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#include "Geometry/HGCalCommonData/interface/HGCalParameters.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "Geometry/HGCalCommonData/interface/HGCalWaferIndex.h"
#include <array>
//#define EDM_ML_DEBUG
HGCalParameters::HGCalParameters(const std::string& nam) : name_(nam), nCells_(0), waferMaskMode_(0) {
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "Construct HGCalParameters for " << name_;
#endif
}
void HGCalParameters::fillModule(const HGCalParameters::hgtrap& mytr, bool reco) {
if (reco) {
moduleLayR_.emplace_back(mytr.lay);
moduleBlR_.emplace_back(mytr.bl);
moduleTlR_.emplace_back(mytr.tl);
moduleHR_.emplace_back(mytr.h);
moduleDzR_.emplace_back(mytr.dz);
moduleAlphaR_.emplace_back(mytr.alpha);
moduleCellR_.emplace_back(mytr.cellSize);
} else {
moduleLayS_.emplace_back(mytr.lay);
moduleBlS_.emplace_back(mytr.bl);
moduleTlS_.emplace_back(mytr.tl);
moduleHS_.emplace_back(mytr.h);
moduleDzS_.emplace_back(mytr.dz);
moduleAlphaS_.emplace_back(mytr.alpha);
moduleCellS_.emplace_back(mytr.cellSize);
}
}
HGCalParameters::hgtrap HGCalParameters::getModule(unsigned int k, bool reco) const {
HGCalParameters::hgtrap mytr;
if (reco) {
if (k < moduleLayR_.size()) {
mytr.lay = moduleLayR_[k];
mytr.bl = moduleBlR_[k];
mytr.tl = moduleTlR_[k];
mytr.h = moduleHR_[k];
mytr.dz = moduleDzR_[k];
mytr.alpha = moduleAlphaR_[k];
mytr.cellSize = moduleCellR_[k];
} else {
mytr.lay = -1;
mytr.bl = mytr.tl = mytr.h = mytr.dz = mytr.alpha = mytr.cellSize = 0;
}
} else {
if (k < moduleLayS_.size()) {
mytr.lay = moduleLayS_[k];
mytr.bl = moduleBlS_[k];
mytr.tl = moduleTlS_[k];
mytr.h = moduleHS_[k];
mytr.dz = moduleDzS_[k];
mytr.alpha = moduleAlphaS_[k];
mytr.cellSize = moduleCellS_[k];
} else {
mytr.lay = -1;
mytr.bl = mytr.tl = mytr.h = mytr.dz = mytr.alpha = mytr.cellSize = 0;
}
}
return mytr;
}
void HGCalParameters::fillTrForm(const HGCalParameters::hgtrform& mytr) {
int zp = (mytr.zp == 1) ? 1 : 0;
uint32_t indx = ((zp & kMaskZside) << kShiftZside);
indx |= ((mytr.lay & kMaskLayer) << kShiftLayer);
indx |= ((mytr.sec & kMaskSector) << kShiftSector);
indx |= ((mytr.subsec & kMaskSubSec) << kShiftSubSec);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "ZP " << zp << ":" << kMaskZside << ":" << kShiftZside
<< ((zp & kMaskZside) << kShiftZside) << " Lay " << mytr.lay << ":" << kMaskLayer << ":"
<< kShiftLayer << ":" << ((mytr.lay & kMaskLayer) << kShiftLayer) << " Sector "
<< mytr.sec << ":" << kMaskSector << ":" << kShiftSector << ":"
<< ((mytr.sec & kMaskSector) << kShiftSector) << " SubSec " << mytr.subsec << ":"
<< kMaskSubSec << ":" << kShiftSubSec << ":"
<< ((mytr.subsec & kMaskSubSec) << kShiftSubSec) << " Index " << std::hex << indx
<< std::dec;
#endif
trformIndex_.emplace_back(indx);
trformTranX_.emplace_back(mytr.h3v.x());
trformTranY_.emplace_back(mytr.h3v.y());
trformTranZ_.emplace_back(mytr.h3v.z());
trformRotXX_.emplace_back((std::abs(mytr.hr.xx()) > tol) ? mytr.hr.xx() : 0);
trformRotYX_.emplace_back((std::abs(mytr.hr.yx()) > tol) ? mytr.hr.yx() : 0);
trformRotZX_.emplace_back((std::abs(mytr.hr.zx()) > tol) ? mytr.hr.zx() : 0);
trformRotXY_.emplace_back((std::abs(mytr.hr.xy()) > tol) ? mytr.hr.xy() : 0);
trformRotYY_.emplace_back((std::abs(mytr.hr.yy()) > tol) ? mytr.hr.yy() : 0);
trformRotZY_.emplace_back((std::abs(mytr.hr.zy()) > tol) ? mytr.hr.zy() : 0);
trformRotXZ_.emplace_back((std::abs(mytr.hr.xz()) > tol) ? mytr.hr.xz() : 0);
trformRotYZ_.emplace_back((std::abs(mytr.hr.yz()) > tol) ? mytr.hr.yz() : 0);
trformRotZZ_.emplace_back((std::abs(mytr.hr.zz()) > tol) ? mytr.hr.zz() : 0);
#ifdef EDM_ML_DEBUG
unsigned int k = trformIndex_.size() - 1;
edm::LogVerbatim("HGCalGeom") << "HGCalParameters[" << k << "] Index " << std::hex << trformIndex_[k] << std::dec
<< " (" << mytr.zp << ", " << mytr.lay << ", " << mytr.sec << ", " << mytr.subsec
<< ") Translation (" << trformTranX_[k] << ", " << trformTranY_[k] << ", "
<< trformTranZ_[k] << ") Rotation (" << trformRotXX_[k] << ", " << trformRotYX_[k]
<< ", " << trformRotZX_[k] << ", " << trformRotXY_[k] << ", " << trformRotYY_[k] << ", "
<< trformRotZY_[k] << ", " << trformRotXZ_[k] << ", " << trformRotYZ_[k] << ", "
<< trformRotZZ_[k];
#endif
}
HGCalParameters::hgtrform HGCalParameters::getTrForm(unsigned int k) const {
HGCalParameters::hgtrform mytr;
if (k < trformIndex_.size()) {
const auto& id = getID(k);
mytr.zp = id[0];
mytr.lay = id[1];
mytr.sec = id[2];
mytr.subsec = id[3];
mytr.h3v = CLHEP::Hep3Vector(trformTranX_[k], trformTranY_[k], trformTranZ_[k]);
const CLHEP::HepRep3x3 rotation(trformRotXX_[k],
trformRotXY_[k],
trformRotXZ_[k],
trformRotYX_[k],
trformRotYY_[k],
trformRotYZ_[k],
trformRotZX_[k],
trformRotZY_[k],
trformRotZZ_[k]);
mytr.hr = CLHEP::HepRotation(rotation);
} else {
mytr.zp = mytr.lay = mytr.sec = mytr.subsec = 0;
}
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "HGCalParameters[" << k << "] Index " << std::hex << trformIndex_[k] << std::dec
<< " (" << mytr.zp << ", " << mytr.lay << ", " << mytr.sec << ", " << mytr.subsec
<< ") Translation (" << mytr.h3v.x() << ", " << mytr.h3v.y() << ", " << mytr.h3v.z()
<< ") Rotation (" << mytr.hr.xx() << ", " << mytr.hr.yx() << ", " << mytr.hr.zx()
<< ", " << mytr.hr.xy() << ", " << mytr.hr.yy() << ", " << mytr.hr.zy() << ", "
<< mytr.hr.xz() << ", " << mytr.hr.yz() << ", " << mytr.hr.zz();
#endif
return mytr;
}
void HGCalParameters::addTrForm(const CLHEP::Hep3Vector& h3v) {
unsigned int k = trformTranX_.size();
if (k > 0) {
trformTranX_[k - 1] += h3v.x();
trformTranY_[k - 1] += h3v.y();
trformTranZ_[k - 1] += h3v.z();
}
}
void HGCalParameters::scaleTrForm(double scale) {
unsigned int k = trformTranX_.size();
if (k > 0) {
trformTranX_[k - 1] *= scale;
trformTranY_[k - 1] *= scale;
trformTranZ_[k - 1] *= scale;
}
}
std::array<int, 4> HGCalParameters::getID(unsigned int k) const {
int zp = ((trformIndex_[k] >> kShiftZside) & kMaskZside);
if (zp != 1)
zp = -1;
int lay = ((trformIndex_[k] >> kShiftLayer) & kMaskLayer);
int sec = ((trformIndex_[k] >> kShiftSector) & kMaskSector);
int subsec = ((trformIndex_[k] >> kShiftSubSec) & kMaskSubSec);
return std::array<int, 4>{{zp, lay, sec, subsec}};
}
#include "FWCore/Utilities/interface/typelookup.h"
TYPELOOKUP_DATA_REG(HGCalParameters);
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