CMS 3D CMS Logo

Classes | Typedefs | Functions | Variables
egamma::conv Namespace Reference

Classes

struct  ConversionInfo
 

Typedefs

using TrackRowView = TrackTable::const_iterator::value_type
 
using TrackTable = edm::soa::AddColumns< edm::soa::PtEtaPhiTable, TrackTableSpecificColumns >::type
 
using TrackTableSpecificColumns = std::tuple< edm::soa::col::Pz, edm::soa::col::PtError, edm::soa::col::MissingInnerHits, edm::soa::col::NumberOfValidHits, edm::soa::col::Charge, edm::soa::col::D0 >
 
using TrackTableView = edm::soa::ViewFromTable_t< TrackTable >
 

Functions

ConversionInfo const & arbitrateConversionPartnersbyR (const std::vector< ConversionInfo > &convCandidates)
 
ConversionInfo findBestConversionMatch (const std::vector< ConversionInfo > &v_convCandidates)
 
ConversionInfo findConversion (const reco::GsfElectronCore &gsfElectron, TrackTableView ctfTable, TrackTableView gsfTable, float bFieldAtOrigin, float minFracSharedHits=0.45f)
 
std::vector< ConversionInfofindConversions (const reco::GsfElectronCore &gsfElectron, TrackTableView ctfTable, TrackTableView gsfTable, float bFieldAtOrigin, float minFracSharedHits)
 
ConversionInfo getConversionInfo (reco::Track const &el_track, TrackRowView const &track, float bFieldAtOrigin)
 

Variables

constexpr float dR2Max = square(0.5f)
 
constexpr int maxDeltaMissingHits = 2
 
constexpr int maxDeltaMissingHitsForKFtoKF = 3
 
constexpr float maxDist2Dcot2 = square(0.05f)
 
constexpr float maxDistOrCotForKFtoKF = 0.02f
 
constexpr float maxRefPtErrorForKfConv = 0.05f
 
constexpr float maxRelGsfPtError = 0.5f
 
constexpr float maxRelGsfPtErrorForKfConv = 0.25f
 
constexpr float maxRelPtDiffForGsfConv = 0.25f
 
constexpr float maxRelPtDiffForKfConv = 0.2f
 
constexpr int minNumberOfValidHits = 5
 

Typedef Documentation

◆ TrackRowView

using egamma::conv::TrackRowView = typedef TrackTable::const_iterator::value_type

Definition at line 58 of file ConversionFinder.h.

◆ TrackTable

Definition at line 56 of file ConversionFinder.h.

◆ TrackTableSpecificColumns

Definition at line 55 of file ConversionFinder.h.

◆ TrackTableView

Definition at line 57 of file ConversionFinder.h.

Function Documentation

◆ arbitrateConversionPartnersbyR()

ConversionInfo const& egamma::conv::arbitrateConversionPartnersbyR ( const std::vector< ConversionInfo > &  convCandidates)

Definition at line 209 of file ConversionFinder.cc.

References egamma::conv::ConversionInfo::dcot, egamma::conv::ConversionInfo::dist, funct::pow(), dttmaxenums::R, and groupFilesInBlocks::temp.

Referenced by findBestConversionMatch().

209  {
210  ConversionInfo const* closestConversion = &convCandidates.front();
211 
212  if (convCandidates.size() == 1)
213  return *closestConversion;
214 
215  float R = pow(closestConversion->dist, 2) + pow(closestConversion->dcot, 2);
216 
217  for (auto const& temp : convCandidates) {
218  float temp_R = pow(temp.dist, 2) + pow(temp.dcot, 2);
219  if (temp_R < R) {
220  R = temp_R;
221  closestConversion = &temp;
222  }
223  }
224 
225  return *closestConversion;
226  }
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

◆ findBestConversionMatch()

ConversionInfo egamma::conv::findBestConversionMatch ( const std::vector< ConversionInfo > &  v_convCandidates)

Definition at line 229 of file ConversionFinder.cc.

References funct::abs(), arbitrateConversionPartnersbyR(), maxDeltaMissingHits, maxDeltaMissingHitsForKFtoKF, maxDist2Dcot2, maxDistOrCotForKFtoKF, funct::pow(), square(), and groupFilesInBlocks::temp.

Referenced by findConversion().

229  {
230  using namespace std;
231 
232  if (v_convCandidates.empty())
233  return {};
234 
235  if (v_convCandidates.size() == 1)
236  return v_convCandidates.at(0);
237 
238  vector<ConversionInfo> v_0;
239  vector<ConversionInfo> v_1;
240  vector<ConversionInfo> v_2;
241  vector<ConversionInfo> v_3;
242  //loop over the candidates
243 
244  for (auto const& temp : v_convCandidates) {
245  if (temp.radiusOfConversion <= -2)
246  continue;
247 
248  if (temp.flag == 0) {
250  temp.deltaMissingHits < maxDeltaMissingHitsForKFtoKF) ||
251  (pow(temp.dist, 2) + pow(temp.dcot, 2) < maxDist2Dcot2 && temp.deltaMissingHits < maxDeltaMissingHits))
252  v_0.push_back(temp);
253  }
254 
255  if (temp.flag == 1) {
256  if (square(temp.dist) + square(temp.dcot) < maxDist2Dcot2 && temp.deltaMissingHits < maxDeltaMissingHits)
257  v_1.push_back(temp);
258  }
259  if (temp.flag == 2) {
260  if (square(temp.dist) + square(temp.dcot) < maxDist2Dcot2 && temp.deltaMissingHits < maxDeltaMissingHits)
261  v_2.push_back(temp);
262  }
263  if (temp.flag == 3) {
264  if (square(temp.dist) + square(temp.dcot) < maxDist2Dcot2 && temp.deltaMissingHits < maxDeltaMissingHits)
265  v_3.push_back(temp);
266  }
267 
268  } //candidate conversion loop
269 
270  //now do some arbitration
271 
272  //give preference to conversion partners found in the CTF collection
273  //using the electron's CTF track
274  if (!v_0.empty())
275  return arbitrateConversionPartnersbyR(v_0);
276 
277  if (!v_1.empty())
278  return arbitrateConversionPartnersbyR(v_1);
279 
280  if (!v_2.empty())
281  return arbitrateConversionPartnersbyR(v_2);
282 
283  if (!v_3.empty())
284  return arbitrateConversionPartnersbyR(v_3);
285 
286  //if we get here, we didn't find a candidate conversion partner that
287  //satisfied even the loose selections
288  //return the the closest partner by R
289  return arbitrateConversionPartnersbyR(v_convCandidates);
290  }
constexpr int maxDeltaMissingHitsForKFtoKF
constexpr float maxDistOrCotForKFtoKF
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
ConversionInfo const & arbitrateConversionPartnersbyR(const std::vector< ConversionInfo > &convCandidates)
static double square(double x)
constexpr float maxDist2Dcot2
constexpr int maxDeltaMissingHits
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

◆ findConversion()

ConversionInfo egamma::conv::findConversion ( const reco::GsfElectronCore gsfElectron,
TrackTableView  ctfTable,
TrackTableView  gsfTable,
float  bFieldAtOrigin,
float  minFracSharedHits = 0.45f 
)
inline

Definition at line 71 of file ConversionFinder.h.

References findBestConversionMatch(), and findConversions().

Referenced by GsfElectronAlgo::createElectron().

75  {
76  return findBestConversionMatch(findConversions(gsfElectron, ctfTable, gsfTable, bFieldAtOrigin, minFracSharedHits));
77  }
ConversionInfo findBestConversionMatch(const std::vector< ConversionInfo > &v_convCandidates)
std::vector< ConversionInfo > findConversions(const reco::GsfElectronCore &gsfElectron, TrackTableView ctfTable, TrackTableView gsfTable, float bFieldAtOrigin, float minFracSharedHits)

◆ findConversions()

std::vector< ConversionInfo > egamma::conv::findConversions ( const reco::GsfElectronCore gsfElectron,
TrackTableView  ctfTable,
TrackTableView  gsfTable,
float  bFieldAtOrigin,
float  minFracSharedHits 
)

Definition at line 29 of file ConversionFinder.cc.

References funct::abs(), reco::GsfElectronCore::ctfGsfOverlap(), reco::GsfElectronCore::ctfTrack(), egamma::conv::ConversionInfo::dcot, HLTMuonOfflineAnalyzer_cfi::deltaR2, egamma::conv::ConversionInfo::dist, dR2Max, edm::Ref< C, T, F >::get(), getConversionInfo(), reco::GsfElectronCore::gsfTrack(), edm::Ref< C, T, F >::isNonnull(), edm::Ref< C, T, F >::key(), maxRefPtErrorForKfConv, maxRelGsfPtError, maxRelGsfPtErrorForKfConv, maxRelPtDiffForGsfConv, maxRelPtDiffForKfConv, minNumberOfValidHits, and egamma::conv::ConversionInfo::radiusOfConversion.

Referenced by findConversion().

33  {
34  using namespace reco;
35  using namespace std;
36  using namespace edm;
37  using namespace edm::soa::col;
38 
39  //get the references to the gsf and ctf tracks that are made
40  //by the electron
41  const reco::TrackRef eleCtfTk = gsfElectron.ctfTrack();
42  const reco::GsfTrackRef& eleGsfTk = gsfElectron.gsfTrack();
43 
44  float eleGsfPt = eleGsfTk->pt();
45  float eleGsfEta = eleGsfTk->eta();
46  float eleGsfPhi = eleGsfTk->phi();
47 
48  const bool useEleCtfTrack = eleCtfTk.isNonnull() && gsfElectron.ctfGsfOverlap() > minFracSharedHits;
49 
50  std::optional<float> eleCtfPt = std::nullopt;
51  std::optional<float> eleCtfEta = std::nullopt;
52  std::optional<float> eleCtfPhi = std::nullopt;
53 
54  //the electron's CTF track must share at least 45% of the inner hits
55  //with the electron's GSF track
56  std::optional<int> ctfidx = std::nullopt;
57  int gsfidx = static_cast<int>(eleGsfTk.key());
58 
59  if (useEleCtfTrack) {
60  eleCtfPt = eleCtfTk->pt();
61  eleCtfEta = eleCtfTk->eta();
62  eleCtfPhi = eleCtfTk->phi();
63  ctfidx = static_cast<int>(eleCtfTk.key());
64  }
65 
66  //these vectors are for those candidate partner tracks that pass our cuts
67  std::vector<ConversionInfo> v_candidatePartners;
68  //track indices required to make references
69  int ctftk_i = 0;
70  int gsftk_i = 0;
71 
72  //loop over the CTF tracks and try to find the partner track
73  for (auto ctftkItr = ctfTable.begin(); ctftkItr != ctfTable.end(); ++ctftkItr, ctftk_i++) {
74  if (useEleCtfTrack && ctftk_i == ctfidx.value())
75  continue;
76 
77  auto ctftk = *ctftkItr;
78 
79  //apply quality cuts to remove bad tracks
80  if (ctftk.get<PtError>() > maxRefPtErrorForKfConv * ctftk.get<Pt>() ||
82  continue;
83 
84  if (useEleCtfTrack && std::abs(ctftk.get<Pt>() - eleCtfPt.value()) < maxRelPtDiffForKfConv * eleCtfPt.value())
85  continue;
86 
87  //use the electron's CTF track, if not null, to search for the partner track
88  //look only in a cone of 0.5 to save time, and require that the track is opp. sign
89  if (useEleCtfTrack && eleCtfTk->charge() + ctftk.get<Charge>() == 0 &&
90  deltaR2(eleCtfEta.value(), eleCtfPhi.value(), ctftk.get<Eta>(), ctftk.get<Phi>()) < dR2Max) {
91  ConversionInfo convInfo = getConversionInfo(*eleCtfTk, ctftk, bFieldAtOrigin);
92 
93  //need to add the track reference information for completeness
94  //because the overloaded fnc above does not make a trackRef
95  int deltaMissingHits = ctftk.get<MissingInnerHits>() - eleCtfTk->missingInnerHits();
96 
97  v_candidatePartners.push_back(
98  {convInfo.dist, convInfo.dcot, convInfo.radiusOfConversion, ctftk_i, std::nullopt, deltaMissingHits, 0});
99 
100  } //using the electron's CTF track
101 
102  //now we check using the electron's gsf track
103  if (eleGsfTk->charge() + ctftk.get<Charge>() == 0 &&
104  deltaR2(eleGsfEta, eleGsfPhi, ctftk.get<Eta>(), ctftk.get<Phi>()) < dR2Max &&
105  eleGsfTk->ptError() < maxRelGsfPtErrorForKfConv * eleGsfPt) {
106  int deltaMissingHits = ctftk.get<MissingInnerHits>() - eleGsfTk->missingInnerHits();
107 
108  ConversionInfo convInfo = getConversionInfo(*eleGsfTk, ctftk, bFieldAtOrigin);
109 
110  v_candidatePartners.push_back(
111  {convInfo.dist, convInfo.dcot, convInfo.radiusOfConversion, ctftk_i, std::nullopt, deltaMissingHits, 1});
112  } //using the electron's GSF track
113 
114  } //loop over the CTF track collection
115 
116  //------------------------------------------------------ Loop over GSF collection ----------------------------------//
117  for (auto gsftkItr = gsfTable.begin(); gsftkItr != gsfTable.end(); ++gsftkItr, gsftk_i++) {
118  //reject the electron's own gsfTrack
119  if (gsfidx == gsftk_i)
120  continue;
121 
122  auto gsftk = *gsftkItr;
123 
124  //apply quality cuts to remove bad tracks
125  if (gsftk.get<PtError>() > maxRelGsfPtError * gsftk.get<Pt>() ||
127  continue;
128 
129  if (std::abs(gsftk.get<Pt>() - eleGsfPt) < maxRelPtDiffForGsfConv * eleGsfPt)
130  continue;
131 
132  //try using the electron's CTF track first if it exists
133  //look only in a cone of 0.5 around the electron's track
134  //require opposite sign
135  if (useEleCtfTrack && eleCtfTk->charge() + gsftk.get<Charge>() == 0 &&
136  deltaR2(eleCtfEta.value(), eleCtfPhi.value(), gsftk.get<Eta>(), gsftk.get<Phi>()) < dR2Max) {
137  int deltaMissingHits = gsftk.get<MissingInnerHits>() - eleCtfTk->missingInnerHits();
138 
139  ConversionInfo convInfo = getConversionInfo(*eleCtfTk, gsftk, bFieldAtOrigin);
140  //fill the Ref info
141  v_candidatePartners.push_back(
142  {convInfo.dist, convInfo.dcot, convInfo.radiusOfConversion, std::nullopt, gsftk_i, deltaMissingHits, 2});
143  }
144 
145  //use the electron's gsf track
146  if (eleGsfTk->charge() + gsftk.get<Charge>() == 0 &&
147  deltaR2(eleGsfEta, eleGsfPhi, gsftk.get<Eta>(), gsftk.get<Phi>()) < dR2Max &&
148  (eleGsfTk->ptError() < maxRelGsfPtError * eleGsfPt)) {
149  ConversionInfo convInfo = getConversionInfo(*eleGsfTk, gsftk, bFieldAtOrigin);
150  //fill the Ref info
151 
152  int deltaMissingHits = gsftk.get<MissingInnerHits>() - eleGsfTk->missingInnerHits();
153 
154  v_candidatePartners.push_back(
155  {convInfo.dist, convInfo.dcot, convInfo.radiusOfConversion, std::nullopt, gsftk_i, deltaMissingHits, 3});
156  }
157  } //loop over the gsf track collection
158 
159  return v_candidatePartners;
160  }
const double dR2Max
TrackRef ctfTrack() const
constexpr float maxRelGsfPtError
float ctfGsfOverlap() const
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:238
ConversionInfo getConversionInfo(reco::Track const &el_track, TrackRowView const &track, float bFieldAtOrigin)
constexpr float maxRelGsfPtErrorForKfConv
key_type key() const
Accessor for product key.
Definition: Ref.h:250
constexpr float maxRefPtErrorForKfConv
constexpr float maxRelPtDiffForGsfConv
constexpr float maxRelPtDiffForKfConv
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
constexpr auto deltaR2(const T1 &t1, const T2 &t2) -> decltype(t1.eta())
Definition: deltaR.h:16
const GsfTrackRef & gsfTrack() const
fixed size matrix
HLT enums.
constexpr int minNumberOfValidHits
T const * get() const
Returns C++ pointer to the item.
Definition: Ref.h:232

◆ getConversionInfo()

ConversionInfo egamma::conv::getConversionInfo ( reco::Track const &  el_track,
TrackRowView const &  track,
float  bFieldAtOrigin 
)

Definition at line 163 of file ConversionFinder.cc.

References funct::abs(), reco::TrackBase::charge(), funct::cos(), ztail::d, reco::TrackBase::d0(), f, reco::TrackBase::phi(), funct::pow(), reco::TrackBase::pt(), reco::TrackBase::px(), reco::TrackBase::py(), reco::TrackBase::pz(), funct::sin(), mathSSE::sqrt(), HLT_2024v14_cff::track, and x.

Referenced by findConversions().

163  {
164  using namespace edm::soa::col;
165 
166  //now calculate the conversion related information
167  float rEl = 100.f * ele.pt() / (-0.3f * bFieldAtOrigin * ele.charge());
168  float xEl = -1.f * (rEl - ele.d0()) * sin(ele.phi());
169  float yEl = (rEl - ele.d0()) * cos(ele.phi());
170  rEl = std::abs(rEl);
171 
172  float rCand = 100.f * track.get<Pt>() / (-0.3f * bFieldAtOrigin * track.get<Charge>());
173  float xCand = -1.f * (rCand - track.get<D0>()) * sin(track.get<Phi>());
174  float yCand = (rCand - track.get<D0>()) * cos(track.get<Phi>());
175  rCand = std::abs(rCand);
176 
177  float d = sqrt(pow(xEl - xCand, 2) + pow(yEl - yCand, 2));
178  float dist = d - (rEl + rCand);
179 
180  // this is equivalent to `1/tan(theta_1) - 1/tan(theta_2)` but requires less trigonometry
181  float dcot = ele.pz() / ele.pt() - track.get<Pz>() / track.get<Pt>();
182 
183  //get the point of conversion
184  float xa1 = xEl + (xCand - xEl) * rEl / d;
185  float xa2 = xCand + (xEl - xCand) * rCand / d;
186  float ya1 = yEl + (yCand - yEl) * rEl / d;
187  float ya2 = yCand + (yEl - yCand) * rCand / d;
188 
189  float x = .5f * (xa1 + xa2);
190  float y = .5f * (ya1 + ya2);
191  float rconv = sqrt(pow(x, 2) + pow(y, 2));
192  // The z-position of the conversion is unused, but here is how it could be computed if needed:
193  // float z = ele.dz() + rEl * ele.pz() * std::acos(1 - pow(rconv, 2) / (2. * pow(rEl, 2))) / ele.pt();
194 
195  //now assign a sign to the radius of conversion
196  float tempsign = ele.px() * x + ele.py() * y;
197  tempsign = tempsign / std::abs(tempsign);
198  rconv = tempsign * rconv;
199 
200  //return an instance of ConversionInfo, but with a NULL track refs
201  return {dist, dcot, rconv};
202  }
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
T sqrt(T t)
Definition: SSEVec.h:19
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
double f[11][100]
d
Definition: ztail.py:151
Power< A, B >::type pow(const A &a, const B &b)
Definition: Power.h:29

Variable Documentation

◆ dR2Max

constexpr float egamma::conv::dR2Max = square(0.5f)

Definition at line 18 of file ConversionFinder.cc.

Referenced by findConversions().

◆ maxDeltaMissingHits

constexpr int egamma::conv::maxDeltaMissingHits = 2

Definition at line 21 of file ConversionFinder.cc.

Referenced by findBestConversionMatch().

◆ maxDeltaMissingHitsForKFtoKF

constexpr int egamma::conv::maxDeltaMissingHitsForKFtoKF = 3

Definition at line 23 of file ConversionFinder.cc.

Referenced by findBestConversionMatch().

◆ maxDist2Dcot2

constexpr float egamma::conv::maxDist2Dcot2 = square(0.05f)

Definition at line 20 of file ConversionFinder.cc.

Referenced by findBestConversionMatch().

◆ maxDistOrCotForKFtoKF

constexpr float egamma::conv::maxDistOrCotForKFtoKF = 0.02f

Definition at line 24 of file ConversionFinder.cc.

Referenced by findBestConversionMatch().

◆ maxRefPtErrorForKfConv

constexpr float egamma::conv::maxRefPtErrorForKfConv = 0.05f

Definition at line 14 of file ConversionFinder.cc.

Referenced by findConversions().

◆ maxRelGsfPtError

constexpr float egamma::conv::maxRelGsfPtError = 0.5f

Definition at line 22 of file ConversionFinder.cc.

Referenced by findConversions().

◆ maxRelGsfPtErrorForKfConv

constexpr float egamma::conv::maxRelGsfPtErrorForKfConv = 0.25f

Definition at line 15 of file ConversionFinder.cc.

Referenced by findConversions().

◆ maxRelPtDiffForGsfConv

constexpr float egamma::conv::maxRelPtDiffForGsfConv = 0.25f

Definition at line 17 of file ConversionFinder.cc.

Referenced by findConversions().

◆ maxRelPtDiffForKfConv

constexpr float egamma::conv::maxRelPtDiffForKfConv = 0.2f

Definition at line 16 of file ConversionFinder.cc.

Referenced by findConversions().

◆ minNumberOfValidHits

constexpr int egamma::conv::minNumberOfValidHits = 5

Definition at line 19 of file ConversionFinder.cc.

Referenced by findConversions().