CMS 3D CMS Logo

EgammaPCAHelper.cc
Go to the documentation of this file.
1 
3 
8 
10 
11 #include <algorithm>
12 #include <iostream>
13 #include <memory>
14 
15 using namespace hgcal;
16 
18  : // Thickness correction to dEdx weights
19  // (100um, 200um, 300um silicon)
20  // See RecoLocalCalo.HGCalRecProducers.HGCalRecHit_cfi
21  invThicknessCorrection_({1. / 1.132, 1. / 1.092, 1. / 1.084}),
22  pca_(new TPrincipal(3, "D")) {
23  hitMap_ = nullptr;
24  debug_ = false;
25 }
26 
27 void EGammaPCAHelper::setHitMap(const std::unordered_map<DetId, const HGCRecHit*>* hitMap) {
28  hitMap_ = hitMap;
29  pcaIteration_ = 0;
30 }
31 
33  recHitTools_ = recHitTools;
35 }
36 
38  theCluster_ = &cluster;
39  std::vector<std::pair<DetId, float>> result;
40  for (reco::HGCalMultiCluster::component_iterator it = cluster.begin(); it != cluster.end(); it++) {
41  const std::vector<std::pair<DetId, float>>& hf = (*it)->hitsAndFractions();
42  result.insert(result.end(), hf.begin(), hf.end());
43  }
45 }
46 
48  theCluster_ = &cluster;
49  storeRecHits(cluster.hitsAndFractions());
50 }
51 
52 void EGammaPCAHelper::storeRecHits(const std::vector<std::pair<DetId, float>>& hf) {
53  std::vector<double> pcavars;
54  pcavars.resize(3, 0.);
55  theSpots_.clear();
56  pcaIteration_ = 0;
57 
58  sigu_ = 0.;
59  sigv_ = 0.;
60  sigp_ = 0.;
61  sige_ = 0.;
62 
63  unsigned hfsize = hf.size();
64  if (debug_)
65  std::cout << "The seed cluster constains " << hfsize << " hits " << std::endl;
66 
67  if (hfsize == 0)
68  return;
69 
70  for (unsigned int j = 0; j < hfsize; j++) {
71  unsigned int layer = recHitTools_->getLayerWithOffset(hf[j].first);
72 
73  const DetId rh_detid = hf[j].first;
74  std::unordered_map<DetId, const HGCRecHit*>::const_iterator itcheck = hitMap_->find(rh_detid);
75  if (itcheck == hitMap_->end()) {
76  edm::LogWarning("EgammaPCAHelper") << " Big problem, unable to find a hit " << rh_detid.rawId() << " "
77  << rh_detid.det() << " " << HGCalDetId(rh_detid) << std::endl;
78  continue;
79  }
80  if (debug_) {
81  std::cout << "DetId " << rh_detid.rawId() << " " << layer << " " << itcheck->second->energy() << std::endl;
82  std::cout << " Hit " << itcheck->second << " " << itcheck->second->energy() << std::endl;
83  }
84  float fraction = hf[j].second;
85 
86  int thickIndex = recHitTools_->getSiThickIndex(rh_detid);
87  double mip = dEdXWeights_[layer] * 0.001; // convert in GeV
88  if (thickIndex > -1 and thickIndex < 3)
89  mip *= invThicknessCorrection_[thickIndex];
90 
91  pcavars[0] = recHitTools_->getPosition(rh_detid).x();
92  pcavars[1] = recHitTools_->getPosition(rh_detid).y();
93  pcavars[2] = recHitTools_->getPosition(rh_detid).z();
94  if (pcavars[2] == 0.)
95  edm::LogWarning("EgammaPCAHelper") << " Problem, hit with z =0 ";
96  else {
97  Spot mySpot(rh_detid, itcheck->second->energy(), pcavars, layer, fraction, mip);
98  theSpots_.push_back(mySpot);
99  }
100  }
101  if (debug_) {
102  std::cout << " Stored " << theSpots_.size() << " hits " << std::endl;
103  }
104 }
105 
106 void EGammaPCAHelper::computePCA(float radius, bool withHalo) {
107  // very important - to reset
108  pca_ = std::make_unique<TPrincipal>(3, "D");
109  bool initialCalculation = radius < 0;
110  if (debug_)
111  std::cout << " Initial calculation " << initialCalculation << std::endl;
112  if (initialCalculation && withHalo) {
113  edm::LogWarning("EGammaPCAHelper") << "Warning - in the first iteration, the halo hits are excluded " << std::endl;
114  withHalo = false;
115  }
116 
117  float radius2 = radius * radius;
118  if (!initialCalculation) {
119  math::XYZVector mainAxis(axis_);
120  mainAxis.unit();
121  math::XYZVector phiAxis(barycenter_.x(), barycenter_.y(), 0);
122  math::XYZVector udir(mainAxis.Cross(phiAxis));
123  udir = udir.unit();
126  Point(barycenter_ + udir),
127  Point(0, 0, 0),
128  Point(0., 0., 1.),
129  Point(1., 0., 0.));
130  }
131 
132  std::set<int> layers;
133  for (const auto& spot : theSpots_) {
134  if (spot.layer() > recHitTools_->lastLayerEE())
135  continue;
136  if (!withHalo && (!spot.isCore()))
137  continue;
138  if (initialCalculation) {
139  // initial calculation, take only core hits
140  if (!spot.isCore())
141  continue;
142  layers.insert(spot.layer());
143  for (int i = 0; i < spot.multiplicity(); ++i)
144  pca_->AddRow(spot.row());
145  } else {
146  // use a cylinder, include all hits
147  math::XYZPoint local = trans_(Point(spot.row()[0], spot.row()[1], spot.row()[2]));
148  if (local.Perp2() > radius2)
149  continue;
150  layers.insert(spot.layer());
151  for (int i = 0; i < spot.multiplicity(); ++i)
152  pca_->AddRow(spot.row());
153  }
154  }
155  if (debug_)
156  std::cout << " Nlayers " << layers.size() << std::endl;
157  if (layers.size() < 3) {
158  pcaIteration_ = -1;
159  return;
160  }
161  pca_->MakePrincipals();
162  ++pcaIteration_;
163  const TVectorD& means = *(pca_->GetMeanValues());
164  const TMatrixD& eigens = *(pca_->GetEigenVectors());
165 
166  barycenter_ = math::XYZPoint(means[0], means[1], means[2]);
167  axis_ = math::XYZVector(eigens(0, 0), eigens(1, 0), eigens(2, 0));
168  if (axis_.z() * barycenter_.z() < 0.0) {
169  axis_ = -1. * axis_;
170  }
171 }
172 
173 void EGammaPCAHelper::computeShowerWidth(float radius, bool withHalo) {
174  sigu_ = 0.;
175  sigv_ = 0.;
176  sigp_ = 0.;
177  sige_ = 0.;
178  double cyl_ene = 0.;
179 
180  float radius2 = radius * radius;
181  for (const auto& spot : theSpots_) {
182  Point globalPoint(spot.row()[0], spot.row()[1], spot.row()[2]);
183  math::XYZPoint local = trans_(globalPoint);
184  if (local.Perp2() > radius2)
185  continue;
186 
187  // Select halo hits or not
188  if (withHalo && spot.fraction() < 0)
189  continue;
190  if (!withHalo && !(spot.isCore()))
191  continue;
192 
193  sige_ += (globalPoint.eta() - theCluster_->eta()) * (globalPoint.eta() - theCluster_->eta()) * spot.energy();
194  sigp_ += deltaPhi(globalPoint.phi(), theCluster_->phi()) * deltaPhi(globalPoint.phi(), theCluster_->phi()) *
195  spot.energy();
196 
197  sigu_ += local.x() * local.x() * spot.energy();
198  sigv_ += local.y() * local.y() * spot.energy();
199  cyl_ene += spot.energy();
200  }
201 
202  if (cyl_ene > 0.) {
203  const double inv_cyl_ene = 1. / cyl_ene;
204  sigu_ = sigu_ * inv_cyl_ene;
205  sigv_ = sigv_ * inv_cyl_ene;
206  sigp_ = sigp_ * inv_cyl_ene;
207  sige_ = sige_ * inv_cyl_ene;
208  }
209  sigu_ = std::sqrt(sigu_);
210  sigv_ = std::sqrt(sigv_);
211  sigp_ = std::sqrt(sigp_);
212  sige_ = std::sqrt(sige_);
213 }
214 
216  if (pcaIteration_ == 0) {
217  if (debug_)
218  std::cout << " The PCA has not been run yet " << std::endl;
219  return false;
220  } else if (pcaIteration_ == 1) {
221  if (debug_)
222  std::cout << " The PCA has been run only once - careful " << std::endl;
223  return false;
224  } else if (pcaIteration_ == -1) {
225  if (debug_)
226  std::cout << " Not enough layers to perform PCA " << std::endl;
227  return false;
228  }
229  return true;
230 }
231 
233  theSpots_.clear();
234  pcaIteration_ = 0;
235  sigu_ = 0.;
236  sigv_ = 0.;
237  sigp_ = 0.;
238  sige_ = 0.;
239 }
240 
242  if (debug_)
243  checkIteration();
244  std::set<int> layers;
245  float radius2 = radius * radius;
246  std::vector<float> energyPerLayer(maxlayer_ + 1, 0.f);
247  math::XYZVector mainAxis(axis_);
248  mainAxis.unit();
249  math::XYZVector phiAxis(barycenter_.x(), barycenter_.y(), 0);
250  math::XYZVector udir(mainAxis.Cross(phiAxis));
251  udir = udir.unit();
254  Point(barycenter_ + udir),
255  Point(0, 0, 0),
256  Point(0., 0., 1.),
257  Point(1., 0., 0.));
258  float energyEE = 0.;
259  float energyFH = 0.;
260  float energyBH = 0.;
261 
262  for (const auto& spot : theSpots_) {
263  if (!withHalo && !spot.isCore())
264  continue;
265  math::XYZPoint local = trans_(Point(spot.row()[0], spot.row()[1], spot.row()[2]));
266  if (local.Perp2() > radius2)
267  continue;
268  energyPerLayer[spot.layer()] += spot.energy();
269  layers.insert(spot.layer());
270  if (spot.detId().det() == DetId::HGCalEE or spot.subdet() == HGCEE) {
271  energyEE += spot.energy();
272  } else if (spot.detId().det() == DetId::HGCalHSi or spot.subdet() == HGCHEF) {
273  energyFH += spot.energy();
274  } else if (spot.detId().det() == DetId::HGCalHSc or spot.subdet() == HGCHEB) {
275  energyBH += spot.energy();
276  }
277  }
278  return LongDeps(radius, energyPerLayer, energyEE, energyFH, energyBH, layers);
279 }
280 
282  unsigned nSpots = theSpots_.size();
283  float radius2 = radius * radius;
284  for (unsigned i = 0; i < nSpots; ++i) {
285  Spot spot(theSpots_[i]);
286  math::XYZPoint local = trans_(Point(spot.row()[0], spot.row()[1], spot.row()[2]));
287  if (local.Perp2() < radius2) {
288  std::cout << i << " " << theSpots_[i].detId().rawId() << " " << theSpots_[i].layer() << " "
289  << theSpots_[i].energy() << " " << theSpots_[i].isCore();
290  std::cout << " " << std::sqrt(local.Perp2()) << std::endl;
291  }
292  }
293 }
294 
296  unsigned int firstLayer = 0;
297  for (unsigned il = 1; il <= maxlayer_; ++il) {
298  if (ld.energyPerLayer()[il] > 0.) {
299  firstLayer = il;
300  break;
301  }
302  }
303  // Make dummy DetId to get abs(z) for layer
304  return recHitTools_->getPositionLayer(firstLayer).z();
305 }
306 
308  float& measuredDepth,
309  float& expectedDepth,
310  float& expectedSigma) {
311  expectedDepth = -999.;
312  expectedSigma = -999.;
313  measuredDepth = -999.;
314  if (!checkIteration())
315  return -999.;
316 
317  float z = findZFirstLayer(ld);
318  math::XYZVector dir = axis_.unit();
319  measuredDepth = std::abs((z - std::abs(barycenter_.z())) / dir.z());
320  return showerDepth_.getClusterDepthCompatibility(measuredDepth, ld.energyEE(), expectedDepth, expectedSigma);
321 }
reco::CaloCluster::phi
double phi() const
azimuthal angle of cluster centroid
Definition: CaloCluster.h:184
hgcal::EGammaPCAHelper::clusterDepthCompatibility
float clusterDepthCompatibility(const LongDeps &, float &measuredDepth, float &expectedDepth, float &expectedSigma)
Definition: EgammaPCAHelper.cc:307
hgcal::EGammaPCAHelper::barycenter_
math::XYZPoint barycenter_
Definition: EgammaPCAHelper.h:94
hgcal::RecHitTools
Definition: RecHitTools.h:23
mps_fire.i
i
Definition: mps_fire.py:428
MessageLogger.h
hgcal::EGammaPCAHelper::sige_
double sige_
Definition: EgammaPCAHelper.h:98
hgcal::RecHitTools::getSiThickIndex
int getSiThickIndex(const DetId &) const
Definition: RecHitTools.cc:202
hgcal::LongDeps::energyPerLayer
const std::vector< float > & energyPerLayer() const
Definition: LongDeps.h:28
f
double f[11][100]
Definition: MuScleFitUtils.cc:78
hgcal::LongDeps::energyEE
float energyEE() const
Definition: LongDeps.h:25
PV3DBase::x
T x() const
Definition: PV3DBase.h:59
deltaPhi.h
hgcal::EGammaPCAHelper::theCluster_
const reco::CaloCluster * theCluster_
Definition: EgammaPCAHelper.h:87
DetId::det
constexpr Detector det() const
get the detector field from this detid
Definition: DetId.h:46
gather_cfg.cout
cout
Definition: gather_cfg.py:144
hgcal::EGammaPCAHelper::printHits
void printHits(float radius) const
Definition: EgammaPCAHelper.cc:281
hgcal::EGammaPCAHelper::setRecHitTools
void setRecHitTools(const hgcal::RecHitTools *recHitTools)
Definition: EgammaPCAHelper.cc:32
edm::PtrVectorItr
Definition: PtrVector.h:51
hgcal::EGammaPCAHelper::axis_
math::XYZVector axis_
Definition: EgammaPCAHelper.h:95
hgcal::EGammaPCAHelper::dEdXWeights_
std::vector< double > dEdXWeights_
Definition: EgammaPCAHelper.h:84
dqmdumpme.first
first
Definition: dqmdumpme.py:55
edm::LogWarning
Log< level::Warning, false > LogWarning
Definition: MessageLogger.h:122
hgcal
Definition: EgammaPCAHelper.h:31
hgcal::Spot
Definition: Spot.h:9
hgcal::EGammaPCAHelper::recHitTools_
const hgcal::RecHitTools * recHitTools_
Definition: EgammaPCAHelper.h:102
PV3DBase::z
T z() const
Definition: PV3DBase.h:61
hgcal::EGammaPCAHelper::sigv_
double sigv_
Definition: EgammaPCAHelper.h:98
DetId
Definition: DetId.h:17
DetId::HGCalHSi
Definition: DetId.h:33
DetId::HGCalEE
Definition: DetId.h:32
photonIsolationHIProducer_cfi.hf
hf
Definition: photonIsolationHIProducer_cfi.py:9
HGCRecHit.h
SiPixelRawToDigiRegional_cfi.deltaPhi
deltaPhi
Definition: SiPixelRawToDigiRegional_cfi.py:9
hgcal::ShowerDepth::getClusterDepthCompatibility
float getClusterDepthCompatibility(float measuredDepth, float emEnergy, float &expectedDepth, float &expectedSigma) const
Definition: ShowerDepth.cc:6
HLT_FULL_cff.fraction
fraction
Definition: HLT_FULL_cff.py:52795
reco::CaloCluster
Definition: CaloCluster.h:31
mathSSE::sqrt
T sqrt(T t)
Definition: SSEVec.h:19
hgcal::EGammaPCAHelper::setHitMap
void setHitMap(const std::unordered_map< DetId, const HGCRecHit * > *hitMap)
to set once per event
Definition: EgammaPCAHelper.cc:27
hgcal::EGammaPCAHelper::checkIteration
bool checkIteration() const
Definition: EgammaPCAHelper.cc:215
HGCEE
Definition: ForwardSubdetector.h:8
Point
Structure Point Contains parameters of Gaussian fits to DMRs.
Definition: DMRtrends.cc:57
hgcal::RecHitTools::lastLayerBH
unsigned int lastLayerBH() const
Definition: RecHitTools.h:67
hgcal::EGammaPCAHelper::storeRecHits
void storeRecHits(const reco::CaloCluster &theCluster)
Definition: EgammaPCAHelper.cc:47
math::XYZPoint
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
hgcal::EGammaPCAHelper::debug_
bool debug_
Definition: EgammaPCAHelper.h:81
reco::CaloCluster::eta
double eta() const
pseudorapidity of cluster centroid
Definition: CaloCluster.h:181
reco::CaloCluster::hitsAndFractions
const std::vector< std::pair< DetId, float > > & hitsAndFractions() const
Definition: CaloCluster.h:210
hgcal::EGammaPCAHelper::sigp_
double sigp_
Definition: EgammaPCAHelper.h:98
hgcal::EGammaPCAHelper::maxlayer_
unsigned int maxlayer_
Definition: EgammaPCAHelper.h:91
hgcal::LongDeps
Definition: LongDeps.h:14
reco::HGCalMultiCluster::begin
component_iterator begin() const
Definition: HGCalMultiCluster.h:26
hgcal::RecHitTools::getLayerWithOffset
unsigned int getLayerWithOffset(const DetId &) const
Definition: RecHitTools.cc:352
HcalDetId.h
hgcal::RecHitTools::lastLayerEE
unsigned int lastLayerEE(bool nose=false) const
Definition: RecHitTools.h:64
math::XYZVector
XYZVectorD XYZVector
spatial vector with cartesian internal representation
Definition: Vector3D.h:31
hgcal::EGammaPCAHelper::findZFirstLayer
float findZFirstLayer(const LongDeps &) const
Definition: EgammaPCAHelper.cc:295
PV3DBase::y
T y() const
Definition: PV3DBase.h:60
hgcal::EGammaPCAHelper::Point
ROOT::Math::Transform3D::Point Point
Definition: EgammaPCAHelper.h:36
hgcal::EGammaPCAHelper::clear
void clear()
Definition: EgammaPCAHelper.cc:232
trackerHitRTTI::vector
Definition: trackerHitRTTI.h:21
hgcal::EGammaPCAHelper::Transform3D
ROOT::Math::Transform3D Transform3D
Definition: EgammaPCAHelper.h:35
hgcal::RecHitTools::getPositionLayer
GlobalPoint getPositionLayer(int layer, bool nose=false) const
Definition: RecHitTools.cc:138
hgcal::EGammaPCAHelper::computeShowerWidth
void computeShowerWidth(float radius, bool withHalo=true)
Definition: EgammaPCAHelper.cc:173
reco::HGCalMultiCluster
Definition: HGCalMultiCluster.h:12
hgcal::EGammaPCAHelper::computePCA
void computePCA(float radius, bool withHalo=true)
Definition: EgammaPCAHelper.cc:106
HGCalDetId
Definition: HGCalDetId.h:8
HGCalDetId.h
DetId::rawId
constexpr uint32_t rawId() const
get the raw id
Definition: DetId.h:57
hgcal::EGammaPCAHelper::EGammaPCAHelper
EGammaPCAHelper()
Definition: EgammaPCAHelper.cc:17
DetId::HGCalHSc
Definition: DetId.h:34
hgcal::EGammaPCAHelper::invThicknessCorrection_
std::vector< double > invThicknessCorrection_
Definition: EgammaPCAHelper.h:85
hgcal::EGammaPCAHelper::theSpots_
std::vector< Spot > theSpots_
Definition: EgammaPCAHelper.h:89
CosmicsPD_Skims.radius
radius
Definition: CosmicsPD_Skims.py:135
or
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventID const &, edm::Timestamp const & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12
hgcal::EGammaPCAHelper::pcaIteration_
int pcaIteration_
Definition: EgammaPCAHelper.h:90
hgcal::EGammaPCAHelper::trans_
Transform3D trans_
Definition: EgammaPCAHelper.h:97
hgcal::EGammaPCAHelper::energyPerLayer
LongDeps energyPerLayer(float radius, bool withHalo=true)
Definition: EgammaPCAHelper.cc:241
EgammaPCAHelper.h
mps_fire.result
result
Definition: mps_fire.py:311
HGCHEF
Definition: ForwardSubdetector.h:9
DTRecHitClients_cfi.local
local
Definition: DTRecHitClients_cfi.py:10
funct::abs
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
hgcal::EGammaPCAHelper::pca_
std::unique_ptr< TPrincipal > pca_
Definition: EgammaPCAHelper.h:101
dqmiolumiharvest.j
j
Definition: dqmiolumiharvest.py:66
reco::HGCalMultiCluster::end
component_iterator end() const
Definition: HGCalMultiCluster.h:27
hgcal::Spot::row
const double * row() const
Definition: Spot.h:24
hgcal::RecHitTools::getPosition
GlobalPoint getPosition(const DetId &id) const
Definition: RecHitTools.cc:126
hgcal::EGammaPCAHelper::sigu_
double sigu_
Definition: EgammaPCAHelper.h:98
hgcalTopologyTester_cfi.layers
layers
Definition: hgcalTopologyTester_cfi.py:8
HGCHEB
Definition: ForwardSubdetector.h:10
DeadROC_duringRun.dir
dir
Definition: DeadROC_duringRun.py:23
hgcal::EGammaPCAHelper::showerDepth_
ShowerDepth showerDepth_
Definition: EgammaPCAHelper.h:103
hgcal::EGammaPCAHelper::hitMap_
const std::unordered_map< DetId, const HGCRecHit * > * hitMap_
Definition: EgammaPCAHelper.h:88