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FWTauProxyBuilderBase.cc
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1 // -*- C++ -*-
2 //
3 // Package: Calo
4 // Class : FWTauProxyBuilderBase
5 //
6 // Implementation:
7 // [Notes on implementation]
8 //
9 // Original Author: Alja Mrak-Tadel
10 // Created: Thu Oct 21 20:40:28 CEST 2010
11 //
12 
13 // system include files
14 
15 // user include files
16 #include "TGeoTube.h"
17 #include "TEveJetCone.h"
18 #include "TEveGeoNode.h"
19 #include "TEveScalableStraightLineSet.h"
20 #include "TEveTrack.h"
21 
29 
31 
34 
35 
37  m_minTheta(0),
38  m_maxTheta(0)
39 {
40 }
41 
43 {
44 }
45 
46 void
48 {
49  // track
50  addLeadTrack( iTau, comp );
51  addConstituentTracks( iTau, comp );
52 
53  // projected markers
54  if (FWViewType::isProjected(type))
55  {
56  double phi = iTau.phi();
57  double theta = iTau.theta();
58  double size = 1;
59 
60  bool barrel = (theta< context().caloTransAngle() || theta > (TMath::Pi() - context().caloTransAngle()));
61  float ecalR = barrel ? context().caloR1() : context().caloR2();
62  float ecalZ = barrel ? context().caloZ1() : context().caloZ2();
63 
64  TEveScalableStraightLineSet* marker = new TEveScalableStraightLineSet( "energy" );
65 
66  if( type == FWViewType::kRhoZ )
67  {
68  double r(0);
69  ( theta < context().caloTransAngle() || M_PI-theta < context().caloTransAngle()) ?
70  r = ecalZ/fabs(cos(theta)) :
71  r = ecalR/sin(theta);
72 
73  fireworks::addRhoZEnergyProjection( this, comp, ecalR, ecalZ, m_minTheta-0.003, m_maxTheta+0.003, phi);
74 
75  marker->SetScaleCenter( 0., (phi>0 ? r*fabs(sin(theta)) : -r*fabs(sin(theta))), r*cos(theta) );
76  marker->AddLine(0., (phi>0 ? r*fabs(sin(theta)) : -r*fabs(sin(theta))), r*cos(theta),
77  0., (phi>0 ? (r+size)*fabs(sin(theta)) : -(r+size)*fabs(sin(theta))), (r+size)*cos(theta) );
78 
79  }
80  else
81  {
82  std::pair<double,double> phiRange = fireworks::getPhiRange( m_phis, phi );
83  double min_phi = phiRange.first-M_PI/36/2;
84  double max_phi = phiRange.second+M_PI/36/2;
85  if( fabs(phiRange.first-phiRange.first)<1e-3 ) {
86  min_phi = phi-M_PI/36/2;
87  max_phi = phi+M_PI/36/2;
88  }
89  TEveGeoManagerHolder gmgr(TEveGeoShape::GetGeoMangeur());
90  TGeoBBox *sc_box = new TGeoTubeSeg(ecalR - 1, ecalR + 1, 1, min_phi * 180 / M_PI, max_phi * 180 / M_PI);
91  TEveGeoShape *shape = fireworks::getShape( "spread", sc_box, item()->defaultDisplayProperties().color() );
92  shape->SetPickable(kTRUE);
93  setupAddElement( shape, comp );
94 
95  marker->SetScaleCenter(ecalR*cos(phi), ecalR*sin(phi), 0);
96  marker->AddLine( ecalR*cos( phi ), ecalR*sin( phi ), 0,
97  ( ecalR+size )*cos( phi ), ( ecalR+size )*sin( phi ), 0);
98  }
99  marker->SetLineWidth(4);
100  FWViewEnergyScale* caloScale = vc->getEnergyScale();
101  marker->SetScale(caloScale->getScaleFactor3D()*(caloScale->getPlotEt() ? iTau.et() : iTau.energy()));
102  setupAddElement( marker, comp );
103  m_lines.push_back(fireworks::scaleMarker(marker, iTau.et(), iTau.energy(), vc));
104 
105  context().voteMaxEtAndEnergy( iTau.et(), iTau.energy());
106  }
107  else if (iJet)
108  {
109  // jet
110  TEveJetCone* cone = fireworks::makeEveJetCone(*iJet, context());
112  cone->SetFillColor(dp.color());
113  cone->SetLineColor(dp.color());
114  setupAddElement( cone, comp );
115  cone->SetMainTransparency(TMath::Min(100, 80 + dp.transparency() / 5));
116  }
117 }
118 
119 // Tracks which passed quality cuts and are inside a tracker signal cone around leading Track
120 void
121 FWTauProxyBuilderBase::addConstituentTracks( const reco::BaseTau &tau, class TEveElement* product )
122 {
123  for( reco::TrackRefVector::iterator i = tau.signalTracks().begin(), iEnd = tau.signalTracks().end();
124  i != iEnd; ++i ) {
125  TEveTrack* track( 0 );
126  if( i->isAvailable() ) {
127  track = fireworks::prepareTrack( **i, context().getTrackPropagator() );
128  track->MakeTrack();
129  setupAddElement( track, product );
130  }
131  }
132 }
133 
134 // Leading Track
135 void
136 FWTauProxyBuilderBase::addLeadTrack( const reco::BaseTau &tau, class TEveElement *product )
137 {
138  const reco::TrackRef leadTrack = tau.leadTrack();
139  if( !leadTrack ) return;
140 
141  TEveTrack* track = fireworks::prepareTrack( *leadTrack, context().getTrackPropagator() );
142  if( track )
143  {
144  track->MakeTrack();
145  setupAddElement( track, product );
146  }
147 }
148 
149 void
150 FWTauProxyBuilderBase::localModelChanges(const FWModelId& iId, TEveElement* iCompound,
151  FWViewType::EType viewType, const FWViewContext* vc)
152 {
153  if (FWViewType::isProjected(viewType))
154  increaseComponentTransparency(iId.index(), iCompound, "TEveJetCone", 80);
155 }
156 
157 void
159 {
160  if (FWViewType::isProjected(viewType))
161  {
162  typedef std::vector<fireworks::scaleMarker> Lines_t;
163  FWViewEnergyScale* caloScale = vc->getEnergyScale();
164  // printf("%p -> %f\n", this,caloScale->getValToHeight() );
165  for (Lines_t::iterator i = m_lines.begin(); i!= m_lines.end(); ++ i)
166  {
167  if (vc == (*i).m_vc)
168  {
169  float value = caloScale->getPlotEt() ? (*i).m_et : (*i).m_energy;
170  (*i).m_ls->SetScale(caloScale->getScaleFactor3D()*value);
171  TEveProjected* proj = *(*i).m_ls->BeginProjecteds();
172  proj->UpdateProjection();
173  }
174  }
175  }
176 }
177 
178 void
180 {
181  m_lines.clear();
182 }
const double Pi
type
Definition: HCALResponse.h:21
const fireworks::Context & context() const
virtual reco::TrackRef leadTrack() const
Definition: BaseTau.cc:26
float getScaleFactor3D() const
int i
Definition: DBlmapReader.cc:9
const FWDisplayProperties & defaultDisplayProperties() const
Definition: FWEventItem.cc:451
std::pair< double, double > getPhiRange(const std::vector< double > &phis, double phi)
Definition: BuilderUtils.cc:21
list parent
Definition: dbtoconf.py:74
virtual double et() const
transverse energy
static float caloTransAngle()
Definition: Context.cc:234
TEveTrack * prepareTrack(const reco::Track &track, TEveTrackPropagator *propagator, const std::vector< TEveVector > &extraRefPoints=std::vector< TEveVector >())
Definition: TrackUtils.cc:73
void addLeadTrack(const reco::BaseTau &tau, class TEveElement *product)
Base class for all types of Jets.
Definition: Jet.h:20
void voteMaxEtAndEnergy(float Et, float energy) const
Definition: Context.cc:184
void setupAddElement(TEveElement *el, TEveElement *parent, bool set_color=true) const
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
FWViewEnergyScale * getEnergyScale() const
virtual void localModelChanges(const FWModelId &iId, TEveElement *iCompound, FWViewType::EType viewType, const FWViewContext *vc)
Geom::Theta< T > theta() const
static float caloZ2(bool offset=true)
Definition: Context.cc:224
T Min(T a, T b)
Definition: MathUtil.h:39
const_iterator end() const
Termination of iteration.
Definition: RefVector.h:249
const_iterator begin() const
Initialize an iterator over the RefVector.
Definition: RefVector.h:244
const FWEventItem * item() const
Color_t color() const
void addConstituentTracks(const reco::BaseTau &tau, class TEveElement *product)
void buildBaseTau(const reco::BaseTau &iTau, const reco::Jet *iJet, TEveElement *comp, FWViewType::EType type, const FWViewContext *vc)
static bool isProjected(int)
Definition: FWViewType.cc:128
virtual void scaleProduct(TEveElementList *parent, FWViewType::EType, const FWViewContext *vc)
virtual double energy() const
energy
Char_t transparency() const
static float caloR2(bool offset=true)
Definition: Context.cc:214
int index() const
Definition: FWModelId.h:49
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
static float caloR1(bool offset=true)
Definition: Context.cc:209
virtual const reco::TrackRefVector & signalTracks() const
Definition: BaseTau.cc:28
#define M_PI
virtual double theta() const
momentum polar angle
void addRhoZEnergyProjection(FWProxyBuilderBase *, TEveElement *, double r_ecal, double z_ecal, double theta_min, double theta_max, double phi)
Definition: BuilderUtils.cc:60
static float caloZ1(bool offset=true)
Definition: Context.cc:219
std::vector< double > m_phis
TEveGeoShape * getShape(const char *name, TGeoBBox *shape, Color_t color)
Definition: BuilderUtils.cc:42
std::vector< fireworks::scaleMarker > m_lines
virtual double phi() const
momentum azimuthal angle
tuple size
Write out results.
void increaseComponentTransparency(unsigned int index, TEveElement *holder, const std::string &name, Char_t transpOffset)
TEveJetCone * makeEveJetCone(const reco::Jet &iData, const fireworks::Context &context)
bool getPlotEt() const
Definition: DDAxes.h:10