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HGCalParameters.cc
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4 
5 //#define EDM_ML_DEBUG
6 
7 HGCalParameters::HGCalParameters(const std::string& nam) : name_(nam), nCells_(0), waferMaskMode_(0) {
8 #ifdef EDM_ML_DEBUG
9  edm::LogVerbatim("HGCalGeom") << "Construct HGCalParameters for " << name_;
10 #endif
11 }
12 
14 
16  if (reco) {
17  moduleLayR_.emplace_back(mytr.lay);
18  moduleBlR_.emplace_back(mytr.bl);
19  moduleTlR_.emplace_back(mytr.tl);
20  moduleHR_.emplace_back(mytr.h);
21  moduleDzR_.emplace_back(mytr.dz);
22  moduleAlphaR_.emplace_back(mytr.alpha);
23  moduleCellR_.emplace_back(mytr.cellSize);
24  } else {
25  moduleLayS_.emplace_back(mytr.lay);
26  moduleBlS_.emplace_back(mytr.bl);
27  moduleTlS_.emplace_back(mytr.tl);
28  moduleHS_.emplace_back(mytr.h);
29  moduleDzS_.emplace_back(mytr.dz);
30  moduleAlphaS_.emplace_back(mytr.alpha);
31  moduleCellS_.emplace_back(mytr.cellSize);
32  }
33 }
34 
37  if (reco) {
38  if (k < moduleLayR_.size()) {
39  mytr.lay = moduleLayR_[k];
40  mytr.bl = moduleBlR_[k];
41  mytr.tl = moduleTlR_[k];
42  mytr.h = moduleHR_[k];
43  mytr.dz = moduleDzR_[k];
44  mytr.alpha = moduleAlphaR_[k];
45  mytr.cellSize = moduleCellR_[k];
46  } else {
47  mytr.lay = -1;
48  mytr.bl = mytr.tl = mytr.h = mytr.dz = mytr.alpha = mytr.cellSize = 0;
49  }
50  } else {
51  if (k < moduleLayS_.size()) {
52  mytr.lay = moduleLayS_[k];
53  mytr.bl = moduleBlS_[k];
54  mytr.tl = moduleTlS_[k];
55  mytr.h = moduleHS_[k];
56  mytr.dz = moduleDzS_[k];
57  mytr.alpha = moduleAlphaS_[k];
58  mytr.cellSize = moduleCellS_[k];
59  } else {
60  mytr.lay = -1;
61  mytr.bl = mytr.tl = mytr.h = mytr.dz = mytr.alpha = mytr.cellSize = 0;
62  }
63  }
64  return mytr;
65 }
66 
68  int zp = (mytr.zp == 1) ? 1 : 0;
69  uint32_t indx = ((zp & kMaskZside) << kShiftZside);
70  indx |= ((mytr.lay & kMaskLayer) << kShiftLayer);
71  indx |= ((mytr.sec & kMaskSector) << kShiftSector);
72  indx |= ((mytr.subsec & kMaskSubSec) << kShiftSubSec);
73 #ifdef EDM_ML_DEBUG
74  edm::LogVerbatim("HGCalGeom") << "ZP " << zp << ":" << kMaskZside << ":" << kShiftZside
75  << ((zp & kMaskZside) << kShiftZside) << " Lay " << mytr.lay << ":" << kMaskLayer << ":"
76  << kShiftLayer << ":" << ((mytr.lay & kMaskLayer) << kShiftLayer) << " Sector "
77  << mytr.sec << ":" << kMaskSector << ":" << kShiftSector << ":"
78  << ((mytr.sec & kMaskSector) << kShiftSector) << " SubSec " << mytr.subsec << ":"
79  << kMaskSubSec << ":" << kShiftSubSec << ":"
80  << ((mytr.subsec & kMaskSubSec) << kShiftSubSec) << " Index " << std::hex << indx
81  << std::dec;
82 #endif
83  trformIndex_.emplace_back(indx);
84  trformTranX_.emplace_back(mytr.h3v.x());
85  trformTranY_.emplace_back(mytr.h3v.y());
86  trformTranZ_.emplace_back(mytr.h3v.z());
87  trformRotXX_.emplace_back((std::abs(mytr.hr.xx()) > tol) ? mytr.hr.xx() : 0);
88  trformRotYX_.emplace_back((std::abs(mytr.hr.yx()) > tol) ? mytr.hr.yx() : 0);
89  trformRotZX_.emplace_back((std::abs(mytr.hr.zx()) > tol) ? mytr.hr.zx() : 0);
90  trformRotXY_.emplace_back((std::abs(mytr.hr.xy()) > tol) ? mytr.hr.xy() : 0);
91  trformRotYY_.emplace_back((std::abs(mytr.hr.yy()) > tol) ? mytr.hr.yy() : 0);
92  trformRotZY_.emplace_back((std::abs(mytr.hr.zy()) > tol) ? mytr.hr.zy() : 0);
93  trformRotXZ_.emplace_back((std::abs(mytr.hr.xz()) > tol) ? mytr.hr.xz() : 0);
94  trformRotYZ_.emplace_back((std::abs(mytr.hr.yz()) > tol) ? mytr.hr.yz() : 0);
95  trformRotZZ_.emplace_back((std::abs(mytr.hr.zz()) > tol) ? mytr.hr.zz() : 0);
96 #ifdef EDM_ML_DEBUG
97  unsigned int k = trformIndex_.size() - 1;
98  edm::LogVerbatim("HGCalGeom") << "HGCalParameters[" << k << "] Index " << std::hex << trformIndex_[k] << std::dec
99  << " (" << mytr.zp << ", " << mytr.lay << ", " << mytr.sec << ", " << mytr.subsec
100  << ") Translation (" << trformTranX_[k] << ", " << trformTranY_[k] << ", "
101  << trformTranZ_[k] << ") Rotation (" << trformRotXX_[k] << ", " << trformRotYX_[k]
102  << ", " << trformRotZX_[k] << ", " << trformRotXY_[k] << ", " << trformRotYY_[k] << ", "
103  << trformRotZY_[k] << ", " << trformRotXZ_[k] << ", " << trformRotYZ_[k] << ", "
104  << trformRotZZ_[k];
105 #endif
106 }
107 
110  if (k < trformIndex_.size()) {
111  const auto& id = getID(k);
112  mytr.zp = id[0];
113  mytr.lay = id[1];
114  mytr.sec = id[2];
115  mytr.subsec = id[3];
116  mytr.h3v = CLHEP::Hep3Vector(trformTranX_[k], trformTranY_[k], trformTranZ_[k]);
117  const CLHEP::HepRep3x3 rotation(trformRotXX_[k],
118  trformRotXY_[k],
119  trformRotXZ_[k],
120  trformRotYX_[k],
121  trformRotYY_[k],
122  trformRotYZ_[k],
123  trformRotZX_[k],
124  trformRotZY_[k],
125  trformRotZZ_[k]);
126  mytr.hr = CLHEP::HepRotation(rotation);
127  } else {
128  mytr.zp = mytr.lay = mytr.sec = mytr.subsec = 0;
129  }
130 #ifdef EDM_ML_DEBUG
131  edm::LogVerbatim("HGCalGeom") << "HGCalParameters[" << k << "] Index " << std::hex << trformIndex_[k] << std::dec
132  << " (" << mytr.zp << ", " << mytr.lay << ", " << mytr.sec << ", " << mytr.subsec
133  << ") Translation (" << mytr.h3v.x() << ", " << mytr.h3v.y() << ", " << mytr.h3v.z()
134  << ") Rotation (" << mytr.hr.xx() << ", " << mytr.hr.yx() << ", " << mytr.hr.zx()
135  << ", " << mytr.hr.xy() << ", " << mytr.hr.yy() << ", " << mytr.hr.zy() << ", "
136  << mytr.hr.xz() << ", " << mytr.hr.yz() << ", " << mytr.hr.zz();
137 #endif
138  return mytr;
139 }
140 
141 void HGCalParameters::addTrForm(const CLHEP::Hep3Vector& h3v) {
142  unsigned int k = trformTranX_.size();
143  if (k > 0) {
144  trformTranX_[k - 1] += h3v.x();
145  trformTranY_[k - 1] += h3v.y();
146  trformTranZ_[k - 1] += h3v.z();
147  }
148 }
149 
151  unsigned int k = trformTranX_.size();
152  if (k > 0) {
153  trformTranX_[k - 1] *= scale;
154  trformTranY_[k - 1] *= scale;
155  trformTranZ_[k - 1] *= scale;
156  }
157 }
158 
159 std::array<int, 4> HGCalParameters::getID(unsigned int k) const {
160  int zp = ((trformIndex_[k] >> kShiftZside) & kMaskZside);
161  if (zp != 1)
162  zp = -1;
163  int lay = ((trformIndex_[k] >> kShiftLayer) & kMaskLayer);
164  int sec = ((trformIndex_[k] >> kShiftSector) & kMaskSector);
165  int subsec = ((trformIndex_[k] >> kShiftSubSec) & kMaskSubSec);
166  return std::array<int, 4>{{zp, lay, sec, subsec}};
167 }
168 
170 
Log< level::Info, true > LogVerbatim
std::vector< double > moduleDzR_
std::vector< double > moduleCellR_
hgtrap getModule(unsigned int k, bool reco) const
std::vector< double > moduleHR_
std::vector< int > moduleLayR_
static constexpr int kMaskZside
std::vector< double > moduleHS_
std::vector< double > trformTranY_
static constexpr int kMaskLayer
std::array< int, 4 > getID(unsigned int k) const
std::vector< double > trformRotZY_
std::vector< uint32_t > trformIndex_
std::vector< double > trformRotXX_
hgtrform getTrForm(unsigned int k) const
static constexpr double tol
void fillTrForm(const hgtrform &mytr)
HGCalParameters(const std::string &nam)
std::vector< double > trformRotZX_
std::vector< double > trformRotYZ_
static constexpr int kShiftSector
std::vector< double > moduleDzS_
std::vector< double > moduleAlphaR_
std::vector< double > trformRotXY_
std::vector< double > trformRotYX_
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
std::vector< double > moduleBlR_
void fillModule(const hgtrap &mytr, bool reco)
std::vector< double > moduleTlS_
static constexpr int kShiftLayer
#define TYPELOOKUP_DATA_REG(_dataclass_)
Definition: typelookup.h:102
std::vector< double > trformTranX_
std::vector< double > trformRotXZ_
void scaleTrForm(double)
std::vector< double > moduleCellS_
static constexpr int kShiftZside
static constexpr int kMaskSector
static constexpr int kMaskSubSec
std::vector< double > trformRotYY_
std::vector< double > trformRotZZ_
std::vector< double > moduleAlphaS_
fixed size matrix
std::vector< double > moduleBlS_
std::vector< int > moduleLayS_
std::vector< double > trformTranZ_
CLHEP::HepRotation hr
void addTrForm(const CLHEP::Hep3Vector &h3v)
static constexpr int kShiftSubSec
std::vector< double > moduleTlR_
std::string name_