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///////////////////////////////////////////////////////////////////////////////
// File: DDHGCalMixLayer.cc
// Description: Geometry factory class for HGCal (Mix)
///////////////////////////////////////////////////////////////////////////////
#include "DataFormats/Math/interface/angle_units.h"
#include "DetectorDescription/Core/interface/DDAlgorithm.h"
#include "DetectorDescription/Core/interface/DDAlgorithmFactory.h"
#include "DetectorDescription/Core/interface/DDCurrentNamespace.h"
#include "DetectorDescription/Core/interface/DDLogicalPart.h"
#include "DetectorDescription/Core/interface/DDMaterial.h"
#include "DetectorDescription/Core/interface/DDSolid.h"
#include "DetectorDescription/Core/interface/DDSplit.h"
#include "DetectorDescription/Core/interface/DDTypes.h"
#include "DetectorDescription/Core/interface/DDutils.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/PluginManager/interface/PluginFactory.h"
#include "Geometry/HGCalCommonData/interface/HGCalGeomTools.h"
#include "Geometry/HGCalCommonData/interface/HGCalParameters.h"
#include "Geometry/HGCalCommonData/interface/HGCalProperty.h"
#include "Geometry/HGCalCommonData/interface/HGCalTileIndex.h"
#include "Geometry/HGCalCommonData/interface/HGCalTypes.h"
#include "Geometry/HGCalCommonData/interface/HGCalWaferIndex.h"
#include "Geometry/HGCalCommonData/interface/HGCalWaferType.h"
#include <cmath>
#include <memory>
#include <string>
#include <unordered_set>
#include <vector>
//#define EDM_ML_DEBUG
using namespace angle_units::operators;
class DDHGCalMixLayer : public DDAlgorithm {
public:
DDHGCalMixLayer();
void initialize(const DDNumericArguments& nArgs,
const DDVectorArguments& vArgs,
const DDMapArguments& mArgs,
const DDStringArguments& sArgs,
const DDStringVectorArguments& vsArgs) override;
void execute(DDCompactView& cpv) override;
protected:
void constructLayers(const DDLogicalPart&, DDCompactView& cpv);
void positionMix(const DDLogicalPart& glog,
const std::string& nameM,
int copyM,
double thick,
const DDMaterial& matter,
DDCompactView& cpv);
private:
HGCalGeomTools geomTools_;
static constexpr double tol1_ = 0.01;
static constexpr double tol2_ = 0.00001;
int waferTypes_; // Number of wafer types
int facingTypes_; // Types of facings of modules toward IP
int partialTypes_; // Number of partial wafer types
int orientationTypes_; // Number of partial wafer orienations
int phiBinsScint_; // Maximum number of cells along phi
int firstLayer_; // Copy # of the first sensitive layer
int absorbMode_; // Absorber mode
int sensitiveMode_; // Sensitive mode
double zMinBlock_; // Starting z-value of the block
double waferSize_; // Width of the wafer
double waferSepar_; // Sensor separation
int sectors_; // Sectors
std::vector<double> slopeB_; // Slope at the lower R
std::vector<double> zFrontB_; // Starting Z values for the slopes
std::vector<double> rMinFront_; // Corresponding rMin's
std::vector<double> slopeT_; // Slopes at the larger R
std::vector<double> zFrontT_; // Starting Z values for the slopes
std::vector<double> rMaxFront_; // Corresponding rMax's
std::vector<std::string> waferFull_; // Names of full wafer modules
std::vector<std::string> waferPart_; // Names of partial wafer modules
std::vector<std::string> materials_; // Materials
std::vector<std::string> names_; // Names
std::vector<double> thick_; // Thickness of the material
std::vector<int> copyNumber_; // Initial copy numbers
std::vector<int> layers_; // Number of layers in a section
std::vector<double> layerThick_; // Thickness of each section
std::vector<int> layerType_; // Type of the layer
std::vector<int> layerSense_; // Content of a layer (sensitive?)
std::vector<std::string> materialTop_; // Materials of top layers
std::vector<std::string> namesTop_; // Names of top layers
std::vector<double> layerThickTop_; // Thickness of the top sections
std::vector<int> layerTypeTop_; // Type of the Top layer
std::vector<int> copyNumberTop_; // Initial copy numbers (top section)
std::vector<int> layerOrient_; // Layer orientation of silicon layers
std::vector<int> waferIndex_; // Wafer index for the types
std::vector<int> waferProperty_; // Wafer property
std::vector<int> waferLayerStart_; // Start index of wafers in each layer
std::vector<double> tileRMin_; // Minimum radius of each ring
std::vector<double> tileRMax_; // Maximum radius of each ring
std::vector<int> tileIndex_; // Index of tile (layer/start|end ring)
std::vector<int> tilePhis_; // Tile phi range for each index
std::vector<int> tileLayerStart_; // Start index of tiles in each layer
std::string nameSpace_; // Namespace of this and ALL sub-parts
std::unordered_set<int> copies_; // List of copy #'s
double alpha_, cosAlpha_;
};
DDHGCalMixLayer::DDHGCalMixLayer() {
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Creating an instance";
#endif
}
void DDHGCalMixLayer::initialize(const DDNumericArguments& nArgs,
const DDVectorArguments& vArgs,
const DDMapArguments&,
const DDStringArguments& sArgs,
const DDStringVectorArguments& vsArgs) {
waferTypes_ = static_cast<int>(nArgs["WaferTypes"]);
facingTypes_ = static_cast<int>(nArgs["FacingTypes"]);
partialTypes_ = static_cast<int>(nArgs["PartialTypes"]);
orientationTypes_ = static_cast<int>(nArgs["OrientationTypes"]);
phiBinsScint_ = static_cast<int>(nArgs["NPhiBinScint"]);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer::Number of types of wafers: " << waferTypes_
<< " facings: " << facingTypes_ << " partials: " << partialTypes_
<< " Orientations: " << orientationTypes_ << "; number of cells along phi "
<< phiBinsScint_;
#endif
firstLayer_ = (int)(nArgs["FirstLayer"]);
absorbMode_ = (int)(nArgs["AbsorberMode"]);
sensitiveMode_ = (int)(nArgs["SensitiveMode"]);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer::First Layer " << firstLayer_ << " and "
<< "Absober:Sensitive mode " << absorbMode_ << ":" << sensitiveMode_;
#endif
zMinBlock_ = nArgs["zMinBlock"];
waferSize_ = nArgs["waferSize"];
waferSepar_ = nArgs["SensorSeparation"];
sectors_ = (int)(nArgs["Sectors"]);
alpha_ = (1._pi) / sectors_;
cosAlpha_ = cos(alpha_);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: zStart " << zMinBlock_ << " wafer width " << waferSize_
<< " separations " << waferSepar_ << " sectors " << sectors_ << ":"
<< convertRadToDeg(alpha_) << ":" << cosAlpha_;
#endif
slopeB_ = vArgs["SlopeBottom"];
zFrontB_ = vArgs["ZFrontBottom"];
rMinFront_ = vArgs["RMinFront"];
slopeT_ = vArgs["SlopeTop"];
zFrontT_ = vArgs["ZFrontTop"];
rMaxFront_ = vArgs["RMaxFront"];
#ifdef EDM_ML_DEBUG
for (unsigned int i = 0; i < slopeB_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Bottom Block [" << i << "] Zmin " << zFrontB_[i] << " Rmin " << rMinFront_[i]
<< " Slope " << slopeB_[i];
for (unsigned int i = 0; i < slopeT_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Top Block [" << i << "] Zmin " << zFrontT_[i] << " Rmax " << rMaxFront_[i]
<< " Slope " << slopeT_[i];
#endif
waferFull_ = vsArgs["WaferNamesFull"];
waferPart_ = vsArgs["WaferNamesPartial"];
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << waferFull_.size() << " full and " << waferPart_.size()
<< " partial modules\nDDHGCalMixLayer:Full Modules:";
unsigned int i1max = static_cast<unsigned int>(waferFull_.size());
for (unsigned int i1 = 0; i1 < i1max; i1 += 2) {
std::ostringstream st1;
unsigned int i2 = std::min((i1 + 2), i1max);
for (unsigned int i = i1; i < i2; ++i)
st1 << " [" << i << "] " << waferFull_[i];
edm::LogVerbatim("HGCalGeom") << st1.str() << std::endl;
}
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Partial Modules:";
i1max = static_cast<unsigned int>(waferPart_.size());
for (unsigned int i1 = 0; i1 < i1max; i1 += 2) {
std::ostringstream st1;
unsigned int i2 = std::min((i1 + 2), i1max);
for (unsigned int i = i1; i < i2; ++i)
st1 << " [" << i << "] " << waferPart_[i];
edm::LogVerbatim("HGCalGeom") << st1.str() << std::endl;
}
#endif
materials_ = vsArgs["MaterialNames"];
names_ = vsArgs["VolumeNames"];
thick_ = vArgs["Thickness"];
copyNumber_.resize(materials_.size(), 1);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << materials_.size() << " types of volumes";
for (unsigned int i = 0; i < names_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Volume [" << i << "] " << names_[i] << " of thickness " << thick_[i]
<< " filled with " << materials_[i] << " first copy number " << copyNumber_[i];
#endif
layers_ = dbl_to_int(vArgs["Layers"]);
layerThick_ = vArgs["LayerThick"];
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "There are " << layers_.size() << " blocks";
for (unsigned int i = 0; i < layers_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Block [" << i << "] of thickness " << layerThick_[i] << " with " << layers_[i]
<< " layers";
#endif
layerType_ = dbl_to_int(vArgs["LayerType"]);
layerSense_ = dbl_to_int(vArgs["LayerSense"]);
layerOrient_ = dbl_to_int(vArgs["LayerTypes"]);
for (unsigned int k = 0; k < layerOrient_.size(); ++k)
layerOrient_[k] = HGCalTypes::layerType(layerOrient_[k]);
#ifdef EDM_ML_DEBUG
for (unsigned int i = 0; i < layerOrient_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "LayerTypes [" << i << "] " << layerOrient_[i];
#endif
if (firstLayer_ > 0) {
for (unsigned int i = 0; i < layerType_.size(); ++i) {
if (layerSense_[i] > 0) {
int ii = layerType_[i];
copyNumber_[ii] = firstLayer_;
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "First copy number for layer type " << i << ":" << ii << " with "
<< materials_[ii] << " changed to " << copyNumber_[ii];
#endif
break;
}
}
} else {
firstLayer_ = 1;
}
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "There are " << layerType_.size() << " layers";
for (unsigned int i = 0; i < layerType_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Layer [" << i << "] with material type " << layerType_[i] << " sensitive class "
<< layerSense_[i];
#endif
materialTop_ = vsArgs["TopMaterialNames"];
namesTop_ = vsArgs["TopVolumeNames"];
layerThickTop_ = vArgs["TopLayerThickness"];
layerTypeTop_ = dbl_to_int(vArgs["TopLayerType"]);
copyNumberTop_.resize(materialTop_.size(), firstLayer_);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << materialTop_.size() << " types of volumes in the top part";
for (unsigned int i = 0; i < materialTop_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Volume [" << i << "] " << namesTop_[i] << " of thickness " << layerThickTop_[i]
<< " filled with " << materialTop_[i] << " first copy number " << copyNumberTop_[i];
edm::LogVerbatim("HGCalGeom") << "There are " << layerTypeTop_.size() << " layers in the top part";
for (unsigned int i = 0; i < layerTypeTop_.size(); ++i)
edm::LogVerbatim("HGCalGeom") << "Layer [" << i << "] with material type " << layerTypeTop_[i];
#endif
waferIndex_ = dbl_to_int(vArgs["WaferIndex"]);
waferProperty_ = dbl_to_int(vArgs["WaferProperties"]);
waferLayerStart_ = dbl_to_int(vArgs["WaferLayerStart"]);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "waferProperties with " << waferIndex_.size() << " entries in "
<< waferLayerStart_.size() << " layers";
for (unsigned int k = 0; k < waferLayerStart_.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "LayerStart[" << k << "] " << waferLayerStart_[k];
for (unsigned int k = 0; k < waferIndex_.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "[" << k << "] " << waferIndex_[k] << " ("
<< HGCalWaferIndex::waferLayer(waferIndex_[k]) << ", "
<< HGCalWaferIndex::waferU(waferIndex_[k]) << ", "
<< HGCalWaferIndex::waferV(waferIndex_[k]) << ") : ("
<< HGCalProperty::waferThick(waferProperty_[k]) << ":"
<< HGCalProperty::waferPartial(waferProperty_[k]) << ":"
<< HGCalProperty::waferOrient(waferProperty_[k]) << ")";
#endif
tileRMin_ = vArgs["TileRMin"];
tileRMax_ = vArgs["TileRMax"];
tileIndex_ = dbl_to_int(vArgs["TileLayerRings"]);
tilePhis_ = dbl_to_int(vArgs["TilePhiRange"]);
tileLayerStart_ = dbl_to_int(vArgs["TileLayerStart"]);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer:: with " << tileRMin_.size() << " rings";
for (unsigned int k = 0; k < tileRMin_.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "Ring[" << k << "] " << tileRMin_[k] << " : " << tileRMax_[k];
edm::LogVerbatim("HGCalGeom") << "TileProperties with " << tileIndex_.size() << " entries in "
<< tileLayerStart_.size() << " layers";
for (unsigned int k = 0; k < tileLayerStart_.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "LayerStart[" << k << "] " << tileLayerStart_[k];
for (unsigned int k = 0; k < tileIndex_.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "[" << k << "] " << tileIndex_[k] << " ("
<< "Layer " << std::get<0>(HGCalTileIndex::tileUnpack(tileIndex_[k])) << " Ring "
<< std::get<1>(HGCalTileIndex::tileUnpack(tileIndex_[k])) << ":"
<< std::get<2>(HGCalTileIndex::tileUnpack(tileIndex_[k])) << ") Phi "
<< std::get<1>(HGCalTileIndex::tileUnpack(tilePhis_[k])) << ":"
<< std::get<2>(HGCalTileIndex::tileUnpack(tilePhis_[k]));
#endif
nameSpace_ = DDCurrentNamespace::ns();
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: NameSpace " << nameSpace_ << ":";
#endif
}
////////////////////////////////////////////////////////////////////
// DDHGCalMixLayer methods...
////////////////////////////////////////////////////////////////////
void DDHGCalMixLayer::execute(DDCompactView& cpv) {
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "==>> Constructing DDHGCalMixLayer...";
copies_.clear();
#endif
constructLayers(parent(), cpv);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << copies_.size() << " different wafer copy numbers";
int k(0);
for (std::unordered_set<int>::const_iterator itr = copies_.begin(); itr != copies_.end(); ++itr, ++k) {
edm::LogVerbatim("HGCalGeom") << "Copy [" << k << "] : " << (*itr);
}
copies_.clear();
edm::LogVerbatim("HGCalGeom") << "<<== End of DDHGCalMixLayer construction...";
#endif
}
void DDHGCalMixLayer::constructLayers(const DDLogicalPart& module, DDCompactView& cpv) {
double zi(zMinBlock_);
int laymin(0);
for (unsigned int i = 0; i < layers_.size(); i++) {
double zo = zi + layerThick_[i];
double routF = HGCalGeomTools::radius(zi, zFrontT_, rMaxFront_, slopeT_);
int laymax = laymin + layers_[i];
double zz = zi;
double thickTot(0);
for (int ly = laymin; ly < laymax; ++ly) {
int ii = layerType_[ly];
int copy = copyNumber_[ii];
double hthick = 0.5 * thick_[ii];
double rinB = HGCalGeomTools::radius(zo, zFrontB_, rMinFront_, slopeB_);
zz += hthick;
thickTot += thick_[ii];
std::string name = names_[ii] + std::to_string(copy);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Layer " << ly << ":" << ii << " Front " << zi << ", " << routF
<< " Back " << zo << ", " << rinB << " superlayer thickness " << layerThick_[i];
#endif
DDName matName(DDSplit(materials_[ii]).first, DDSplit(materials_[ii]).second);
DDMaterial matter(matName);
DDLogicalPart glog;
if (layerSense_[ly] < 1) {
std::vector<double> pgonZ, pgonRin, pgonRout;
double rmax =
(std::min(routF, HGCalGeomTools::radius(zz + hthick, zFrontT_, rMaxFront_, slopeT_)) * cosAlpha_) - tol1_;
HGCalGeomTools::radius(zz - hthick,
zz + hthick,
zFrontB_,
rMinFront_,
slopeB_,
zFrontT_,
rMaxFront_,
slopeT_,
-layerSense_[ly],
pgonZ,
pgonRin,
pgonRout);
for (unsigned int isec = 0; isec < pgonZ.size(); ++isec) {
pgonZ[isec] -= zz;
if (layerSense_[ly] == 0 || absorbMode_ == 0)
pgonRout[isec] = rmax;
else
pgonRout[isec] = pgonRout[isec] * cosAlpha_ - tol1_;
}
DDSolid solid =
DDSolidFactory::polyhedra(DDName(name, nameSpace_), sectors_, -alpha_, 2._pi, pgonZ, pgonRin, pgonRout);
glog = DDLogicalPart(solid.ddname(), matter, solid);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << solid.name() << " polyhedra of " << sectors_
<< " sectors covering " << convertRadToDeg(-alpha_) << ":"
<< convertRadToDeg(-alpha_ + 2._pi) << " with " << pgonZ.size() << " sections";
for (unsigned int k = 0; k < pgonZ.size(); ++k)
edm::LogVerbatim("HGCalGeom") << "[" << k << "] z " << pgonZ[k] << " R " << pgonRin[k] << ":" << pgonRout[k];
#endif
} else {
double rins = (sensitiveMode_ < 1) ? rinB : HGCalGeomTools::radius(zz + hthick, zFrontB_, rMinFront_, slopeB_);
double routs =
(sensitiveMode_ < 1) ? routF : HGCalGeomTools::radius(zz - hthick, zFrontT_, rMaxFront_, slopeT_);
DDSolid solid = DDSolidFactory::tubs(DDName(name, nameSpace_), hthick, rins, routs, 0.0, 2._pi);
glog = DDLogicalPart(solid.ddname(), matter, solid);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << solid.name() << " Tubs made of " << matName
<< " of dimensions " << rinB << ":" << rins << ", " << routF << ":" << routs
<< ", " << hthick << ", 0.0, 360.0 and positioned in: " << glog.name()
<< " number " << copy;
#endif
positionMix(glog, name, copy, thick_[ii], matter, cpv);
}
DDTranslation r1(0, 0, zz);
DDRotation rot;
cpv.position(glog, module, copy, r1, rot);
++copyNumber_[ii];
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << glog.name() << " number " << copy << " positioned in "
<< module.name() << " at " << r1 << " with no rotation";
#endif
zz += hthick;
} // End of loop over layers in a block
zi = zo;
laymin = laymax;
// Make consistency check of all the partitions of the block
if (std::abs(thickTot - layerThick_[i]) >= tol2_) {
if (thickTot > layerThick_[i]) {
edm::LogError("HGCalGeom") << "Thickness of the partition " << layerThick_[i] << " is smaller than " << thickTot
<< ": thickness of all its components **** ERROR ****";
} else {
edm::LogWarning("HGCalGeom") << "Thickness of the partition " << layerThick_[i] << " does not match with "
<< thickTot << " of the components";
}
}
} // End of loop over blocks
}
void DDHGCalMixLayer::positionMix(const DDLogicalPart& glog,
const std::string& nameM,
int copyM,
double thick,
const DDMaterial& matter,
DDCompactView& cpv) {
DDRotation rot;
// Make the top part first
for (unsigned int ly = 0; ly < layerTypeTop_.size(); ++ly) {
int ii = layerTypeTop_[ly];
copyNumberTop_[ii] = copyM;
}
double hthick = 0.5 * thick;
double dphi = (2._pi) / phiBinsScint_;
double thickTot(0), zpos(-hthick);
for (unsigned int ly = 0; ly < layerTypeTop_.size(); ++ly) {
int ii = layerTypeTop_[ly];
int copy = copyNumberTop_[ii];
int layer = copy - firstLayer_;
double hthickl = 0.5 * layerThickTop_[ii];
thickTot += layerThickTop_[ii];
zpos += hthickl;
DDName matName(DDSplit(materialTop_[ii]).first, DDSplit(materialTop_[ii]).second);
DDMaterial matter1(matName);
unsigned int k = 0;
int firstTile = tileLayerStart_[layer];
int lastTile = ((layer + 1 < static_cast<int>(tileLayerStart_.size())) ? tileLayerStart_[layer + 1]
: static_cast<int>(tileIndex_.size()));
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Layer " << ly << ":" << ii << " Copy " << copy << " Tiles "
<< firstTile << ":" << lastTile;
#endif
for (int ti = firstTile; ti < lastTile; ++ti) {
double r1 = tileRMin_[std::get<1>(HGCalTileIndex::tileUnpack(tileIndex_[ti])) - 1];
double r2 = tileRMax_[std::get<2>(HGCalTileIndex::tileUnpack(tileIndex_[ti])) - 1];
int fimin = std::get<1>(HGCalTileIndex::tileUnpack(tilePhis_[ti]));
int fimax = std::get<2>(HGCalTileIndex::tileUnpack(tilePhis_[ti]));
double phi1 = dphi * (fimin - 1);
double phi2 = dphi * (fimax - fimin + 1);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Layer " << copy << " iR "
<< std::get<1>(HGCalTileIndex::tileUnpack(tileIndex_[ti])) << ":"
<< std::get<2>(HGCalTileIndex::tileUnpack(tileIndex_[ti])) << " R " << r1 << ":"
<< r2 << " Thick " << (2.0 * hthickl) << " phi " << fimin << ":" << fimax << ":"
<< convertRadToDeg(phi1) << ":" << convertRadToDeg(phi2);
;
#endif
std::string name = namesTop_[ii] + "L" + std::to_string(copy) + "F" + std::to_string(k);
++k;
DDSolid solid = DDSolidFactory::tubs(DDName(name, nameSpace_), hthickl, r1, r2, phi1, phi2);
DDLogicalPart glog1 = DDLogicalPart(solid.ddname(), matter1, solid);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << glog1.name() << " Tubs made of " << matName
<< " of dimensions " << r1 << ", " << r2 << ", " << hthickl << ", "
<< convertRadToDeg(phi1) << ", " << convertRadToDeg(phi2);
#endif
DDTranslation tran(0, 0, zpos);
cpv.position(glog1, glog, copy, tran, rot);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Position " << glog1.name() << " number " << copy << " in "
<< glog.name() << " at " << tran << " with no rotation";
#endif
}
++copyNumberTop_[ii];
zpos += hthickl;
}
if (std::abs(thickTot - thick) >= tol2_) {
if (thickTot > thick) {
edm::LogError("HGCalGeom") << "Thickness of the partition " << thick << " is smaller than " << thickTot
<< ": thickness of all its components in the top part **** ERROR ****";
} else {
edm::LogWarning("HGCalGeom") << "Thickness of the partition " << thick << " does not match with " << thickTot
<< " of the components in top part";
}
}
// Make the bottom part next
int layer = (copyM - firstLayer_);
static const double sqrt3 = std::sqrt(3.0);
int layercenter = layerOrient_[layer];
int layerType = (layerOrient_[layer] == HGCalTypes::WaferCenterB) ? 1 : 0;
int firstWafer = waferLayerStart_[layer];
int lastWafer = ((layer + 1 < static_cast<int>(waferLayerStart_.size())) ? waferLayerStart_[layer + 1]
: static_cast<int>(waferIndex_.size()));
double r = 0.5 * (waferSize_ + waferSepar_);
double R = 2.0 * r / sqrt3;
double dy = 0.75 * R;
const auto& xyoff = geomTools_.shiftXY(layercenter, (waferSize_ + waferSepar_));
#ifdef EDM_ML_DEBUG
int ium(0), ivm(0), kount(0);
std::vector<int> ntype(3, 0);
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: " << glog.ddname() << " r " << r << " R " << R << " dy " << dy
<< " Shift " << xyoff.first << ":" << xyoff.second << " WaferSize "
<< (waferSize_ + waferSepar_) << " index " << firstWafer << ":" << (lastWafer - 1);
#endif
for (int k = firstWafer; k < lastWafer; ++k) {
int u = HGCalWaferIndex::waferU(waferIndex_[k]);
int v = HGCalWaferIndex::waferV(waferIndex_[k]);
#ifdef EDM_ML_DEBUG
int iu = std::abs(u);
int iv = std::abs(v);
#endif
int nr = 2 * v;
int nc = -2 * u + v;
double xpos = xyoff.first + nc * r;
double ypos = xyoff.second + nr * dy;
int type = HGCalProperty::waferThick(waferProperty_[k]);
int part = HGCalProperty::waferPartial(waferProperty_[k]);
int orien = HGCalProperty::waferOrient(waferProperty_[k]);
std::string wafer;
int i(999);
if (part == HGCalTypes::WaferFull) {
i = layerType * waferTypes_ + type;
wafer = waferFull_[i];
} else {
i = (part - 1) * waferTypes_ * facingTypes_ * orientationTypes_ + layerType * waferTypes_ * orientationTypes_ +
type * orientationTypes_ + orien;
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << " layertype:type:part:orien:ind " << layerType << ":" << type << ":" << part
<< ":" << orien << ":" << i << ":" << waferPart_.size();
#endif
wafer = waferPart_[i];
}
int copy = HGCalTypes::packTypeUV(type, u, v);
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << " DDHGCalMixLayer: Layer " << HGCalWaferIndex::waferLayer(waferIndex_[k])
<< " Wafer " << wafer << " number " << copy << " type :part:orien:ind " << type << ":"
<< part << ":" << orien << ":" << i << " layer:u:v " << (layer + firstLayer_) << ":"
<< u << ":" << v;
if (iu > ium)
ium = iu;
if (iv > ivm)
ivm = iv;
kount++;
if (copies_.count(copy) == 0)
copies_.insert(copy);
#endif
DDTranslation tran(xpos, ypos, 0.0);
DDName name = DDName(DDSplit(wafer).first, DDSplit(wafer).second);
cpv.position(name, glog.ddname(), copy, tran, rot);
#ifdef EDM_ML_DEBUG
++ntype[type];
edm::LogVerbatim("HGCalGeom") << " DDHGCalMixLayer: " << name << " number " << copy << " type " << layerType << ":"
<< type << " positioned in " << glog.ddname() << " at " << tran
<< " with no rotation";
#endif
}
#ifdef EDM_ML_DEBUG
edm::LogVerbatim("HGCalGeom") << "DDHGCalMixLayer: Maximum # of u " << ium << " # of v " << ivm << " and " << kount
<< " wafers (" << ntype[0] << ":" << ntype[1] << ":" << ntype[2] << ") for "
<< glog.ddname();
#endif
}
DEFINE_EDM_PLUGIN(DDAlgorithmFactory, DDHGCalMixLayer, "hgcal:DDHGCalMixLayer");
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