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Public Member Functions | Public Attributes | Private Member Functions | Private Attributes

DisplayManager Class Reference

#include <DisplayManager.h>

List of all members.

Public Member Functions

void display (int ientry)
void displayAll (bool noRedraw=true)
void displayEvent (int run, int lumi, int event)
 DisplayManager (PFRootEventManager *em, const char *optfile)
void displayNext ()
void displayNextInteresting (int ientry)
void displayPFBlock (int blockNb)
void displayPrevious ()
void drawWithNewGraphicAttributes ()
void enableDrawBrem (bool state)
void enableDrawPFBlock (bool state)
void findAndDraw (int ident)
void findBlock (int ident)
void lookForGenParticle (unsigned barcode)
 look for particle with index i in MC truth.
void lookForMaxRecHit (bool ecal)
 look for rechit with max energy in ecal or hcal.
void printDisplay (const char *directory="") const
void printGenParticleInfo (std::string name, int barcode, int barcodeMother)
void readOptions (const char *file)
void reset ()
void setNewAttrToSimParticles ()
void unZoom ()
void updateDisplay ()
virtual ~DisplayManager ()

Public Attributes

std::multimap< int, std::pair
< int, int > > 
blockIdentsMap_
std::vector< float > bremAttributes_
TAttLine * bremPatternL_
TAttMarker * bremPatternM_
double clusEnMin_
TAttMarker * clusPattern_
TAttMarker * clusPatternecal_
TAttMarker * clusPatternhfem_
TAttMarker * clusPatternho_
TAttMarker * clusPSPattern_
std::vector< float > clusterAttributes_
bool drawBrems_
bool drawClus_
bool drawClusterL_
bool drawGenParticles_
bool drawGsfTracks_
bool drawHits_
bool drawHO_
bool drawParticles_
bool drawPFBlocks_
bool drawTracks_
double genParticlePtMin_
TAttMarker * genPartPattern_
std::multimap< int, GPFBase * > graphicMap_
std::vector< float > gsfAttributes_
TAttLine * gsfPatternL_
TAttMarker * gsfPatternM_
double gsfPtMin_
double hitEnMin_
double particlePtMin_
TAttMarker * simPartPatternDefault_
TAttMarker * simPartPatternElec_
TAttMarker * simPartPatternK_
TAttLine * simPartPatternL_
std::vector< TAttMarker * > simPartPatternM_
TAttMarker * simPartPatternMuon_
TAttMarker * simPartPatternNeutron_
TAttMarker * simPartPatternPhoton_
TAttMarker * simPartPatternPi_
TAttMarker * simPartPatternProton_
std::vector< float > trackAttributes_
TAttLine * trackPatternL_
TAttMarker * trackPatternM_
double trackPtMin_

Private Member Functions

void createCanvas ()
void createGCluster (const reco::PFCluster &cluster, int ident, double phi0=0.)
void createGGenParticle (HepMC::GenParticle *p)
void createGPart (const reco::PFSimParticle &ptc, const std::vector< reco::PFTrajectoryPoint > &points, int ident, double pt, double phi0, double sign, bool displayInitial, int markerIndex)
void createGRecHit (reco::PFRecHit &rh, int ident, double maxe, double phi0=0., int color=4)
void createGTrack (reco::PFRecTrack &tr, const std::vector< reco::PFTrajectoryPoint > &points, int ident, double pt, double phi0, double sign, bool displayInitial, int linestyle, int kfgsfbrem=0)
void displayCanvas ()
void drawGObject (int ident, int color, bool toInitialColor)
bool findBadBremsId (int ident)
void getDisplayOptions ()
double getMaxE (int layer) const
double getMaxEEcal ()
double getMaxEHcal ()
double getMaxEHo ()
void loadGClusters ()
void loadGGenParticles ()
void loadGGsfRecTracks ()
void loadGPFBlocks ()
void loadGraphicObjects ()
void loadGRecHits ()
void loadGRecTracks ()
void loadGSimParticles ()
void retrieveBadBrems ()
void rubOutGPFBlock ()

Private Attributes

std::vector< int > badBremsId_
std::vector< TH2F * > displayHist_
 support histogram for x/y or r/z display.
std::vector< TCanvas * > displayView_
 vector of canvas for x/y or r/z display
PFRootEventManagerem_
int eventNumber_
TBox frontFaceECALRZ_
 ECAL in RZ view.
TEllipse frontFaceECALXY_
 ECAL in XY view.
TEllipse frontFaceHCALXY_
 HCAL in XY view.
TEllipse frontFaceHOXY_
 HO in XY view.
bool isGraphicLoaded_
double maxERecHitEcal_
double maxERecHitHcal_
double maxERecHitHo_
int maxEvents_
IOoptions_
 options file parser
std::vector< int > selectedGObj_
 graphic object containers
int shiftId_
std::vector< int > viewSize_
 display pad xy size for (x,y) or (r,z) display
std::vector< int > viewSizeEtaPhi_
 display pad xy size for eta/phi view
double zoomFactor_

Detailed Description

Definition at line 34 of file DisplayManager.h.


Constructor & Destructor Documentation

DisplayManager::DisplayManager ( PFRootEventManager em,
const char *  optfile 
)
DisplayManager::~DisplayManager ( ) [virtual]

Definition at line 59 of file DisplayManager.cc.

References reset().

{
  reset();
} 

Member Function Documentation

void DisplayManager::createCanvas ( ) [private]

Definition at line 278 of file DisplayManager.cc.

References gather_cfg::cout, displayHist_, displayView_, drawHO_, PFGeometry::ECALBarrel, PFGeometry::ECALEndcap, EHO, EPE, EPH, frontFaceECALRZ_, frontFaceECALXY_, frontFaceHCALXY_, frontFaceHOXY_, PFGeometry::HCALBarrel, PFGeometry::HOBarrel, PFGeometry::innerRadius(), PFGeometry::innerZ(), NViews, PFGeometry::outerRadius(), RZ, viewSize_, and XY.

Referenced by DisplayManager().

{
        
  //TODOLIST: better TCanvas *displayView_[4]
  displayView_.resize(NViews);
  displayHist_.resize(NViews);
        
  // TODOLIST:Canvases size  
  // Add menu to mofify canvas size
  // Add menu of views to be drawn
        
  displayView_[XY] = new TCanvas("displayXY_", "XY view",viewSize_[0], viewSize_[1]);
  displayView_[RZ] = new TCanvas("displayRZ_", "RZ view",viewSize_[0], viewSize_[1]);
  displayView_[EPE] = new TCanvas("displayEPE_", "eta/phi view, ECAL",viewSize_[0], viewSize_[1]);
  displayView_[EPH] = new TCanvas("displayEPH_", "eta/phi view, HCAL",viewSize_[0], viewSize_[1]);
  if (drawHO_) displayView_[EHO] = new TCanvas("displayEHO_", "eta/phi view, HO",viewSize_[0], viewSize_[1]);

  for (int viewType=0;viewType<NViews;++viewType) {
    if (!drawHO_ && viewType==EHO) continue;
    displayView_[viewType]->SetGrid(0, 0);
    displayView_[viewType]->SetBottomMargin(0.14);
    displayView_[viewType]->SetLeftMargin(0.15);
    displayView_[viewType]->SetRightMargin(0.05);
    displayView_[viewType]->ToggleToolBar();
  } 
  // Draw support histogram
  double zLow = -650.;
  double zUp  = +650.;
  double rLow = -450.;
  double rUp  = +450.;
  
  if (!drawHO_) {zLow = -500.; zUp  = +500.; rLow = -300.; rUp  = +300.;}

  displayHist_[XY] = new TH2F("hdisplayHist_XY", "", 500, rLow, rUp, 
                              500, rLow, rUp);
  displayHist_[XY]->SetXTitle("X [cm]");
  displayHist_[XY]->SetYTitle("Y [cm]");
        
  displayHist_[RZ] = new TH2F("hdisplayHist_RZ", "",500, zLow, zUp, 
                              500, rLow, rUp); 
  displayHist_[RZ]->SetXTitle("Z [cm]");
  displayHist_[RZ]->SetYTitle("R [cm]");
        
  displayHist_[EPE] = new TH2F("hdisplayHist_EP", "", 500, -5, 5, 
                               500, -3.5, 3.5);
  displayHist_[EPE]->SetXTitle("#eta");
  displayHist_[EPE]->SetYTitle("#phi [rad]");
        
  displayHist_[EPH] = displayHist_[EPE];

  //  displayHist_[EHO] = new TH2F("hdisplayHist_HO", "", 150, -1.5, 1.5, 
  //  500, -3.5, 3.5);
  //  displayHist_[EHO]->SetXTitle("#eta");
  //  displayHist_[EHO]->SetYTitle("#phi [rad]");
  
  if (drawHO_) displayHist_[EHO] = displayHist_[EPE];
        
  for (int viewType=0;viewType<NViews;++viewType){
    if (!drawHO_ && viewType==EHO) continue;
    displayHist_[viewType]->SetStats(kFALSE);
    displayHist_[viewType]->GetYaxis()->SetTitleSize(0.06);
    displayHist_[viewType]->GetYaxis()->SetTitleOffset(1.2);
    displayHist_[viewType]->GetXaxis()->SetTitleSize(0.06);
    displayHist_[viewType]->GetYaxis()->SetLabelSize(0.045);
    displayHist_[viewType]->GetXaxis()->SetLabelSize(0.045);
  }  
  
  // Draw ECAL front face
  frontFaceECALXY_.SetX1(0);
  frontFaceECALXY_.SetY1(0);
  frontFaceECALXY_.SetR1(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
  frontFaceECALXY_.SetR2(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
  frontFaceECALXY_.SetFillStyle(0);

  // Draw HCAL front face
  frontFaceHCALXY_.SetX1(0);
  frontFaceHCALXY_.SetY1(0);
  frontFaceHCALXY_.SetR1(PFGeometry::innerRadius(PFGeometry::HCALBarrel));
  frontFaceHCALXY_.SetR2(PFGeometry::innerRadius(PFGeometry::HCALBarrel));
  frontFaceHCALXY_.SetFillStyle(0);

  if (drawHO_) {
    // Draw HO front face
    frontFaceHOXY_.SetX1(0);
    frontFaceHOXY_.SetY1(0);
    frontFaceHOXY_.SetR1(PFGeometry::innerRadius(PFGeometry::HOBarrel));
    frontFaceHOXY_.SetR2(PFGeometry::outerRadius(PFGeometry::HOBarrel));
    frontFaceHOXY_.SetFillStyle(0);
  }

  // Draw ECAL side
  frontFaceECALRZ_.SetX1(-1.*PFGeometry::innerZ(PFGeometry::ECALEndcap));
  frontFaceECALRZ_.SetY1(-1.*PFGeometry::innerRadius(PFGeometry::ECALBarrel));
  frontFaceECALRZ_.SetX2(PFGeometry::innerZ(PFGeometry::ECALEndcap));
  frontFaceECALRZ_.SetY2(PFGeometry::innerRadius(PFGeometry::ECALBarrel));
  frontFaceECALRZ_.SetFillStyle(0);
  cout <<"End of DisplayManager::createCanvas()"<<endl; 

}
void DisplayManager::createGCluster ( const reco::PFCluster cluster,
int  ident,
double  phi0 = 0. 
) [private]

Definition at line 378 of file DisplayManager.cc.

References clusPattern_, clusPatternecal_, clusPatternhfem_, clusPatternho_, clusPSPattern_, funct::cos(), drawHO_, PFLayer::ECAL_BARREL, PFLayer::ECAL_ENDCAP, EHO, EPE, EPH, eta(), graphicMap_, PFLayer::HCAL_BARREL2, PFLayer::HF_EM, reco::PFCluster::layer(), NViews, phi, reco::CaloCluster::position(), PFLayer::PS1, PFLayer::PS2, RZ, XY, and reco::CaloCluster::z().

Referenced by loadGClusters().

{

  double eta = cluster.position().Eta();
  double phi = cluster.position().Phi();
  
  //   int type = cluster.type();
  //   if(algosToDisplay_.find(type) == algosToDisplay_.end() )
  //     return;
        
  //   TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");  
  //   if( cutg && !cutg->IsInside( eta, phi ) ) return;
        
        
  //int color = clusterAttributes_[2];
  //if ( cluster.layer()==PFLayer::PS1 || cluster.layer()==PFLayer::PS2 )
  //  color = clusterAttributes_[3];
    
  //int markerSize = clusterAttributes_[1];
  //int markerStyle = clusterAttributes_[0];
        
  int clusType=0;
        
  if ( cluster.layer()==PFLayer::PS1 || cluster.layer()==PFLayer::PS2 )
    clusType=1;  
  
  if ( cluster.layer()==PFLayer::ECAL_BARREL || cluster.layer()==PFLayer::ECAL_ENDCAP)
    clusType=2;  

  if ( cluster.layer()==PFLayer::HF_EM) clusType=3;  

  if ( cluster.layer()==PFLayer::HCAL_BARREL2) clusType=4;  
  


  const math::XYZPoint& xyzPos = cluster.position();

  GPFCluster *gc;
        
  for (int viewType=0;viewType<NViews;viewType++){
    if (!drawHO_ && viewType==EHO) continue;
    switch(viewType) {
    case XY:
      {
        if (clusType==0) {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.X(), xyzPos.Y(), clusPattern_);
        } else if (clusType==1) {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.X(), xyzPos.Y(), clusPSPattern_);
             
        } else if (clusType==2) {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.X(), xyzPos.Y(), clusPatternecal_);
        } else if (clusType==3) {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.X(), xyzPos.Y(), clusPatternhfem_);
        } else {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.X(), xyzPos.Y(), clusPatternho_);
        }                                     
        graphicMap_.insert(pair<int,GPFBase *> (ident, gc));
      }
      break;
    case RZ:
      {
        double sign = 1.;
        if (cos(phi0 - phi) < 0.)
          sign = -1.;
        if ( clusType==0) { 
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.z(),sign*xyzPos.Rho(),
                               clusPattern_);
        } else if (clusType==1) { 
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.z(),sign*xyzPos.Rho(),
                               clusPSPattern_);
        } else if (clusType==2) { 
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.z(),sign*xyzPos.Rho(),
                               clusPatternecal_);
        } else if (clusType==3) { 
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.z(),sign*xyzPos.Rho(),
                               clusPatternhfem_);

        } else {
          gc = new  GPFCluster(this,
                               viewType,ident,
                               &cluster,
                               xyzPos.z(),sign*xyzPos.Rho(),
                               clusPatternho_);
        }          
        graphicMap_.insert(pair<int,GPFBase *>  (ident, gc));   
      } 
      break;
    case EPE:
      {
        if( cluster.layer()<0 || cluster.layer()==PFLayer::HF_EM) {
          if (clusType==2) {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,
                                 clusPatternecal_);
          }
          else if (clusType==3) {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,
                                 clusPatternhfem_);
          }       
          else {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,
                                 clusPSPattern_);
          }                              
                                         
          graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));
        }

      } 
      break;
    case EPH:
      {
        if( cluster.layer()>0 && cluster.layer()!=PFLayer::HF_EM  && cluster.layer()!=PFLayer::HCAL_BARREL2) {
          if (clusType==0) {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,clusPattern_);
          } 
          else {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,clusPSPattern_);
          }
            
                                         
          graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));          
        }
      } 
      break;
      
    case EHO:
      {
        if( cluster.layer()>0 && cluster.layer()==PFLayer::HCAL_BARREL2) {
          if (clusType==4) {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,clusPatternho_);
          }
          else {
            gc = new  GPFCluster(this,
                                 viewType,ident,
                                 &cluster,
                                 eta,phi,clusPSPattern_);
          }
            
                                         
          graphicMap_.insert(pair<int,GPFBase *>        (ident, gc));          
        }
      } 
      break;

    default :break; 
    } 
  }      
}
void DisplayManager::createGGenParticle ( HepMC::GenParticle *  p) [private]

Definition at line 1517 of file DisplayManager.cc.

References drawHO_, alignCSCRings::e, em_, eta(), configurableAnalysis::GenParticle, GENPARTICLEID, genPartPattern_, PFRootEventManager::getGenParticleName(), graphicMap_, mergeVDriftHistosByStation::name, NViews, phi, shiftId_, AlCaHLTBitMon_QueryRunRegistry::string, x, and detailsBasic3DVector::y.

Referenced by loadGGenParticles().

{
  // these are the beam protons
  if ( !p->production_vertex() && p->pdg_id() == 2212 ) return;
    
  int partId = p->pdg_id();

  std::string name;
  std::string latexStringName;

  name = em_->getGenParticleName(partId,latexStringName);
  int barcode = p->barcode();
  int genPartId=(GENPARTICLEID<<shiftId_) | barcode;
    
    
//   int vertexId1 = 0;
//   vertexId1 = p->production_vertex()->barcode();
    
//   math::XYZVector vertex1 (p->production_vertex()->position().x(),
//                            p->production_vertex()->position().y(),
//                            p->production_vertex()->position().z());
                             
  math::XYZTLorentzVector momentum1(p->momentum().px(),
                                    p->momentum().py(),
                                    p->momentum().pz(),
                                    p->momentum().e());
                                      
  double eta = momentum1.eta();
  if ( eta > +10. ) eta = +10.;
  if ( eta < -10. ) eta = -10.;
    
  double phi = momentum1.phi();
    
  double pt = momentum1.pt();
  double e = momentum1.e();
    
  //mother ?    

  // Colin: the following line gives a segmentation fault when there is 
  // no particles entering the production vertex.
    
  // const HepMC::GenParticle* mother = 
  //  *(p->production_vertex()->particles_in_const_begin());
    
  // protecting against this in the following way:
  const HepMC::GenParticle* mother = 0;
  if(p->production_vertex() && 
     p->production_vertex()->particles_in_size() ) {
    mother = 
      *(p->production_vertex()->particles_in_const_begin()); 
  }

  // Colin: no need to declare this pointer in this context.
  // the declaration can be more local.
  // GPFGenParticle *gp; 

  int modnViews = (drawHO_) ? NViews : NViews-1;
  if ( mother ) {
    int barcodeMother = mother->barcode();
    math::XYZTLorentzVector momentumMother(mother->momentum().px(),
                                           mother->momentum().py(),
                                           mother->momentum().pz(),
                                           mother->momentum().e());
    double etaMother = momentumMother.eta();                                  
    if ( etaMother > +10. ) etaMother = +10.;
    if ( etaMother < -10. ) etaMother = -10.;
    double phiMother = momentumMother.phi();
    
       
    double x[2],y[2];
    

    x[0]=etaMother;x[1]=eta;
    y[0]=phiMother;y[1]=phi;
       
    for (int view = 2; view< modnViews; view++) {
      GPFGenParticle* gp   = new GPFGenParticle(this,             
                                                view, genPartId,
                                                x, y,              //double *, double *
                                                e,pt,barcode,barcodeMother,
                                                genPartPattern_, 
                                                name,latexStringName);
      graphicMap_.insert(pair<int,GPFBase *>    (genPartId, gp));
    }
  }
  else {     //no Mother    
    for (int view = 2; view< modnViews; view++) {
      GPFGenParticle* gp   = new GPFGenParticle(this,
                                                view, genPartId,
                                                eta, phi,                  //double double
                                                e,pt,barcode,
                                                genPartPattern_,
                                                name, latexStringName);
      graphicMap_.insert(pair<int,GPFBase *>    (genPartId, gp));
    }                                         
  }
}
void DisplayManager::createGPart ( const reco::PFSimParticle ptc,
const std::vector< reco::PFTrajectoryPoint > &  points,
int  ident,
double  pt,
double  phi0,
double  sign,
bool  displayInitial,
int  markerIndex 
) [private]

no point inside graphical cut.

Definition at line 573 of file DisplayManager.cc.

References reco::PFTrajectoryPoint::ClosestApproach, gather_cfg::cout, drawHO_, EHO, EPE, EPH, eta(), graphicMap_, i, NViews, phi, RZ, simPartPatternL_, simPartPatternM_, xPos, XY, and yPos.

Referenced by loadGSimParticles().

{
  //bool inside = false; 
  //TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");
  bool debug_createGpart = false;
  //    bool debug_createGpart = true;
  for (int viewType=0;viewType<NViews;++viewType) {
    if (!drawHO_ && viewType==EHO) continue;
    //  for (int viewType=0;viewType<4;++viewType) {
    // reserving space. nb not all trajectory points are valid
    vector<double> xPos;
    xPos.reserve( points.size() );
    vector<double> yPos;
    yPos.reserve( points.size() );
                
    for(unsigned i=0; i<points.size(); i++) {

      if( !points[i].isValid() ) continue;
        
      const math::XYZPoint& xyzPos = points[i].position();      

      double eta = xyzPos.Eta();
      double phi = xyzPos.Phi();
                        
      // always take momentum for the first point 
      // otherwise decay products from resonances will have wrong eta, phi
      //calculated from position (0,0,0) (MDN 11 June 2008)
      if( points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
                                
        //      if( !displayInitial && 
        //              points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
        const math::XYZTLorentzVector& mom = points[i].momentum();
        eta = mom.Eta();
        phi = mom.Phi();
      }
                        
      //if( !cutg || cutg->IsInside( eta, phi ) ) 
      //  inside = true;
                        
      switch(viewType) {
      case XY:
        xPos.push_back(xyzPos.X());
        yPos.push_back(xyzPos.Y());
        break;
      case RZ:
        xPos.push_back(xyzPos.Z());
        yPos.push_back(sign*xyzPos.Rho());
        break;
      case EPE:
      case EPH:
      case EHO:
        xPos.push_back( eta );
        yPos.push_back( phi );
        break;
      default:break;
      }
    }  
    if (viewType == EPE && debug_createGpart) {
      cout << " display PFsim eta/phi view ECAL" << endl;
      cout << " nb of points for display " << xPos.size() << endl;
      for(unsigned i=0; i<xPos.size(); i++) {
        cout << " point " << i << " x/y " << xPos[i] <<"/" << yPos[i]<< endl;
      }
    }
                
    //if( !inside ) return;
    //int color = 4;
    GPFSimParticle *gc   = new GPFSimParticle(this,
                                              viewType, ident,
                                              &ptc,
                                              xPos.size(),&xPos[0],&yPos[0],
                                              pt,
                                              simPartPatternM_[markerIndex],
                                              simPartPatternL_,
                                              "pl");
                                              
    graphicMap_.insert(pair<int,GPFBase *>      (ident, gc));                                 
    //graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFSimParticle(this,viewType,ident,&ptc,xPos.size(),&xPos[0],&yPos[0],pt,simPartPattern_[indexMarker], "pl")));
  }
}
void DisplayManager::createGRecHit ( reco::PFRecHit rh,
int  ident,
double  maxe,
double  phi0 = 0.,
int  color = 4 
) [private]

Definition at line 658 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, PFRootEventManager::clusterAlgoECAL_, PFRootEventManager::clusterAlgoHCAL_, PFRootEventManager::clusterAlgoHFEM_, PFRootEventManager::clusterAlgoHFHAD_, PFRootEventManager::clusterAlgoPS_, funct::cos(), drawHO_, PFLayer::ECAL_BARREL, PFLayer::ECAL_ENDCAP, EHO, em_, reco::PFRecHit::energy(), EPE, EPH, eta(), reco::PFRecHit::getCornersXYZ(), graphicMap_, PFLayer::HCAL_BARREL1, PFLayer::HCAL_BARREL2, PFLayer::HCAL_ENDCAP, PFLayer::HF_EM, PFLayer::HF_HAD, reco::PFRecHit::layer(), funct::log(), NViews, phi, Pi, reco::PFRecHit::position(), PFLayer::PS1, PFLayer::PS2, alignCSCRings::r, RZ, GOODCOLL_filter_cfg::thresh, PFClusterAlgo::threshBarrel(), PFClusterAlgo::threshEndcap(), x, XY, detailsBasic3DVector::y, and z.

Referenced by loadGRecHits().

{
        
  double me = maxe;
  double thresh = 0;
  int layer = rh.layer();
        
        
  switch(layer) {
  case PFLayer::ECAL_BARREL:
    thresh = em_->clusterAlgoECAL_.threshBarrel();
    break;     
  case PFLayer::ECAL_ENDCAP:
    thresh = em_->clusterAlgoECAL_.threshEndcap();
    break;     
  case PFLayer::HCAL_BARREL1:
  case PFLayer::HCAL_BARREL2:
    thresh = em_->clusterAlgoHCAL_.threshBarrel();
    break;           
  case PFLayer::HCAL_ENDCAP:
    thresh = em_->clusterAlgoHCAL_.threshEndcap();
    break;                     
  case PFLayer::HF_HAD: 
    // how to handle a different threshold for HF?
    thresh = em_->clusterAlgoHFHAD_.threshEndcap();
    break;           
  case PFLayer::HF_EM: 
    // how to handle a different threshold for HF?
    thresh = em_->clusterAlgoHFEM_.threshEndcap();
    break;           
  case PFLayer::PS1:
  case PFLayer::PS2:
    me = -1;
    thresh = em_->clusterAlgoPS_.threshBarrel();
    break;
  default:
    {
      cerr<<"DisplayManager::createGRecHit : manage other layers."
          <<" GRechit notcreated."<<endl;
      return;
    }
  }
  if( rh.energy() < thresh ) return;
        
  //loop on all views
  for(int viewType=0;viewType<NViews;++viewType) {
    if (!drawHO_ && viewType==EHO) continue;

    bool isHCAL = (layer == PFLayer::HCAL_BARREL1 || 
                   //                   layer == PFLayer::HCAL_BARREL2 || 
                   layer == PFLayer::HCAL_ENDCAP || 
                   layer == PFLayer::HF_HAD);
    
    if(  viewType == EPH && 
         ! isHCAL) {
      continue;
    }
    // on EPE view, draw only HCAL and preshower
    if(  viewType == EPE && (isHCAL || layer ==PFLayer::HCAL_BARREL2)) {
      continue;
    }

    if (viewType == EHO && layer !=PFLayer::HCAL_BARREL2) continue;


    double rheta = rh.position().Eta();
    double rhphi = rh.position().Phi();

    double sign = 1.;
    if (cos(phi0 - rhphi) < 0.) sign = -1.;
                
                
    double etaSize[4];
    double phiSize[4];
    double x[5];
    double y[5];
    double z[5];
    double r[5];
    double eta[5];
    double phi[5];
    double xprop[5];
    double yprop[5];
    double etaprop[5];
    double phiprop[5];
                
                
    const std::vector< math::XYZPoint >& corners = rh.getCornersXYZ();
    assert(corners.size() == 4);
    double propfact = 0.95; // so that the cells don't overlap ? 
    double ampl=0;
    if(me>0) ampl = (log(rh.energy() + 1.)/log(me + 1.));
    for ( unsigned jc=0; jc<4; ++jc ) { 

      phiSize[jc] = rhphi-corners[jc].Phi();
      etaSize[jc] = rheta-corners[jc].Eta();
      if ( phiSize[jc] > 1. ) phiSize[jc] -= 2.*TMath::Pi();  
      if ( phiSize[jc] < -1. ) phiSize[jc]+= 2.*TMath::Pi();

      phiSize[jc] *= propfact;
      etaSize[jc] *= propfact;
                        
      math::XYZPoint cornerposxyz = corners[jc];
                        
      x[jc] = cornerposxyz.X();
      y[jc] = cornerposxyz.Y();
      z[jc] = cornerposxyz.Z();
      r[jc] = sign*cornerposxyz.Rho();
      eta[jc] = rheta - etaSize[jc];
      phi[jc] = rhphi - phiSize[jc];
                        
                        
      // cell area is prop to log(E)
      // not drawn for preshower. 
      // otherwise, drawn for eta/phi view, and for endcaps in xy view
      if( layer != PFLayer::PS1 && 
          layer != PFLayer::PS2 && 
          ( viewType == EPE || 
            viewType == EPH || 
            viewType == EHO || 
            ( viewType == XY &&  
              ( layer == PFLayer::ECAL_ENDCAP || 
                layer == PFLayer::HCAL_ENDCAP || 
                layer == PFLayer::HF_HAD
                ) ) ) ) {
      
        math::XYZPoint centreXYZrot = rh.position();
        
        math::XYZPoint centertocorner(x[jc] - centreXYZrot.X(), 
                                      y[jc] - centreXYZrot.Y(),
                                      0 );
        
        math::XYZPoint centertocornerep(eta[jc] - centreXYZrot.Eta(), 
                                        phi[jc] - centreXYZrot.Phi(),
                                        0 );
        
        
        // centertocorner -= centreXYZrot;
        xprop[jc] = centreXYZrot.X() + centertocorner.X()*ampl;
        yprop[jc] = centreXYZrot.Y() + centertocorner.Y()*ampl;
                                
        etaprop[jc] = centreXYZrot.Eta() + centertocornerep.X()*ampl;
        phiprop[jc] = centreXYZrot.Phi() + centertocornerep.Y()*ampl;
      }
    }//loop on jc 
                
    if(layer == PFLayer::ECAL_BARREL  || 
       layer == PFLayer::HCAL_BARREL1 || 
       layer == PFLayer::HCAL_BARREL2 || viewType == RZ) {
                        
      // we are in the barrel. Determining which corners to shift 
      // away from the center to represent the cell energy
                        
      int i1 = -1;
      int i2 = -1;
                        
      if(fabs(phiSize[1]-phiSize[0]) > 0.0001) {
        if (viewType == XY) {
          i1 = 2;
          i2 = 3;
        } else if (viewType == RZ) {
          i1 = 1;
          i2 = 2;
        }
      } else {
        if (viewType == XY) {
          i1 = 1;
          i2 = 2;
        } else if (viewType == RZ) {
          i1 = 2;
          i2 = 3;
        }
      }
      
      double signx=1.;
      if(layer == PFLayer::HCAL_BARREL2) { signx=-1.;}
                        
      x[i1] *= 1+signx*ampl/2.;
      x[i2] *= 1+signx*ampl/2.;
      y[i1] *= 1+signx*ampl/2.;
      y[i2] *= 1+signx*ampl/2.;
      z[i1] *= 1+signx*ampl/2.;
      z[i2] *= 1+signx*ampl/2.;
      r[i1] *= 1+signx*ampl/2.;
      r[i2] *= 1+signx*ampl/2.;

    }

    x[4]=x[0];
    y[4]=y[0]; // closing the polycell
    z[4]=z[0];
    r[4]=r[0]; // closing the polycell
    eta[4]=eta[0];
    phi[4]=phi[0]; // closing the polycell
                
    int npoints=5;
                
    switch( viewType ) {
    case  XY:
      {
        if(layer == PFLayer::ECAL_BARREL || 
           layer == PFLayer::HCAL_BARREL1 || 
           layer == PFLayer::HCAL_BARREL2) {
          graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,x,y,color,"f")));
                                        
        } else {
          graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,x,y,color,"l")));
          if( ampl>0 ) { // not for preshower
            xprop[4]=xprop[0];
            yprop[4]=yprop[0]; // closing the polycell    
            graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,xprop,yprop,color,"f")));
          }
        }
      } 
      break;
                                
    case RZ:
      graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,z,r,color,"f")));
      break;
                                
    case EPE:
      {
        graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
                                
        if( ampl>0 ) { // not for preshower
          etaprop[4]=etaprop[0];
          phiprop[4]=phiprop[0]; // closing the polycell    
          graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
        }
      }  
      break;
    case EPH:
      {      
        if(layer == PFLayer::ECAL_BARREL || 
           layer == PFLayer::HCAL_BARREL1) {
          graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
          
          if( ampl>0 ) { // not for preshower
            etaprop[4]=etaprop[0];
            phiprop[4]=phiprop[0]; // closing the polycell    
            graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
          }
        } 
      }
      break;

    case EHO:
      {
        
        graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,eta,phi,color,"l")));
        if(layer == PFLayer::HCAL_BARREL2) {                        
          if( ampl>0 ) { // not for preshower
            etaprop[4]=etaprop[0];
            phiprop[4]=phiprop[0]; // closing the polycell    
            graphicMap_.insert(pair<int,GPFBase *> (ident,new GPFRecHit(this, viewType,ident,&rh,npoints,etaprop,phiprop,color,"f")));
          }
        } 
      }
      break;


                                
    default: break;
    }//switch end
                
  } //loop on views
}
void DisplayManager::createGTrack ( reco::PFRecTrack tr,
const std::vector< reco::PFTrajectoryPoint > &  points,
int  ident,
double  pt,
double  phi0,
double  sign,
bool  displayInitial,
int  linestyle,
int  kfgsfbrem = 0 
) [private]

no point inside graphical cut.

Definition at line 926 of file DisplayManager.cc.

References bremPatternL_, bremPatternM_, reco::PFTrajectoryPoint::ClosestApproach, drawHO_, EHO, EPE, EPH, eta(), graphicMap_, gsfPatternL_, gsfPatternM_, gt, i, NViews, phi, RZ, trackPatternL_, trackPatternM_, xPos, XY, and yPos.

Referenced by loadGGsfRecTracks(), and loadGRecTracks().

{
        
  //   bool inside = false; 
  //TCutG* cutg = (TCutG*) gROOT->FindObject("CUTG");
        
  for (int viewType=0;viewType<NViews;++viewType) {
    if (!drawHO_ && viewType==EHO) continue;
    // reserving space. nb not all trajectory points are valid
    vector<double> xPos;
    xPos.reserve( points.size() );
    vector<double> yPos;
    yPos.reserve( points.size() );
                
    for(unsigned i=0; i<points.size(); i++) {
      if( !points[i].isValid() ) continue;
      
      const math::XYZPoint& xyzPos = points[i].position();
      //muriel      
      //if(kfgsfbrem) 
      //   std::cout << xyzPos << std::endl;
      double eta = xyzPos.Eta();
      double phi = xyzPos.Phi();
                        
      if( !displayInitial && 
          points[i].layer() == reco::PFTrajectoryPoint::ClosestApproach ) {
        const math::XYZTLorentzVector& mom = points[i].momentum();
        eta = mom.Eta();
        phi = mom.Phi();
      }
                        
      //if( !cutg || cutg->IsInside( eta, phi ) ) 
      //  inside = true;
                        
                        
      switch(viewType) {
      case XY:
        xPos.push_back(xyzPos.X());
        yPos.push_back(xyzPos.Y());
        break;
      case RZ:
        xPos.push_back(xyzPos.Z());
        yPos.push_back(sign*xyzPos.Rho());
        break;
      case EPE:
      case EPH:
      case EHO: 
        xPos.push_back( eta );
        yPos.push_back( phi );
        break;
      }
    }  
    //if( !inside ) return;
                
    //fill map with graphic objects
      GPFTrack *gt=0;
      if(kfgsfbrem==0) {
        gt = new  GPFTrack(this,
                           viewType,ident,
                           &tr,
                           xPos.size(),&xPos[0],&yPos[0],pt,
                           trackPatternM_,trackPatternL_,"pl");
      }
      else if (kfgsfbrem==1) {
        //      std::cout << " Creating the GSF track " << std::endl;
        gt = new  GPFTrack(this,
                           viewType,ident,
                           &tr,
                           xPos.size(),&xPos[0],&yPos[0],pt,
                           gsfPatternM_,gsfPatternL_,"pl");
      }
      else if (kfgsfbrem==2) {
        //      std::cout << " Creating the Brem " << std::endl;
        //      std::cout<<"adr brem dans create:"<<&tr<<std::flush<<std::endl;
        gt = new  GPFTrack(this,
                           viewType,ident,
                           &tr,
                           xPos.size(),&xPos[0],&yPos[0],pt,
                           bremPatternM_,bremPatternL_,"pl");
      }
      graphicMap_.insert(pair<int,GPFBase *> (ident, gt));
  }   
}
void DisplayManager::display ( int  ientry)
void DisplayManager::displayAll ( bool  noRedraw = true)

Definition at line 1042 of file DisplayManager.cc.

References BREMID, clusEnMin_, CLUSTERECALID, CLUSTERHCALID, CLUSTERHFEMID, CLUSTERHFHADID, CLUSTERHOID, CLUSTERIBID, CLUSTERPSID, gather_cfg::cout, displayCanvas(), displayView_, drawBrems_, drawClus_, drawGenParticles_, drawGsfTracks_, drawHits_, drawHO_, drawParticles_, drawTracks_, EHO, EPE, EPH, GENPARTICLEID, genParticlePtMin_, graphicMap_, gsfPtMin_, GSFRECTRACKID, hitEnMin_, i, isGraphicLoaded_, NViews, AlCaHLTBitMon_ParallelJobs::p, particlePtMin_, RECHITECALID, RECHITHCALID, RECHITHFEMID, RECHITHFHADID, RECHITHOID, RECHITPSID, RECTRACKID, shiftId_, SIMPARTICLEID, and trackPtMin_.

Referenced by DialogFrame::areBremVisible(), display(), displayEvent(), displayNextInteresting(), DialogFrame::doModifyOptions(), DialogFrame::doModifyPtThreshold(), drawWithNewGraphicAttributes(), and findAndDraw().

{

  if (!isGraphicLoaded_) {
    std::cout<<" no Graphic Objects to draw"<<std::endl;
    return;
  }
  if (noRedraw) { 
    for (int viewType=0;viewType<NViews;++viewType) {
      if (!drawHO_ && viewType==EHO) continue;
      displayView_[viewType]->cd();
      gPad->Clear();
    } 
    //TODOLIST: add test on view to draw 
    displayCanvas();
  }  
  
  std::multimap<int,GPFBase *>::iterator p;

  for (p=graphicMap_.begin();p!=graphicMap_.end();p++) {
    int ident=p->first;
    int type=ident >> shiftId_;
    int view = p->second->getView();
    
    if (!drawHO_ && (view ==EHO || type==CLUSTERHOID || type==RECHITHOID)) continue;
    
    switch (type) {
    case CLUSTERECALID: 
    case CLUSTERHCALID: 
    case CLUSTERHOID: 
    case CLUSTERHFEMID: 
    case CLUSTERHFHADID: 
    case CLUSTERPSID: 
    case CLUSTERIBID:
      {
        //      cout<<"displaying "<<type<<" "<<p->second->getEnergy()<<" "<<clusEnMin_<<" on view "<<view<<endl;
        if (drawClus_)
          if (p->second->getEnergy() > clusEnMin_) {
            displayView_[view]->cd();
            p->second->draw();
          }        
      }
      break;
    case RECHITECALID: 
    case RECHITHCALID: 
    case RECHITHOID: 
    case RECHITHFEMID: 
    case RECHITHFHADID: 
    case RECHITPSID:
      {
        if (!noRedraw) break; 
        if (drawHits_) 
          if(p->second->getEnergy() > hitEnMin_)  {
            displayView_[view]->cd();
            p->second->draw();
          }
        break;  
      }  
    case RECTRACKID:
      {
        if (drawTracks_) 
          if (p->second->getPt() > trackPtMin_) {
            displayView_[view]->cd();
            p->second->draw();
          }
      }
      break;
    case GSFRECTRACKID:
      {
        if (drawGsfTracks_) 
          if (p->second->getPt() > gsfPtMin_) {
            displayView_[view]->cd();
            p->second->draw();
          }
      }
      break;
    case BREMID:
      {
        if (drawBrems_)
          {
            displayView_[view]->cd();
            p->second->draw();
          }
      }
      break;
    case SIMPARTICLEID:
      {
        if (drawParticles_)
          if (p->second->getPt() > particlePtMin_) {
            displayView_[view]->cd();
            p->second->draw();
          }
      }
      break;
    case GENPARTICLEID:
      {  
        if (drawGenParticles_) 
          if (p->second->getPt() > genParticlePtMin_) 
            if (view == EPH || view ==EPE || view ==EHO) {
              displayView_[view]->cd();
              p->second->draw();
            }  
      } 
      break;           
    default : std::cout<<"DisplayManager::displayAll()-- unknown object "<<std::endl;               
    }  //switch end
  }   //for end

  for (int i=0;i<NViews;i++) {
    if (!drawHO_ && i==EHO) continue;
    displayView_[i]->cd();
    gPad->Modified();
    displayView_[i]->Update();
  }  
}
void DisplayManager::displayCanvas ( ) [private]

Definition at line 1191 of file DisplayManager.cc.

References displayHist_, displayView_, drawHO_, EHO, eta(), jptDQMConfig_cff::etaMax, jptDQMConfig_cff::etaMin, frontFaceECALRZ_, frontFaceECALXY_, frontFaceHCALXY_, frontFaceHOXY_, prof2calltree::l, NViews, alignCSCRings::r, RZ, funct::tan(), and XY.

Referenced by displayAll().

{
  double zLow = -500.;
  double zUp  = +500.;
  double rUp  = +400.;
  if (!drawHO_) rUp=300.0;
  double etarng=(drawHO_) ? 1.19 : 1.39;
  double ratio =(drawHO_) ? 1.15 : 0.90;
  double scal = (drawHO_) ? 1.00 : 0.85;
        
  //TODOLIST : test wether view on/off
  //if (!displayView_[viewType] || !gROOT->GetListOfCanvases()->FindObject(displayView_[viewType]) ) {
  //   assert(viewSize_.size() == 2);
        


  for (int viewType=0;viewType<NViews;++viewType) {
    if (!drawHO_ && viewType==EHO) continue;
    displayView_[viewType]->cd();
    displayHist_[viewType]->Draw();
    switch(viewType) {
    case XY: 
      frontFaceECALXY_.Draw();
      frontFaceHCALXY_.Draw();
      frontFaceHOXY_.Draw();
      break;
    case RZ:    
      {// Draw lines at different etas
        TLine l;
        l.SetLineColor(1);
        l.SetLineStyle(3);
        TLatex etaLeg;
        etaLeg.SetTextSize( (drawHO_) ? 0.03 : 0.02);
        float etaMin = -3.;
        float etaMax = +3.;
        float etaBin = 0.2;
        int nEtas = int((etaMax - etaMin)/0.2) + 1;
        for (int iEta = 0; iEta <= nEtas; iEta++) {
          float eta = etaMin + iEta*etaBin;
          float r = ratio*rUp;
          TVector3 etaImpact;
          etaImpact.SetPtEtaPhi(r, eta, 0.);
          etaLeg.SetTextAlign(21);
          if (eta <= -etarng) {
            etaImpact.SetXYZ(0.,scal*zLow*tan(etaImpact.Theta()),scal*zLow);
            etaLeg.SetTextAlign(31);
          } else if (eta >= etarng) {
            etaImpact.SetXYZ(0.,scal*zUp*tan(etaImpact.Theta()),scal*zUp);
            etaLeg.SetTextAlign(11);
          }
          if (drawHO_) {
            if (fabs(eta)<1.29) {
              etaLeg.SetTextSize(0.030);
            } else {
              etaLeg.SetTextSize(0.022);
            }
          }
          l.DrawLine(0., 0., etaImpact.Z(), etaImpact.Perp());
          etaLeg.DrawLatex(1.0*etaImpact.Z(), etaImpact.Perp(), Form("%2.1f", eta));
        }
        frontFaceECALRZ_.Draw();
      } 
      break;
    default: break;
    } //end switch
  }
}
void DisplayManager::displayEvent ( int  run,
int  lumi,
int  event 
)
void DisplayManager::displayNext ( )

Definition at line 1259 of file DisplayManager.cc.

References display(), em_, PFRootEventManager::eventNumber(), and eventNumber_.

Referenced by DialogFrame::doNextEvent().

{
  int eventNumber_=em_->eventNumber();
  display(++eventNumber_);
}
void DisplayManager::displayNextInteresting ( int  ientry)

Definition at line 1265 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, displayAll(), em_, PFRootEventManager::eventNumber(), eventNumber_, isGraphicLoaded_, loadGraphicObjects(), convertSQLiteXML::ok, PFRootEventManager::processEntry(), and reset().

{
  bool ok=false;
  while (!ok && ientry<em_->ev_->size() ) {
    ok = em_->processEntry(ientry);
    ientry++;
  }
  eventNumber_ = em_->eventNumber();
  if (ok) {
    reset();
    loadGraphicObjects();
    isGraphicLoaded_= true;
    displayAll();
  }
  else 
    std::cerr<<"DisplayManager::dislayNextInteresting : no event matching criteria"<<std::endl;
}
void DisplayManager::displayPFBlock ( int  blockNb)

Definition at line 1298 of file DisplayManager.cc.

References blockIdentsMap_, gather_cfg::cout, drawGObject(), drawPFBlocks_, first, AlCaHLTBitMon_ParallelJobs::p, rubOutGPFBlock(), and selectedGObj_.

Referenced by findBlock().

{
  rubOutGPFBlock();
  selectedGObj_.clear();
  if (!drawPFBlocks_) return;
  int color=1;
  multimap<int,pair <int,int > >::const_iterator p;
  p= blockIdentsMap_.find(blockNb);
  if (p !=blockIdentsMap_.end()) {
    do {
      int ident=(p->second).first;
      drawGObject(ident,color,false);
      p++;
    } while (p!=blockIdentsMap_.upper_bound(blockNb));
  }
  else 
    cout<<"DisplayManager::displayPFBlock :not found"<<endl;    
}  
void DisplayManager::displayPrevious ( )

Definition at line 1283 of file DisplayManager.cc.

References display(), em_, PFRootEventManager::eventNumber(), and eventNumber_.

Referenced by DialogFrame::doPreviousEvent().

{
  int eventNumber_=em_->eventNumber();
  display(--eventNumber_);
}
void DisplayManager::drawGObject ( int  ident,
int  color,
bool  toInitialColor 
) [private]

Definition at line 1317 of file DisplayManager.cc.

References gather_cfg::cout, displayView_, drawHO_, EHO, graphicMap_, AlCaHLTBitMon_ParallelJobs::p, query::result, and selectedGObj_.

Referenced by displayPFBlock(), findAndDraw(), and rubOutGPFBlock().

{
  typedef std::multimap<int,GPFBase *>::const_iterator iter;
  iter p;
  std::pair<iter, iter > result = graphicMap_.equal_range(ident);
  if(result.first == graphicMap_.end()) {
    std::cout<<"pas d'objet avec cet ident: "<<ident<<std::flush<<std::endl; 
    return;
  }
  p=result.first;
  while (p != result.second) {
    int view=p->second->getView();
    if (!drawHO_ && view ==EHO) continue; 
    displayView_[view]->cd();
    if (toInitial) p->second->setInitialColor();
    else p->second->setColor(color);
    p->second->draw();
    gPad->Modified();
    //      displayView_[view]->Update();
    if (!toInitial) selectedGObj_.push_back(ident);
    p++; 
  }
}
void DisplayManager::drawWithNewGraphicAttributes ( )

Definition at line 1158 of file DisplayManager.cc.

References CLUSTERECALID, CLUSTERHCALID, CLUSTERHOID, CLUSTERIBID, CLUSTERPSID, displayAll(), drawHO_, graphicMap_, AlCaHLTBitMon_ParallelJobs::p, RECTRACKID, shiftId_, and SIMPARTICLEID.

Referenced by DialogFrame::modifyAttr().

{
  std::multimap<int,GPFBase *>::iterator p;
        
  for (p=graphicMap_.begin();p!=graphicMap_.end();p++) {
    int ident=p->first;
    int type=ident >> shiftId_;
    if (!drawHO_ && (type==CLUSTERHOID)) continue;
    switch (type) {
    case CLUSTERECALID: case CLUSTERHCALID:  case CLUSTERHOID: case  CLUSTERPSID: case CLUSTERIBID:
      {
        p->second->setNewStyle();
        p->second->setNewSize();
        p->second->setColor();  
      }
      break;
    case RECTRACKID:
      {
        p->second->setColor();
        p->second->setNewStyle();
        p->second->setNewSize();
      }
      break;
    case SIMPARTICLEID:
      {
      }
      break;
    default : break;            
    }  //switch end
  }   //for end
  displayAll(false);
}
void DisplayManager::enableDrawBrem ( bool  state)

Definition at line 1346 of file DisplayManager.cc.

References drawBrems_, and evf::utils::state.

Referenced by DialogFrame::areBremVisible().

void DisplayManager::enableDrawPFBlock ( bool  state)

Definition at line 1341 of file DisplayManager.cc.

References drawPFBlocks_, and evf::utils::state.

Referenced by DialogFrame::isPFBlockVisible().

void DisplayManager::findAndDraw ( int  ident)

Definition at line 1351 of file DisplayManager.cc.

References gather_cfg::cout, displayAll(), drawGObject(), drawHO_, drawPFBlocks_, HITTYPES, RECHITECALID, RECHITHCALID, RECHITHFEMID, RECHITHFHADID, RECHITHOID, RECHITPSID, rubOutGPFBlock(), selectedGObj_, shiftId_, SIMPARTICLEID, and updateDisplay().

Referenced by GPFCluster::ExecuteEvent(), GPFRecHit::ExecuteEvent(), GPFSimParticle::ExecuteEvent(), and GPFTrack::ExecuteEvent().

{       
  int type=ident >> shiftId_;            // defined in DisplayCommon.h
  if (drawHO_ || type!=RECHITHOID) {
    int color=1;
    if (type>15) {
      std ::cout<<"DisplayManager::findAndDraw :object Type unknown"<<std::endl;
      return;
    }  
    if (drawPFBlocks_==0  ||
        type==RECHITECALID || type==RECHITHCALID  || type==RECHITHOID  || 
        type==RECHITHFEMID || type==RECHITHFHADID ||
        type==RECHITPSID   || type==SIMPARTICLEID)   {
      rubOutGPFBlock();
      selectedGObj_.clear();
      bool toInitial=false;
      drawGObject(ident,color,toInitial);
      if (type<HITTYPES) {
        //redrawWithoutHits_=true;
        displayAll(false);
        //redrawWithoutHits_=false;
      }
    }     
    updateDisplay();
  }
}
bool DisplayManager::findBadBremsId ( int  ident) [private]

Definition at line 1401 of file DisplayManager.cc.

References badBremsId_, and i.

Referenced by loadGGsfRecTracks(), and loadGPFBlocks().

{
  for (unsigned i=0;i<badBremsId_.size();i++)
    if (badBremsId_[i]==ident) return true;
  return false;  
}
void DisplayManager::findBlock ( int  ident)

Definition at line 1378 of file DisplayManager.cc.

References Association::block, blockIdentsMap_, PFRootEventManager::blocks(), gather_cfg::cout, displayPFBlock(), em_, first, AlCaHLTBitMon_ParallelJobs::p, edm::second(), and updateDisplay().

Referenced by GPFCluster::ExecuteEvent(), and GPFTrack::ExecuteEvent().

{
  int blockNb=-1;
  int elemNb=-1;
  multimap<int, pair <int,int > >::const_iterator p;
  for (p=blockIdentsMap_.begin();p!=blockIdentsMap_.end();p++) {
    int id=(p->second).first;
    if (id == ident) {
      blockNb=p->first;
      elemNb=(p->second).second;
      break;
    }   
  }
  if (blockNb > -1) {
    std::cout<<"this object is element "<<elemNb<<" of PFblock nb "<<blockNb<<std::endl;
    assert( blockNb < static_cast<int>(em_->blocks().size()) );
    const reco::PFBlock& block = em_->blocks()[blockNb];
    std::cout<<block<<std::endl;
    displayPFBlock(blockNb);
  }   
  updateDisplay();
}
void DisplayManager::getDisplayOptions ( ) [private]
double DisplayManager::getMaxE ( int  layer) const [private]

Definition at line 1421 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, PFLayer::ECAL_BARREL, PFLayer::ECAL_ENDCAP, em_, PFLayer::HCAL_BARREL1, PFLayer::HCAL_BARREL2, PFLayer::HCAL_ENDCAP, PFLayer::HF_EM, PFLayer::HF_HAD, i, PFLayer::PS1, PFLayer::PS2, PFRootEventManager::rechitsECAL_, PFRootEventManager::rechitsHCAL_, PFRootEventManager::rechitsHFEM_, PFRootEventManager::rechitsHFHAD_, PFRootEventManager::rechitsHO_, and PFRootEventManager::rechitsPS_.

Referenced by getMaxEEcal(), getMaxEHcal(), and getMaxEHo().

{
        
  double maxe = -9999;
        
  // in which vector should we look for these rechits ?
        
  const reco::PFRecHitCollection* vec = 0;
  switch(layer) {
  case PFLayer::ECAL_ENDCAP:
  case PFLayer::ECAL_BARREL:
    vec = &(em_->rechitsECAL_);
    break;
  case PFLayer::HCAL_ENDCAP:
  case PFLayer::HCAL_BARREL1:
    //  case PFLayer::HCAL_BARREL2:
    vec = &(em_->rechitsHCAL_);
    break;
  case PFLayer::HCAL_BARREL2:
    vec = &(em_->rechitsHO_);
    break;

  case PFLayer::HF_EM: 
    vec = &(em_->rechitsHFEM_);
    break;
  case PFLayer::HF_HAD: 
    vec = &(em_->rechitsHFHAD_);
    break;
  case PFLayer::PS1:
  case PFLayer::PS2:
    vec = &(em_->rechitsPS_);
    break;
  default:
    cerr<<"DisplayManager::getMaxE : manage other layers"<<endl;
    return maxe;
  }
        
  for( unsigned i=0; i<vec->size(); i++) {
    if( (*vec)[i].layer() != layer ) continue;
    if( (*vec)[i].energy() > maxe)
      maxe = (*vec)[i].energy();
  }
        
  return maxe;
}
double DisplayManager::getMaxEEcal ( ) [private]

Definition at line 1467 of file DisplayManager.cc.

References PFLayer::ECAL_BARREL, PFLayer::ECAL_ENDCAP, getMaxE(), PFLayer::HF_EM, and maxERecHitEcal_.

Referenced by loadGRecHits().

                                   {
        
  if( maxERecHitEcal_<0 ) {
    double maxeec = getMaxE( PFLayer::ECAL_ENDCAP );
    double maxeb =  getMaxE( PFLayer::ECAL_BARREL );
    double maxehf =  getMaxE( PFLayer::HF_EM );
    maxERecHitEcal_ =  maxeec>maxeb  ?  maxeec:maxeb;
    maxERecHitEcal_ = maxERecHitEcal_>maxehf ? maxERecHitEcal_:maxehf;
    // max of both barrel and endcap
  }
  return  maxERecHitEcal_;
}
double DisplayManager::getMaxEHcal ( ) [private]

Definition at line 1480 of file DisplayManager.cc.

References getMaxE(), PFLayer::HCAL_BARREL1, PFLayer::HCAL_ENDCAP, PFLayer::HF_HAD, and maxERecHitHcal_.

Referenced by loadGRecHits().

                                   {
        
  if(maxERecHitHcal_ < 0) {
    double maxehf = getMaxE( PFLayer::HF_HAD );
    double maxeec = getMaxE( PFLayer::HCAL_ENDCAP );
    double maxeb =  getMaxE( PFLayer::HCAL_BARREL1 );
    maxERecHitHcal_ =  maxeec>maxeb  ?  maxeec:maxeb;
    maxERecHitHcal_ = maxERecHitHcal_>maxehf ? maxERecHitHcal_:maxehf;
  }
  return maxERecHitHcal_;
} 
double DisplayManager::getMaxEHo ( ) [private]
void DisplayManager::loadGClusters ( ) [private]

Definition at line 1615 of file DisplayManager.cc.

References CLUSTERECALID, CLUSTERHCALID, CLUSTERHFEMID, CLUSTERHFHADID, CLUSTERHOID, CLUSTERPSID, PFRootEventManager::clustersECAL_, PFRootEventManager::clustersHCAL_, PFRootEventManager::clustersHFEM_, PFRootEventManager::clustersHFHAD_, PFRootEventManager::clustersHO_, PFRootEventManager::clustersPS_, createGCluster(), drawHO_, em_, i, and shiftId_.

Referenced by loadGraphicObjects().

{
  double phi0=0;
        
  for(unsigned i=0; i<em_->clustersECAL_->size(); i++){
    //int clusId=(i<<shiftId_) | CLUSTERECALID;
    int clusId=(CLUSTERECALID<<shiftId_) | i;
    createGCluster( (*(em_->clustersECAL_))[i],clusId, phi0);
  }    
  for(unsigned i=0; i<em_->clustersHCAL_->size(); i++) {
    //int clusId=(i<<shiftId_) | CLUSTERHCALID;
    int clusId=(CLUSTERHCALID<<shiftId_) | i;
    createGCluster( (*(em_->clustersHCAL_))[i],clusId, phi0);
  }    

  if (drawHO_) {
    for(unsigned i=0; i<em_->clustersHO_->size(); i++) {
      //int clusId=(i<<shiftId_) | CLUSTERHOID;
      int clusId=(CLUSTERHOID<<shiftId_) | i;
      createGCluster( (*(em_->clustersHO_))[i],clusId, phi0);
    }
  }

  for(unsigned i=0; i<em_->clustersHFEM_->size(); i++) {
    //int clusId=(i<<shiftId_) | CLUSTERHFEMID;
    int clusId=(CLUSTERHFEMID<<shiftId_) | i;
    createGCluster( (*(em_->clustersHFEM_))[i],clusId, phi0);
  }    
  for(unsigned i=0; i<em_->clustersHFHAD_->size(); i++) {
    //int clusId=(i<<shiftId_) | CLUSTERHFHADID;
    int clusId=(CLUSTERHFHADID<<shiftId_) | i;
    createGCluster( (*(em_->clustersHFHAD_))[i],clusId, phi0);
  }    
  for(unsigned i=0; i<em_->clustersPS_->size(); i++){ 
    //int clusId=(i<<shiftId_) | CLUSTERPSID;
    int clusId=(CLUSTERPSID<<shiftId_) | i;
    createGCluster( (*(em_->clustersPS_))[i],clusId,phi0);
  }
//   for(unsigned i=0; i<em_->clustersIslandBarrel_.size(); i++) {
//     PFLayer::Layer layer = PFLayer::ECAL_BARREL;
//     //int clusId=(i<<shiftId_) | CLUSTERIBID;
//     int clusId=(CLUSTERIBID<<shiftId_) | i;
                
//     reco::PFCluster cluster( layer, 
//                              em_->clustersIslandBarrel_[i].energy(),
//                              em_->clustersIslandBarrel_[i].x(),
//                              em_->clustersIslandBarrel_[i].y(),
//                              em_->clustersIslandBarrel_[i].z() ); 
//     createGCluster( cluster,clusId, phi0);
//   }  
}
void DisplayManager::loadGGenParticles ( ) [private]

Definition at line 1503 of file DisplayManager.cc.

References createGGenParticle(), em_, configurableAnalysis::GenParticle, edm::HepMCProduct::GetEvent(), PFRootEventManager::MCTruth_, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by loadGraphicObjects().

{
  
  const HepMC::GenEvent* myGenEvent = em_->MCTruth_.GetEvent();
  if(!myGenEvent) return;
  for ( HepMC::GenEvent::particle_const_iterator piter  = myGenEvent->particles_begin();
        piter != myGenEvent->particles_end(); 
        ++piter ) {
    HepMC::GenParticle* p = *piter;

    createGGenParticle(p);
  } 
}
void DisplayManager::loadGGsfRecTracks ( ) [private]

Definition at line 1980 of file DisplayManager.cc.

References BREMID, reco::PFTrajectoryPoint::ClosestApproach, funct::cos(), createGTrack(), reco::PFTrajectoryPoint::ECALEntrance, em_, findBadBremsId(), GSFRECTRACKID, PFRootEventManager::gsfrecTracks_, reco::PFTrajectoryPoint::momentum(), retrieveBadBrems(), and shiftId_.

Referenced by loadGraphicObjects().

{
  double phi0=0;
        
  int ind=-1;
  int indbrem=-1;
  
  // allows not to draw Brems with no informations in PFBlocks
  retrieveBadBrems();
  
  std::vector<reco::GsfPFRecTrack>::iterator itRecTrack;
  for (itRecTrack = em_->gsfrecTracks_.begin(); itRecTrack != em_->gsfrecTracks_.end();itRecTrack++) {
    double sign = 1.;
    const reco::PFTrajectoryPoint& tpinitial 
      = itRecTrack->extrapolatedPoint(reco::PFTrajectoryPoint::ClosestApproach);
    double pt = tpinitial.momentum().Pt();
    //if( pt<em_->displayRecTracksPtMin_ ) continue;
                
    const reco::PFTrajectoryPoint& tpatecal 
      = itRecTrack->trajectoryPoint(itRecTrack->nTrajectoryMeasurements() +
                                    reco::PFTrajectoryPoint::ECALEntrance );
                
    if ( cos(phi0 - tpatecal.momentum().Phi()) < 0.)
      sign = -1.;
                
    const std::vector<reco::PFTrajectoryPoint>& points = 
      itRecTrack->trajectoryPoints();
                
    int    linestyle = itRecTrack->algoType();
    ind++;
    int recTrackId=(GSFRECTRACKID <<shiftId_) | ind; 
    
    createGTrack(*itRecTrack,points,recTrackId, pt, phi0, sign, false,linestyle,1);

    // now the Brems - bad to copy, but problems otherwise
    std::vector<reco::PFBrem> brems=itRecTrack->PFRecBrem();
    unsigned nbrems=brems.size();
    for(unsigned ibrem=0;ibrem<nbrems;++ibrem)
      {
        unsigned indTrajPoint=brems[ibrem].indTrajPoint();
        if(indTrajPoint==99) continue;
        double signBrem = 1. ; // this is not the charge
        int  linestyleBrem = brems[ibrem].algoType(); 
        indbrem++;
        // build the index by hand. Assume that there are less 40 Brems per GSF track (ultrasafe!)
        // make it from the GSF index and the brem index
        unsigned indexBrem= ind*40+brems[ibrem].indTrajPoint();
        int recTrackIdBrem=(BREMID << shiftId_ ) | indexBrem;
        
        //check if there is information on this brem in the PFBlock
        //before creating a graphic object
        if (!findBadBremsId(recTrackIdBrem)) {

          // the vertex is not stored, need to make it by hand
          std::vector<reco::PFTrajectoryPoint> pointsBrem;
          //the first two trajectory points are dummy; copy them
          pointsBrem.push_back(brems[ibrem].trajectoryPoints()[0]);
          pointsBrem.push_back(brems[ibrem].trajectoryPoints()[1]);

          // then get the vertex from the GSF track
          pointsBrem.push_back(itRecTrack->trajectoryPoint(indTrajPoint));
        
          unsigned ntp=brems[ibrem].trajectoryPoints().size();
          for(unsigned itp=2;itp<ntp;++itp)
           {
            pointsBrem.push_back(brems[ibrem].trajectoryPoints()[itp]);
           }

          double deltaP=brems[ibrem].DeltaP();
          const reco::PFTrajectoryPoint& tpatecalbrem
            = brems[ibrem].trajectoryPoint(brems[ibrem].nTrajectoryMeasurements() +
                                         reco::PFTrajectoryPoint::ECALEntrance );
        
          if ( cos(phi0 - tpatecalbrem.momentum().Phi()) < 0.)
            signBrem = -1.; // again, not the charge
        
          createGTrack(brems[ibrem],pointsBrem,recTrackIdBrem,deltaP,phi0,signBrem,false,linestyleBrem,2);
        }  
      }
  }
 
}
void DisplayManager::loadGPFBlocks ( ) [private]

Definition at line 1701 of file DisplayManager.cc.

References begin, blockIdentsMap_, reco::PFBlockElement::BREM, BREMID, CLUSTERECALID, CLUSTERHCALID, CLUSTERHFEMID, CLUSTERHFHADID, CLUSTERHOID, CLUSTERIBID, CLUSTERPSID, gather_cfg::cout, drawHO_, reco::PFBlockElement::ECAL, em_, end, findBadBremsId(), reco::PFBlockElement::GSF, GSFRECTRACKID, reco::PFBlockElementBrem::GsftrackRefPF(), reco::PFBlockElementGsfTrack::GsftrackRefPF(), reco::PFBlockElement::HCAL, reco::PFBlockElement::HFEM, reco::PFBlockElement::HFHAD, reco::PFBlockElement::HO, getHLTprescales::index, reco::PFBlockElementBrem::indTrajPoint(), edm::Ref< C, T, F >::isNull(), edm::Ref< C, T, F >::key(), reco::PFBlockElement::NONE, PFRootEventManager::pfBlocks_, reco::PFBlockElement::PS1, reco::PFBlockElement::PS2, RECTRACKID, reco::PFBlockElement::SC, shiftId_, findQualityFiles::size, reco::PFBlockElementSuperCluster::superClusterRef(), and reco::PFBlockElement::TRACK.

Referenced by loadGraphicObjects().

{
  int size = em_->pfBlocks_->size();
  for (int ibl=0;ibl<size;ibl++) {
    //int elemNb=((*(em_->pfBlocks_))[ibl].elements()).size();
    //std::cout<<"block "<<ibl<<":"<<elemNb<<" elements"<<std::flush<<std::endl;
    edm::OwnVector< reco::PFBlockElement >::const_iterator iter;
    for( iter =((*(em_->pfBlocks_))[ibl].elements()).begin();
         iter != ((*(em_->pfBlocks_))[ibl].elements()).end();iter++) {

      //COLIN
//       std::cout<<"elem index "<<(*iter).index()<<"-type:"
//            <<(*iter).type()<<std::flush<<std::endl;
      int ident=-1;  
       
      reco::PFBlockElement::Type type = (*iter).type();
      if (!drawHO_ && type==reco::PFBlockElement::HO) continue;
      switch (type) {
      case reco::PFBlockElement::NONE :
        assert(0);
        break;
      case reco::PFBlockElement::TRACK:
        {
          reco::PFRecTrackRef trackref =(*iter).trackRefPF();  
          assert( !trackref.isNull() );
          // std::cout<<" - key "<<trackref.key()<<std::flush<<std::endl<<std::endl;
          ident=(RECTRACKID <<shiftId_) | trackref.key();
        }
      break;
      case reco::PFBlockElement::PS1:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"- key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERPSID <<shiftId_) |clusref.key();
        }
      break;
      case reco::PFBlockElement::PS2:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERPSID <<shiftId_) |clusref.key();
        }
      break;
      case reco::PFBlockElement::ECAL:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERECALID <<shiftId_) |clusref.key();
        }
      break;
      case reco::PFBlockElement::HCAL:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERHCALID <<shiftId_) |clusref.key();
        }
      break;

      case reco::PFBlockElement::HO:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERHOID <<shiftId_) |clusref.key();
        }
      break;

      case reco::PFBlockElement::HFEM:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERHFEMID <<shiftId_) |clusref.key();
        }
      break;
      case reco::PFBlockElement::HFHAD:
        {
          reco::PFClusterRef clusref=(*iter).clusterRef();
          assert( !clusref.isNull() );
          //std::cout<<"key "<<clusref.key()<<std::flush<<std::endl<<std::endl;
          ident=(CLUSTERHFHADID <<shiftId_) |clusref.key();
        }
      break;
      case reco::PFBlockElement::GSF:
        {
          const reco::PFBlockElementGsfTrack *  GsfEl =  
            dynamic_cast<const reco::PFBlockElementGsfTrack*>(&(*iter));
          
          reco::GsfPFRecTrackRef trackref=GsfEl->GsftrackRefPF();
          assert( !trackref.isNull() ); 
          ident=(GSFRECTRACKID << shiftId_) | trackref.key();
        }
      break;
      case reco::PFBlockElement::BREM:
        {
          const reco::PFBlockElementBrem * Brem =  dynamic_cast<const reco::PFBlockElementBrem*>(&(*iter)); 
          reco::GsfPFRecTrackRef trackref = Brem->GsftrackRefPF();
          unsigned index=trackref.key()*40+Brem->indTrajPoint();
          ident = (BREMID << shiftId_ ) | index ;
          if (findBadBremsId(ident))  ident=-1;
        }
      break;

      case reco::PFBlockElement::SC:
        {
          const reco::PFBlockElementSuperCluster * sc =  dynamic_cast<const reco::PFBlockElementSuperCluster*>(&(*iter)); 
          reco::SuperClusterRef scref = sc->superClusterRef();
          assert( !scref.isNull() ); 
          ident = (CLUSTERIBID << shiftId_ ) | scref.key();
        }
      break;

      default: 
        std::cout<<"unknown PFBlock element of type "<<type<<std::endl;
        break; 
      } //end switch 
      pair <int, int> idElem;
      idElem.first=ident;
      idElem.second=(*iter).index();
      if (ident != -1) blockIdentsMap_.insert(pair<int,pair <int,int> > (ibl,idElem));            
    }   //end for elements
  }   //end for blocks
        
}
void DisplayManager::loadGraphicObjects ( ) [private]
void DisplayManager::loadGRecHits ( ) [private]

Definition at line 1841 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, PFRootEventManager::clusterAlgoECAL_, PFRootEventManager::clusterAlgoHCAL_, PFRootEventManager::clusterAlgoHFEM_, PFRootEventManager::clusterAlgoHFHAD_, PFRootEventManager::clusterAlgoHO_, PFRootEventManager::clusterAlgoPS_, PFClusterAlgo::color(), createGRecHit(), drawHO_, em_, getMaxEEcal(), getMaxEHcal(), i, RECHITHCALID, RECHITHFEMID, RECHITHFHADID, RECHITHOID, RECHITPSID, PFRootEventManager::rechitsECAL_, PFRootEventManager::rechitsHCAL_, PFRootEventManager::rechitsHFEM_, PFRootEventManager::rechitsHFHAD_, PFRootEventManager::rechitsHO_, PFRootEventManager::rechitsPS_, PFClusterAlgo::SEED, shiftId_, and PFClusterAlgo::SPECIAL.

Referenced by loadGraphicObjects().

{
  double phi0=0;
        
  double maxee = getMaxEEcal();
  double maxeh = getMaxEHcal();
  double maxe = maxee>maxeh ? maxee : maxeh;
        
  int color = TColor::GetColor(210,210,210);
  int seedcolor = TColor::GetColor(145,145,145);
  int specialcolor = TColor::GetColor(255,140,0);
        
  for(unsigned i=0; i<em_->rechitsECAL_.size(); i++) { 
    int rhcolor = color;
    if( unsigned col = em_->clusterAlgoECAL_.color(i) ) {
      switch(col) {
      case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
      case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
      default:
        cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
      }
    }
    //int recHitId=(i<<shiftId_) | RECHITECALID;
    int recHitId=i;
    createGRecHit(em_->rechitsECAL_[i],recHitId, maxe, phi0, rhcolor);
  }
        
  for(unsigned i=0; i<em_->rechitsHCAL_.size(); i++) { 
    int rhcolor = color;
    if(unsigned col = em_->clusterAlgoHCAL_.color(i) ) {
      switch(col) {
      case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
      case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
      default:
        cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
      }
    }
    //int recHitId=(i<<shiftId_) | RECHITHCALID;
    int recHitId=(RECHITHCALID <<shiftId_) | i;
    createGRecHit(em_->rechitsHCAL_[i],recHitId, maxe, phi0, rhcolor);
  }
      
  if (drawHO_) {
    for(unsigned i=0; i<em_->rechitsHO_.size(); i++) { 
      int rhcolor = color;
      if(unsigned col = em_->clusterAlgoHO_.color(i) ) {
        switch(col) {
        case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
        case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
        default:
          cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
        }
      }
      //int recHitId=(i<<shiftId_) | RECHITHOID;
      int recHitId=(RECHITHOID <<shiftId_) | i;
      createGRecHit(em_->rechitsHO_[i],recHitId, 2*maxe, phi0, rhcolor);
    }
  }
 
  for(unsigned i=0; i<em_->rechitsHFEM_.size(); i++) { 
    int rhcolor = color;
    if(unsigned col = em_->clusterAlgoHFEM_.color(i) ) {
      switch(col) {
      case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
      case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
      default:
        cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
      }
    }
    //int recHitId=(i<<shiftId_) | RECHITHFEMID;
    int recHitId=(RECHITHFEMID <<shiftId_) | i;
    createGRecHit(em_->rechitsHFEM_[i],recHitId, maxe, phi0, rhcolor);
  }
        
  for(unsigned i=0; i<em_->rechitsHFHAD_.size(); i++) { 
    int rhcolor = color;
    if(unsigned col = em_->clusterAlgoHFHAD_.color(i) ) {
      switch(col) {
      case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
      case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
      default:
        cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
      }
    }
    //int recHitId=(i<<shiftId_) | RECHITHFHADID;
    int recHitId=(RECHITHFHADID <<shiftId_) | i;
    createGRecHit(em_->rechitsHFHAD_[i],recHitId, maxe, phi0, rhcolor);
  }
        
  for(unsigned i=0; i<em_->rechitsPS_.size(); i++) { 
    int rhcolor = color;
    if( unsigned col = em_->clusterAlgoPS_.color(i) ) {
      switch(col) {
      case PFClusterAlgo::SEED: rhcolor = seedcolor; break;
      case PFClusterAlgo::SPECIAL: rhcolor = specialcolor; break;
      default:
        cerr<<"DisplayManager::loadGRecHits: unknown color"<<endl;
      }
    }
    //int recHitId=(i<<shiftId_) | RECHITPSID;
    int recHitId=(RECHITPSID<<shiftId_) | i;
                
    createGRecHit(em_->rechitsPS_[i],recHitId, maxe, phi0, rhcolor);
  }
} 
void DisplayManager::loadGRecTracks ( ) [private]

Definition at line 1947 of file DisplayManager.cc.

References reco::PFTrajectoryPoint::ClosestApproach, funct::cos(), createGTrack(), reco::PFTrajectoryPoint::ECALEntrance, em_, reco::PFTrajectoryPoint::momentum(), RECTRACKID, PFRootEventManager::recTracks_, and shiftId_.

Referenced by loadGraphicObjects().

{
  double phi0=0;
        
  int ind=-1;
  std::vector<reco::PFRecTrack>::iterator itRecTrack;
  for (itRecTrack = em_->recTracks_.begin(); itRecTrack != em_->recTracks_.end();itRecTrack++) {
    double sign = 1.;
    const reco::PFTrajectoryPoint& tpinitial 
      = itRecTrack->extrapolatedPoint(reco::PFTrajectoryPoint::ClosestApproach);
    double pt = tpinitial.momentum().Pt();
    //if( pt<em_->displayRecTracksPtMin_ ) continue;
                
    const reco::PFTrajectoryPoint& tpatecal 
      = itRecTrack->trajectoryPoint(itRecTrack->nTrajectoryMeasurements() +
                                    reco::PFTrajectoryPoint::ECALEntrance );
                
    if ( cos(phi0 - tpatecal.momentum().Phi()) < 0.)
      sign = -1.;
                
    const std::vector<reco::PFTrajectoryPoint>& points = 
      itRecTrack->trajectoryPoints();
                
    int    linestyle = itRecTrack->algoType();
    ind++;
    //int recTrackId=(ind<<shiftId_) | RECTRACKID;
    int recTrackId=(RECTRACKID <<shiftId_) | ind; 
                
    createGTrack(*itRecTrack,points,recTrackId, pt, phi0, sign, false,linestyle);
  }
}
void DisplayManager::loadGSimParticles ( ) [private]

Definition at line 2064 of file DisplayManager.cc.

References abs, reco::PFTrajectoryPoint::ClosestApproach, createGPart(), em_, reco::PFTrack::extrapolatedPoint(), i, reco::PFTrajectoryPoint::momentum(), reco::PFSimParticle::motherId(), reco::PFSimParticle::pdgCode(), reco::PFTrajectoryPoint::position(), shiftId_, SIMPARTICLEID, reco::PFTrack::trajectoryPoint(), reco::PFTrack::trajectoryPoints(), and PFRootEventManager::trueParticles_.

Referenced by loadGraphicObjects().

{
  double phi0=0;
  //    bool debug_loadGSim = true;
  unsigned simParticlesVSize = em_->trueParticles_.size();
        
  for(unsigned i=0; i<simParticlesVSize; i++) {
                
    const reco::PFSimParticle& ptc = em_->trueParticles_[i];
                
    const reco::PFTrajectoryPoint& tpinitial 
      = ptc.extrapolatedPoint( reco::PFTrajectoryPoint::ClosestApproach );
                
    double pt = tpinitial.momentum().Pt();
    //if( pt<em_->getDisplayTrueParticlesPtMin()) continue;
                
    double sign = 1.;
    const reco::PFTrajectoryPoint& tpFirst = ptc.trajectoryPoint(0);
    if ( tpFirst.position().X() < 0. )
      sign = -1.;
    //double sign2 = 1.;
    // if position vector is 0,0,0: X component is undefined  (MDN 11 June 2008)
    // const reco::PFTrajectoryPoint& tpFirst = ptc.trajectoryPoint(0);
    //  if ( tpFirst.positionXYZ().X() < 0. )
    //   sign2 = -1.;

    const std::vector<reco::PFTrajectoryPoint>& points = 
      ptc.trajectoryPoints();
      

    int indexMarker;
    switch( std::abs(ptc.pdgCode() ) ) {
    case 22:   indexMarker=0; break; // photons
    case 11:   indexMarker=1;  break; // electrons 
    case 13:   indexMarker=2;  break; // muons 
    case 130:  
    case 321:  indexMarker=3; break; // K
    case 211:  indexMarker=4; break; // pi+/pi-
    case 2212: indexMarker=5; break; // protons
    case 2112: indexMarker=6; break; // neutrons  
    default:   indexMarker=7; break; 
    }

    bool displayInitial=true;
    if( ptc.motherId() < 0 ) displayInitial=false;
    int partId=(SIMPARTICLEID << shiftId_) | i; 
    createGPart(ptc, points,partId, pt, phi0, sign, displayInitial,indexMarker);
    //cout << " sign " << sign << " sign2 " << sign2 << endl;
    //if ( sign*sign2 <0 ) cout << " ++++++Warning sign*sign2 <0 ++++++++++++++++++ " << endl;
                
  }
}
void DisplayManager::lookForGenParticle ( unsigned  barcode)

look for particle with index i in MC truth.

Definition at line 2180 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, displayHist_, displayView_, drawHO_, EHO, em_, EPE, EPH, eta(), event(), configurableAnalysis::GenParticle, edm::HepMCProduct::GetEvent(), PFRootEventManager::MCTruth_, phi, and zoomFactor_.

Referenced by DialogFrame::doLookForGenParticle().

                                                        {
        
  const HepMC::GenEvent* event = em_->MCTruth_.GetEvent();
  if(!event) {
    cerr<<"no GenEvent"<<endl;
    return;
  }
        
  const HepMC::GenParticle* particle = event->barcode_to_particle(barcode);
  if(!particle) {
    cerr<<"no particle with barcode "<<barcode<<endl;
    return;
  }
        
  math::XYZTLorentzVector momentum(particle->momentum().px(),
                                   particle->momentum().py(),
                                   particle->momentum().pz(),
                                   particle->momentum().e());
        
  double eta = momentum.Eta();
  double phi = momentum.phi();
        
  double phisize = 0.05;
  double etasize = 0.05;
        
  double etagate = zoomFactor_ * etasize;
  double phigate = zoomFactor_ * phisize;
        
  if(displayHist_[EPE]) {
    displayHist_[EPE]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EPE]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EPE]->Modified();
    displayView_[EPE]->Update();
                
  }
  if(displayHist_[EPH]) {
    displayHist_[EPH]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EPH]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EPH]->Modified();
    displayView_[EPH]->Update();
  }

  if(drawHO_ && displayHist_[EHO]) {
    displayHist_[EHO]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EHO]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EHO]->Modified();
    displayView_[EHO]->Update();
  }

}
void DisplayManager::lookForMaxRecHit ( bool  ecal)

look for rechit with max energy in ecal or hcal.

Definition at line 2117 of file DisplayManager.cc.

References displayHist_, displayView_, drawHO_, EHO, em_, relval_parameters_module::energy, EPE, EPH, eta(), i, phi, reco::PFRecHit::position(), HI_PhotonSkim_cff::rechits, PFRootEventManager::rechitsECAL_, PFRootEventManager::rechitsHCAL_, reco::PFRecHit::size(), and zoomFactor_.

{
  // look for the rechit with max e in ecal or hcal
  double maxe = -999;
  reco::PFRecHit* maxrh = 0;
        
  reco::PFRecHitCollection* rechits = 0;
  if(ecal) rechits = &(em_->rechitsECAL_);
  else rechits = &(em_->rechitsHCAL_);
  assert(rechits);
        
  for(unsigned i=0; i<(*rechits).size(); i++) {
                
    double energy = (*rechits)[i].energy();
                
    if(energy > maxe ) {
      maxe = energy;
      maxrh = &((*rechits)[i]);
    }      
  }
        
  if(!maxrh) return;
        
  // center view on this rechit
        
        
  // get the cell size to set the eta and phi width 
  // of the display window from one of the cells
        
  double phisize = -1;
  double etasize = -1;
  maxrh->size(phisize, etasize);
        
  double etagate = zoomFactor_ * etasize;
  double phigate = zoomFactor_ * phisize;
  
  double eta =  maxrh->position().Eta();
  double phi =  maxrh->position().Phi();
  
  if(displayHist_[EPE]) {
    displayHist_[EPE]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EPE]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EPE]->Modified();
    displayView_[EPE]->Update();
  }
        
  if(displayHist_[EPH]) {
    displayHist_[EPH]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EPH]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EPH]->Modified();
    displayView_[EPH]->Update();
  }

  if(drawHO_ && displayHist_[EHO]) {
    displayHist_[EHO]->GetXaxis()->SetRangeUser(eta-etagate, eta+etagate);
    displayHist_[EHO]->GetYaxis()->SetRangeUser(phi-phigate, phi+phigate);
    displayView_[EHO]->Modified();
    displayView_[EHO]->Update();
  }


}
void DisplayManager::printDisplay ( const char *  directory = "") const

Definition at line 2231 of file DisplayManager.cc.

References dtNoiseDBValidation_cfg::cerr, gather_cfg::cout, createBeamHaloJobs::directory, displayView_, em_, eventNumber_, mergeVDriftHistosByStation::name, dbtoconf::out, and PFRootEventManager::print().

{
  string directory = sdirectory;
  if( directory.empty() ) {   
    directory = "Event_";
  }
  char num[10];
  sprintf(num,"%d", eventNumber_);
  directory += num;
        
  string mkdir = "mkdir "; mkdir += directory;
  int code = system( mkdir.c_str() );
        
  if( code ) {
    cerr<<"cannot create directory "<<directory<<endl;
    return;
  }
        
  cout<<"Event display printed in directory "<<directory<<endl;
        
  directory += "/";
        
  for(unsigned iView=0; iView<displayView_.size(); iView++) {
    if( !displayView_[iView] ) continue;
                
    string name = directory;
    name += displayView_[iView]->GetName();
                
    cout<<displayView_[iView]->GetName()<<endl;
                
    string eps = name; eps += ".eps";
    displayView_[iView]->SaveAs( eps.c_str() );
                
    string png = name; png += ".png";
    displayView_[iView]->SaveAs( png.c_str() );
  }
        
  string txt = directory;
  txt += "event.txt";
  ofstream out( txt.c_str() );
  if( !out ) 
    cerr<<"cannot open "<<txt<<endl;
  em_->print( out );
}
void DisplayManager::printGenParticleInfo ( std::string  name,
int  barcode,
int  barcodeMother 
)

Definition at line 2320 of file DisplayManager.cc.

References gather_cfg::cout, em_, configurableAnalysis::GenParticle, edm::HepMCProduct::GetEvent(), PFRootEventManager::MCTruth_, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by GPFGenParticle::Print().

{ 
  const HepMC::GenEvent* myGenEvent = em_->MCTruth_.GetEvent();
  HepMC::GenParticle *p = myGenEvent->barcode_to_particle(barcode);
  std::cout<<"genParticle "<<name<<" with barcode "<<barcode<<std::flush<<std::endl;
  p->print();
  if (barcodeMother) { 
    HepMC:: GenParticle *mother = myGenEvent->barcode_to_particle(barcodeMother);
    std::cout<<"mother particle with barcode "<<barcodeMother<<std::flush<<std::endl;
    mother->print();
  }    
}
void DisplayManager::readOptions ( const char *  file)

Definition at line 65 of file DisplayManager.cc.

References bremAttributes_, bremPatternL_, bremPatternM_, dtNoiseDBValidation_cfg::cerr, clusEnMin_, clusPattern_, clusPatternecal_, clusPatternhfem_, clusPatternho_, clusPSPattern_, clusterAttributes_, gather_cfg::cout, drawBrems_, drawClus_, drawClusterL_, drawGenParticles_, drawGsfTracks_, drawHits_, drawHO_, drawParticles_, drawPFBlocks_, drawTracks_, genParticlePtMin_, genPartPattern_, IO::GetOpt(), gsfAttributes_, gsfPatternL_, gsfPatternM_, gsfPtMin_, hitEnMin_, options_, particlePtMin_, setNewAttrToSimParticles(), simPartPatternDefault_, simPartPatternElec_, simPartPatternK_, simPartPatternL_, simPartPatternM_, simPartPatternMuon_, simPartPatternNeutron_, simPartPatternPhoton_, simPartPatternPi_, simPartPatternProton_, trackAttributes_, trackPatternL_, trackPatternM_, trackPtMin_, viewSize_, viewSizeEtaPhi_, and zoomFactor_.

Referenced by DisplayManager().

                                                      {
        
  try {
    delete options_;
    options_ = new IO(optfile);
  }
  catch( const string& err ) {
    cout<<err<<endl;
    return;
  }
      
  drawHO_=true;
  options_->GetOpt("display", "drawHO", drawHO_);  



  viewSizeEtaPhi_.clear();
  options_->GetOpt("display", "viewsize_etaphi", viewSizeEtaPhi_);
  if(viewSizeEtaPhi_.size() != 2) {
    cerr<<"PFRootEventManager::ReadOptions, bad display/viewsize_etaphi tag...using 700/350"
        <<endl;
    viewSizeEtaPhi_.clear();
    viewSizeEtaPhi_.push_back(700); 
    viewSizeEtaPhi_.push_back(350); 
  }
        
  viewSize_.clear();
  options_->GetOpt("display", "viewsize_xy", viewSize_);
  if(viewSize_.size() != 2) {
    cerr<<"PFRootEventManager::ReadOptions, bad display/viewsize_xy tag...using 700/350"
        <<endl;
    viewSize_.clear();
    viewSize_.push_back(600); 
    viewSize_.push_back(600); 
  } 
        
  clusterAttributes_.clear();
  options_->GetOpt("display", "cluster_attributes", clusterAttributes_);
  if(clusterAttributes_.size() != 7) {
    cerr<<"PFRootEventManager::::ReadOptions, bad display/cluster_attributes tag...using 20 10 2 5"
        <<endl;
    clusterAttributes_.clear();
    clusterAttributes_.push_back(2); //color
    clusterAttributes_.push_back(5);  // color if clusterPS
    clusterAttributes_.push_back(20); // marker style
    clusterAttributes_.push_back(1.0); 
    clusterAttributes_.push_back(6); //For ECAL
    clusterAttributes_.push_back(9); //For HF_EM
    clusterAttributes_.push_back(46); //For HO
  }

  trackAttributes_.clear();
  options_->GetOpt("display", "track_attributes", trackAttributes_);
  if(trackAttributes_.size() != 4) {
    cerr<<"PFRootEventManager::::ReadOptions, bad display/track_attributes tag...using 103 1 8 8"
        <<endl;
    trackAttributes_.clear();
    trackAttributes_.push_back(103); //color Line and Marker
    trackAttributes_.push_back(1);  //line style
    trackAttributes_.push_back(8);   //Marker style
    trackAttributes_.push_back(1.0);   //Marker size
  }
  gsfAttributes_.clear();
  options_->GetOpt("display", "gsf_attributes", gsfAttributes_);
  if(gsfAttributes_.size() != 4) {
    cerr<<"PFRootEventManager::::ReadOptions, bad display/gsf_attributes tag...using 105 1 8 8"
        <<endl;
    gsfAttributes_.clear();
    gsfAttributes_.push_back(105); //color Line and Marker
    gsfAttributes_.push_back(1);  //line style
    gsfAttributes_.push_back(8);   //Marker style
    gsfAttributes_.push_back(1.0);   //Marker size
  }
  bremAttributes_.clear();
  options_->GetOpt("display", "brem_attributes", bremAttributes_);
  if(bremAttributes_.size() != 4) {
    cerr<<"PFRootEventManager::::ReadOptions, bad display/gsf_attributes tag...using 106 1 8 8"
        <<endl;
    bremAttributes_.clear();
    bremAttributes_.push_back(106); //color Line and Marker
    bremAttributes_.push_back(1);  //line style
    bremAttributes_.push_back(8);   //Marker style
    bremAttributes_.push_back(1.0);   //Marker size
  }     
        
  double attrScale = (drawHO_) ? 0.8 : 1.0;

  clusPattern_ = new TAttMarker( (int)clusterAttributes_[0],
                                 (int)clusterAttributes_[2],
                                 attrScale*clusterAttributes_[3]);

  clusPatternecal_ = new TAttMarker( (int)clusterAttributes_[4],
                                 (int)clusterAttributes_[2],
                                 attrScale*clusterAttributes_[3]);

  clusPatternhfem_ = new TAttMarker( (int)clusterAttributes_[5],
                                 (int)clusterAttributes_[2],
                                 attrScale*clusterAttributes_[3]);

  clusPatternho_ = new TAttMarker( (int)clusterAttributes_[6],
                                 (int)clusterAttributes_[2],
                                 attrScale*clusterAttributes_[3]);

  clusPSPattern_ = new TAttMarker( (int)clusterAttributes_[1],
                                   (int)clusterAttributes_[2],
                                   attrScale*clusterAttributes_[3]);
  trackPatternL_ = new TAttLine( (int)trackAttributes_[0],
                                 (int)trackAttributes_[1],
                                 1);
  trackPatternM_ = new TAttMarker( (int)trackAttributes_[0],
                                   (int)trackAttributes_[2],
                                   attrScale*trackAttributes_[3]);

  gsfPatternL_ = new TAttLine( (int)gsfAttributes_[0],
                         (int)gsfAttributes_[1],
                         1);
  gsfPatternM_ = new TAttMarker( (int)gsfAttributes_[0],
                                   (int)gsfAttributes_[2],
                                   attrScale*gsfAttributes_[3]);

  bremPatternL_ = new TAttLine( (int)bremAttributes_[0],
                         (int)bremAttributes_[1],
                         1);
  bremPatternM_ = new TAttMarker( (int)bremAttributes_[0],
                                   (int)bremAttributes_[2],
                                   attrScale*bremAttributes_[3]);
  
  genPartPattern_= new TAttMarker(kGreen-1,22,1.);
  

  std::vector<float> simPartAttributes;

  simPartAttributes.clear();
  options_->GetOpt("display", "simPart_attributes", simPartAttributes);
  if(simPartAttributes.size() != 3) {
    cerr<<"PFRootEventManager::::ReadOptions, bad display/simPart_attributes tag...using 103 1 8 8"
        <<endl;
    simPartAttributes.clear();
    simPartAttributes.push_back(3); //color Line and Marker
    simPartAttributes.push_back(2);  //line style
    simPartAttributes.push_back(0.6);   
  }
 
  int simColor = (int)simPartAttributes[0];
  int simLStyle = (int)simPartAttributes[1];
  float simMSize = attrScale*simPartAttributes[2];

  simPartPatternPhoton_ = new TAttMarker(simColor,3,simMSize);
  simPartPatternElec_   = new TAttMarker(simColor,5,simMSize);
  simPartPatternMuon_   = new TAttMarker(simColor,2,simMSize);
  simPartPatternK_      = new TAttMarker(simColor,24,simMSize);
  simPartPatternPi_     = new TAttMarker(simColor,25,simMSize);
  simPartPatternProton_ = new TAttMarker(simColor,26,simMSize);
  simPartPatternNeutron_= new TAttMarker(simColor,27,simMSize);
  simPartPatternDefault_= new TAttMarker(simColor,30,simMSize);
        
  simPartPatternL_ = new TAttLine(simColor,simLStyle,1);
  simPartPatternM_.resize(8);
        
  setNewAttrToSimParticles();
        
  drawHits_= true;
  options_->GetOpt("display", "rechits",drawHits_);
        
  drawClus_ = true;
  options_->GetOpt("display", "clusters",drawClus_);
        
  drawClusterL_ = false;
  options_->GetOpt("display", "cluster_lines", drawClusterL_);
        
  drawTracks_ = true;
  options_->GetOpt("display", "rectracks", drawTracks_);

  drawGsfTracks_ = true;
  options_->GetOpt("display", "gsftracks", drawGsfTracks_);

  drawBrems_ = false;
  options_->GetOpt("display", "brems", drawBrems_);
        
  drawParticles_ = true;
  options_->GetOpt("display", "particles", drawParticles_);
        
  particlePtMin_ = -1;
  options_->GetOpt("display", "particles_ptmin", particlePtMin_);
  
  
  drawGenParticles_=false;
  genParticlePtMin_ = 0;
  
  
  trackPtMin_ = -1;
  options_->GetOpt("display", "rectracks_ptmin", trackPtMin_);

  gsfPtMin_ = -1;
  options_->GetOpt("display", "gsfrectracks_ptmin", gsfPtMin_);
        
  hitEnMin_ = -1;
  options_->GetOpt("display","rechits_enmin",hitEnMin_);
        
  clusEnMin_ = -1;
  options_->GetOpt("display","clusters_enmin",clusEnMin_);
        
        
  drawPFBlocks_  = false;
  options_->GetOpt("display","drawPFBlock",drawPFBlocks_);
  //redrawWithoutHits_=false;
        
  zoomFactor_ = 10;  
  options_->GetOpt("display", "zoom_factor", zoomFactor_);

}
void DisplayManager::reset ( void  )

Definition at line 2276 of file DisplayManager.cc.

References badBremsId_, blockIdentsMap_, graphicMap_, isGraphicLoaded_, maxERecHitEcal_, maxERecHitHcal_, maxERecHitHo_, AlCaHLTBitMon_ParallelJobs::p, and selectedGObj_.

Referenced by display(), displayEvent(), displayNextInteresting(), and ~DisplayManager().

{
  maxERecHitEcal_=-1;
  maxERecHitHcal_=-1;
  maxERecHitHo_=-1;
  isGraphicLoaded_= false;
  
  std::multimap<int,GPFBase *>::iterator p;
  for (p=graphicMap_.begin();p!=graphicMap_.end();p++)
    delete p->second;
  graphicMap_.clear();

  blockIdentsMap_.clear(); 
  selectedGObj_.clear();
  badBremsId_.clear();
  

}
void DisplayManager::retrieveBadBrems ( ) [private]

Definition at line 1667 of file DisplayManager.cc.

References badBremsId_, begin, reco::PFBlockElement::BREM, BREMID, ECAL, em_, end, reco::PFBlockElementBrem::GsftrackRefPF(), reco::PFBlockElementBrem::indTrajPoint(), edm::Ref< C, T, F >::key(), reco::PFBlock::LINKTEST_ALL, PFRootEventManager::pfBlocks_, shiftId_, and findQualityFiles::size.

Referenced by loadGGsfRecTracks().

{

  //selects Brems with no information in PFBlock.Those selected Brems are not displayed
   
  int size = em_->pfBlocks_->size();
  for (int ibl=0;ibl<size;ibl++) {
     edm::OwnVector< reco::PFBlockElement >::const_iterator iter;
    for( iter =((*(em_->pfBlocks_))[ibl].elements()).begin();
         iter != ((*(em_->pfBlocks_))[ibl].elements()).end();iter++) {
       int ident=-1;  
       reco::PFBlockElement::Type type = (*iter).type();
       if (type == reco::PFBlockElement::BREM) {
          std::multimap<double, unsigned> ecalElems;
           
          (*(em_->pfBlocks_))[ibl].associatedElements( (*iter).index(),(*(em_->pfBlocks_))[ibl].linkData(),
                                                        ecalElems ,
                                                        reco::PFBlockElement::ECAL,
                                                        reco::PFBlock::LINKTEST_ALL );

       
          if (ecalElems.size()==0) {
            //             std::cout<<" PfBlock Nb "<<ibl<<" -- brem elem  "<<(*iter).index()<<"-type "<<(*iter).type()<<" not drawn"<<std::flush<<std::endl;
             const reco::PFBlockElementBrem * Brem =  dynamic_cast<const reco::PFBlockElementBrem*>(&(*iter)); 
             reco::GsfPFRecTrackRef trackref = Brem->GsftrackRefPF();
             unsigned ind=trackref.key()*40+Brem->indTrajPoint();
             ident = (BREMID << shiftId_ ) | ind ;
             badBremsId_.push_back(ident); 
          }
       }   
    }     
  }
}
void DisplayManager::rubOutGPFBlock ( ) [private]

Definition at line 1289 of file DisplayManager.cc.

References drawGObject(), i, selectedGObj_, and findQualityFiles::size.

Referenced by displayPFBlock(), and findAndDraw().

{
  int size = selectedGObj_.size();
  bool toInitial=true;
  int color=0;
  for (int i=0;i<size;i++) 
    drawGObject(selectedGObj_[i],color,toInitial);
}
void DisplayManager::setNewAttrToSimParticles ( )
void DisplayManager::unZoom ( )

Definition at line 2295 of file DisplayManager.cc.

References displayHist_, i, and updateDisplay().

Referenced by DialogFrame::unZoom().

{
  for( unsigned i=0; i<displayHist_.size(); i++) {
    // the corresponding view was not requested
    if( ! displayHist_[i] ) continue;
    displayHist_[i]->GetXaxis()->UnZoom();
    displayHist_[i]->GetYaxis()->UnZoom();
  }
  updateDisplay();
}
void DisplayManager::updateDisplay ( )

Definition at line 1409 of file DisplayManager.cc.

References displayView_, drawHO_, EHO, i, and AlCaHLTBitMon_ParallelJobs::p.

Referenced by findAndDraw(), findBlock(), unZoom(), and DialogFrame::updateDisplay().

                                   {
  for(unsigned i=0; i<displayView_.size(); i++) {
    if (!drawHO_ && i==EHO) continue;
    TPad* p =  displayView_[i];
    assert( p );
    p->Modified();
    p->Update();
  }
}

Member Data Documentation

std::vector<int> DisplayManager::badBremsId_ [private]

Definition at line 185 of file DisplayManager.h.

Referenced by findBadBremsId(), reset(), and retrieveBadBrems().

std::multimap<int , std::pair <int,int> > DisplayManager::blockIdentsMap_

Definition at line 95 of file DisplayManager.h.

Referenced by displayPFBlock(), findBlock(), loadGPFBlocks(), and reset().

std::vector<float> DisplayManager::bremAttributes_

Definition at line 100 of file DisplayManager.h.

Referenced by readOptions().

Definition at line 116 of file DisplayManager.h.

Referenced by createGTrack(), and readOptions().

Definition at line 115 of file DisplayManager.h.

Referenced by createGTrack(), and readOptions().

Definition at line 107 of file DisplayManager.h.

Referenced by createGCluster(), and readOptions().

Definition at line 109 of file DisplayManager.h.

Referenced by createGCluster(), and readOptions().

Definition at line 108 of file DisplayManager.h.

Referenced by createGCluster(), and readOptions().

Definition at line 105 of file DisplayManager.h.

Referenced by createGCluster(), and readOptions().

Definition at line 101 of file DisplayManager.h.

Referenced by readOptions().

std::vector<TH2F*> DisplayManager::displayHist_ [private]

support histogram for x/y or r/z display.

Definition at line 163 of file DisplayManager.h.

Referenced by createCanvas(), displayCanvas(), lookForGenParticle(), lookForMaxRecHit(), and unZoom().

std::vector<TCanvas*> DisplayManager::displayView_ [private]

vector of canvas for x/y or r/z display

Definition at line 154 of file DisplayManager.h.

Referenced by createCanvas(), displayAll(), displayCanvas(), drawGObject(), lookForGenParticle(), lookForMaxRecHit(), printDisplay(), and updateDisplay().

Definition at line 84 of file DisplayManager.h.

Referenced by readOptions().

ECAL in RZ view.

Definition at line 169 of file DisplayManager.h.

Referenced by createCanvas(), and displayCanvas().

ECAL in XY view.

Definition at line 166 of file DisplayManager.h.

Referenced by createCanvas(), and displayCanvas().

HCAL in XY view.

Definition at line 172 of file DisplayManager.h.

Referenced by createCanvas(), and displayCanvas().

TEllipse DisplayManager::frontFaceHOXY_ [private]

HO in XY view.

Definition at line 175 of file DisplayManager.h.

Referenced by createCanvas(), and displayCanvas().

Definition at line 117 of file DisplayManager.h.

Referenced by createGGenParticle(), and readOptions().

std::multimap<int,GPFBase *> DisplayManager::graphicMap_
std::vector<float> DisplayManager::gsfAttributes_

Definition at line 99 of file DisplayManager.h.

Referenced by readOptions().

Definition at line 114 of file DisplayManager.h.

Referenced by createGTrack(), and readOptions().

Definition at line 113 of file DisplayManager.h.

Referenced by createGTrack(), and readOptions().

Definition at line 142 of file DisplayManager.h.

Referenced by display(), displayAll(), displayEvent(), displayNextInteresting(), and reset().

Definition at line 139 of file DisplayManager.h.

Referenced by getMaxEEcal(), and reset().

Definition at line 140 of file DisplayManager.h.

Referenced by getMaxEHcal(), and reset().

Definition at line 141 of file DisplayManager.h.

Referenced by getMaxEHo(), and reset().

Definition at line 144 of file DisplayManager.h.

Referenced by display(), and DisplayManager().

options file parser

Definition at line 137 of file DisplayManager.h.

Referenced by readOptions().

std::vector<int> DisplayManager::selectedGObj_ [private]

graphic object containers

Definition at line 184 of file DisplayManager.h.

Referenced by displayPFBlock(), drawGObject(), findAndDraw(), reset(), and rubOutGPFBlock().

int DisplayManager::shiftId_ [private]

shiftId_ is the number of low bits indicating the object nb in the map key the object type is obtained by shifting the key number of shiftId_ bits ShiftId_ == SHIFTID == 26

Definition at line 150 of file DisplayManager.h.

Referenced by createGGenParticle(), displayAll(), drawWithNewGraphicAttributes(), findAndDraw(), loadGClusters(), loadGGsfRecTracks(), loadGPFBlocks(), loadGRecHits(), loadGRecTracks(), loadGSimParticles(), and retrieveBadBrems().

Definition at line 127 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 121 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 123 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 119 of file DisplayManager.h.

Referenced by createGPart(), and readOptions().

std::vector<TAttMarker *> DisplayManager::simPartPatternM_

Definition at line 129 of file DisplayManager.h.

Referenced by createGPart(), readOptions(), and setNewAttrToSimParticles().

Definition at line 122 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 126 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 120 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 124 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 125 of file DisplayManager.h.

Referenced by readOptions(), and setNewAttrToSimParticles().

Definition at line 98 of file DisplayManager.h.

Referenced by readOptions().

std::vector<int> DisplayManager::viewSize_ [private]

display pad xy size for (x,y) or (r,z) display

Definition at line 157 of file DisplayManager.h.

Referenced by createCanvas(), and readOptions().

std::vector<int> DisplayManager::viewSizeEtaPhi_ [private]

display pad xy size for eta/phi view

Definition at line 160 of file DisplayManager.h.

Referenced by readOptions().

double DisplayManager::zoomFactor_ [private]

Definition at line 145 of file DisplayManager.h.

Referenced by lookForGenParticle(), lookForMaxRecHit(), and readOptions().