Example #1
0
int PhotonJet::process_event(PHCompositeNode *topnode)
{
 
  cout<<"at event number "<<nevents<<endl;


  //get the nodes from the NodeTree
  JetMap* truth_jets = findNode::getClass<JetMap>(topnode,"AntiKt_Truth_r04");
  JetMap *reco_jets = findNode::getClass<JetMap>(topnode,"AntiKt_Tower_r04");
  PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topnode,"G4TruthInfo");
  RawClusterContainer *clusters = findNode::getClass<RawClusterContainer>(topnode,"CLUSTER_CEMC");
  SvtxTrackMap *trackmap = findNode::getClass<SvtxTrackMap>(topnode,"SvtxTrackMap");
  JetEvalStack* _jetevalstack = new JetEvalStack(topnode,"AntiKt_Tower_r04","AntiKt_Truth_r04");
  PHG4TruthInfoContainer::Range range = truthinfo->GetPrimaryParticleRange();

  if(!truth_jets){
      cout<<"no truth jets"<<endl;
      return 0;
    }
  if(!reco_jets){
      cout<<"no reco jets"<<endl;
      return 0;
    }
  if(!truthinfo){
      cout<<"no truth track info"<<endl;
      return 0;
    }
  if(!clusters){
    cout<<"no cluster info"<<endl;
    return 0;
  }
  if(!trackmap){
    cout<<"no track map"<<endl;
    return 0;
  }
  if(!_jetevalstack){
    cout<<"no good truth jets"<<endl;
    return 0;
  }


  JetRecoEval* recoeval = _jetevalstack->get_reco_eval();


 /***********************************************

  GET THE TRUTH PARTICLES

  ************************************************/



  for( PHG4TruthInfoContainer::ConstIterator iter = range.first; iter!=range.second; ++iter){

    PHG4Particle *truth = iter->second;
    
    truthpx = truth->get_px();
    truthpy = truth->get_py();
    truthpz = truth->get_pz();
    truthp = sqrt(truthpx*truthpx+truthpy*truthpy+truthpz*truthpz);
    truthenergy = truth->get_e();
    
    TLorentzVector vec;
    vec.SetPxPyPzE(truthpx,truthpy,truthpz,truthenergy);
    
    truthpt = sqrt(truthpx*truthpx+truthpy*truthpy);
    if(truthpt<0.5)
      continue;
    
    truthphi = vec.Phi();
    trutheta = vec.Eta();
    truthpid = truth->get_pid();
    
    truth_g4particles->Fill();

  }


  /***********************************************

  GET THE EMCAL CLUSTERS

  ************************************************/


  RawClusterContainer::ConstRange begin_end = clusters->getClusters();
  RawClusterContainer::ConstIterator clusiter;
  
  for(clusiter = begin_end.first; clusiter!=begin_end.second; ++clusiter){

    RawCluster *cluster = clusiter->second;

    clus_energy = cluster->get_energy();
    clus_eta = cluster->get_eta();
    clus_theta = 2.*TMath::ATan((TMath::Exp(-1.*clus_eta)));
    clus_pt = clus_energy*TMath::Sin(clus_theta);
    clus_phi = cluster->get_phi();
    
    if(clus_pt<0.5)
      continue;

   
    
    TLorentzVector *clus = new TLorentzVector();
    clus->SetPtEtaPhiE(clus_pt,clus_eta,clus_phi,clus_energy);
    
    float dumarray[4];
    clus->GetXYZT(dumarray);
    clus_x = dumarray[0];
    clus_y = dumarray[1];
    clus_z = dumarray[2];
    clus_t = dumarray[3];

    clus_px = clus_pt*TMath::Cos(clus_phi);
    clus_py = clus_pt*TMath::Sin(clus_phi);
    clus_pz = sqrt(clus_energy*clus_energy-clus_px*clus_px-clus_py*clus_py);

    cluster_tree->Fill();

    //only interested in high pt photons to be isolated
    if(clus_pt<mincluspt)
      continue;
    if(fabs(clus_eta)>(1.0-isoconeradius))
      continue;

    float energysum = ConeSum(cluster,clusters,trackmap,isoconeradius);
    bool conecut = energysum > 0.1*clus_energy;
    if(conecut)
      continue;
   
    isolated_clusters->Fill();
    
    GetRecoHadronsAndJets(cluster, trackmap, reco_jets,recoeval);

  }



  /***********************************************

  GET THE SVTX TRACKS

  ************************************************/
  
  SvtxEvalStack *svtxevalstack = new SvtxEvalStack(topnode);
  svtxevalstack->next_event(topnode);

  SvtxTrackEval *trackeval = svtxevalstack->get_track_eval();

  for(SvtxTrackMap::Iter iter = trackmap->begin(); iter!=trackmap->end(); ++iter){

    SvtxTrack *track = iter->second;

    //get reco info
    tr_px = track->get_px();
    tr_py = track->get_py();
    tr_pz = track->get_pz();
    tr_p = sqrt(tr_px*tr_px+tr_py*tr_py+tr_pz*tr_pz);
    
    tr_pt = sqrt(tr_px*tr_px+tr_py*tr_py);
    
    if(tr_pt<0.5)
      continue;
  
    tr_phi = track->get_phi();
    tr_eta = track->get_eta();

    if(fabs(tr_eta)>1)
      continue;

    charge = track->get_charge();
    chisq = track->get_chisq();
    ndf = track->get_ndf();
    dca = track->get_dca();
    tr_x = track->get_x();
    tr_y = track->get_y();
    tr_z = track->get_z();
    
   
    //get truth info
    PHG4Particle *truthtrack = trackeval->max_truth_particle_by_nclusters(track);
    truth_is_primary = truthinfo->is_primary(truthtrack);
    
    truthtrackpx = truthtrack->get_px();
    truthtrackpy = truthtrack->get_py();
    truthtrackpz = truthtrack->get_pz();
    truthtrackp = sqrt(truthtrackpx*truthtrackpx+truthtrackpy*truthtrackpy+truthtrackpz*truthtrackpz);
    
    truthtracke = truthtrack->get_e();
    TLorentzVector *Truthtrack = new TLorentzVector();
    Truthtrack->SetPxPyPzE(truthtrackpx,truthtrackpy,truthtrackpz,truthtracke);
    truthtrackpt = Truthtrack->Pt();
    truthtrackphi = Truthtrack->Phi();
    truthtracketa = Truthtrack->Eta();
    truthtrackpid = truthtrack->get_pid();


    tracktree->Fill();

  }







  /***************************************

   TRUTH JETS

   ***************************************/


  for(JetMap::Iter iter = truth_jets->begin(); iter!=truth_jets->end(); ++iter){
    Jet *jet = iter->second;
    
    truthjetpt = jet->get_pt();
    if(truthjetpt<10.)
      continue;
    
    truthjeteta = jet->get_eta();
    if(fabs(truthjeteta)>2.)
      continue;

    truthjetpx = jet->get_px();
    truthjetpy = jet->get_py();
    truthjetpz = jet->get_pz();
    truthjetphi = jet->get_phi();
    truthjetmass = jet->get_mass();
    truthjetp = jet->get_p();
    truthjetenergy = jet->get_e();
    
    truthjettree->Fill();
    


  }



/***************************************

   RECONSTRUCTED JETS

   ***************************************/



  for(JetMap::Iter iter = reco_jets->begin(); iter!=reco_jets->end(); ++iter){
    Jet *jet = iter->second;
    Jet *truthjet = recoeval->max_truth_jet_by_energy(jet);
    recojetpt = jet->get_pt();
    if(recojetpt<4.)
      continue;
    
    recojeteta = jet->get_eta();
    if(fabs(recojeteta)>2.)
      continue;
    recojetid = jet->get_id();
    recojetpx = jet->get_px();
    recojetpy = jet->get_py();
    recojetpz = jet->get_pz();
    recojetphi = jet->get_phi();
    recojetmass = jet->get_mass();
    recojetp = jet->get_p();
    recojetenergy = jet->get_e();

    if(truthjet){
      truthjetid = truthjet->get_id();
      truthjetp = truthjet->get_p();
      truthjetphi = truthjet->get_phi();
      truthjeteta = truthjet->get_eta();
      truthjetpt = truthjet->get_pt();
      truthjetenergy = truthjet->get_e();
      truthjetpx = truthjet->get_px();
      truthjetpy = truthjet->get_py();
      truthjetpz = truthjet->get_pz();
    }
    else{
      truthjetid = 0;
      truthjetp = 0;
      truthjetphi = 0;
      truthjeteta = 0;
      truthjetpt = 0;
      truthjetenergy = 0;
      truthjetpx = 0;
      truthjetpy = 0;
      truthjetpz = 0;
      
    }
    recojettree->Fill();

  }

  


  nevents++;
  tree->Fill();
  return 0;

}
void SvtxEvaluator::fillOutputNtuples(PHCompositeNode *topNode) {

  if (verbosity > 1) cout << "SvtxEvaluator::fillOutputNtuples() entered" << endl;

  SvtxVertexEval*   vertexeval = _svtxevalstack->get_vertex_eval();
  SvtxTrackEval*     trackeval = _svtxevalstack->get_track_eval();
  SvtxClusterEval* clustereval = _svtxevalstack->get_cluster_eval();
  SvtxHitEval*         hiteval = _svtxevalstack->get_hit_eval();
  SvtxTruthEval*     trutheval = _svtxevalstack->get_truth_eval();
  
  //-----------------------
  // fill the Vertex NTuple
  //-----------------------

  if (_ntp_vertex) {
    SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap");
    PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo");
    if (vertexmap && truthinfo) {
      for (SvtxVertexMap::Iter iter = vertexmap->begin();
	   iter != vertexmap->end();
	   ++iter) {
	SvtxVertex* vertex = iter->second;
	PHG4VtxPoint* point = vertexeval->max_truth_point_by_ntracks(vertex);

	float vx         = vertex->get_x();
	float vy         = vertex->get_y();
	float vz         = vertex->get_z();
	float ntracks    = vertex->size_tracks();

	float gvx        = NAN;
	float gvy        = NAN;
	float gvz        = NAN;
	float gntracks   = truthinfo->GetNumPrimaryVertexParticles();
	float nfromtruth = NAN;
	
	if (point) {
	  gvx        = point->get_x();
	  gvy        = point->get_y();
	  gvz        = point->get_z();
	  gntracks   = truthinfo->GetNumPrimaryVertexParticles();
	  nfromtruth = vertexeval->get_ntracks_contribution(vertex,point);
	}
	  
	float vertex_data[10] = {_ievent,
				 vx,
				 vy,
				 vz,
				 ntracks,
				 gvx,
				 gvy,
				 gvz,
				 gntracks,
				 nfromtruth
	};

	_ntp_vertex->Fill(vertex_data);      
      }
    }
  }
  
  //-----------------------
  // fill the gpoint NTuple
  //-----------------------

  if (_ntp_gpoint) {
    SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap");
    PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo");
    if (vertexmap && truthinfo) {

      PHG4VtxPoint* point =  truthinfo->GetPrimaryVtx(truthinfo->GetPrimaryVertexIndex());
      SvtxVertex* vertex = vertexeval->best_vertex_from(point);
    
      float gvx        = point->get_x();
      float gvy        = point->get_y();
      float gvz        = point->get_z();
      float gntracks   = truthinfo->GetNumPrimaryVertexParticles();
      float vx         = NAN;
      float vy         = NAN;
      float vz         = NAN;
      float ntracks    = NAN;
      float nfromtruth = NAN;

      if (vertex) {
	vx         = vertex->get_x();
	vy         = vertex->get_y();
	vz         = vertex->get_z();
	ntracks    = vertex->size_tracks();
	nfromtruth = vertexeval->get_ntracks_contribution(vertex,point);
      }
	
      float gpoint_data[10] = {_ievent,
			       gvx,
			       gvy,
			       gvz,
			       gntracks,
			       vx,
			       vy,
			       vz,
			       ntracks,
			       nfromtruth
      };

      _ntp_gpoint->Fill(gpoint_data);      
    }
  }
  
  //---------------------
  // fill the G4hit NTuple
  //---------------------

  if (_ntp_g4hit) {
    std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits();
    for (std::set<PHG4Hit*>::iterator iter = g4hits.begin();
	 iter != g4hits.end();
	 ++iter) {
            
      PHG4Hit *g4hit = *iter;
      PHG4Particle *g4particle = trutheval->get_particle(g4hit);
      
      float g4hitID   = g4hit->get_hit_id();
      float gx        = 0.5*(g4hit->get_x(0)+g4hit->get_x(1));
      float gy        = 0.5*(g4hit->get_y(0)+g4hit->get_y(1));
      float gz        = 0.5*(g4hit->get_z(0)+g4hit->get_z(1));
      float gedep     = g4hit->get_edep();
      float glayer    = g4hit->get_layer();
  
      float gtrackID  = g4hit->get_trkid();


      float gflavor   = NAN;
      float gpx       = NAN;
      float gpy       = NAN;
      float gpz       = NAN;

      float gvx       = NAN;
      float gvy       = NAN;
      float gvz       = NAN;

      float gembed  = NAN;
      float gprimary = NAN;

      float gfpx      = NULL;
      float gfpy      = NULL;
      float gfpz      = NULL;
      float gfx       = NULL;
      float gfy       = NULL;
      float gfz       = NULL;

      if (g4particle) {

	gflavor   = g4particle->get_pid();
	gpx       = g4particle->get_px();
	gpy       = g4particle->get_py();
	gpz       = g4particle->get_pz();

	PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle);	

	if (vtx) {
	  gvx       = vtx->get_x();
	  gvy       = vtx->get_y();
	  gvz       = vtx->get_z();
	}
    
	PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle);	
	if (outerhit) {
	  gfpx      = outerhit->get_px(1);
	  gfpy      = outerhit->get_py(1);
	  gfpz      = outerhit->get_pz(1);
	  gfx       = outerhit->get_x(1);
	  gfy       = outerhit->get_y(1);
	  gfz       = outerhit->get_z(1);
	}
	
	gembed    = trutheval->get_embed(g4particle);
	gprimary  = trutheval->is_primary(g4particle);
      } //       if (g4particle)
      
      std::set<SvtxCluster*> clusters = clustereval->all_clusters_from(g4hit);  
      float nclusters = clusters.size();

      // best cluster reco'd
      SvtxCluster* cluster = clustereval->best_cluster_from(g4hit);

      float clusID     = NAN;
      float x          = NAN;
      float y          = NAN;
      float z          = NAN;
      float e          = NAN;
      float adc        = NAN;
      float layer      = NAN;
      float size       = NAN;
      float phisize    = NAN;
      float zsize      = NAN;
      float efromtruth = NAN;

      if (cluster) {
	clusID     = cluster->get_id();
	x          = cluster->get_x();
	y          = cluster->get_y();
	z          = cluster->get_z();
	e          = cluster->get_e();
	adc        = cluster->get_adc();
	layer      = cluster->get_layer();
	size       = cluster->size_hits();
	phisize    = cluster->get_phi_size();
	zsize      = cluster->get_z_size();
	if (g4particle) {
	  efromtruth = clustereval->get_energy_contribution(cluster,g4particle);
	}
      }

      float g4hit_data[35] = {_ievent,
			      g4hitID,
			      gx,
			      gy,
			      gz,
			      gedep,
			      glayer,
			      gtrackID,
			      gflavor,
			      gpx,
			      gpy,
			      gpz,
			      gvx,
			      gvy,
			      gvz,
			      gfpx,
			      gfpy,
			      gfpz,
			      gfx,
			      gfy,
			      gfz,
			      gembed,
			      gprimary,
			      nclusters,
			      clusID,  
			      x,      
			      y,      
			      z,      
			      e,      
			      adc,    
			      layer,  
			      size,   
			      phisize,
			      zsize,  
			      efromtruth
      };

      _ntp_g4hit->Fill(g4hit_data);
    }
  }
  
  //--------------------
  // fill the Hit NTuple
  //--------------------

  if (_ntp_hit) {
    // need things off of the DST...
    SvtxHitMap* hitmap = findNode::getClass<SvtxHitMap>(topNode,"SvtxHitMap");
    if (hitmap) {

      for (SvtxHitMap::Iter iter = hitmap->begin();
	   iter != hitmap->end();
	   ++iter) {

	SvtxHit* hit             = iter->second;
	PHG4Hit* g4hit           = hiteval->max_truth_hit_by_energy(hit);
	PHG4CylinderCell* g4cell = hiteval->get_cell(hit);
	PHG4Particle* g4particle = trutheval->get_particle(g4hit);

	float event  = _ievent;
	float hitID  = hit->get_id();
	float e      = hit->get_e();
	float adc    = hit->get_adc();
	float layer  = hit->get_layer();
	float cellID = hit->get_cellid();
	float ecell  = g4cell->get_edep();

	float g4hitID  = NAN;
	float gedep    = NAN;
	float gx       = NAN;
	float gy       = NAN;
	float gz       = NAN;
	float gtrackID = NAN;
	float gflavor  = NAN;
	float gpx      = NAN;
	float gpy      = NAN;
	float gpz      = NAN;
	float gvx      = NAN;
	float gvy      = NAN;
	float gvz      = NAN;
	float gfpx     = NAN;
	float gfpy     = NAN;
	float gfpz     = NAN;
	float gfx      = NAN;
	float gfy      = NAN;
	float gfz      = NAN;
	float glast    = NAN;
	float gembed   = NAN;
	float gprimary = NAN;
      
	float efromtruth = NAN;
      
	if (g4hit) {
	  g4hitID  = g4hit->get_hit_id();
	  gedep    = g4hit->get_edep();
	  gx       = 0.5*(g4hit->get_x(0)+g4hit->get_x(1));
	  gy       = 0.5*(g4hit->get_y(0)+g4hit->get_y(1));
	  gz       = 0.5*(g4hit->get_z(0)+g4hit->get_z(1));
	  gx       = g4hit->get_x(0);
	  gy       = g4hit->get_y(0);
	  gz       = g4hit->get_z(0);

	  if (g4particle) {

	    gtrackID = g4particle->get_track_id();
	    gflavor  = g4particle->get_pid();
	    gpx      = g4particle->get_px();
	    gpy      = g4particle->get_py();
	    gpz      = g4particle->get_pz();

	    PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle);

	    if (vtx) {
	      gvx      = vtx->get_x();
	      gvy      = vtx->get_y();
	      gvz      = vtx->get_z();
	    }

	    PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle);	
	    if (outerhit) {
	      gfpx     = outerhit->get_px(1);
	      gfpy     = outerhit->get_py(1);
	      gfpz     = outerhit->get_pz(1);
	      gfx      = outerhit->get_x(1);
	      gfy      = outerhit->get_y(1);
	      gfz      = outerhit->get_z(1);
	    }
	    glast    = NAN;
	    gembed   = trutheval->get_embed(g4particle);
	    gprimary = trutheval->is_primary(g4particle);
	  } //   if (g4particle){
	}      

	if (g4particle) {
	  efromtruth = hiteval->get_energy_contribution(hit,g4particle);
	}

	float hit_data[32] = {
	  event,
	  hitID,
	  e,
	  adc,
	  layer,
	  cellID,
	  ecell,
	  g4hitID,
	  gedep,
	  gx,
	  gy,
	  gz,
	  gtrackID,
	  gflavor,
	  gpx,
	  gpy,
	  gpz,
	  gvx,
	  gvy,
	  gvz,
	  gfpx,
	  gfpy,
	  gfpz,
	  gfx,
	  gfy,
	  gfz,
	  gembed,
	  gprimary,
	  efromtruth
	};
	  
	_ntp_hit->Fill(hit_data);     
      }
    }
  }
  
  //------------------------
  // fill the Cluster NTuple
  //------------------------

  if (_ntp_cluster) {
    // need things off of the DST...
    SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap");
    if (clustermap) {

      for (SvtxClusterMap::Iter iter = clustermap->begin();
	   iter != clustermap->end();
	   ++iter) {
    
	SvtxCluster* cluster     = iter->second;   
	PHG4Hit *g4hit           = clustereval->max_truth_hit_by_energy(cluster); 
	PHG4Particle *g4particle = trutheval->get_particle(g4hit);
    
	float hitID    = cluster->get_id();
	float x        = cluster->get_x();
	float y        = cluster->get_y();
	float z        = cluster->get_z();
	float e        = cluster->get_e();
	float adc      = cluster->get_adc();
	float layer    = cluster->get_layer();
	float size     = cluster->size_hits();
	float phisize  = cluster->get_phi_size();
	float zsize    = cluster->get_z_size();

	float g4hitID  = NAN;
	float gx       = NAN;
	float gy       = NAN;
	float gz       = NAN;
	float gtrackID = NAN;
	float gflavor  = NAN;
	float gpx      = NAN;
	float gpy      = NAN;
	float gpz      = NAN;
	float gvx      = NAN;
	float gvy      = NAN;
	float gvz      = NAN;
	float gfpx     = NAN;
	float gfpy     = NAN;
	float gfpz     = NAN;
	float gfx      = NAN;
	float gfy      = NAN;
	float gfz      = NAN;
	float glast    = NAN;
	float gembed   = NAN;
	float gprimary = NAN;
    
	float nhits      = NAN;
	float efromtruth = NAN;
      
	if (g4hit) {
	  g4hitID  = g4hit->get_hit_id();
	  gx       = 0.5*(g4hit->get_x(0)+g4hit->get_x(1));
	  gy       = 0.5*(g4hit->get_y(0)+g4hit->get_y(1));
	  gz       = 0.5*(g4hit->get_z(0)+g4hit->get_z(1));
	  gx       = g4hit->get_x(0);
	  gy       = g4hit->get_y(0);
	  gz       = g4hit->get_z(0);

	  if (g4particle) {

	    gtrackID = g4particle->get_track_id();
	    gflavor  = g4particle->get_pid();
	    gpx      = g4particle->get_px();
	    gpy      = g4particle->get_py();
	    gpz      = g4particle->get_pz();

	    PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle);
	    if (vtx) {
	      gvx      = vtx->get_x();
	      gvy      = vtx->get_y();
	      gvz      = vtx->get_z();
	    }

	    PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle);	
	    if (outerhit) {
	      gfpx     = outerhit->get_px(1);
	      gfpy     = outerhit->get_py(1);
	      gfpz     = outerhit->get_pz(1);
	      gfx      = outerhit->get_x(1);
	      gfy      = outerhit->get_y(1);
	      gfz      = outerhit->get_z(1);
	    }
	    
	    glast    = NAN;
	    gembed   = trutheval->get_embed(g4particle);
	    gprimary = trutheval->is_primary(g4particle);
	  }      //   if (g4particle){
	} //  if (g4hit) {

	if (g4particle){
	  efromtruth = clustereval->get_energy_contribution(cluster,g4particle);
	}

	float cluster_data[33] = {_ievent,
				  hitID,
				  x,
				  y,
				  z,
				  e,
				  adc,
				  layer,
				  size,
				  phisize,
				  zsize,
				  g4hitID,
				  gx,
				  gy,
				  gz,
				  gtrackID,
				  gflavor,
				  gpx,
				  gpy,
				  gpz,
				  gvx,
				  gvy,
				  gvz,
				  gfpx,
				  gfpy,
				  gfpz,
				  gfx,
				  gfy,
				  gfz,
				  gembed,
				  gprimary,
				  nhits,
				  efromtruth};

	_ntp_cluster->Fill(cluster_data);
      }		  
    }
  }
  
  //------------------------
  // fill the Gtrack NTuple
  //------------------------

  // need things off of the DST...

  if (_ntp_gtrack) {
    PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo");   
    SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap");
    if (truthinfo) {

      PHG4TruthInfoContainer::ConstRange range = truthinfo->GetPrimaryParticleRange();
      for (PHG4TruthInfoContainer::ConstIterator iter = range.first;
	   iter != range.second; 
	 ++iter) {
	
	PHG4Particle* g4particle = iter->second;
    
	float gtrackID = g4particle->get_track_id();
	float gflavor  = g4particle->get_pid();
      
	std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle);     
	float ng4hits = g4hits.size();  
	float gpx      = g4particle->get_px();
	float gpy      = g4particle->get_py();
	float gpz      = g4particle->get_pz();

	PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle);	
	float gvx      = vtx->get_x();
	float gvy      = vtx->get_y();
	float gvz      = vtx->get_z();

	float gfpx      = NULL;
	float gfpy      = NULL;
	float gfpz      = NULL;
	float gfx       = NULL;
	float gfy       = NULL;
	float gfz       = NULL;
    
	PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle);	
	if (outerhit) {
	  gfpx      = outerhit->get_px(1);
	  gfpy      = outerhit->get_py(1);
	  gfpz      = outerhit->get_pz(1);
	  gfx       = outerhit->get_x(1);
	  gfy       = outerhit->get_y(1);
	  gfz       = outerhit->get_z(1);
	}
      
	float gembed   = trutheval->get_embed(g4particle);
	float gprimary = trutheval->is_primary(g4particle);

	SvtxTrack* track = trackeval->best_track_from(g4particle);

	float trackID       = NAN;
	float charge        = NAN;
	float quality       = NAN;
	float chisq         = NAN;
	float ndf           = NAN;
	float nhits         = NAN;
	unsigned int layers = 0x0;
	float dca           = NAN;
	float dca2d         = NAN;
	float dca2dsigma    = NAN;
	float px            = NAN;
	float py            = NAN;
	float pz            = NAN;
	float pcax          = NAN;
	float pcay          = NAN;
	float pcaz          = NAN;

	float nfromtruth    = NAN;

	if (track) {
	  trackID   = track->get_id();     
	  charge    = track->get_charge();
	  quality   = track->get_quality();
	  chisq     = track->get_chisq();
	  ndf       = track->get_ndf();
	  nhits     = track->size_clusters();
	  
	  for (SvtxTrack::ConstClusterIter iter = track->begin_clusters();
	       iter != track->end_clusters();
	       ++iter) {
	    unsigned int cluster_id = *iter;
	    SvtxCluster* cluster = clustermap->get(cluster_id);
	    unsigned int layer = cluster->get_layer();
	    if (layer < 32) layers |= (0x1 << layer);
	  }

	  dca       = track->get_dca();
	  dca2d     = track->get_dca2d();
	  dca2dsigma = track->get_dca2d_error();
	  px        = track->get_px();
	  py        = track->get_py();
	  pz        = track->get_pz();
	  pcax      = track->get_x();
	  pcay      = track->get_y();
	  pcaz      = track->get_z();

	  nfromtruth = trackeval->get_nclusters_contribution(track,g4particle);
	}
      
	float gtrack_data[34] = {_ievent,
				 gtrackID,
				 gflavor,
				 ng4hits,
				 gpx,
				 gpy,
				 gpz,
				 gvx,
				 gvy,
				 gvz,
				 gfpx,
				 gfpy,
				 gfpz,
				 gfx,
				 gfy,
				 gfz,
				 gembed,
				 gprimary,
				 trackID,
				 px,         
				 py,         
				 pz,  
				 charge,     
				 quality,    
				 chisq,      
				 ndf,        
				 nhits,      
				 layers,     
				 dca2d,      
				 dca2dsigma, 			       
				 pcax,       
				 pcay,       
				 pcaz,
				 nfromtruth
	};

	_ntp_gtrack->Fill(gtrack_data);
      }	     
    }
  }
  
  //------------------------
  // fill the Track NTuple
  //------------------------

  if (_ntp_track) {
    // need things off of the DST...
    SvtxTrackMap* trackmap = findNode::getClass<SvtxTrackMap>(topNode,"SvtxTrackMap");
    SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap");
    if (trackmap) {

      for (SvtxTrackMap::Iter iter = trackmap->begin();
	   iter != trackmap->end();
	   ++iter) {
    
	SvtxTrack* track = iter->second;

	float trackID   = track->get_id();     
	float charge    = track->get_charge();
	float quality   = track->get_quality();
	float chisq     = track->get_chisq();
	float ndf       = track->get_ndf();
	float nhits     = track->size_clusters();

	unsigned int layers = 0x0;
	for (SvtxTrack::ConstClusterIter iter = track->begin_clusters();
	     iter != track->end_clusters();
	     ++iter) {
	  unsigned int cluster_id = *iter;
	  SvtxCluster* cluster = clustermap->get(cluster_id);
	  unsigned int layer = cluster->get_layer();
	  if (layer < 32) layers |= (0x1 << layer);
	}
      
	float dca2d     = track->get_dca2d();
	float dca2dsigma = track->get_dca2d_error();
	float px        = track->get_px();
	float py        = track->get_py();
	float pz        = track->get_pz();
	float pcax      = track->get_x();
	float pcay      = track->get_y();
	float pcaz      = track->get_z();

	float presdphi = track->get_cal_dphi(SvtxTrack::PRES);
	float presdeta = track->get_cal_deta(SvtxTrack::PRES);
	float prese3x3 = track->get_cal_energy_3x3(SvtxTrack::PRES);
	float prese    = track->get_cal_cluster_e(SvtxTrack::PRES);

	float cemcdphi = track->get_cal_dphi(SvtxTrack::CEMC);
	float cemcdeta = track->get_cal_deta(SvtxTrack::CEMC);
	float cemce3x3 = track->get_cal_energy_3x3(SvtxTrack::CEMC);
	float cemce    = track->get_cal_cluster_e(SvtxTrack::CEMC);

	float hcalindphi = track->get_cal_dphi(SvtxTrack::HCALIN);
	float hcalindeta = track->get_cal_deta(SvtxTrack::HCALIN);
	float hcaline3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALIN);
	float hcaline    = track->get_cal_cluster_e(SvtxTrack::HCALIN);

	float hcaloutdphi = track->get_cal_dphi(SvtxTrack::HCALOUT);
	float hcaloutdeta = track->get_cal_deta(SvtxTrack::HCALOUT);
	float hcaloute3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALOUT);
	float hcaloute    = track->get_cal_cluster_e(SvtxTrack::HCALOUT);

	float gtrackID = NAN;
	float gflavor  = NAN;     
	float ng4hits  = NAN;
	float gpx      = NAN;
	float gpy      = NAN;
	float gpz      = NAN;
	float gvx      = NAN;
	float gvy      = NAN;
	float gvz      = NAN;
	float gfpx     = NAN;
	float gfpy     = NAN;
	float gfpz     = NAN;
	float gfx      = NAN;
	float gfy      = NAN;
	float gfz      = NAN;
	float gembed   = NAN;
	float gprimary = NAN;

	float nfromtruth = NAN;
      
	PHG4Particle* g4particle = trackeval->max_truth_particle_by_nclusters(track);
      
	if (g4particle) {
	  gtrackID = g4particle->get_track_id();
	  gflavor  = g4particle->get_pid();
      
	  std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle);     
	  ng4hits = g4hits.size();  
	  gpx      = g4particle->get_px();
	  gpy      = g4particle->get_py();
	  gpz      = g4particle->get_pz();
	
	  PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle);	
	  gvx      = vtx->get_x();
	  gvy      = vtx->get_y();
	  gvz      = vtx->get_z();

	  PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle);	      
	  if (outerhit) {
	    gfpx     = outerhit->get_px(1);
	    gfpy     = outerhit->get_py(1);
	    gfpz     = outerhit->get_pz(1);
	    gfx      = outerhit->get_x(1);
	    gfy      = outerhit->get_y(1);
	    gfz      = outerhit->get_z(1);
	  }
	  gembed   = trutheval->get_embed(g4particle);
	  gprimary = trutheval->is_primary(g4particle);

	  nfromtruth = trackeval->get_nclusters_contribution(track,g4particle);
	}
      
	float track_data[50] = {_ievent,
				trackID, 
				px,        
				py,        
				pz,      
				charge,  
				quality, 
				chisq,   
				ndf,     
				nhits,   
				layers,
				dca2d,     
				dca2dsigma,      
				pcax,      
				pcay,      
				pcaz,      
				presdphi,
				presdeta,
				prese3x3,
				prese,   
				cemcdphi,
				cemcdeta,
				cemce3x3,
				cemce,   
				hcalindphi,
				hcalindeta,
				hcaline3x3,
				hcaline,   
				hcaloutdphi,
				hcaloutdeta,
				hcaloute3x3,
				hcaloute,
				gtrackID,
				gflavor,
				ng4hits,
				gpx,
				gpy,
				gpz,
				gvx,
				gvy,
				gvz,
				gfpx,
				gfpy,
				gfpz,
				gfx,
				gfy,
				gfz,
				gembed,
				gprimary,
				nfromtruth
	};
      
	_ntp_track->Fill(track_data);
      }
    }
  }
  
  return;
}
Example #3
0
void PhotonJet::GetRecoHadronsAndJets(RawCluster *trig,
				      SvtxTrackMap *tracks,
				      JetMap *jets,
				      JetRecoEval *recoeval)
{

  float trig_phi = trig->get_phi();
  float trig_eta = trig->get_eta();

 
  for(SvtxTrackMap::Iter iter = tracks->begin(); iter!=tracks->end(); ++iter){

    SvtxTrack *track = iter->second;

    _tr_px = track->get_px();
    _tr_py = track->get_py();
    _tr_pz = track->get_pz();
    _tr_pt = sqrt(_tr_px*_tr_px+_tr_py*_tr_py);
    if(_tr_pt<0.5)
      continue;

    _tr_p = sqrt(_tr_px*_tr_px+_tr_py*_tr_py+_tr_pz*_tr_pz);
    _tr_phi = track->get_phi();
    _tr_eta = track->get_eta();
    _charge = track->get_charge();
    _chisq = track->get_chisq();
    _ndf = track->get_ndf();
    _dca = track->get_dca();
    _tr_x = track->get_x();
    _tr_y = track->get_y();
    _tr_z = track->get_z();

    haddphi = trig_phi-_tr_phi;
    if(haddphi<pi2)
      haddphi+=2.*pi;
    if(haddphi>threepi2)
      haddphi-=2.*pi;


    haddeta = trig_eta-_tr_eta;

    hadpout = _tr_p*TMath::Sin(haddphi);

    isophot_had_tree->Fill();
    

  }
  for(JetMap::Iter iter = jets->begin(); iter!=jets->end(); ++iter){
    Jet* jet = iter->second;
    Jet *truthjet = recoeval->max_truth_jet_by_energy(jet);

    _recojetpt = jet->get_pt();
    if(_recojetpt<4.0) 
      continue;
      
    _recojeteta = jet->get_eta();
    if(fabs(_recojeteta)>1.)
      continue;

    _recojetpx = jet->get_px();
    _recojetpy = jet->get_py();
    _recojetpz = jet->get_pz();
    _recojetphi = jet->get_phi();
    _recojetmass = jet->get_mass();
    _recojetp = jet->get_p();
    _recojetenergy = jet->get_e();
    _recojetid = jet->get_id();

    if(truthjet){
      _truthjetid = truthjet->get_id();
      _truthjetp = truthjet->get_p();
      _truthjetphi = truthjet->get_phi();
      _truthjeteta = truthjet->get_eta();
      _truthjetpt = truthjet->get_pt();
      _truthjetenergy = truthjet->get_e();
      _truthjetpx = truthjet->get_px();
      _truthjetpy = truthjet->get_py();
      _truthjetpz = truthjet->get_pz();
    }
    else{
      _truthjetid = 0;
      _truthjetp = 0;
      _truthjetphi = 0;
      _truthjeteta = 0;
      _truthjetpt = 0;
      _truthjetenergy = 0;
      _truthjetpx = 0;
      _truthjetpy = 0;
      _truthjetpz = 0;

    }
    
    jetdphi = trig_phi-_recojetphi;
    if(jetdphi<pi2)
      jetdphi+=2.*pi;
    if(jetdphi>threepi2)
      jetdphi-=2.*pi;
    
    jetdeta = trig_eta-_recojeteta;
    jetpout = _recojetpt*TMath::Sin(jetdphi);

    isophot_jet_tree->Fill();
  }


}