Inheritance diagram for FWTracksterHitsProxyBuilder:

Public Member Functions
	FWTracksterHitsProxyBuilder (void)

	FWTracksterHitsProxyBuilder (const FWTracksterHitsProxyBuilder &)=delete

const FWTracksterHitsProxyBuilder &	operator= (const FWTracksterHitsProxyBuilder &)=delete

const std::string &	purpose () const

const std::string &	typeName () const

const std::string &	view () const

	~FWTracksterHitsProxyBuilder (void) override

Public Member Functions inherited from FWHeatmapProxyBuilderTemplate< ticl::Trackster >
	FWHeatmapProxyBuilderTemplate ()

	FWHeatmapProxyBuilderTemplate (const FWHeatmapProxyBuilderTemplate &)=delete

const FWHeatmapProxyBuilderTemplate &	operator= (const FWHeatmapProxyBuilderTemplate &)=delete

Public Member Functions inherited from FWSimpleProxyBuilder
	FWSimpleProxyBuilder (const std::type_info &iType)

	FWSimpleProxyBuilder (const FWSimpleProxyBuilder &)=delete

const FWSimpleProxyBuilder &	operator= (const FWSimpleProxyBuilder &)=delete

	~FWSimpleProxyBuilder () override

Public Member Functions inherited from FWProxyBuilderBase
void	build ()

virtual bool	canHandle (const FWEventItem &)

const fireworks::Context &	context () const

TEveElementList *	createProduct (FWViewType::EType, const FWViewContext *)

	FWProxyBuilderBase ()

bool	getHaveWindow () const

virtual bool	havePerViewProduct (FWViewType::EType) const

virtual bool	haveSingleProduct () const

const FWEventItem *	item () const

virtual void	itemBeingDestroyed (const FWEventItem *)

void	itemChanged (const FWEventItem *)

int	layer () const

void	modelChanges (const FWModelIds &)

void	removePerViewProduct (FWViewType::EType, const FWViewContext *vc)

void	scaleChanged (const FWViewContext *)

void	setHaveWindow (bool iFlag)

virtual void	setInteractionList (FWInteractionList *, const std::string &)

void	setupAddElement (TEveElement el, TEveElement parent, bool set_color=true) const

void	setupElement (TEveElement *el, bool color=true) const

virtual bool	willHandleInteraction () const

virtual	~FWProxyBuilderBase ()

Static Public Member Functions
static const std::string &	classPurpose ()

static const std::string &	classRegisterTypeName ()

static const std::string &	classTypeName ()

static const std::string &	classView ()

Static Public Member Functions inherited from FWSimpleProxyBuilder
static std::string	typeOfBuilder ()
	Used by the plugin system to determine how the proxy uses the data from FWEventItem. More...

Static Public Member Functions inherited from FWProxyBuilderBase
static bool	representsSubPart ()

static std::string	typeOfBuilder ()
	Used by the plugin system to determine how the proxy uses the data from FWEventItem. More...

Private Member Functions
void	build (const FWEventItem iItem, TEveElementList product, const FWViewContext *vc) override

void	build (const ticl::Trackster &iData, unsigned int iIndex, TEveElement &oItemHolder, const FWViewContext *) override

void	setItem (const FWEventItem *iItem) override

Private Attributes
bool	enableEdges_

bool	enablePositionLines_

bool	enableSeedLines_

bool	enableTimeFilter_

bool	heatmap_

long	layer_

edm::Handle< std::vector< reco::CaloCluster > >	layerClustersHandle_

double	saturation_energy_

double	timeLowerBound_

double	timeUpperBound_

edm::Handle< edm::ValueMap< std::pair< float, float > > >	TimeValueMapHandle_

bool	z_minus_

bool	z_plus_

Additional Inherited Members
Protected Types inherited from FWProxyBuilderBase
typedef std::vector< Product * >::iterator	Product_it

Protected Member Functions inherited from FWHeatmapProxyBuilderTemplate< ticl::Trackster >
void	build (const FWEventItem iItem, TEveElementList product, const FWViewContext *vc) override

void	build (const FWEventItem iItem, TEveElementList product, const FWViewContext *) override

virtual void	build (const void , unsigned int iIndex, TEveElement &iItemHolder, const FWViewContext )=0

void	build (const void iData, unsigned int iIndex, TEveElement &oItemHolder, const FWViewContext context) override

virtual void	buildViewType (const void , unsigned int iIndex, TEveElement &iItemHolder, FWViewType::EType, const FWViewContext )=0

void	buildViewType (const FWEventItem iItem, TEveElementList product, FWViewType::EType viewType, const FWViewContext *) override

void	buildViewType (const void iData, unsigned int iIndex, TEveElement &oItemHolder, FWViewType::EType viewType, const FWViewContext context) override

virtual void	buildViewType (const ticl::Trackster &iData, unsigned int iIndex, TEveElement &oItemHolder, FWViewType::EType viewType, const FWViewContext *)

const ticl::Trackster &	modelData (int index)

void	setItem (const FWEventItem *iItem) override

Protected Member Functions inherited from FWSimpleProxyBuilder
void	build ()

virtual void	build (const FWEventItem iItem, TEveElementList product, const FWViewContext *)

virtual void	buildViewType (const FWEventItem iItem, TEveElementList , FWViewType::EType, const FWViewContext *)

void	buildViewType (const FWEventItem iItem, TEveElementList product, FWViewType::EType viewType, const FWViewContext *) override

void	clean () override

Protected Member Functions inherited from FWProxyBuilderBase
virtual void	cleanLocal ()

TEveCompound *	createCompound (bool set_color=true, bool propagate_color_to_all_children=false) const

	FWProxyBuilderBase (const FWProxyBuilderBase &)

void	increaseComponentTransparency (unsigned int index, TEveElement *holder, const std::string &name, Char_t transpOffset)

virtual void	localModelChanges (const FWModelId &iId, TEveElement iCompound, FWViewType::EType viewType, const FWViewContext vc)

virtual void	modelChanges (const FWModelIds &, Product *)

const FWProxyBuilderBase &	operator= (const FWProxyBuilderBase &)

virtual void	scaleProduct (TEveElementList parent, FWViewType::EType, const FWViewContext vc)

Protected Attributes inherited from FWHeatmapProxyBuilderTemplate< ticl::Trackster >
std::unordered_map< DetId, const HGCRecHit >	hitmap

Protected Attributes inherited from FWSimpleProxyBuilder
FWSimpleProxyHelper	m_helper

Protected Attributes inherited from FWProxyBuilderBase
std::vector< Product * >	m_products

Static Protected Attributes inherited from FWHeatmapProxyBuilderTemplate< ticl::Trackster >
static constexpr uint8_t	gradient [3][gradient_steps]

static constexpr uint8_t	gradient_steps

Detailed Description

Definition at line 16 of file FWTracksterHitsProxyBuilder.cc.

Constructor & Destructor Documentation

◆ FWTracksterHitsProxyBuilder() [1/2]

FWTracksterHitsProxyBuilder::FWTracksterHitsProxyBuilder ( void )

inline

Definition at line 18 of file FWTracksterHitsProxyBuilder.cc.

18 {}

◆ ~FWTracksterHitsProxyBuilder()

FWTracksterHitsProxyBuilder::~FWTracksterHitsProxyBuilder ( void )

inlineoverride

Definition at line 19 of file FWTracksterHitsProxyBuilder.cc.

19 {}

◆ FWTracksterHitsProxyBuilder() [2/2]

FWTracksterHitsProxyBuilder::FWTracksterHitsProxyBuilder ( const FWTracksterHitsProxyBuilder & )

delete

Member Function Documentation

◆ build() [1/2]

void FWTracksterHitsProxyBuilder::build	(	const FWEventItem *	iItem,
		TEveElementList *	product,
		const FWViewContext *	vc
	)

overrideprivatevirtual

Reimplemented from FWProxyBuilderBase.

Definition at line 62 of file FWTracksterHitsProxyBuilder.cc.

References FWProxyBuilderBase::build(), enableEdges_, enablePositionLines_, enableSeedLines_, enableTimeFilter_, edm::EventBase::getByLabel(), FWEventItem::getConfig(), FWEventItem::getEvent(), heatmap_, edm::HandleBase::isValid(), FWProxyBuilderBase::item(), layer_, layerClustersHandle_, saturation_energy_, timeLowerBound_, timeUpperBound_, TimeValueMapHandle_, FWProxyBuilderConfiguration::value(), z_minus_, and z_plus_.

                                                                                                                    {
   iItem->getEvent()->getByLabel(edm::InputTag("hgcalLayerClusters", "timeLayerCluster"), TimeValueMapHandle_);
   iItem->getEvent()->getByLabel(edm::InputTag("hgcalLayerClusters"), layerClustersHandle_);
   if (TimeValueMapHandle_.isValid()) {
     timeLowerBound_ = item()->getConfig()->value<double>("TimeLowerBound(ns)");
     timeUpperBound_ = item()->getConfig()->value<double>("TimeUpperBound(ns)");
     if (timeLowerBound_ > timeUpperBound_) {
       edm::LogWarning("InvalidParameters")
           << "lower time bound is larger than upper time bound. Maybe opposite is desired?";
     }
   } else {
     edm::LogWarning("DataNotFound|InvalidData") << "couldn't locate 'timeLayerCluster' ValueMap in root file.";
   }
 
   if (!layerClustersHandle_.isValid()) {
     edm::LogWarning("DataNotFound|InvalidData") << "couldn't locate 'timeLayerCluster' ValueMap in root file.";
   }
 
   layer_ = item()->getConfig()->value<long>("Layer");
   saturation_energy_ = item()->getConfig()->value<double>("EnergyCutOff");
   heatmap_ = item()->getConfig()->value<bool>("Heatmap");
   z_plus_ = item()->getConfig()->value<bool>("Z+");
   z_minus_ = item()->getConfig()->value<bool>("Z-");
   enableTimeFilter_ = item()->getConfig()->value<bool>("EnableTimeFilter");
   enableSeedLines_ = item()->getConfig()->value<bool>("EnableSeedLines");
   enablePositionLines_ = item()->getConfig()->value<bool>("EnablePositionLines");
   enableEdges_ = item()->getConfig()->value<bool>("EnableEdges");
 
   FWHeatmapProxyBuilderTemplate::build(iItem, product, vc);
 }

◆ build() [2/2]

void FWTracksterHitsProxyBuilder::build	(	const ticl::Trackster &	iData,
		unsigned int	iIndex,
		TEveElement &	oItemHolder,
		const FWViewContext *
	)

overrideprivatevirtual

iIndex is the index where iData is found in the container from which it came iItemHolder is the object to which you add your own objects which inherit from TEveElement

Reimplemented from FWHeatmapProxyBuilderTemplate< ticl::Trackster >.

Definition at line 93 of file FWTracksterHitsProxyBuilder.cc.

References funct::abs(), alpha, FWEventItem::ModelInfo::displayProperties(), ticl::Trackster::edges(), SelectiveReadoutTask_cfi::edges, enableEdges_, enablePositionLines_, enableSeedLines_, enableTimeFilter_, HCALHighEnergyHPDFilter_cfi::energy, reco::CaloCluster::energy(), f, edm::ValueMap< T >::get(), FWGeometry::getCorners(), FWEventItem::getGeom(), FWGeometry::getParameters(), FWGeometry::getShapePars(), FWHeatmapProxyBuilderTemplate< ticl::Trackster >::gradient, FWHeatmapProxyBuilderTemplate< ticl::Trackster >::gradient_steps, heatmap_, FWHeatmapProxyBuilderTemplate< ticl::Trackster >::hitmap, reco::CaloCluster::hitsAndFractions(), mps_fire::i, edm::HandleBase::isValid(), FWProxyBuilderBase::item(), FWProxyBuilderBase::layer(), layer_, hltEgammaHGCALIDVarsL1Seeded_cfi::layerClusters, layerClustersHandle_, FWEventItem::modelInfo(), N, hltrates_dqm_sourceclient-live_cfg::offset, reco::CaloCluster::position(), CosmicsPD_Skims::radius, DetId::rawId(), saturation_energy_, reco::CaloCluster::seed(), FWProxyBuilderBase::setupAddElement(), protons_cff::time, timeUpperBound_, TimeValueMapHandle_, FWDisplayProperties::transparency(), trackerHitRTTI::vector, ticl::Trackster::vertices(), z_minus_, z_plus_, and ecaldqm::zside().

                                                                {
   if (enableTimeFilter_ && TimeValueMapHandle_.isValid()) {
     const float time = TimeValueMapHandle_->get(iIndex).first;
     if (time < timeLowerBound_ || time > timeUpperBound_)
       return;
   }
 
   const ticl::Trackster &trackster = iData;
   const size_t N = trackster.vertices().size();
   const std::vector<reco::CaloCluster> &layerClusters = *layerClustersHandle_;
 
   TEveBoxSet *hex_boxset = new TEveBoxSet();
   if (!heatmap_)
     hex_boxset->UseSingleColor();
   hex_boxset->SetPickable(true);
   hex_boxset->Reset(TEveBoxSet::kBT_Hex, true, 64);
 
   TEveBoxSet *boxset = new TEveBoxSet();
   if (!heatmap_)
     boxset->UseSingleColor();
   boxset->SetPickable(true);
   boxset->Reset(TEveBoxSet::kBT_FreeBox, true, 64);
 
   TEveStraightLineSet *seed_marker = nullptr;
   if (enableSeedLines_) {
     seed_marker = new TEveStraightLineSet("seeds");
     seed_marker->SetLineWidth(2);
     seed_marker->SetLineColor(kOrange + 10);
     seed_marker->GetLinePlex().Reset(sizeof(TEveStraightLineSet::Line_t), 2 * N);
   }
 
   TEveStraightLineSet *position_marker = nullptr;
   if (enablePositionLines_) {
     position_marker = new TEveStraightLineSet("positions");
     position_marker->SetLineWidth(2);
     position_marker->SetLineColor(kOrange);
     position_marker->GetLinePlex().Reset(sizeof(TEveStraightLineSet::Line_t), 2 * N);
   }
 
   for (size_t i = 0; i < N; ++i) {
     const reco::CaloCluster layerCluster = layerClusters[trackster.vertices(i)];
     std::vector<std::pair<DetId, float>> clusterDetIds = layerCluster.hitsAndFractions();
 
     for (std::vector<std::pair<DetId, float>>::iterator it = clusterDetIds.begin(), itEnd = clusterDetIds.end();
          it != itEnd;
          ++it) {
       const float *corners = item()->getGeom()->getCorners(it->first);
       if (corners == nullptr)
         continue;
 
       if (heatmap_ && hitmap->find(it->first) == hitmap->end())
         continue;
 
       const float *parameters = item()->getGeom()->getParameters(it->first);
       const float *shapes = item()->getGeom()->getShapePars(it->first);
 
       if (parameters == nullptr || shapes == nullptr)
         continue;
 
       const int total_points = parameters[0];
       const int layer = parameters[1];
       const int zside = parameters[2];
       const bool isSilicon = parameters[3];
 
       // discard everything that's not at the side that we are intersted in
       auto const z_selection_is_on = z_plus_ ^ z_minus_;
       auto const z_plus_selection_ok = z_plus_ && (zside == 1);
       auto const z_minus_selection_ok = z_minus_ && (zside == -1);
       if (!z_minus_ && !z_plus_)
         break;
       if (z_selection_is_on && !(z_plus_selection_ok || z_minus_selection_ok))
         break;
 
       if (layer_ > 0 && layer != layer_)
         break;
 
       // seed and cluster position
       if (layerCluster.seed().rawId() == it->first.rawId()) {
         const float crossScale = 0.2f + fmin(layerCluster.energy(), 5.0f);
         if (enableSeedLines_) {
           // center of RecHit
           const float center[3] = {corners[total_points * 3 + 0],
                                    corners[total_points * 3 + 1],
                                    corners[total_points * 3 + 2] + shapes[3] * 0.5f};
 
           // draw 3D cross
           seed_marker->AddLine(
               center[0] - crossScale, center[1], center[2], center[0] + crossScale, center[1], center[2]);
           seed_marker->AddLine(
               center[0], center[1] - crossScale, center[2], center[0], center[1] + crossScale, center[2]);
         }
 
         if (enablePositionLines_) {
           auto const &pos = layerCluster.position();
           const float position_crossScale = crossScale * 0.5;
           position_marker->AddLine(
               pos.x() - position_crossScale, pos.y(), pos.z(), pos.x() + position_crossScale, pos.y(), pos.z());
           position_marker->AddLine(
               pos.x(), pos.y() - position_crossScale, pos.z(), pos.x(), pos.y() + position_crossScale, pos.z());
         }
       }
 
       const float energy =
           fmin((item()->getConfig()->value<bool>("Cluster(0)/RecHit(1)") ? hitmap->at(it->first)->energy()
                                                                          : layerCluster.energy()) /
                    saturation_energy_,
                1.0f);
       const uint8_t colorFactor = gradient_steps * energy;
       auto transparency = item()->modelInfo(iIndex).displayProperties().transparency();
       UChar_t alpha = (255 * (100 - transparency)) / 100;
 
       // Scintillator
       if (!isSilicon) {
         const int total_vertices = 3 * total_points;
 
         std::vector<float> pnts(24);
         for (int i = 0; i < total_points; ++i) {
           pnts[i * 3 + 0] = corners[i * 3];
           pnts[i * 3 + 1] = corners[i * 3 + 1];
           pnts[i * 3 + 2] = corners[i * 3 + 2];
 
           pnts[(i * 3 + 0) + total_vertices] = corners[i * 3];
           pnts[(i * 3 + 1) + total_vertices] = corners[i * 3 + 1];
           pnts[(i * 3 + 2) + total_vertices] = corners[i * 3 + 2] + shapes[3];
         }
         boxset->AddBox(&pnts[0]);
         if (heatmap_) {
           energy
               ? boxset->DigitColor(gradient[0][colorFactor], gradient[1][colorFactor], gradient[2][colorFactor], alpha)
               : boxset->DigitColor(64, 64, 64, alpha);
         }
       }
       // Silicon
       else {
         constexpr int offset = 9;
 
         float centerX = (corners[6] + corners[6 + offset]) / 2;
         float centerY = (corners[7] + corners[7 + offset]) / 2;
         float radius = fabs(corners[6] - corners[6 + offset]) / 2;
         hex_boxset->AddHex(TEveVector(centerX, centerY, corners[2]), radius, 90.0, shapes[3]);
         if (heatmap_) {
           energy ? hex_boxset->DigitColor(
                        gradient[0][colorFactor], gradient[1][colorFactor], gradient[2][colorFactor], alpha)
                  : hex_boxset->DigitColor(64, 64, 64, alpha);
         } else {
           hex_boxset->CSCApplyMainColorToMatchingChildren();
           hex_boxset->CSCApplyMainTransparencyToMatchingChildren();
           hex_boxset->SetMainColor(item()->modelInfo(iIndex).displayProperties().color());
           hex_boxset->SetMainTransparency(item()->defaultDisplayProperties().transparency());
         }
       }
     }  // End of loop over rechits of a single layercluster
   }    // End loop over the layerclusters of the trackster
 
   hex_boxset->RefitPlex();
   boxset->RefitPlex();
   setupAddElement(hex_boxset, &oItemHolder);
   setupAddElement(boxset, &oItemHolder);
 
   if (enableSeedLines_)
     oItemHolder.AddElement(seed_marker);
 
   if (enablePositionLines_)
     oItemHolder.AddElement(position_marker);
 
   if (enableEdges_) {
     auto &edges = trackster.edges();
 
     TEveStraightLineSet *adjacent_marker = new TEveStraightLineSet("adj_edges");
     adjacent_marker->SetLineWidth(2);
     adjacent_marker->SetLineColor(kYellow);
     adjacent_marker->GetLinePlex().Reset(sizeof(TEveStraightLineSet::Line_t), edges.size());
 
     TEveStraightLineSet *non_adjacent_marker = new TEveStraightLineSet("non_adj_edges");
     non_adjacent_marker->SetLineWidth(2);
     non_adjacent_marker->SetLineColor(kRed);
     non_adjacent_marker->GetLinePlex().Reset(sizeof(TEveStraightLineSet::Line_t), edges.size());
 
     for (auto edge : edges) {
       auto doublet = std::make_pair(layerClusters[edge[0]], layerClusters[edge[1]]);
 
       int layerIn = item()->getGeom()->getParameters(doublet.first.seed())[1];
       int layerOut = item()->getGeom()->getParameters(doublet.second.seed())[1];
 
       const bool isAdjacent = std::abs(layerOut - layerIn) == 1;
 
       // draw 3D cross
       if (layer_ == 0 || std::abs(layerIn - layer_) == 0 || std::abs(layerOut - layer_) == 0) {
         if (isAdjacent)
           adjacent_marker->AddLine(doublet.first.x(),
                                    doublet.first.y(),
                                    doublet.first.z(),
                                    doublet.second.x(),
                                    doublet.second.y(),
                                    doublet.second.z());
         else
           non_adjacent_marker->AddLine(doublet.first.x(),
                                        doublet.first.y(),
                                        doublet.first.z(),
                                        doublet.second.x(),
                                        doublet.second.y(),
                                        doublet.second.z());
       }
     }  // End of loop over all edges of the trackster
     oItemHolder.AddElement(adjacent_marker);
     oItemHolder.AddElement(non_adjacent_marker);
   }
 }

◆ classPurpose()

const std::string & FWTracksterHitsProxyBuilder::classPurpose ( )

static

Definition at line 305 of file FWTracksterHitsProxyBuilder.cc.

◆ classRegisterTypeName()

const std::string & FWTracksterHitsProxyBuilder::classRegisterTypeName ( )

static

Definition at line 305 of file FWTracksterHitsProxyBuilder.cc.

◆ classTypeName()

const std::string & FWTracksterHitsProxyBuilder::classTypeName ( )

static

Definition at line 305 of file FWTracksterHitsProxyBuilder.cc.

◆ classView()

const std::string & FWTracksterHitsProxyBuilder::classView ( )

static

Definition at line 305 of file FWTracksterHitsProxyBuilder.cc.

◆ operator=()

const FWTracksterHitsProxyBuilder& FWTracksterHitsProxyBuilder::operator= ( const FWTracksterHitsProxyBuilder & )

delete

◆ purpose()

const std::string& FWTracksterHitsProxyBuilder::purpose ( ) const

inline

Definition at line 21 of file FWTracksterHitsProxyBuilder.cc.

26 :

27 edm::Handle<edm::ValueMap<std::pair<float, float>>> TimeValueMapHandle_;

edm::Handle

Definition: AssociativeIterator.h:50

FWTracksterHitsProxyBuilder::TimeValueMapHandle_

edm::Handle< edm::ValueMap< std::pair< float, float > > > TimeValueMapHandle_

Definition: FWTracksterHitsProxyBuilder.cc:27

◆ setItem()

void FWTracksterHitsProxyBuilder::setItem ( const FWEventItem * iItem )

overrideprivatevirtual

Reimplemented from FWProxyBuilderBase.

Definition at line 49 of file FWTracksterHitsProxyBuilder.cc.

References FWProxyBuilderConfiguration::assertParam(), FWEventItem::getConfig(), and FWHeatmapProxyBuilderTemplate< T >::setItem().

                                                                   {
   FWHeatmapProxyBuilderTemplate::setItem(iItem);
   if (iItem) {
     iItem->getConfig()->assertParam("Cluster(0)/RecHit(1)", false);
     iItem->getConfig()->assertParam("EnableSeedLines", false);
     iItem->getConfig()->assertParam("EnablePositionLines", false);
     iItem->getConfig()->assertParam("EnableEdges", false);
     iItem->getConfig()->assertParam("EnableTimeFilter", false);
     iItem->getConfig()->assertParam("TimeLowerBound(ns)", 0.01, 0.0, 75.0);
     iItem->getConfig()->assertParam("TimeUpperBound(ns)", 0.01, 0.0, 75.0);
   }
 }