i=0; i<displayHist_.size(); i++) {
02298     // the corresponding view was not requested
02299     if( ! displayHist_[i] ) continue;
02300     displayHist_[i]->GetXaxis()->UnZoom();
02301     displayHist_[i]->GetYaxis()->UnZoom();
02302   }
02303   updateDisplay();
02304 }
02305 //_______________________________________________________________________________
02306 void DisplayManager::setNewAttrToSimParticles()
02307 {
02308   simPartPatternM_.clear();
02309   simPartPatternM_.push_back(simPartPatternPhoton_);
02310   simPartPatternM_.push_back(simPartPatternElec_);
02311   simPartPatternM_.push_back(simPartPatternMuon_);
02312   simPartPatternM_.push_back(simPartPatternK_);
02313   simPartPatternM_.push_back(simPartPatternPi_);
02314   simPartPatternM_.push_back(simPartPatternProton_);
02315   simPartPatternM_.push_back(simPartPatternNeutron_);
02316   simPartPatternM_.push_back(simPartPatternDefault_);
02317 } 
02318 
02319 //_______________________________________________________________________________
02320 void DisplayManager::printGenParticleInfo(std::string name,int barcode,int barcodeMother) 
02321 { 
02322   const HepMC::GenEvent* myGenEvent = em_->MCTruth_.GetEvent();
02323   HepMC::GenParticle *p = myGenEvent->barcode_to_particle(barcode);
02324   std::cout<<"genParticle "<<name<<" with barcode "<<barcode<<std::flush<<std::endl;
02325   p->print();
02326   if (barcodeMother) { 
02327     HepMC:: GenParticle *mother = myGenEvent->barcode_to_particle(barcodeMother);
02328     std::cout<<"mother particle with barcode "<<barcodeMother<<std::flush<<std::endl;
02329     mother->print();
02330   }    
02331 }