13 #include "TEveBoxSet.h"
14 #include "TEveStraightLineSet.h"
45 TEveElement &oItemHolder,
70 <<
"lower time bound is larger than upper time bound. Maybe opposite is desired?";
73 edm::LogWarning(
"DataNotFound|InvalidData") <<
"couldn't locate 'timeLayerCluster' ValueMap in root file.";
77 edm::LogWarning(
"DataNotFound|InvalidData") <<
"couldn't locate 'timeLayerCluster' ValueMap in root file.";
95 TEveElement &oItemHolder,
104 const size_t N = trackster.vertices().size();
107 TEveBoxSet *hex_boxset =
new TEveBoxSet();
109 hex_boxset->UseSingleColor();
110 hex_boxset->SetPickable(
true);
111 hex_boxset->Reset(TEveBoxSet::kBT_Hex,
true, 64);
113 TEveBoxSet *boxset =
new TEveBoxSet();
115 boxset->UseSingleColor();
116 boxset->SetPickable(
true);
117 boxset->Reset(TEveBoxSet::kBT_FreeBox,
true, 64);
119 TEveStraightLineSet *seed_marker =
nullptr;
121 seed_marker =
new TEveStraightLineSet(
"seeds");
122 seed_marker->SetLineWidth(2);
123 seed_marker->SetLineColor(kOrange + 10);
124 seed_marker->GetLinePlex().Reset(
sizeof(TEveStraightLineSet::Line_t), 2 * N);
127 TEveStraightLineSet *position_marker =
nullptr;
129 position_marker =
new TEveStraightLineSet(
"positions");
130 position_marker->SetLineWidth(2);
131 position_marker->SetLineColor(kOrange);
132 position_marker->GetLinePlex().Reset(
sizeof(TEveStraightLineSet::Line_t), 2 * N);
135 for (
size_t i = 0;
i <
N; ++
i) {
137 std::vector<std::pair<DetId, float>> clusterDetIds = layerCluster.
hitsAndFractions();
139 for (
std::vector<std::pair<DetId, float>>::iterator it = clusterDetIds.begin(), itEnd = clusterDetIds.end();
143 if (corners ==
nullptr)
152 if (parameters ==
nullptr || shapes ==
nullptr)
155 const int total_points = parameters[0];
156 const int layer = parameters[1];
157 const int zside = parameters[2];
158 const bool isSilicon = parameters[3];
162 auto const z_plus_selection_ok =
z_plus_ && (zside == 1);
163 auto const z_minus_selection_ok = z_minus_ && (zside == -1);
166 if (z_selection_is_on && !(z_plus_selection_ok || z_minus_selection_ok))
173 if (layerCluster.
seed().
rawId() == it->first.rawId()) {
174 const float crossScale = 0.2f + fmin(layerCluster.
energy(), 5.0f);
177 const float center[3] = {corners[total_points * 3 + 0],
178 corners[total_points * 3 + 1],
179 corners[total_points * 3 + 2] + shapes[3] * 0.5f};
182 seed_marker->AddLine(
183 center[0] - crossScale, center[1], center[2], center[0] + crossScale, center[1], center[2]);
184 seed_marker->AddLine(
185 center[0], center[1] - crossScale, center[2], center[0], center[1] + crossScale, center[2]);
189 auto const &pos = layerCluster.
position();
190 const float position_crossScale = crossScale * 0.5;
191 position_marker->AddLine(
192 pos.x() - position_crossScale, pos.y(), pos.z(), pos.x() + position_crossScale, pos.y(), pos.z());
193 position_marker->AddLine(
194 pos.x(), pos.y() - position_crossScale, pos.z(), pos.x(), pos.y() + position_crossScale, pos.z());
199 fmin((
item()->getConfig()->value<bool>(
"Cluster(0)/RecHit(1)") ?
hitmap->at(it->first)->energy()
200 : layerCluster.
energy()) /
205 UChar_t
alpha = (255 * (100 - transparency)) / 100;
209 const int total_vertices = 3 * total_points;
211 std::vector<float> pnts(24);
212 for (
int i = 0;
i < total_points; ++
i) {
213 pnts[
i * 3 + 0] = corners[
i * 3];
214 pnts[
i * 3 + 1] = corners[
i * 3 + 1];
215 pnts[
i * 3 + 2] = corners[
i * 3 + 2];
217 pnts[(
i * 3 + 0) + total_vertices] = corners[
i * 3];
218 pnts[(
i * 3 + 1) + total_vertices] = corners[
i * 3 + 1];
219 pnts[(
i * 3 + 2) + total_vertices] = corners[
i * 3 + 2] + shapes[3];
221 boxset->AddBox(&pnts[0]);
225 : boxset->DigitColor(64, 64, 64, alpha);
232 float centerX = (corners[6] + corners[6 +
offset]) / 2;
233 float centerY = (corners[7] + corners[7 +
offset]) / 2;
234 float radius = fabs(corners[6] - corners[6 + offset]) / 2;
235 hex_boxset->AddHex(TEveVector(centerX, centerY, corners[2]), radius, 90.0, shapes[3]);
237 energy ? hex_boxset->DigitColor(
239 : hex_boxset->DigitColor(64, 64, 64, alpha);
241 hex_boxset->CSCApplyMainColorToMatchingChildren();
242 hex_boxset->CSCApplyMainTransparencyToMatchingChildren();
243 hex_boxset->SetMainColor(
item()->modelInfo(iIndex).displayProperties().color());
244 hex_boxset->SetMainTransparency(
item()->defaultDisplayProperties().transparency());
250 hex_boxset->RefitPlex();
256 oItemHolder.AddElement(seed_marker);
259 oItemHolder.AddElement(position_marker);
262 auto &edges = trackster.edges();
264 TEveStraightLineSet *adjacent_marker =
new TEveStraightLineSet(
"adj_edges");
265 adjacent_marker->SetLineWidth(2);
266 adjacent_marker->SetLineColor(kYellow);
267 adjacent_marker->GetLinePlex().Reset(
sizeof(TEveStraightLineSet::Line_t), edges.size());
269 TEveStraightLineSet *non_adjacent_marker =
new TEveStraightLineSet(
"non_adj_edges");
270 non_adjacent_marker->SetLineWidth(2);
271 non_adjacent_marker->SetLineColor(kRed);
272 non_adjacent_marker->GetLinePlex().Reset(
sizeof(TEveStraightLineSet::Line_t), edges.size());
274 for (
auto edge : edges) {
275 auto doublet = std::make_pair(layerClusters[edge[0]], layerClusters[edge[1]]);
280 const bool isAdjacent =
std::abs(layerOut - layerIn) == 1;
285 adjacent_marker->AddLine(doublet.first.x(),
292 non_adjacent_marker->AddLine(doublet.first.x(),
300 oItemHolder.AddElement(adjacent_marker);
301 oItemHolder.AddElement(non_adjacent_marker);
const math::XYZPoint & position() const
cluster centroid position
FWProxyBuilderConfiguration * getConfig() const
#define REGISTER_PROXYBUILDER_METHODS()
const FWDisplayProperties & displayProperties() const
#define REGISTER_FWPROXYBUILDER(_name_, _type_, _purpose_, _view_)
bool enablePositionLines_
void setItem(const FWEventItem *iItem) override
const float * getParameters(unsigned int id) const
static constexpr uint8_t gradient_steps
FWTracksterHitsProxyBuilder(void)
void setupAddElement(TEveElement *el, TEveElement *parent, bool set_color=true) const
constexpr uint32_t rawId() const
get the raw id
edm::Handle< edm::ValueMap< std::pair< float, float > > > TimeValueMapHandle_
edm::Handle< std::vector< reco::CaloCluster > > layerClustersHandle_
const FWEventItem * item() const
const float * getShapePars(unsigned int id) const
Char_t transparency() const
const std::vector< std::pair< DetId, float > > & hitsAndFractions() const
void setItem(const FWEventItem *iItem) override
Abs< T >::type abs(const T &t)
double energy() const
cluster energy
static constexpr uint8_t gradient[3][gradient_steps]
const_reference_type get(ProductID id, size_t idx) const
FWGenericParameter< T > * assertParam(const std::string &name, T def)
const edm::EventBase * getEvent() const
DetId seed() const
return DetId of seed
const float * getCorners(unsigned int id) const
const FWTracksterHitsProxyBuilder & operator=(const FWTracksterHitsProxyBuilder &)=delete
bool getByLabel(InputTag const &, Handle< T > &) const
T value(const std::string &name)
ModelInfo modelInfo(int iIndex) const
Log< level::Warning, false > LogWarning
const FWGeometry * getGeom() const
double saturation_energy_
std::unordered_map< DetId, const HGCRecHit * > * hitmap
~FWTracksterHitsProxyBuilder(void) override