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tmtt::Sector Class Reference

#include <Sector.h>

Public Member Functions

float etaMax () const
 
float etaMin () const
 
unsigned int iEtaReg () const
 
bool inside (const Stub *stub) const
 
bool insideEta (const Stub *stub) const
 
bool insideEtaReg (const TP &tp) const
 
std::vector< bool > insideEtaSubSecs (const Stub *stub) const
 
bool insidePhi (const Stub *stub) const
 
bool insidePhiSec (const TP &tp) const
 
unsigned int iPhiSec () const
 
void numStubsInside (const TP &tp, unsigned int &nStubsInsideEtaPhi, unsigned int &nStubsInsideEta, unsigned int &nStubsInsidePhi) const
 
float phiCentre () const
 
 Sector (const Settings *settings, unsigned int iPhiSec, unsigned int iEtaSec)
 
float sectorHalfWidth () const
 
std::unordered_map< const Stub *, std::pair< bool, bool > > stubsInside (const TP &tp) const
 
float zAtChosenR_Max () const
 
float zAtChosenR_Min () const
 

Private Member Functions

int64_t forceBitWidth (const float value, const UInt_t nBits) const
 
bool insideEtaRange (const Stub *stub, float zRangeMin, float zRangeMax) const
 
std::vector< bool > subEtaFwCalc (const int rT, const int z) const
 

Private Attributes

float assumedPhiTrkRes_
 
float beamWindowZ_
 
bool calcPhiTrkRes_
 
float chosenRofPhi_
 
float chosenRofZ_
 
float etaMax_
 
float etaMin_
 
unsigned int iEtaReg_
 
unsigned int iPhiSec_
 
float minPt_
 
unsigned int numSubSecsEta_
 
float phiCentre_
 
float sectorHalfWidth_
 
const Settingssettings_
 
bool useStubPhi_
 
bool useStubPhiTrk_
 
float zOuterMax_
 
std::vector< float > zOuterMaxSub_
 
float zOuterMin_
 
std::vector< float > zOuterMinSub_
 

Detailed Description

Definition at line 14 of file Sector.h.

Constructor & Destructor Documentation

◆ Sector()

tmtt::Sector::Sector ( const Settings settings,
unsigned int  iPhiSec,
unsigned int  iEtaSec 
)

Definition at line 13 of file Sector.cc.

14  : settings_(settings),
15  // Sector number
18 
19  beamWindowZ_(settings->beamWindowZ()), // Assumed half-length of beam-spot
20 
21  //=== Characteristics of this eta region.
22  // Using lines of specified rapidity drawn from centre of CMS, determine the z coords at which
23  // they cross the radius chosenRofZ_.
24  etaMin_(settings->etaRegions()[iEtaReg]),
25  etaMax_(settings->etaRegions()[iEtaReg + 1]),
26  chosenRofZ_(settings->chosenRofZ()),
27  // Get range in z of tracks covered by this sector at chosen radius from beam-line
28  zOuterMin_(chosenRofZ_ / tan(2. * atan(exp(-etaMin_)))),
29  zOuterMax_(chosenRofZ_ / tan(2. * atan(exp(-etaMax_)))),
30 
31  //=== Characteristics of this phi region.
32  chosenRofPhi_(settings->chosenRofPhi()),
33  minPt_(settings->houghMinPt()), // Min Pt covered by HT array.
34  assumedPhiTrkRes_(settings->assumedPhiTrkRes()),
35  useStubPhi_(settings->useStubPhi()),
36  useStubPhiTrk_(settings->useStubPhiTrk()),
37  calcPhiTrkRes_(settings->calcPhiTrkRes()),
38  //=== Check if subsectors in eta are being used within each sector.
39  numSubSecsEta_(settings->numSubSecsEta()) {
40  // Centre of phi (tracking) nonant zero must be along x-axis to be consistent with tracker cabling map.
41  // Define phi sector zero to start at lower end of phi range in nonant 0.
42  float phiCentreSec0 = -M_PI / float(settings->numPhiNonants()) + M_PI / float(settings->numPhiSectors());
43  // Centre of sector in phi
44  phiCentre_ = 2. * M_PI * float(iPhiSec) / float(settings->numPhiSectors()) + phiCentreSec0;
45  sectorHalfWidth_ = M_PI / float(settings->numPhiSectors()); // Sector half width excluding overlaps.
46 
47  // If eta subsectors have equal width in rapidity, do this.
48  float subSecWidth = (etaMax_ - etaMin_) / float(numSubSecsEta_);
49  for (unsigned int i = 0; i < numSubSecsEta_; i++) {
50  float subSecEtaMin = etaMin_ + i * subSecWidth;
51  float subSecEtaMax = subSecEtaMin + subSecWidth;
52  float subSecZmin = chosenRofZ_ / tan(2. * atan(exp(-subSecEtaMin)));
53  float subSecZmax = chosenRofZ_ / tan(2. * atan(exp(-subSecEtaMax)));
54  zOuterMinSub_.push_back(subSecZmin);
55  zOuterMaxSub_.push_back(subSecZmax);
56  }
57  }

References chosenRofZ_, etaMax_, etaMin_, JetChargeProducer_cfi::exp, dqmMemoryStats::float, mps_fire::i, iPhiSec(), M_PI, tmtt::Settings::numPhiNonants(), tmtt::Settings::numPhiSectors(), numSubSecsEta_, phiCentre_, sectorHalfWidth_, funct::tan(), zOuterMaxSub_, and zOuterMinSub_.

Member Function Documentation

◆ etaMax()

float tmtt::Sector::etaMax ( ) const
inline

Definition at line 31 of file Sector.h.

31 { return etaMax_; } // Eta range covered by this sector.

References etaMax_.

Referenced by tmtt::L1track3D::cheat(), tmtt::MiniHTstage::exec(), and tmtt::TMTrackProducer::produce().

◆ etaMin()

float tmtt::Sector::etaMin ( ) const
inline

Definition at line 30 of file Sector.h.

30 { return etaMin_; } // Eta range covered by this sector.

References etaMin_.

Referenced by tmtt::L1track3D::cheat(), tmtt::MiniHTstage::exec(), and tmtt::TMTrackProducer::produce().

◆ forceBitWidth()

int64_t tmtt::Sector::forceBitWidth ( const float  value,
const UInt_t  nBits 
) const
private

Definition at line 192 of file Sector.cc.

192  {
193  // slightly hand-waving treatment of 2s complement
194  int64_t sign = 1;
195  if (value < 0)
196  sign = -1;
197  int64_t iValue = int64_t(std::abs(value));
198  int64_t mask = (int64_t(1) << nBits) - int64_t(1);
199  int64_t result = sign * (iValue & mask);
200  if (std::abs(result - value) > 1)
201  throw cms::Exception("LogicError")
202  << "Sector::forceBitWidth is messing up by using too few bits to digitize number"
203  << " nBits=" << nBits << " Input float=" << value << " Output digi = " << result;
204  return result;
205  // Check that result is compatible with value. Throw error if not.
206  }

References funct::abs(), mps_fire::result, and Validation_hcalonly_cfi::sign.

Referenced by subEtaFwCalc().

◆ iEtaReg()

unsigned int tmtt::Sector::iEtaReg ( ) const
inline

Definition at line 28 of file Sector.h.

28 { return iEtaReg_; }

References iEtaReg_.

◆ inside()

bool tmtt::Sector::inside ( const Stub stub) const
inline

Definition at line 20 of file Sector.h.

20 { return (this->insideEta(stub) && this->insidePhi(stub)); }

References insideEta(), and insidePhi().

Referenced by tmtt::Histos::fillEtaPhiSectors(), insideEta(), insideEtaRange(), insideEtaSubSecs(), tmtt::TMTrackProducer::produce(), and stubsInside().

◆ insideEta()

bool tmtt::Sector::insideEta ( const Stub stub) const

Definition at line 61 of file Sector.cc.

61  {
62  // Lower edge of this eta region defined by line from (r,z) = (0,-beamWindowZ) to (chosenRofZ_, zOuterMin_).
63  // Upper edge of this eta region defined by line from (r,z) = (0, beamWindowZ) to (chosenRofZ_, zOuterMax_).
64 
65  bool inside = this->insideEtaRange(stub, zOuterMin_, zOuterMax_);
66  return inside;
67  }

References inside(), insideEtaRange(), zOuterMax_, and zOuterMin_.

Referenced by tmtt::Histos::fillEtaPhiSectors(), inside(), numStubsInside(), and stubsInside().

◆ insideEtaRange()

bool tmtt::Sector::insideEtaRange ( const Stub stub,
float  zRangeMin,
float  zRangeMax 
) const
private

Definition at line 93 of file Sector.cc.

93  {
94  // Lower edge of this eta region defined by line from (r,z) = (0,-beamWindowZ) to (chosenRofZ_, zRangeMin).
95  // Upper edge of this eta region defined by line from (r,z) = (0, beamWindowZ) to (chosenRofZ_, zRangeMax).
96 
97  float zMin, zMax;
98  bool inside;
99 
100  // Calculate z coordinate of lower edge of this eta region, evaluated at radius of stub.
101  zMin = (zRangeMin * stub->r() - beamWindowZ_ * std::abs(stub->r() - chosenRofZ_)) / chosenRofZ_;
102  // Calculate z coordinate of upper edge of this eta region, evaluated at radius of stub.
103  zMax = (zRangeMax * stub->r() + beamWindowZ_ * std::abs(stub->r() - chosenRofZ_)) / chosenRofZ_;
104 
105  inside = (stub->z() > zMin && stub->z() < zMax);
106  return inside;
107  }

References funct::abs(), beamWindowZ_, chosenRofZ_, inside(), tmtt::Stub::r(), tmtt::Stub::z(), photonAnalyzer_cfi::zMax, and photonAnalyzer_cfi::zMin.

Referenced by insideEta(), and insideEtaSubSecs().

◆ insideEtaReg()

bool tmtt::Sector::insideEtaReg ( const TP tp) const
inline

Definition at line 56 of file Sector.h.

56  {
57  return (tp.trkZAtR(chosenRofZ_) > zOuterMin_ && tp.trkZAtR(chosenRofZ_) < zOuterMax_);
58  }

References chosenRofZ_, cmsswSequenceInfo::tp, zOuterMax_, and zOuterMin_.

◆ insideEtaSubSecs()

vector< bool > tmtt::Sector::insideEtaSubSecs ( const Stub stub) const

Definition at line 71 of file Sector.cc.

71  {
72  if (settings_->enableDigitize() && numSubSecsEta_ == 2) {
73  // Use (complicated) digitized firmware emulation
74  return subEtaFwCalc(stub->digitalStub()->iDigi_Rt(), stub->digitalStub()->iDigi_Z());
75 
76  } else {
77  // Use (simpler) floating point calculation.
78 
79  vector<bool> insideVec;
80 
81  // Loop over subsectors.
82  for (unsigned int i = 0; i < numSubSecsEta_; i++) {
83  bool inside = this->insideEtaRange(stub, zOuterMinSub_[i], zOuterMaxSub_[i]);
84  insideVec.push_back(inside);
85  }
86 
87  return insideVec;
88  }
89  }

References tmtt::Stub::digitalStub(), tmtt::Settings::enableDigitize(), mps_fire::i, tmtt::DigitalStub::iDigi_Rt(), tmtt::DigitalStub::iDigi_Z(), inside(), insideEtaRange(), numSubSecsEta_, settings_, subEtaFwCalc(), zOuterMaxSub_, and zOuterMinSub_.

Referenced by tmtt::MiniHTstage::exec(), and tmtt::TMTrackProducer::produce().

◆ insidePhi()

bool tmtt::Sector::insidePhi ( const Stub stub) const

Definition at line 111 of file Sector.cc.

111  {
112  // N.B. The logic here for preventing a stub being assigned to > 2 sectors seems overly agressive.
113  // But attempts at improving it have failed ...
114 
115  bool okPhi = true;
116  bool okPhiTrk = true;
117 
118  if (useStubPhi_) {
119  float delPhi =
120  reco::deltaPhi(stub->phi(), phiCentre_); // Phi difference between stub & sector in range -PI to +PI.
121  float tolerancePhi = stub->phiDiff(
122  chosenRofPhi_, minPt_); // How much stub phi might differ from track phi because of track curvature.
123  float outsidePhi = std::abs(delPhi) - sectorHalfWidth_ -
124  tolerancePhi; // If > 0, then stub is not compatible with being inside this sector.
125  if (outsidePhi > 0)
126  okPhi = false;
127  }
128 
129  if (useStubPhiTrk_) {
130  // Estimate either phi0 of track from stub info, or phi of the track at radius chosenRofPhi_.
131  float phiTrk = stub->trkPhiAtR(chosenRofPhi_);
132  // Phi difference between stub & sector in range -PI to +PI.
133  float delPhiTrk = reco::deltaPhi(phiTrk, phiCentre_);
134  // Set tolerance equal to nominal resolution assumed in phiTrk
135  float tolerancePhiTrk = assumedPhiTrkRes_ * (2 * sectorHalfWidth_);
136  if (calcPhiTrkRes_) {
137  // Calculate uncertainty in phiTrk due to poor resolution in stub bend
138  float phiTrkRes = stub->trkPhiAtRcut(chosenRofPhi_);
139  // Reduce tolerance if this is smaller than the nominal assumed resolution.
140  tolerancePhiTrk = min(tolerancePhiTrk, phiTrkRes);
141  }
142  // If following > 0, then stub is not compatible with being inside this sector.
143  float outsidePhiTrk = std::abs(delPhiTrk) - sectorHalfWidth_ - tolerancePhiTrk;
144 
145  if (outsidePhiTrk > 0)
146  okPhiTrk = false;
147  }
148 
149  return (okPhi && okPhiTrk);
150  }

References funct::abs(), assumedPhiTrkRes_, calcPhiTrkRes_, chosenRofPhi_, delPhi(), reco::deltaPhi(), min(), minPt_, tmtt::Stub::phi(), phiCentre_, tmtt::Stub::phiDiff(), sectorHalfWidth_, tmtt::Stub::trkPhiAtR(), tmtt::Stub::trkPhiAtRcut(), useStubPhi_, and useStubPhiTrk_.

Referenced by tmtt::Histos::fillEtaPhiSectors(), inside(), numStubsInside(), and stubsInside().

◆ insidePhiSec()

bool tmtt::Sector::insidePhiSec ( const TP tp) const
inline

Definition at line 53 of file Sector.h.

53  {
54  return (std::abs(tp.trkPhiAtR(chosenRofPhi_) - phiCentre_) < sectorHalfWidth_);
55  }

References funct::abs(), chosenRofPhi_, phiCentre_, sectorHalfWidth_, and cmsswSequenceInfo::tp.

◆ iPhiSec()

unsigned int tmtt::Sector::iPhiSec ( ) const
inline

Definition at line 27 of file Sector.h.

27 { return iPhiSec_; } // Sector number.

References iPhiSec_.

Referenced by Sector().

◆ numStubsInside()

void tmtt::Sector::numStubsInside ( const TP tp,
unsigned int &  nStubsInsideEtaPhi,
unsigned int &  nStubsInsideEta,
unsigned int &  nStubsInsidePhi 
) const

Definition at line 171 of file Sector.cc.

174  {
175  nStubsInsideEtaPhi = 0;
176  nStubsInsideEta = 0;
177  nStubsInsidePhi = 0;
178  for (const auto& iter : this->stubsInside(tp)) {
179  bool insidePhi = iter.second.first;
180  bool insideEta = iter.second.second;
181  if (insidePhi && insideEta)
182  nStubsInsideEtaPhi++;
183  if (insideEta)
184  nStubsInsideEta++;
185  if (insidePhi)
186  nStubsInsidePhi++;
187  }
188  }

References insideEta(), insidePhi(), and stubsInside().

◆ phiCentre()

float tmtt::Sector::phiCentre ( ) const
inline

Definition at line 29 of file Sector.h.

29 { return phiCentre_; } // Return phi of centre of this sector.

References phiCentre_.

Referenced by tmtt::L1track3D::cheat(), tmtt::MiniHTstage::exec(), and tmtt::TMTrackProducer::produce().

◆ sectorHalfWidth()

float tmtt::Sector::sectorHalfWidth ( ) const
inline

Definition at line 33 of file Sector.h.

33 { return sectorHalfWidth_; } // Half width in phi of sector measured in radians.

References sectorHalfWidth_.

◆ stubsInside()

unordered_map< const Stub *, pair< bool, bool > > tmtt::Sector::stubsInside ( const TP tp) const

Definition at line 156 of file Sector.cc.

156  {
157  unordered_map<const Stub*, pair<bool, bool> > inside;
158  // Loop over stubs produced by tracking particle
159  const vector<const Stub*>& assStubs = tp.assocStubs();
160  for (const Stub* stub : assStubs) {
161  // Check if this stub is inside sector
162  inside[stub] = pair<bool, bool>(this->insidePhi(stub), this->insideEta(stub));
163  }
164  return inside;
165  }

References inside(), insideEta(), insidePhi(), and cmsswSequenceInfo::tp.

Referenced by numStubsInside().

◆ subEtaFwCalc()

vector< bool > tmtt::Sector::subEtaFwCalc ( const int  rT,
const int  z 
) const
private

Definition at line 211 of file Sector.cc.

211  {
212  // Note number of reference bits used to digitize rT and z, used when GP authors determined some constants below.
213  unsigned int rtBitsRef = 10;
214  unsigned int zBitsRef = 12;
215 
216  // This replaces Kristian's hard-wired constants with configurable ones.
217  unsigned int rtBits = settings_->rtBits();
218  unsigned int zBits = settings_->zBits();
219  float rtRange = settings_->rtRange();
220  float zRange = settings_->zRange();
221  constexpr float cm_to_mm = 10.; // firwmare is in mm and CMSSW in cm.
222  float zBase = cm_to_mm / (pow(2, zBits) / zRange);
223  float rTBase = cm_to_mm / (pow(2, rtBits) / rtRange);
224 
225  // Number of bits used by DSP in UltraScale-Plus FPGA (where DSP does D = A*B + C)
226  constexpr unsigned int nDSPa = 27;
227  //constexpr unsigned int nDSPb = 18;
228  constexpr unsigned int nDSPc = 48;
229  constexpr unsigned int nDSPd = 48;
230 
231  // unit transformations: firmware uses mm, software uses cm
232  float BeamWindow = cm_to_mm * beamWindowZ_;
233  float T_rphi = cm_to_mm * chosenRofPhi_;
234  float T_rz = cm_to_mm * chosenRofZ_;
235 
236  // actual algorithm as used in firmware, mostly using same variable names
237  float Beam_over_T = BeamWindow / T_rz;
238  // Value chosen so that number digitized below when calculating "bot" uses most of the nDSPa bits, without overflowing them. This is done assuming reference number of bits for rT and z mentioned above.
239  unsigned int nShiftA = 24;
240  // Guess from to keep "bot" in correct range (nDSPa) if number of digitsation bits are changed.
241  nShiftA += (rtBits - rtBitsRef) - (zBits - zBitsRef);
242  float Beam_over_T_base = 1. / (1 << nShiftA);
243  int64_t bot = forceBitWidth(Beam_over_T * rTBase / zBase / Beam_over_T_base, nDSPa);
244  int64_t bw = forceBitWidth(BeamWindow / zBase / Beam_over_T_base, nDSPc);
245  float etaSecMid = (settings_->etaRegions()[iEtaReg_] + settings_->etaRegions()[iEtaReg_ + 1]) / 2.0;
246  float tanlSecMid = 1.0 / tan(2.0 * atan(exp(-etaSecMid)));
247  // Value chosen so that number digitized below when calculating "tanlSec_Mid" uses most of the nDSPa bits, without overflowing them. This is done assuming reference number of bits for rT and z mentioned above.
248  unsigned int nShiftB = 16;
249  // Guess to keep "tanlSec_Mid" in correct range (nDSPa) if number of digitsation bits are changed.
250  nShiftB += (rtBits - rtBitsRef) - (zBits - zBitsRef);
251  float tanlSecBase = 1. / (1 << nShiftB);
252  int64_t tanlSec_Mid = forceBitWidth(int(tanlSecMid * rTBase / zBase / tanlSecBase), nDSPa);
253  // Number of extra bits used to digitise r instead of rT within GP code, if both encoded as signed int.
254  constexpr unsigned int nExtraBitsR = 2;
255  unsigned int rBits = rtBits + nExtraBitsR;
256  int64_t r = forceBitWidth(rT + T_rphi / rTBase, rBits);
257  int64_t g = forceBitWidth(bot * r - bw, nDSPd);
258  int64_t absg = abs(g);
259  // Number of useful bits left of the nDSPd assigned to "absg" after right-shifting by nShiftA bits.
260  const unsigned nBitsRemainingA = nDSPd - nShiftA;
261  int64_t shift_g = forceBitWidth((absg >> nShiftA), nBitsRemainingA);
262  // Number of bits is sum of those in two numbers being multiplied.
263  int64_t tlsr = forceBitWidth(tanlSec_Mid * r, nDSPa + rBits);
264  // Number of useful bits left of (nDSPa + rBits) assigned to "tlsr" after right-shifting by nShiftB bits.
265  const unsigned nBitsRemainingB = (nDSPa + rBits) - nShiftB;
266  int64_t shift_tlsr = forceBitWidth((tlsr >> nShiftB), nBitsRemainingB);
267 
268  vector<bool> insideVec;
269  insideVec.push_back(z <= (shift_tlsr + shift_g));
270  insideVec.push_back(z >= (shift_tlsr - shift_g));
271  return insideVec;
272  }

References funct::abs(), beamWindowZ_, chosenRofPhi_, chosenRofZ_, cm_to_mm, tmtt::Settings::etaRegions(), JetChargeProducer_cfi::exp, forceBitWidth(), g, iEtaReg_, funct::pow(), alignCSCRings::r, tmtt::Settings::rtBits(), tmtt::Settings::rtRange(), settings_, funct::tan(), tmtt::Settings::zBits(), tmtt::Settings::zRange(), and beampixel_dqm_sourceclient-live_cfg::zRange.

Referenced by insideEtaSubSecs().

◆ zAtChosenR_Max()

float tmtt::Sector::zAtChosenR_Max ( ) const
inline

Definition at line 37 of file Sector.h.

37 { return zOuterMax_; }

References zOuterMax_.

◆ zAtChosenR_Min()

float tmtt::Sector::zAtChosenR_Min ( ) const
inline

Definition at line 34 of file Sector.h.

34  {
35  return zOuterMin_;
36  } // Range in z of particle at chosen radius from beam line covered by this sector.

References zOuterMin_.

Member Data Documentation

◆ assumedPhiTrkRes_

float tmtt::Sector::assumedPhiTrkRes_
private

Definition at line 88 of file Sector.h.

Referenced by insidePhi().

◆ beamWindowZ_

float tmtt::Sector::beamWindowZ_
private

Definition at line 76 of file Sector.h.

Referenced by insideEtaRange(), and subEtaFwCalc().

◆ calcPhiTrkRes_

bool tmtt::Sector::calcPhiTrkRes_
private

Definition at line 91 of file Sector.h.

Referenced by insidePhi().

◆ chosenRofPhi_

float tmtt::Sector::chosenRofPhi_
private

Definition at line 86 of file Sector.h.

Referenced by insidePhi(), insidePhiSec(), and subEtaFwCalc().

◆ chosenRofZ_

float tmtt::Sector::chosenRofZ_
private

Definition at line 79 of file Sector.h.

Referenced by insideEtaRange(), insideEtaReg(), Sector(), and subEtaFwCalc().

◆ etaMax_

float tmtt::Sector::etaMax_
private

Definition at line 78 of file Sector.h.

Referenced by etaMax(), and Sector().

◆ etaMin_

float tmtt::Sector::etaMin_
private

Definition at line 77 of file Sector.h.

Referenced by etaMin(), and Sector().

◆ iEtaReg_

unsigned int tmtt::Sector::iEtaReg_
private

Definition at line 75 of file Sector.h.

Referenced by iEtaReg(), and subEtaFwCalc().

◆ iPhiSec_

unsigned int tmtt::Sector::iPhiSec_
private

Definition at line 74 of file Sector.h.

Referenced by iPhiSec().

◆ minPt_

float tmtt::Sector::minPt_
private

Definition at line 87 of file Sector.h.

Referenced by insidePhi().

◆ numSubSecsEta_

unsigned int tmtt::Sector::numSubSecsEta_
private

Definition at line 94 of file Sector.h.

Referenced by insideEtaSubSecs(), and Sector().

◆ phiCentre_

float tmtt::Sector::phiCentre_
private

Definition at line 84 of file Sector.h.

Referenced by insidePhi(), insidePhiSec(), phiCentre(), and Sector().

◆ sectorHalfWidth_

float tmtt::Sector::sectorHalfWidth_
private

Definition at line 85 of file Sector.h.

Referenced by insidePhi(), insidePhiSec(), Sector(), and sectorHalfWidth().

◆ settings_

const Settings* tmtt::Sector::settings_
private

Definition at line 71 of file Sector.h.

Referenced by insideEtaSubSecs(), and subEtaFwCalc().

◆ useStubPhi_

bool tmtt::Sector::useStubPhi_
private

Definition at line 89 of file Sector.h.

Referenced by insidePhi().

◆ useStubPhiTrk_

bool tmtt::Sector::useStubPhiTrk_
private

Definition at line 90 of file Sector.h.

Referenced by insidePhi().

◆ zOuterMax_

float tmtt::Sector::zOuterMax_
private

Definition at line 81 of file Sector.h.

Referenced by insideEta(), insideEtaReg(), and zAtChosenR_Max().

◆ zOuterMaxSub_

std::vector<float> tmtt::Sector::zOuterMaxSub_
private

Definition at line 96 of file Sector.h.

Referenced by insideEtaSubSecs(), and Sector().

◆ zOuterMin_

float tmtt::Sector::zOuterMin_
private

Definition at line 80 of file Sector.h.

Referenced by insideEta(), insideEtaReg(), and zAtChosenR_Min().

◆ zOuterMinSub_

std::vector<float> tmtt::Sector::zOuterMinSub_
private

Definition at line 95 of file Sector.h.

Referenced by insideEtaSubSecs(), and Sector().

tmtt::Sector::insideEtaRange
bool insideEtaRange(const Stub *stub, float zRangeMin, float zRangeMax) const
Definition: Sector.cc:93
mps_fire.i
i
Definition: mps_fire.py:428
photonAnalyzer_cfi.zMax
zMax
Definition: photonAnalyzer_cfi.py:95
dqmMemoryStats.float
float
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