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DDEcalBarrelNewAlgoSubtraction.cc File Reference
#include "DD4hep/DetFactoryHelper.h"
#include "DD4hep/Printout.h"
#include "DataFormats/Math/interface/angle_units.h"
#include "DetectorDescription/DDCMS/interface/DDPlugins.h"
#include "DetectorDescription/DDCMS/interface/BenchmarkGrd.h"
#include "DetectorDescription/DDCMS/interface/DDutils.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "Geometry/CaloGeometry/interface/EcalTrapezoidParameters.h"
#include "Math/AxisAngle.h"
#include "CLHEP/Geometry/Point3D.h"
#include "CLHEP/Geometry/Vector3D.h"
#include "CLHEP/Geometry/Transform3D.h"

Go to the source code of this file.

Typedefs

using EcalTrap = EcalTrapezoidParameters
 
using Pt3D = HepGeom::Point3D< double >
 
using Ro3D = HepGeom::Rotate3D
 
using Rota = CLHEP::HepRotation
 
using RoX3D = HepGeom::RotateX3D
 
using RoZ3D = HepGeom::RotateZ3D
 
using Tf3D = HepGeom::Transform3D
 
using Tl3D = HepGeom::Translate3D
 
using Vec3 = CLHEP::Hep3Vector
 
using VecDouble = vector< double >
 
using VecStr = vector< string >
 

Functions

static long algorithm (dd4hep::Detector &, cms::DDParsingContext &ctxt, xml_h e)
 
 DD4HEP_OPEN_PLUGIN (dd4hep, ddcms_det_element_DDCMS_ecal_DDEcalBarrelNewAlgoSubtraction)
 

Typedef Documentation

◆ EcalTrap

Definition at line 23 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Pt3D

using Pt3D = HepGeom::Point3D<double>

Definition at line 25 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Ro3D

using Ro3D = HepGeom::Rotate3D

Definition at line 28 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Rota

using Rota = CLHEP::HepRotation

Definition at line 27 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ RoX3D

using RoX3D = HepGeom::RotateX3D

Definition at line 31 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ RoZ3D

using RoZ3D = HepGeom::RotateZ3D

Definition at line 32 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Tf3D

using Tf3D = HepGeom::Transform3D

Definition at line 30 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Tl3D

using Tl3D = HepGeom::Translate3D

Definition at line 29 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ Vec3

using Vec3 = CLHEP::Hep3Vector

Definition at line 26 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ VecDouble

using VecDouble = vector<double>

Definition at line 21 of file DDEcalBarrelNewAlgoSubtraction.cc.

◆ VecStr

using VecStr = vector<string>

Definition at line 22 of file DDEcalBarrelNewAlgoSubtraction.cc.

Function Documentation

◆ algorithm()

static long algorithm ( dd4hep::Detector &  ,
cms::DDParsingContext ctxt,
xml_h  e 
)
static

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Back Cover Plate !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!





















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Back Cover Plate !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!




















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Back Side Plates !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!



















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Back Side Plates !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!


















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Mother Board Cooling Manifold Setup !!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Mother Board Cooling Manifold Setup !!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Loop over Grilles & MB Cooling Manifold !!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!















!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Loop over Grilles & MB Cooling Manifold !!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!














!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Cooling Bar Setup !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!













!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Cooling Bar Setup !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!












!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin VFE Card Setup !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!











!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End VFE Card Setup !!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!










!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Cooling Bar + VFE Setup !!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!









!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Cooling Bar + VFE Setup !!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!








!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Placement of Readout & Cooling by Module !!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!







!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Back Water Pipes !!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!






!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Back Water Pipes !!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!





!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Placement of Cooling + VFE Cards !!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!




!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Placement of Readout & Cooling by Module !!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!



!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Patch Panel !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!


!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Patch Panel !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! Begin Pincers !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!! End Pincers !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!! !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!

Definition at line 473 of file DDEcalBarrelNewAlgoSubtraction.cc.

References EcalTrapezoidParameters::a(), EcalTrapezoidParameters::A(), cms::DDNamespace::addVolume(), writedatasetfile::args, EcalTrapezoidParameters::b(), b1, b2, b3, HLT_2023v12_cff::beta, EcalTrapezoidParameters::bl1(), reco::HaloData::both, HLT_2023v12_cff::cap, cms::convert2mm(), angle_units::operators::convertRadToDeg(), TCMET_cfi::corner, funct::cos(), counter, data, dumpMFGeometry_cfg::delta, EcalTrapezoidParameters::dz(), MillePedeFileConverter_cfg::e, CustomPhysics_cfi::gamma, getRunAppsInfo::grid, EcalTrapezoidParameters::h(), EcalTrapezoidParameters::H(), EcalTrapezoidParameters::h1(), LEDCalibrationChannels::iphi, dqmiolumiharvest::j, dqmdumpme::k, EcalTrapezoidParameters::L(), M_PI, M_PI_2, cms::DDNamespace::material(), Skims_PA_cff::name, metDiagnosticParameterSet_cfi::nMax, PixelTestBeamValidation_cfi::Position, cms::DDNamespace::prepend(), CosmicsPD_Skims::radius, idealTransformation::rotation, cms::DDNamespace::rotation(), funct::sin(), findQualityFiles::size, mathSSE::sqrt(), AlCaHLTBitMon_QueryRunRegistry::string, theta(), cond::impl::to_string(), HcalDetIdTransform::transform(), EcalTrapezoidParameters::vertexList(), cms::DDNamespace::volume(), x, geometryCSVtoXML::xx, geometryCSVtoXML::yy, and geometryCSVtoXML::zz.

473  {
474  BenchmarkGrd counter("DDEcalBarrelNewAlgo");
475  cms::DDNamespace ns(ctxt, e, true);
476  cms::DDAlgoArguments args(ctxt, e);
477 
478  // TRICK!
479  string myns{mynamespace(args.parentName()).data(), mynamespace(args.parentName()).size()};
480 
481  // Barrel volume
482  // barrel parent volume
483  Barrel bar;
484  bar.name = myns + args.str("BarName"); // Barrel volume name
485  bar.mat = args.str("BarMat"); // Barrel material name
486  bar.vecZPts = args.vecDble("BarZPts"); // Barrel list of z pts
487  bar.vecRMin = args.vecDble("BarRMin"); // Barrel list of rMin pts
488  bar.vecRMax = args.vecDble("BarRMax"); // Barrel list of rMax pts
489  bar.vecTran = args.vecDble("BarTran"); // Barrel translation
490  bar.vecRota = args.vecDble("BarRota"); // Barrel rotation
491  bar.vecRota2 = args.vecDble("BarRota2"); // 2nd Barrel rotation
492  bar.vecRota3 = args.vecDble("BarRota3"); // 3rd Barrel rotation
493  bar.phiLo = args.dble("BarPhiLo"); // Barrel phi lo
494  bar.phiHi = args.dble("BarPhiHi"); // Barrel phi hi
495  bar.here = args.dble("BarHere"); // Barrel presence flag
496 
497  // Supermodule volume
498  Supermodule spm;
499  spm.name = ns.prepend(args.str("SpmName")); // Supermodule volume name
500  spm.mat = args.str("SpmMat"); // Supermodule material name
501  spm.vecZPts = args.vecDble("SpmZPts"); // Supermodule list of z pts
502  spm.vecRMin = args.vecDble("SpmRMin"); // Supermodule list of rMin pts
503  spm.vecRMax = args.vecDble("SpmRMax"); // Supermodule list of rMax pts
504  spm.vecTran = args.vecDble("SpmTran"); // Supermodule translation
505  spm.vecRota = args.vecDble("SpmRota"); // Supermodule rotation
506  spm.vecBTran = args.vecDble("SpmBTran"); // Base Supermodule translation
507  spm.vecBRota = args.vecDble("SpmBRota"); // Base Supermodule rotation
508  spm.nPerHalf = args.integer("SpmNPerHalf"); // # Supermodules per half detector
509  spm.lowPhi = args.dble("SpmLowPhi"); // Low phi value of base supermodule
510  spm.delPhi = args.dble("SpmDelPhi"); // Delta phi value of base supermodule
511  spm.phiOff = args.dble("SpmPhiOff"); // Phi offset value supermodule
512  spm.vecHere = args.vecDble("SpmHere"); // Bit saying if a supermodule is present or not
513  spm.cutName = ns.prepend(args.str("SpmCutName")); // Name of cut box
514  spm.cutThick = args.dble("SpmCutThick"); // Box thickness
515  spm.cutShow = args.value<int>("SpmCutShow"); // Non-zero means show the box on display (testing only)
516  spm.vecCutTM = args.vecDble("SpmCutTM"); // Translation for minus phi cut box
517  spm.vecCutTP = args.vecDble("SpmCutTP"); // Translation for plus phi cut box
518  spm.cutRM = args.dble("SpmCutRM"); // Rotation for minus phi cut box
519  spm.cutRP = args.dble("SpmCutRP"); // Rotation for plus phi cut box
520  spm.expThick = args.dble("SpmExpThick"); // Thickness (x) of supermodule expansion box
521  spm.expWide = args.dble("SpmExpWide"); // Width (y) of supermodule expansion box
522  spm.expYOff = args.dble("SpmExpYOff"); // Offset (y) of supermodule expansion box
523  spm.sideName = myns + args.str("SpmSideName"); // Supermodule Side Plate volume name
524  spm.sideMat = args.str("SpmSideMat"); // Supermodule Side Plate material name
525  spm.sideHigh = args.dble("SpmSideHigh"); // Side plate height
526  spm.sideThick = args.dble("SpmSideThick"); // Side plate thickness
527  spm.sideYOffM = args.dble("SpmSideYOffM"); // Side plate Y offset on minus phi side
528  spm.sideYOffP = args.dble("SpmSideYOffP"); // Side plate Y offset on plus phi side
529 
530  Crystal cry;
531  cry.nomCryDimAF = args.dble("NomCryDimAF");
532  cry.nomCryDimLZ = args.dble("NomCryDimLZ");
533  cry.vecNomCryDimBF = args.vecDble("NomCryDimBF");
534  cry.vecNomCryDimCF = args.vecDble("NomCryDimCF");
535  cry.vecNomCryDimAR = args.vecDble("NomCryDimAR");
536  cry.vecNomCryDimBR = args.vecDble("NomCryDimBR");
537  cry.vecNomCryDimCR = args.vecDble("NomCryDimCR");
538 
539  cry.underAF = args.dble("UnderAF");
540  cry.underLZ = args.dble("UnderLZ");
541  cry.underBF = args.dble("UnderBF");
542  cry.underCF = args.dble("UnderCF");
543  cry.underAR = args.dble("UnderAR");
544  cry.underBR = args.dble("UnderBR");
545  cry.underCR = args.dble("UnderCR");
546 
547  Alveolus alv;
548  alv.wallThAlv = args.dble("WallThAlv");
549  alv.wrapThAlv = args.dble("WrapThAlv");
550  alv.clrThAlv = args.dble("ClrThAlv");
551  alv.vecGapAlvEta = args.vecDble("GapAlvEta");
552 
553  alv.wallFrAlv = args.dble("WallFrAlv");
554  alv.wrapFrAlv = args.dble("WrapFrAlv");
555  alv.clrFrAlv = args.dble("ClrFrAlv");
556 
557  alv.wallReAlv = args.dble("WallReAlv");
558  alv.wrapReAlv = args.dble("WrapReAlv");
559  alv.clrReAlv = args.dble("ClrReAlv");
560 
561  alv.nCryTypes = args.integer("NCryTypes");
562  alv.nCryPerAlvEta = args.integer("NCryPerAlvEta");
563 
564  cry.name = ns.prepend(args.str("CryName"));
565  cry.clrName = ns.prepend(args.str("ClrName"));
566  cry.wrapName = ns.prepend(args.str("WrapName"));
567  cry.wallName = ns.prepend(args.str("WallName"));
568 
569  cry.mat = args.str("CryMat");
570  cry.clrMat = args.str("ClrMat");
571  cry.wrapMat = args.str("WrapMat");
572  cry.wallMat = args.str("WallMat");
573 
574  Capsule cap;
575  cap.name = ns.prepend(args.str("CapName"));
576  cap.here = args.dble("CapHere");
577  cap.mat = args.str("CapMat");
578  cap.xSizeHalf = 0.5 * args.dble("CapXSize");
579  cap.ySizeHalf = 0.5 * args.dble("CapYSize");
580  cap.thickHalf = 0.5 * args.dble("CapThick");
581 
582  Ceramic cer;
583  cer.name = ns.prepend(args.str("CerName"));
584  cer.mat = args.str("CerMat");
585  cer.xSizeHalf = 0.5 * args.dble("CerXSize");
586  cer.ySizeHalf = 0.5 * args.dble("CerYSize");
587  cer.thickHalf = 0.5 * args.dble("CerThick");
588 
589  BulkSilicon bSi;
590  bSi.name = ns.prepend(args.str("BSiName"));
591  bSi.mat = args.str("BSiMat");
592  bSi.xSizeHalf = 0.5 * args.dble("BSiXSize");
593  bSi.ySizeHalf = 0.5 * args.dble("BSiYSize");
594  bSi.thickHalf = 0.5 * args.dble("BSiThick");
595 
596  APD apd;
597  apd.name = ns.prepend(args.str("APDName"));
598  apd.mat = args.str("APDMat");
599  apd.side = args.dble("APDSide");
600  apd.thick = args.dble("APDThick");
601  apd.z = args.dble("APDZ");
602  apd.x1 = args.dble("APDX1");
603  apd.x2 = args.dble("APDX2");
604 
605  apd.atjName = ns.prepend(args.str("ATJName"));
606  apd.atjMat = args.str("ATJMat");
607  apd.atjThickHalf = 0.5 * args.dble("ATJThick");
608 
609  apd.sglName = ns.prepend(args.str("SGLName"));
610  apd.sglMat = args.str("SGLMat");
611  apd.sglThick = args.dble("SGLThick");
612 
613  apd.aglName = ns.prepend(args.str("AGLName"));
614  apd.aglMat = args.str("AGLMat");
615  apd.aglThick = args.dble("AGLThick");
616 
617  apd.andName = ns.prepend(args.str("ANDName"));
618  apd.andMat = args.str("ANDMat");
619  apd.andThick = args.dble("ANDThick");
620 
621  Web web;
622  web.here = args.dble("WebHere");
623  web.plName = ns.prepend(args.str("WebPlName"));
624  web.clrName = ns.prepend(args.str("WebClrName"));
625  web.plMat = args.str("WebPlMat");
626  web.clrMat = args.str("WebClrMat");
627  web.vecWebPlTh = args.vecDble("WebPlTh");
628  web.vecWebClrTh = args.vecDble("WebClrTh");
629  web.vecWebLength = args.vecDble("WebLength");
630 
631  InnerLayerVolume ily;
632  ily.here = args.dble("IlyHere");
633  ily.name = myns + args.str("IlyName");
634  ily.phiLow = args.dble("IlyPhiLow");
635  ily.delPhi = args.dble("IlyDelPhi");
636  ily.vecIlyMat = args.vecStr("IlyMat");
637  ily.vecIlyThick = args.vecDble("IlyThick");
638 
639  ily.pipeName = myns + args.str("IlyPipeName");
640  ily.pipeHere = args.dble("IlyPipeHere");
641  ily.pipeMat = args.str("IlyPipeMat");
642  ily.pipeODHalf = 0.5 * args.dble("IlyPipeOD");
643  ily.pipeID = args.dble("IlyPipeID");
644  ily.vecIlyPipeLengthHalf = args.vecDble("IlyPipeLength");
645  std::transform(ily.vecIlyPipeLengthHalf.begin(),
646  ily.vecIlyPipeLengthHalf.end(),
647  ily.vecIlyPipeLengthHalf.begin(),
648  [](double length) -> double { return 0.5 * length; });
649 
650  ily.vecIlyPipeType = args.vecDble("IlyPipeType");
651  ily.vecIlyPipePhi = args.vecDble("IlyPipePhi");
652  ily.vecIlyPipeZ = args.vecDble("IlyPipeZ");
653 
654  ily.pTMName = myns + args.str("IlyPTMName");
655  ily.pTMHere = args.dble("IlyPTMHere");
656  ily.pTMMat = args.str("IlyPTMMat");
657  ily.pTMWidthHalf = 0.5 * args.dble("IlyPTMWidth");
658  ily.pTMLengthHalf = 0.5 * args.dble("IlyPTMLength");
659  ily.pTMHeightHalf = 0.5 * args.dble("IlyPTMHeight");
660  ily.vecIlyPTMZ = args.vecDble("IlyPTMZ");
661  ily.vecIlyPTMPhi = args.vecDble("IlyPTMPhi");
662 
663  ily.fanOutName = myns + args.str("IlyFanOutName");
664  ily.fanOutHere = args.dble("IlyFanOutHere");
665  ily.fanOutMat = args.str("IlyFanOutMat");
666  ily.fanOutWidthHalf = 0.5 * args.dble("IlyFanOutWidth");
667  ily.fanOutLengthHalf = 0.5 * args.dble("IlyFanOutLength");
668  ily.fanOutHeightHalf = 0.5 * args.dble("IlyFanOutHeight");
669  ily.vecIlyFanOutZ = args.vecDble("IlyFanOutZ");
670  ily.vecIlyFanOutPhi = args.vecDble("IlyFanOutPhi");
671  ily.diffName = myns + args.str("IlyDiffName");
672  ily.diffMat = args.str("IlyDiffMat");
673  ily.diffOff = args.dble("IlyDiffOff");
674  ily.diffLengthHalf = 0.5 * args.dble("IlyDiffLength");
675  ily.bndlName = myns + args.str("IlyBndlName");
676  ily.bndlMat = args.str("IlyBndlMat");
677  ily.bndlOff = args.dble("IlyBndlOff");
678  ily.bndlLengthHalf = 0.5 * args.dble("IlyBndlLength");
679  ily.fEMName = myns + args.str("IlyFEMName");
680  ily.fEMMat = args.str("IlyFEMMat");
681  ily.fEMWidthHalf = 0.5 * args.dble("IlyFEMWidth");
682  ily.fEMLengthHalf = 0.5 * args.dble("IlyFEMLength");
683  ily.fEMHeightHalf = 0.5 * args.dble("IlyFEMHeight");
684  ily.vecIlyFEMZ = args.vecDble("IlyFEMZ");
685  ily.vecIlyFEMPhi = args.vecDble("IlyFEMPhi");
686 
687  AlveolarWedge alvWedge;
688  alvWedge.hawRName = myns + args.str("HawRName");
689  alvWedge.fawName = myns + args.str("FawName");
690  alvWedge.fawHere = args.dble("FawHere");
691  alvWedge.hawRHBIG = args.dble("HawRHBIG");
692  alvWedge.hawRhsml = args.dble("HawRhsml");
693  alvWedge.hawRCutY = args.dble("HawRCutY");
694  alvWedge.hawRCutZ = args.dble("HawRCutZ");
695  alvWedge.hawRCutDelY = args.dble("HawRCutDelY");
696  alvWedge.hawYOffCry = args.dble("HawYOffCry");
697 
698  alvWedge.nFawPerSupm = args.integer("NFawPerSupm");
699  alvWedge.fawPhiOff = args.dble("FawPhiOff");
700  alvWedge.fawDelPhi = args.dble("FawDelPhi");
701  alvWedge.fawPhiRot = args.dble("FawPhiRot");
702  alvWedge.fawRadOff = args.dble("FawRadOff");
703 
704  Grid grid;
705  grid.here = args.dble("GridHere");
706  grid.name = myns + args.str("GridName");
707  grid.mat = args.str("GridMat");
708  grid.thick = args.dble("GridThick");
709 
710  Back back;
711  back.here = args.dble("BackHere");
712  back.xOff = args.dble("BackXOff");
713  back.yOff = args.dble("BackYOff");
714  back.sideName = myns + args.str("BackSideName");
715  back.sideHere = args.dble("BackSideHere");
716  back.sideLength = args.dble("BackSideLength");
717  back.sideHeight = args.dble("BackSideHeight");
718  back.sideWidth = args.dble("BackSideWidth");
719  back.sideYOff1 = args.dble("BackSideYOff1");
720  back.sideYOff2 = args.dble("BackSideYOff2");
721  back.sideAngle = args.dble("BackSideAngle");
722  back.sideMat = args.str("BackSideMat");
723  back.plateName = myns + args.str("BackPlateName");
724  back.plateHere = args.dble("BackPlateHere");
725  back.plateLength = args.dble("BackPlateLength");
726  back.plateThick = args.dble("BackPlateThick");
727  back.plateWidth = args.dble("BackPlateWidth");
728  back.plateMat = args.str("BackPlateMat");
729  back.plate2Name = myns + args.str("BackPlate2Name");
730  back.plate2Thick = args.dble("BackPlate2Thick");
731  back.plate2Mat = args.str("BackPlate2Mat");
732 
733  Grille grille;
734  grille.name = myns + args.str("GrilleName");
735  grille.here = args.dble("GrilleHere");
736  grille.thick = args.dble("GrilleThick");
737  grille.width = args.dble("GrilleWidth");
738  grille.zSpace = args.dble("GrilleZSpace");
739  grille.mat = args.str("GrilleMat");
740  grille.vecHeight = args.vecDble("GrilleHeight");
741  grille.vecZOff = args.vecDble("GrilleZOff");
742 
743  grille.edgeSlotName = myns + args.str("GrEdgeSlotName");
744  grille.edgeSlotMat = args.str("GrEdgeSlotMat");
745  grille.edgeSlotHere = args.dble("GrEdgeSlotHere");
746  grille.edgeSlotHeight = args.dble("GrEdgeSlotHeight");
747  grille.edgeSlotWidth = args.dble("GrEdgeSlotWidth");
748  grille.midSlotName = myns + args.str("GrMidSlotName");
749  grille.midSlotMat = args.str("GrMidSlotMat");
750  grille.midSlotHere = args.dble("GrMidSlotHere");
751  grille.midSlotWidth = args.dble("GrMidSlotWidth");
752  grille.midSlotXOff = args.dble("GrMidSlotXOff");
753  grille.vecMidSlotHeight = args.vecDble("GrMidSlotHeight");
754 
755  BackPipe backPipe;
756  backPipe.here = args.dble("BackPipeHere");
757  backPipe.name = myns + args.str("BackPipeName");
758  backPipe.vecDiam = args.vecDble("BackPipeDiam");
759  backPipe.vecThick = args.vecDble("BackPipeThick");
760  backPipe.mat = args.str("BackPipeMat");
761  backPipe.waterMat = args.str("BackPipeWaterMat");
762 
763  BackCooling backCool;
764  backCool.here = args.dble("BackCoolHere");
765  backCool.vecName = args.vecStr("BackCoolName");
766  std::transform(backCool.vecName.begin(),
767  backCool.vecName.end(),
768  backCool.vecName.begin(),
769  [&myns](std::string name) -> std::string { return (myns + name); });
770  backCool.barHere = args.dble("BackCoolBarHere");
771  backCool.barWidth = args.dble("BackCoolBarWidth");
772  backCool.barHeight = args.dble("BackCoolBarHeight");
773  backCool.mat = args.str("BackCoolMat");
774  backCool.barName = myns + args.str("BackCoolBarName");
775  backCool.barThick = args.dble("BackCoolBarThick");
776  backCool.barMat = args.str("BackCoolBarMat");
777  backCool.barSSName = myns + args.str("BackCoolBarSSName");
778  backCool.barSSThick = args.dble("BackCoolBarSSThick");
779  backCool.barSSMat = args.str("BackCoolBarSSMat");
780  backCool.barWaName = myns + args.str("BackCoolBarWaName");
781  backCool.barWaThick = args.dble("BackCoolBarWaThick");
782  backCool.barWaMat = args.str("BackCoolBarWaMat");
783  backCool.vFEHere = args.dble("BackCoolVFEHere");
784  backCool.vFEName = myns + args.str("BackCoolVFEName");
785  backCool.vFEMat = args.str("BackCoolVFEMat");
786  backCool.backVFEName = args.str("BackVFEName");
787  backCool.backVFEMat = args.str("BackVFEMat");
788  backCool.vecBackVFELyrThick = args.vecDble("BackVFELyrThick");
789  backCool.vecBackVFELyrName = args.vecStr("BackVFELyrName");
790  std::transform(backCool.vecBackVFELyrName.begin(),
791  backCool.vecBackVFELyrName.end(),
792  backCool.vecBackVFELyrName.begin(),
793  [&myns](std::string name) -> std::string { return (myns + name); });
794  backCool.vecBackVFELyrMat = args.vecStr("BackVFELyrMat");
795  backCool.vecBackCoolNSec = args.vecDble("BackCoolNSec");
796  backCool.vecBackCoolSecSep = args.vecDble("BackCoolSecSep");
797  backCool.vecBackCoolNPerSec = args.vecDble("BackCoolNPerSec");
798 
799  BackMisc backMisc;
800  backMisc.here = args.dble("BackMiscHere");
801  backMisc.vecThick = args.vecDble("BackMiscThick");
802  backMisc.vecName = args.vecStr("BackMiscName");
803  std::transform(backMisc.vecName.begin(),
804  backMisc.vecName.end(),
805  backMisc.vecName.begin(),
806  [&myns](std::string name) -> std::string { return (myns + name); });
807  backMisc.vecMat = args.vecStr("BackMiscMat");
808  backMisc.backCBStdSep = args.dble("BackCBStdSep");
809 
810  PatchPanel patchPanel;
811  patchPanel.here = args.dble("PatchPanelHere");
812  patchPanel.vecThick = args.vecDble("PatchPanelThick");
813  patchPanel.vecNames = args.vecStr("PatchPanelNames");
814  std::transform(patchPanel.vecNames.begin(),
815  patchPanel.vecNames.end(),
816  patchPanel.vecNames.begin(),
817  [&myns](std::string name) -> std::string { return (myns + name); });
818 
819  patchPanel.vecMat = args.vecStr("PatchPanelMat");
820  patchPanel.name = myns + args.str("PatchPanelName");
821 
822  BackCoolTank backCoolTank;
823  backCoolTank.here = args.dble("BackCoolTankHere");
824  backCoolTank.name = myns + args.str("BackCoolTankName");
825  backCoolTank.width = args.dble("BackCoolTankWidth");
826  backCoolTank.thick = args.dble("BackCoolTankThick");
827  backCoolTank.mat = args.str("BackCoolTankMat");
828  backCoolTank.waName = myns + args.str("BackCoolTankWaName");
829  backCoolTank.waWidth = args.dble("BackCoolTankWaWidth");
830  backCoolTank.waMat = args.str("BackCoolTankWaMat");
831  backCoolTank.backBracketName = myns + args.str("BackBracketName");
832  backCoolTank.backBracketHeight = args.dble("BackBracketHeight");
833  backCoolTank.backBracketMat = args.str("BackBracketMat");
834 
835  DryAirTube dryAirTube;
836  dryAirTube.here = args.dble("DryAirTubeHere");
837  dryAirTube.name = args.str("DryAirTubeName");
838  dryAirTube.mbCoolTubeNum = args.integer("MBCoolTubeNum");
839  dryAirTube.innDiam = args.dble("DryAirTubeInnDiam");
840  dryAirTube.outDiam = args.dble("DryAirTubeOutDiam");
841  dryAirTube.mat = args.str("DryAirTubeMat");
842 
843  MBCoolTube mbCoolTube;
844  mbCoolTube.here = args.dble("MBCoolTubeHere");
845  mbCoolTube.name = myns + args.str("MBCoolTubeName");
846  mbCoolTube.innDiam = args.dble("MBCoolTubeInnDiam");
847  mbCoolTube.outDiam = args.dble("MBCoolTubeOutDiam");
848  mbCoolTube.mat = args.str("MBCoolTubeMat");
849 
850  MBManif mbManif;
851  mbManif.here = args.dble("MBManifHere");
852  mbManif.name = myns + args.str("MBManifName");
853  mbManif.innDiam = args.dble("MBManifInnDiam");
854  mbManif.outDiam = args.dble("MBManifOutDiam");
855  mbManif.mat = args.str("MBManifMat");
856 
857  MBLyr mbLyr;
858  mbLyr.here = args.dble("MBLyrHere");
859  mbLyr.vecMBLyrThick = args.vecDble("MBLyrThick");
860  mbLyr.vecMBLyrName = args.vecStr("MBLyrName");
861  std::transform(mbLyr.vecMBLyrName.begin(),
862  mbLyr.vecMBLyrName.end(),
863  mbLyr.vecMBLyrName.begin(),
864  [&myns](std::string name) -> std::string { return (myns + name); });
865  mbLyr.vecMBLyrMat = args.vecStr("MBLyrMat");
866 
867  Pincer pincer;
868  pincer.rodHere = args.dble("PincerRodHere");
869  pincer.rodName = myns + args.str("PincerRodName");
870  pincer.rodMat = args.str("PincerRodMat");
871  pincer.vecRodAzimuth = args.vecDble("PincerRodAzimuth");
872  pincer.envName = myns + args.str("PincerEnvName");
873  pincer.envMat = args.str("PincerEnvMat");
874  pincer.envWidthHalf = 0.5 * args.dble("PincerEnvWidth");
875  pincer.envHeightHalf = 0.5 * args.dble("PincerEnvHeight");
876  pincer.envLengthHalf = 0.5 * args.dble("PincerEnvLength");
877  pincer.vecEnvZOff = args.vecDble("PincerEnvZOff");
878  pincer.blkName = myns + args.str("PincerBlkName");
879  pincer.blkMat = args.str("PincerBlkMat");
880  pincer.blkLengthHalf = 0.5 * args.dble("PincerBlkLength");
881  pincer.shim1Name = myns + args.str("PincerShim1Name");
882  pincer.shimHeight = args.dble("PincerShimHeight");
883  pincer.shim2Name = myns + args.str("PincerShim2Name");
884  pincer.shimMat = args.str("PincerShimMat");
885  pincer.shim1Width = args.dble("PincerShim1Width");
886  pincer.shim2Width = args.dble("PincerShim2Width");
887  pincer.cutName = myns + args.str("PincerCutName");
888  pincer.cutMat = args.str("PincerCutMat");
889  pincer.cutWidth = args.dble("PincerCutWidth");
890  pincer.cutHeight = args.dble("PincerCutHeight");
891 
892  Volume parentVolume = ns.volume(args.parentName());
893  if (bar.here != 0) {
894  const unsigned int copyOne(1);
895  const unsigned int copyTwo(2);
896  // Barrel parent volume----------------------------------------------------------
897  Solid barSolid = Polycone(bar.name, bar.phiLo, (bar.phiHi - bar.phiLo), bar.vecRMin, bar.vecRMax, bar.vecZPts);
898 #ifdef EDM_ML_DEBUG
899  edm::LogVerbatim("EBGeom") << bar.name << " PolyCone from " << convertRadToDeg(bar.phiLo) << " to "
900  << convertRadToDeg(bar.phiHi) << " with " << bar.vecZPts.size() << " points";
901  for (unsigned int k = 0; k < bar.vecZPts.size(); ++k)
902  edm::LogVerbatim("EBGeom") << "[" << k << "] " << cms::convert2mm(bar.vecZPts[k]) << ":"
903  << cms::convert2mm(bar.vecRMin[k]) << ":" << cms::convert2mm(bar.vecRMax[k]);
904 #endif
905  Position tran(bar.vecTran[0], bar.vecTran[1], bar.vecTran[2]);
906  Rotation3D rotation = myrot(ns,
907  bar.name + "Rot",
908  Rota(Vec3(bar.vecRota3[0], bar.vecRota3[1], bar.vecRota3[2]), bar.vecRota3[3]) *
909  Rota(Vec3(bar.vecRota2[0], bar.vecRota2[1], bar.vecRota2[2]), bar.vecRota2[3]) *
910  Rota(Vec3(bar.vecRota[0], bar.vecRota[1], bar.vecRota[2]), bar.vecRota[3]));
911  Volume barVolume = Volume(bar.name, barSolid, ns.material(bar.mat));
912  parentVolume.placeVolume(barVolume, copyOne, Transform3D(rotation, tran));
913 #ifdef EDM_ML_DEBUG
914  edm::LogVerbatim("EBGeomX") << barVolume.name() << ":" << copyOne << " positioned in " << parentVolume.name()
915  << " at (" << cms::convert2mm(tran.x()) << "," << cms::convert2mm(tran.y()) << ","
916  << cms::convert2mm(tran.z()) << ") with rotation";
917 #endif
918  // End Barrel parent volume----------------------------------------------------------
919 
920  // Supermodule parent------------------------------------------------------------
921 
922  const string spmcut1ddname((0 != spm.cutShow) ? spm.name : (spm.name + "CUT1"));
923  Solid ddspm = Polycone(spmcut1ddname, spm.lowPhi, spm.delPhi, spm.vecRMin, spm.vecRMax, spm.vecZPts);
924 #ifdef EDM_ML_DEBUG
925  edm::LogVerbatim("EBGeom") << spmcut1ddname << " PolyCone from " << convertRadToDeg(spm.lowPhi) << " to "
926  << convertRadToDeg(spm.lowPhi + spm.delPhi) << " with " << spm.vecZPts.size()
927  << " points";
928  for (unsigned int k = 0; k < spm.vecZPts.size(); ++k)
929  edm::LogVerbatim("EBGeom") << "[" << k << "] " << cms::convert2mm(spm.vecZPts[k]) << ":"
930  << cms::convert2mm(spm.vecRMin[k]) << ":" << cms::convert2mm(spm.vecRMax[k]);
931 #endif
932 
933  const unsigned int indx(0.5 * spm.vecRMax.size());
934 
935  // Deal with the cut boxes first
936  array<double, 3> cutBoxParms{{1.05 * (spm.vecRMax[indx] - spm.vecRMin[indx]) * 0.5,
937  0.5 * spm.cutThick,
938  fabs(spm.vecZPts.back() - spm.vecZPts.front()) * 0.5 + 1.0 * dd4hep::mm}};
939  Solid spmCutBox = Box(spm.cutName, cutBoxParms[0], cutBoxParms[1], cutBoxParms[2]);
940 #ifdef EDM_ML_DEBUG
941  edm::LogVerbatim("EBGeom") << spm.cutName << " Box " << cms::convert2mm(cutBoxParms[0]) << ":"
942  << cms::convert2mm(cutBoxParms[1]) << ":" << cms::convert2mm(cutBoxParms[2]);
943 
944 #endif
945  Volume spmCutLog = Volume(spm.cutName, spmCutBox, ns.material(spm.mat));
946 
947  // Supermodule side platess
948  array<double, 3> sideParms{{0.5 * spm.sideHigh, 0.5 * spm.sideThick, 0.5 * fabs(spm.vecZPts[1] - spm.vecZPts[0])}};
949  Solid sideSolid = Box(spm.sideName, sideParms[0], sideParms[1], sideParms[2]);
950 #ifdef EDM_ML_DEBUG
951  edm::LogVerbatim("EBGeom") << spm.sideName << " Box " << cms::convert2mm(sideParms[0]) << ":"
952  << cms::convert2mm(sideParms[1]) << ":" << cms::convert2mm(sideParms[2]);
953 #endif
954  Volume sideLog = Volume(spm.sideName, sideSolid, ns.material(spm.sideMat));
955 
956  Solid temp1;
957  Solid temp2;
958  Position sideddtra1;
959  Position sideddtra2;
960  Transform3D alltrot1;
961  Transform3D alltrot2;
962  for (unsigned int icopy(1); icopy <= 2; ++icopy) {
963  const std::vector<double>& tvec(1 == icopy ? spm.vecCutTM : spm.vecCutTP);
964  double rang(1 == icopy ? spm.cutRM : spm.cutRP);
965 
966  const Position tr(tvec[0], tvec[1], tvec[2]);
967  RotationZ ro(rang);
968  const double ang(1 == icopy ? spm.lowPhi : spm.lowPhi + spm.delPhi);
969  RotationZ ro1(ang);
970  const Position tr1(
971  0.5 * (spm.vecRMax[indx] + spm.vecRMin[indx]), 0, 0.5 * (spm.vecZPts.front() + spm.vecZPts.back()));
972  Transform3D alltrot(Transform3D(Transform3D(ro1 * tr1) * tr) * ro);
973  if (1 == icopy) {
974  alltrot1 = alltrot;
975  temp1 = SubtractionSolid(spm.name + "_T1", ddspm, spmCutBox, alltrot);
976 #ifdef EDM_ML_DEBUG
977  edm::LogVerbatim("EBGeom") << (spm.name + "_T1") << " Subtraction " << ddspm.name() << ":" << spmCutBox.name()
978  << " at (" << cms::convert2mm(alltrot.Translation().Vect().x()) << ","
979  << cms::convert2mm(alltrot.Translation().Vect().y()) << ","
980  << cms::convert2mm(alltrot.Translation().Vect().z()) << ")";
981 #endif
982  } else {
983  alltrot2 = alltrot;
984  temp2 = SubtractionSolid(spm.name, temp1, spmCutBox, alltrot);
985 #ifdef EDM_ML_DEBUG
986  edm::LogVerbatim("EBGeom") << spm.name << " Subtraction " << temp1.name() << ":" << spmCutBox.name() << " at ("
987  << cms::convert2mm(alltrot.Translation().Vect().x()) << ","
988  << cms::convert2mm(alltrot.Translation().Vect().y()) << ","
989  << cms::convert2mm(alltrot.Translation().Vect().z()) << ")";
990 #endif
991  }
992  const Tl3D trSide(tvec[0],
993  tvec[1] + (1 == icopy ? 1. : -1.) * (cutBoxParms[1] + sideParms[1]) +
994  (1 == icopy ? spm.sideYOffM : spm.sideYOffP),
995  tvec[2]);
996  const RoZ3D roSide(rang);
997  const Tf3D sideRot(RoZ3D(1 == icopy ? spm.lowPhi : spm.lowPhi + spm.delPhi) *
998  Tl3D(spm.vecRMin.front() + sideParms[0], 0, spm.vecZPts.front() + sideParms[2]) * trSide *
999  roSide);
1000 
1001  Rotation3D sideddrot(myrot(ns, spm.sideName + std::to_string(icopy), sideRot.getRotation()));
1002  const Position sideddtra(sideRot.getTranslation());
1003  1 == icopy ? sideddtra1 = sideddtra : sideddtra2 = sideddtra;
1004  }
1005  Volume spmLog = Volume(spm.name, ((0 != spm.cutShow) ? ddspm : temp2), ns.material(spm.mat));
1006  if (0 != spm.cutShow) {
1007  spmLog.placeVolume(spmCutLog, 1, alltrot1);
1008 #ifdef EDM_ML_DEBUG
1009  edm::LogVerbatim("EBGeomX") << spmCutLog.name() << ":1 positioned in " << spmLog.name() << " at ("
1010  << cms::convert2mm(alltrot1.Translation().Vect().x()) << ","
1011  << cms::convert2mm(alltrot1.Translation().Vect().y()) << ","
1012  << cms::convert2mm(alltrot1.Translation().Vect().z()) << ") with rotation";
1013 #endif
1014  spmLog.placeVolume(spmCutLog, 1, alltrot2);
1015 #ifdef EDM_ML_DEBUG
1016  edm::LogVerbatim("EBGeomX") << spmCutLog.name() << ":1 positioned in " << spmLog.name() << " at ("
1017  << cms::convert2mm(alltrot2.Translation().Vect().x()) << ","
1018  << cms::convert2mm(alltrot2.Translation().Vect().y()) << ","
1019  << cms::convert2mm(alltrot2.Translation().Vect().z()) << ") with rotation";
1020 #endif
1021  }
1022  spmLog.placeVolume(sideLog, 1, Transform3D(ns.rotation(spm.sideName + std::to_string(1)), sideddtra1));
1023 #ifdef EDM_ML_DEBUG
1024  edm::LogVerbatim("EBGeomX") << sideLog.name() << ":1 positioned in " << spmLog.name() << " at ("
1025  << cms::convert2mm(sideddtra1.x()) << "," << cms::convert2mm(sideddtra1.y()) << ","
1026  << cms::convert2mm(sideddtra1.z()) << ") with rotation";
1027 #endif
1028  spmLog.placeVolume(sideLog, 2, Transform3D(ns.rotation(spm.sideName + std::to_string(2)), sideddtra2));
1029 #ifdef EDM_ML_DEBUG
1030  edm::LogVerbatim("EBGeomX") << sideLog.name() << ":2 positioned in " << spmLog.name() << " at ("
1031  << cms::convert2mm(sideddtra2.x()) << "," << cms::convert2mm(sideddtra2.y()) << ","
1032  << cms::convert2mm(sideddtra2.z()) << ") with rotation";
1033 #endif
1034 
1035  const double dphi(360._deg / (1. * spm.nPerHalf));
1036  for (unsigned int iphi(0); iphi < 2 * spm.nPerHalf; ++iphi) {
1037  const double phi(iphi * dphi + spm.phiOff);
1038 
1039  // this base rotation includes the base translation & rotation
1040  // plus flipping for the negative z hemisphere, plus
1041  // the phi rotation for this module
1042  const Tf3D rotaBase(RoZ3D(phi) * (iphi < spm.nPerHalf ? Ro3D() : RoX3D(180._deg)) *
1043  Ro3D(spm.vecBRota[3], Vec3(spm.vecBRota[0], spm.vecBRota[1], spm.vecBRota[2])) *
1044  Tl3D(Vec3(spm.vecBTran[0], spm.vecBTran[1], spm.vecBTran[2])));
1045 
1046  // here the individual rotations & translations of the supermodule
1047  // are implemented on top of the overall "base" rotation & translation
1048 
1049  const unsigned int offr(4 * iphi);
1050  const unsigned int offt(3 * iphi);
1051 
1052  const Ro3D r1(spm.vecRota[offr + 3], Vec3(spm.vecRota[offr + 0], spm.vecRota[offr + 1], spm.vecRota[offr + 2]));
1053 
1054  const Tf3D rotaExtra(r1 * Tl3D(Vec3(spm.vecTran[offt + 0], spm.vecTran[offt + 1], spm.vecTran[offt + 2])));
1055 
1056  const Tf3D both(rotaExtra * rotaBase);
1057 
1058  const Rotation3D rota(myrot(ns, spm.name + std::to_string(convertRadToDeg(phi)), both.getRotation()));
1059 
1060  if (spm.vecHere[iphi] != 0) {
1061  // convert from CLHEP to Position & etc.
1062  Position myTran(both.getTranslation().x(), both.getTranslation().y(), both.getTranslation().z());
1063  barVolume.placeVolume(spmLog, iphi + 1, Transform3D(rota, myTran));
1064 #ifdef EDM_ML_DEBUG
1065  edm::LogVerbatim("EBGeomX") << spmLog.name() << ":" << (iphi + 1) << " positioned in " << barVolume.name()
1066  << " at (" << cms::convert2mm(myTran.x()) << "," << cms::convert2mm(myTran.y())
1067  << "," << cms::convert2mm(myTran.z()) << ") with rotation";
1068 #endif
1069  }
1070  }
1071  // End Supermodule parent------------------------------------------------------------
1072 
1073  // Begin Inner Layer volumes---------------------------------------------------------
1074  const double ilyLengthHalf(0.5 * (spm.vecZPts[1] - spm.vecZPts[0]));
1075  double ilyRMin(spm.vecRMin[0]);
1076  double ilyThick(0);
1077  for (unsigned int ilyx(0); ilyx != ily.vecIlyThick.size(); ++ilyx) {
1078  ilyThick += ily.vecIlyThick[ilyx];
1079  }
1080  Solid ilySolid = Tube(ily.name,
1081  ilyRMin, // rmin
1082  ilyRMin + ilyThick, // rmax
1083  ilyLengthHalf, // dz
1084  ily.phiLow, // startPhi
1085  ily.phiLow + ily.delPhi); // startPhi + deltaPhi
1086 #ifdef EDM_ML_DEBUG
1087  edm::LogVerbatim("EBGeom") << ily.name << " Tubs " << cms::convert2mm(ilyLengthHalf) << ":"
1088  << cms::convert2mm(ilyRMin) << ":" << cms::convert2mm(ilyRMin + ilyThick) << ":"
1089  << convertRadToDeg(ily.phiLow) << ":" << convertRadToDeg(ily.delPhi);
1090 #endif
1091  Volume ilyLog = Volume(ily.name, ilySolid, ns.material(spm.mat));
1092  spmLog.placeVolume(ilyLog, copyOne, Position(0, 0, ilyLengthHalf));
1093 #ifdef EDM_ML_DEBUG
1094  edm::LogVerbatim("EBGeomX") << ilyLog.name() << ":" << copyOne << " positioned in " << spmLog.name() << " at (0,0,"
1095  << cms::convert2mm(ilyLengthHalf) << ") with no rotation";
1096 #endif
1097  Volume ilyPipeLog[200];
1098  if (0 != ily.pipeHere) {
1099  for (unsigned int iPipeType(0); iPipeType != ily.vecIlyPipeLengthHalf.size(); ++iPipeType) {
1100  string pName(ily.pipeName + "_" + std::to_string(iPipeType + 1));
1101 
1102  Solid ilyPipeSolid = Tube(pName,
1103  0, // rmin
1104  ily.pipeODHalf, // rmax
1105  ily.vecIlyPipeLengthHalf[iPipeType], // dz
1106  0_deg, // startPhi
1107  360_deg); // startPhi + deltaPhi
1108 #ifdef EDM_ML_DEBUG
1109  edm::LogVerbatim("EBGeom") << pName << " Tubs " << cms::convert2mm(ily.vecIlyPipeLengthHalf[iPipeType])
1110  << ":0:" << cms::convert2mm(ily.pipeODHalf) << ":0:360";
1111 #endif
1112  ilyPipeLog[iPipeType] = Volume(pName, ilyPipeSolid, ns.material(ily.pipeMat));
1113 
1114  string pWaName(ily.pipeName + "Wa_" + std::to_string(iPipeType + 1));
1115  Solid ilyPipeWaSolid = Tube(pWaName,
1116  0, // rmin
1117  0.5 * ily.pipeID, // rmax
1118  ily.vecIlyPipeLengthHalf[iPipeType], // dz
1119  0_deg, // startPhi
1120  360_deg); // startPhi + deltaPhi
1121 #ifdef EDM_ML_DEBUG
1122  edm::LogVerbatim("EBGeom") << pWaName << " Tubs " << cms::convert2mm(ily.vecIlyPipeLengthHalf[iPipeType])
1123  << ":0:" << cms::convert2mm(0.5 * ily.pipeID) << ":0:360";
1124 #endif
1125  Volume ilyPipeWaLog = Volume(pWaName, ilyPipeWaSolid, ns.material(backPipe.waterMat));
1126  ilyPipeLog[iPipeType].placeVolume(ilyPipeWaLog, copyOne);
1127 #ifdef EDM_ML_DEBUG
1128  edm::LogVerbatim("EBGeomX") << ilyPipeWaLog.name() << ":" << copyOne << " positioned in "
1129  << ilyPipeLog[iPipeType].name() << " at (0,0,0) with no rotation";
1130 #endif
1131  }
1132  }
1133 
1134  Solid ilyPTMSolid = Box(ily.pTMName, ily.pTMHeightHalf, ily.pTMWidthHalf, ily.pTMLengthHalf);
1135 #ifdef EDM_ML_DEBUG
1136  edm::LogVerbatim("EBGeom") << ily.pTMName << " Box " << cms::convert2mm(ily.pTMHeightHalf) << ":"
1137  << cms::convert2mm(ily.pTMWidthHalf) << ":" << cms::convert2mm(ily.pTMLengthHalf);
1138 #endif
1139  Volume ilyPTMLog = Volume(ily.pTMName, ilyPTMSolid, ns.material(ily.pTMMat));
1140 
1141  Solid ilyFanOutSolid = Box(ily.fanOutName, ily.fanOutHeightHalf, ily.fanOutWidthHalf, ily.fanOutLengthHalf);
1142 #ifdef EDM_ML_DEBUG
1143  edm::LogVerbatim("EBGeom") << ily.fanOutName << " Box " << cms::convert2mm(ily.fanOutHeightHalf) << ":"
1144  << cms::convert2mm(ily.fanOutWidthHalf) << ":" << cms::convert2mm(ily.fanOutLengthHalf);
1145 #endif
1146  Volume ilyFanOutLog = Volume(ily.fanOutName, ilyFanOutSolid, ns.material(ily.fanOutMat));
1147 
1148  Solid ilyFEMSolid = Box(ily.fEMName, ily.fEMHeightHalf, ily.fEMWidthHalf, ily.fEMLengthHalf);
1149 #ifdef EDM_ML_DEBUG
1150  edm::LogVerbatim("EBGeom") << ily.fEMName << " Box " << cms::convert2mm(ily.fEMHeightHalf) << ":"
1151  << cms::convert2mm(ily.fEMWidthHalf) << ":" << cms::convert2mm(ily.fEMLengthHalf);
1152 #endif
1153  Volume ilyFEMLog = Volume(ily.fEMName, ilyFEMSolid, ns.material(ily.fEMMat));
1154 
1155  Solid ilyDiffSolid = Box(ily.diffName, ily.fanOutHeightHalf, ily.fanOutWidthHalf, ily.diffLengthHalf);
1156 #ifdef EDM_ML_DEBUG
1157  edm::LogVerbatim("EBGeom") << ily.diffName << " Box " << cms::convert2mm(ily.fanOutHeightHalf) << ":"
1158  << cms::convert2mm(ily.fanOutWidthHalf) << ":" << cms::convert2mm(ily.diffLengthHalf);
1159 #endif
1160  Volume ilyDiffLog = Volume(ily.diffName, ilyDiffSolid, ns.material(ily.diffMat));
1161 
1162  Solid ilyBndlSolid = Box(ily.bndlName, ily.fanOutHeightHalf, ily.fanOutWidthHalf, ily.bndlLengthHalf);
1163 #ifdef EDM_ML_DEBUG
1164  edm::LogVerbatim("EBGeom") << ily.bndlName << " Box " << cms::convert2mm(ily.fanOutHeightHalf) << ":"
1165  << cms::convert2mm(ily.fanOutWidthHalf) << ":" << cms::convert2mm(ily.bndlLengthHalf);
1166 #endif
1167  Volume ilyBndlLog = Volume(ily.bndlName, ilyBndlSolid, ns.material(ily.bndlMat));
1168 
1169  ilyFanOutLog.placeVolume(
1170  ilyDiffLog, copyOne, Position(0, 0, -ily.fanOutLengthHalf + ily.diffLengthHalf + ily.diffOff));
1171 #ifdef EDM_ML_DEBUG
1172  edm::LogVerbatim("EBGeomX") << ilyDiffLog.name() << ":" << copyOne << " positioned in " << ilyFanOutLog.name()
1173  << " at (0,0,"
1174  << cms::convert2mm(-ily.fanOutLengthHalf + ily.diffLengthHalf + ily.diffOff)
1175  << ") with no rotation";
1176 #endif
1177  ilyFanOutLog.placeVolume(
1178  ilyBndlLog, copyOne, Position(0, 0, -ily.fanOutLengthHalf + ily.bndlLengthHalf + ily.bndlOff));
1179 #ifdef EDM_ML_DEBUG
1180  edm::LogVerbatim("EBGeomX") << ilyBndlLog.name() << ":" << copyOne << " positioned in " << ilyFanOutLog.name()
1181  << " at (0,0,"
1182  << cms::convert2mm(-ily.fanOutLengthHalf + ily.bndlLengthHalf + ily.bndlOff)
1183  << ") with no rotation";
1184 #endif
1185 
1186  Volume xilyLog;
1187  for (unsigned int iily(0); iily != ily.vecIlyThick.size(); ++iily) {
1188  const double ilyRMax(ilyRMin + ily.vecIlyThick[iily]);
1189  string xilyName(ily.name + std::to_string(iily));
1190  Solid xilySolid = Tube(xilyName, ilyRMin, ilyRMax, ilyLengthHalf, ily.phiLow, ily.phiLow + ily.delPhi);
1191 #ifdef EDM_ML_DEBUG
1192  edm::LogVerbatim("EBGeom") << xilyName << " Tubs " << cms::convert2mm(ilyLengthHalf) << ":"
1193  << cms::convert2mm(ilyRMin) << ":" << cms::convert2mm(ilyRMax) << ":"
1194  << convertRadToDeg(ily.phiLow) << ":" << convertRadToDeg(ily.delPhi);
1195 #endif
1196  xilyLog = ns.addVolume(Volume(xilyName, xilySolid, ns.material(ily.vecIlyMat[iily])));
1197  if (0 != ily.here) {
1198  ilyLog.placeVolume(xilyLog, copyOne);
1199 #ifdef EDM_ML_DEBUG
1200  edm::LogVerbatim("EBGeomX") << xilyLog.name() << ":" << copyOne << " positioned in " << ilyLog.name()
1201  << " at (0,0,0) with no rotation";
1202 #endif
1203  unsigned int copyNum[] = {0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0};
1204 
1205  if (10 * dd4hep::mm < ily.vecIlyThick[iily] && ily.vecIlyThick.size() != (iily + 1) && 0 != ily.pipeHere) {
1206  if (0 != ily.pTMHere) {
1207  unsigned int ptmCopy(0);
1208  for (unsigned int ilyPTM(0); ilyPTM != ily.vecIlyPTMZ.size(); ++ilyPTM) {
1209  const double radius(ilyRMax - 1 * dd4hep::mm - ily.pTMHeightHalf);
1210  const double phi(ily.vecIlyPTMPhi[ilyPTM]);
1211  const double yy(radius * sin(phi));
1212  const double xx(radius * cos(phi));
1213  ++ptmCopy;
1214  xilyLog.placeVolume(
1215  ilyPTMLog,
1216  ptmCopy,
1217  Transform3D(RotationZ(phi), Position(xx, yy, ily.vecIlyPTMZ[ilyPTM] - ilyLengthHalf)));
1218 #ifdef EDM_ML_DEBUG
1219  edm::LogVerbatim("EBGeomX")
1220  << ilyPTMLog.name() << ":" << ptmCopy << " positioned in " << xilyLog.name() << " at ("
1221  << cms::convert2mm(xx) << "," << cms::convert2mm(yy) << ","
1222  << cms::convert2mm(ily.vecIlyPTMZ[ilyPTM] - ilyLengthHalf) << ") with rotation";
1223 #endif
1224  }
1225  }
1226  if (0 != ily.fanOutHere) {
1227  unsigned int fanOutCopy(0);
1228  for (unsigned int ilyFO(0); ilyFO != ily.vecIlyFanOutZ.size(); ++ilyFO) {
1229  const double radius(ilyRMax - 1 * dd4hep::mm - ily.fanOutHeightHalf);
1230  const double phi(ily.vecIlyFanOutPhi[ilyFO]);
1231  const double yy(radius * sin(phi));
1232  const double xx(radius * cos(phi));
1233  ++fanOutCopy;
1234  xilyLog.placeVolume(ilyFanOutLog,
1235  fanOutCopy,
1236  Transform3D(RotationZ(phi) * RotationY(180_deg),
1237  Position(xx, yy, ily.vecIlyFanOutZ[ilyFO] - ilyLengthHalf)));
1238 #ifdef EDM_ML_DEBUG
1239  edm::LogVerbatim("EBGeomX")
1240  << ilyFanOutLog.name() << ":" << fanOutCopy << " positioned in " << xilyLog.name() << " at ("
1241  << cms::convert2mm(xx) << "," << cms::convert2mm(yy) << ","
1242  << cms::convert2mm(ily.vecIlyFanOutZ[ilyFO] - ilyLengthHalf) << ") with rotation";
1243 #endif
1244  }
1245  unsigned int femCopy(0);
1246  for (unsigned int ilyFEM(0); ilyFEM != ily.vecIlyFEMZ.size(); ++ilyFEM) {
1247  const double radius(ilyRMax - 1 * dd4hep::mm - ily.fEMHeightHalf);
1248  const double phi(ily.vecIlyFEMPhi[ilyFEM]);
1249  const double yy(radius * sin(phi));
1250  const double xx(radius * cos(phi));
1251  ++femCopy;
1252  xilyLog.placeVolume(
1253  ilyFEMLog,
1254  femCopy,
1255  Transform3D(RotationZ(phi), Position(xx, yy, ily.vecIlyFEMZ[ilyFEM] - ilyLengthHalf)));
1256 #ifdef EDM_ML_DEBUG
1257  edm::LogVerbatim("EBGeomX")
1258  << ilyFEMLog.name() << ":" << femCopy << " positioned in " << xilyLog.name() << " at ("
1259  << cms::convert2mm(xx) << "," << cms::convert2mm(yy) << ","
1260  << cms::convert2mm(ily.vecIlyFEMZ[ilyFEM] - ilyLengthHalf) << ") with rotation";
1261 #endif
1262  }
1263  }
1264  for (unsigned int iPipe(0); iPipe != ily.vecIlyPipePhi.size(); ++iPipe) {
1265  const unsigned int type(static_cast<unsigned int>(round(ily.vecIlyPipeType[iPipe])));
1266  const double zz(-ilyLengthHalf + ily.vecIlyPipeZ[iPipe] + (9 > type ? ily.vecIlyPipeLengthHalf[type] : 0));
1267 
1268  for (unsigned int ly(0); ly != 2; ++ly) {
1269  const double radius(0 == ly ? ilyRMin + ily.pipeODHalf + 1 * dd4hep::mm
1270  : ilyRMax - ily.pipeODHalf - 1 * dd4hep::mm);
1271  const double phi(ily.vecIlyPipePhi[iPipe]);
1272  const double yy(radius * sin(phi));
1273  const double xx(radius * cos(phi));
1274  ++copyNum[type];
1275  if (9 > type) {
1276  xilyLog.placeVolume(ilyPipeLog[type], copyNum[type], Position(xx, yy, zz));
1277 #ifdef EDM_ML_DEBUG
1278  edm::LogVerbatim("EBGeomX")
1279  << ilyPipeLog[type].name() << ":" << copyNum[type] << " positioned in " << xilyLog.name() << " at ("
1280  << cms::convert2mm(xx) << "," << cms::convert2mm(yy) << "," << cms::convert2mm(zz)
1281  << ") with no rotation";
1282 #endif
1283  } else {
1284  xilyLog.placeVolume(
1285  ilyPipeLog[type],
1286  copyNum[type],
1287  Transform3D(Rotation3D(ROOT::Math::AxisAngle(ROOT::Math::AxisAngle::XYZVector(xx, yy, 0), 90_deg)),
1288  Position(xx, yy, zz)));
1289 #ifdef EDM_ML_DEBUG
1290  edm::LogVerbatim("EBGeomX") << ilyPipeLog[type].name() << ":" << copyNum[type] << " positioned in "
1291  << xilyLog.name() << " at (" << cms::convert2mm(xx) << ","
1292  << cms::convert2mm(yy) << "," << cms::convert2mm(zz) << ") with rotation";
1293 #endif
1294  }
1295  }
1296  }
1297  }
1298  }
1299  ilyRMin = ilyRMax;
1300  }
1301  // End Inner Layer volumes---------------------------------------------------------
1302 
1303  string clyrName(ns.prepend("ECLYR"));
1304  std::vector<double> cri;
1305  std::vector<double> cro;
1306  std::vector<double> czz;
1307  czz.emplace_back(spm.vecZPts[1]);
1308  cri.emplace_back(spm.vecRMin[0]);
1309  cro.emplace_back(spm.vecRMin[0] + 25 * dd4hep::mm);
1310  czz.emplace_back(spm.vecZPts[2]);
1311  cri.emplace_back(spm.vecRMin[2]);
1312  cro.emplace_back(spm.vecRMin[2] + 10 * dd4hep::mm);
1313  Solid clyrSolid = Polycone(clyrName, -9.5_deg, 19_deg, cri, cro, czz);
1314 #ifdef EDM_ML_DEBUG
1315  edm::LogVerbatim("EBGeom") << clyrName << " PolyCone from -9.5 to 9.5 with " << czz.size() << " points";
1316  for (unsigned int k = 0; k < czz.size(); ++k)
1317  edm::LogVerbatim("EBGeom") << "[" << k << "] " << cms::convert2mm(czz[k]) << ":" << cms::convert2mm(cri[k]) << ":"
1318  << cms::convert2mm(cro[k]);
1319 #endif
1320  Volume clyrLog = Volume(clyrName, clyrSolid, ns.material(ily.vecIlyMat[4]));
1321  spmLog.placeVolume(clyrLog, copyOne);
1322 #ifdef EDM_ML_DEBUG
1323  edm::LogVerbatim("EBGeomX") << clyrLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
1324  << " at (0,0,0) with no rotation";
1325 #endif
1326  // Begin Alveolar Wedge parent ------------------------------------------------------
1327  //----------------
1328 
1329  // the next few lines accumulate dimensions appropriate to crystal type 1
1330  // which we use to set some of the features of the half-alveolar wedge (hawR).
1331 
1332  const double BNom1(cry.vecNomCryDimCR[0]);
1333  const double bNom1(cry.vecNomCryDimCF[0]);
1334  const double sWall1(alv.wallThAlv);
1335  const double fWall1(alv.wallFrAlv);
1336  const double sWrap1(alv.wrapThAlv);
1337  const double fWrap1(alv.wrapFrAlv);
1338  const double sClr1(alv.clrThAlv);
1339  const double fClr1(alv.clrFrAlv);
1340  const double LNom1(cry.nomCryDimLZ);
1341  const double beta1(atan((BNom1 - bNom1) / LNom1));
1342  const double sinbeta1(sin(beta1));
1343 
1344  const double tana_hawR((BNom1 - bNom1) / LNom1);
1345 
1346  const double H_hawR(alvWedge.hawRHBIG);
1347  const double h_hawR(alvWedge.hawRhsml);
1348  const double a_hawR(bNom1 + sClr1 + 2 * sWrap1 + 2 * sWall1 - sinbeta1 * (fClr1 + fWrap1 + fWall1));
1349  const double B_hawR(a_hawR + H_hawR * tana_hawR);
1350  const double b_hawR(a_hawR + h_hawR * tana_hawR);
1351  const double L_hawR(spm.vecZPts[2]);
1352 
1353  const EcalTrap trapHAWR(0.5 * a_hawR, //double aHalfLengthXNegZLoY , // bl1, A/2
1354  0.5 * a_hawR, //double aHalfLengthXPosZLoY , // bl2, a/2
1355  0.5 * b_hawR, //double aHalfLengthXPosZHiY , // tl2, b/2
1356  0.5 * H_hawR, //double aHalfLengthYNegZ , // h1, H/2
1357  0.5 * h_hawR, //double aHalfLengthYPosZ , // h2, h/2
1358  0.5 * L_hawR, //double aHalfLengthZ , // dz, L/2
1359  90_deg, //double aAngleAD , // alfa1
1360  0, //double aCoord15X , // x15
1361  0 //double aCoord15Y // y15
1362  );
1363 
1364  string hawRName1(alvWedge.hawRName + "1");
1365  Solid hawRSolid1 = mytrap(hawRName1, trapHAWR);
1366 
1367  const double al1_fawR(atan((B_hawR - a_hawR) / H_hawR) + M_PI_2);
1368 
1369  // here is trap for Full Alveolar Wedge
1370  const EcalTrap trapFAW(a_hawR, //double aHalfLengthXNegZLoY , // bl1, A/2
1371  a_hawR, //double aHalfLengthXPosZLoY , // bl2, a/2
1372  b_hawR, //double aHalfLengthXPosZHiY , // tl2, b/2
1373  0.5 * H_hawR, //double aHalfLengthYNegZ , // h1, H/2
1374  0.5 * h_hawR, //double aHalfLengthYPosZ , // h2, h/2
1375  0.5 * L_hawR, //double aHalfLengthZ , // dz, L/2
1376  al1_fawR, //double aAngleAD , // alfa1
1377  0, //double aCoord15X , // x15
1378  0 //double aCoord15Y // y15
1379  );
1380 
1381  const string fawName1(alvWedge.fawName + "1");
1382  Solid fawSolid1 = mytrap(fawName1, trapFAW);
1383 
1384  const EcalTrap::VertexList vHAW(trapHAWR.vertexList());
1385  const EcalTrap::VertexList vFAW(trapFAW.vertexList());
1386 
1387  const double hawBoxClr(1 * dd4hep::mm);
1388 
1389  // HAW cut box to cut off back end of wedge
1390  const string hawCutName(alvWedge.hawRName + "CUTBOX");
1391  array<double, 3> hawBoxParms{{0.5 * b_hawR + hawBoxClr, 0.5 * alvWedge.hawRCutY, 0.5 * alvWedge.hawRCutZ}};
1392  Solid hawCutBox = Box(hawCutName, hawBoxParms[0], hawBoxParms[1], hawBoxParms[2]);
1393 #ifdef EDM_ML_DEBUG
1394  edm::LogVerbatim("EBGeom") << hawCutName << " Box " << cms::convert2mm(hawBoxParms[0]) << ":"
1395  << cms::convert2mm(hawBoxParms[1]) << ":" << cms::convert2mm(hawBoxParms[2]);
1396 #endif
1397 
1398  const Pt3D b1(hawBoxParms[0], hawBoxParms[1], hawBoxParms[2]);
1399  const Pt3D b2(-hawBoxParms[0], hawBoxParms[1], hawBoxParms[2]);
1400  const Pt3D b3(-hawBoxParms[0], hawBoxParms[1], -hawBoxParms[2]);
1401 
1402  const double zDel(
1403  sqrt(4 * hawBoxParms[2] * hawBoxParms[2] - (h_hawR - alvWedge.hawRCutDelY) * (h_hawR - alvWedge.hawRCutDelY)));
1404 
1405  const Tf3D hawCutForm(b1,
1406  b2,
1407  b3,
1408  vHAW[2] + Pt3D(hawBoxClr, -alvWedge.hawRCutDelY, 0),
1409  vHAW[1] + Pt3D(-hawBoxClr, -alvWedge.hawRCutDelY, 0),
1410  Pt3D(vHAW[0].x() - hawBoxClr, vHAW[0].y(), vHAW[0].z() - zDel));
1411 
1412  Solid hawRSolid = SubtractionSolid(hawRSolid1,
1413  hawCutBox,
1414  Transform3D(myrot(ns, hawCutName + "R", hawCutForm.getRotation()),
1415  Position(hawCutForm.getTranslation().x(),
1416  hawCutForm.getTranslation().y(),
1417  hawCutForm.getTranslation().z())));
1418 #ifdef EDM_ML_DEBUG
1419  edm::LogVerbatim("EBGeom") << alvWedge.hawRName << " Subtraction " << hawRSolid1.name() << ":" << hawCutBox.name()
1420  << " at (" << cms::convert2mm(hawCutForm.getTranslation().x()) << ","
1421  << cms::convert2mm(hawCutForm.getTranslation().y()) << ","
1422  << cms::convert2mm(hawCutForm.getTranslation().z()) << ")";
1423 #endif
1424  Volume hawRLog = Volume(alvWedge.hawRName, hawRSolid, ns.material(spm.mat));
1425 
1426  // FAW cut box to cut off back end of wedge
1427  const string fawCutName(alvWedge.fawName + "CUTBOX");
1428  const array<double, 3> fawBoxParms{{2 * hawBoxParms[0], hawBoxParms[1], hawBoxParms[2]}};
1429  Solid fawCutBox = Box(fawCutName, fawBoxParms[0], fawBoxParms[1], fawBoxParms[2]);
1430 #ifdef EDM_ML_DEBUG
1431  edm::LogVerbatim("EBGeom") << fawCutName << " Box " << cms::convert2mm(fawBoxParms[0]) << ":"
1432  << cms::convert2mm(fawBoxParms[1]) << ":" << cms::convert2mm(fawBoxParms[2]);
1433 #endif
1434 
1435  const Pt3D bb1(fawBoxParms[0], fawBoxParms[1], fawBoxParms[2]);
1436  const Pt3D bb2(-fawBoxParms[0], fawBoxParms[1], fawBoxParms[2]);
1437  const Pt3D bb3(-fawBoxParms[0], fawBoxParms[1], -fawBoxParms[2]);
1438 
1439  const Tf3D fawCutForm(bb1,
1440  bb2,
1441  bb3,
1442  vFAW[2] + Pt3D(2 * hawBoxClr, -5 * dd4hep::mm, 0),
1443  vFAW[1] + Pt3D(-2 * hawBoxClr, -5 * dd4hep::mm, 0),
1444  Pt3D(vFAW[1].x() - 2 * hawBoxClr, vFAW[1].y() - trapFAW.h(), vFAW[1].z() - zDel));
1445 
1446  Solid fawSolid = SubtractionSolid(fawSolid1,
1447  fawCutBox,
1448  Transform3D(myrot(ns, fawCutName + "R", fawCutForm.getRotation()),
1449  Position(fawCutForm.getTranslation().x(),
1450  fawCutForm.getTranslation().y(),
1451  fawCutForm.getTranslation().z())));
1452 #ifdef EDM_ML_DEBUG
1453  edm::LogVerbatim("EBGeom") << alvWedge.fawName << " Subtraction " << fawSolid1.name() << ":" << fawCutBox.name()
1454  << " at (" << cms::convert2mm(fawCutForm.getTranslation().x()) << ","
1455  << cms::convert2mm(fawCutForm.getTranslation().y()) << ","
1456  << cms::convert2mm(fawCutForm.getTranslation().z()) << ")";
1457 #endif
1458  Volume fawLog = Volume(alvWedge.fawName, fawSolid, ns.material(spm.mat));
1459 
1460  const Tf3D hawRform(vHAW[3],
1461  vHAW[0],
1462  vHAW[1], // HAW inside FAW
1463  vFAW[3],
1464  0.5 * (vFAW[0] + vFAW[3]),
1465  0.5 * (vFAW[1] + vFAW[2]));
1466 
1467  fawLog.placeVolume(
1468  hawRLog,
1469  copyOne,
1470  Transform3D(
1471  myrot(ns, alvWedge.hawRName + "R", hawRform.getRotation()),
1472  Position(hawRform.getTranslation().x(), hawRform.getTranslation().y(), hawRform.getTranslation().z())));
1473 #ifdef EDM_ML_DEBUG
1474  edm::LogVerbatim("EBGeomX") << hawRLog.name() << ":" << copyOne << " positioned in " << fawLog.name() << " at ("
1475  << cms::convert2mm(hawRform.getTranslation().x()) << ","
1476  << cms::convert2mm(hawRform.getTranslation().y()) << ","
1477  << cms::convert2mm(hawRform.getTranslation().z()) << ") with rotation";
1478 #endif
1479 
1480  fawLog.placeVolume(
1481  hawRLog,
1482  copyTwo,
1483  Transform3D(
1484  Rotation3D(1., 0., 0., 0., 1., 0., 0., 0., -1.) * RotationY(M_PI), // rotate about Y after refl thru Z
1485  Position(-hawRform.getTranslation().x(), -hawRform.getTranslation().y(), -hawRform.getTranslation().z())));
1486 #ifdef EDM_ML_DEBUG
1487  edm::LogVerbatim("EBGeomX") << hawRLog.name() << ":" << copyTwo << " positioned in " << fawLog.name() << " at ("
1488  << cms::convert2mm(-hawRform.getTranslation().x()) << ","
1489  << cms::convert2mm(-hawRform.getTranslation().y()) << ","
1490  << cms::convert2mm(-hawRform.getTranslation().z()) << ") with rotation";
1491 #endif
1492  for (unsigned int iPhi(1); iPhi <= alvWedge.nFawPerSupm; ++iPhi) {
1493  const double rPhi(alvWedge.fawPhiOff + (iPhi - 0.5) * alvWedge.fawDelPhi);
1494 
1495  const Tf3D fawform(RoZ3D(rPhi) *
1496  Tl3D(alvWedge.fawRadOff + (trapFAW.H() + trapFAW.h()) / 4, 0, 0.5 * trapFAW.L()) *
1497  RoZ3D(-90_deg + alvWedge.fawPhiRot));
1498  if (alvWedge.fawHere) {
1499  spmLog.placeVolume(
1500  fawLog,
1501  iPhi,
1502  Transform3D(
1503  myrot(ns, alvWedge.fawName + "_Rot" + std::to_string(iPhi), fawform.getRotation()),
1504  Position(fawform.getTranslation().x(), fawform.getTranslation().y(), fawform.getTranslation().z())));
1505 #ifdef EDM_ML_DEBUG
1506  edm::LogVerbatim("EBGeomX") << fawLog.name() << ":" << iPhi << " positioned in " << spmLog.name() << " at ("
1507  << cms::convert2mm(fawform.getTranslation().x()) << ","
1508  << cms::convert2mm(fawform.getTranslation().y()) << ","
1509  << cms::convert2mm(fawform.getTranslation().z()) << ") with rotation";
1510 #endif
1511  }
1512  }
1513 
1514  // End Alveolar Wedge parent ------------------------------------------------------
1515 
1516  // Begin Grid + Tablet insertion
1517 
1518  const double h_Grid(grid.thick);
1519 
1520  const EcalTrap trapGrid(0.5 * (B_hawR - h_Grid * (B_hawR - a_hawR) / H_hawR), // bl1, A/2
1521  0.5 * (b_hawR - h_Grid * (B_hawR - a_hawR) / H_hawR), // bl2, a/2
1522  0.5 * b_hawR, // tl2, b/2
1523  0.5 * h_Grid, // h1, H/2
1524  0.5 * h_Grid, // h2, h/2
1525  0.5 * (L_hawR - 8 * dd4hep::cm), // dz, L/2
1526  90_deg, // alfa1
1527  0, // x15
1528  H_hawR - h_hawR // y15
1529  );
1530 
1531  Solid gridSolid = mytrap(grid.name, trapGrid);
1532  Volume gridLog = Volume(grid.name, gridSolid, ns.material(grid.mat));
1533 
1534  const EcalTrap::VertexList vGrid(trapGrid.vertexList());
1535 
1536  const Tf3D gridForm(vGrid[4],
1537  vGrid[5],
1538  vGrid[6], // Grid inside HAW
1539  vHAW[5] - Pt3D(0, h_Grid, 0),
1540  vHAW[5],
1541  vHAW[6]);
1542 
1543  if (0 != grid.here) {
1544  hawRLog.placeVolume(
1545  gridLog,
1546  copyOne,
1547  Transform3D(
1548  myrot(ns, grid.name + "R", gridForm.getRotation()),
1549  Position(gridForm.getTranslation().x(), gridForm.getTranslation().y(), gridForm.getTranslation().z())));
1550 #ifdef EDM_ML_DEBUG
1551  edm::LogVerbatim("EBGeomX") << gridLog.name() << ":" << copyOne << " positioned in " << hawRLog.name() << " at ("
1552  << cms::convert2mm(gridForm.getTranslation().x()) << ","
1553  << cms::convert2mm(gridForm.getTranslation().y()) << ","
1554  << cms::convert2mm(gridForm.getTranslation().z()) << ") with rotation";
1555 #endif
1556  }
1557  // End Grid + Tablet insertion
1558 
1559  // begin filling Wedge with crystal plus supports --------------------------
1560 
1561  const double aNom(cry.nomCryDimAF);
1562  const double LNom(cry.nomCryDimLZ);
1563 
1564  const double AUnd(cry.underAR);
1565  const double aUnd(cry.underAF);
1566  const double bUnd(cry.underCF);
1567  const double HUnd(cry.underBR);
1568  const double hUnd(cry.underBF);
1569  const double LUnd(cry.underLZ);
1570 
1571  const double sWall(alv.wallThAlv);
1572  const double sWrap(alv.wrapThAlv);
1573  const double sClr(alv.clrThAlv);
1574 
1575  const double fWall(alv.wallFrAlv);
1576  const double fWrap(alv.wrapFrAlv);
1577  const double fClr(alv.clrFrAlv);
1578 
1579  const double rWall(alv.wallReAlv);
1580  const double rWrap(alv.wrapReAlv);
1581  const double rClr(alv.clrReAlv);
1582 
1583  // theta is angle in yz plane between z axis & leading edge of crystal
1584  double theta(90_deg);
1585  double zee(0);
1586  double side(0);
1587  double zeta(0_deg); // increment in theta for last crystal
1588 
1589  for (unsigned int cryType(1); cryType <= alv.nCryTypes; ++cryType) {
1590  const string sType("_" + std::string(10 > cryType ? "0" : "") + std::to_string(cryType));
1591 
1592 #ifdef EDM_ML_DEBUG
1593  edm::LogVerbatim("EcalGeom") << "Crytype=" << cryType;
1594 #endif
1595  const double ANom(cry.vecNomCryDimAR[cryType - 1]);
1596  const double BNom(cry.vecNomCryDimCR[cryType - 1]);
1597  const double bNom(cry.vecNomCryDimCF[cryType - 1]);
1598  const double HNom(cry.vecNomCryDimBR[cryType - 1]);
1599  const double hNom(cry.vecNomCryDimBF[cryType - 1]);
1600 
1601  const double alfCry(90_deg + atan((bNom - bUnd - aNom + aUnd) / (hNom - hUnd)));
1602 
1603  const EcalTrap trapCry(0.5 * (ANom - AUnd), //double aHalfLengthXNegZLoY , // bl1, A/2
1604  0.5 * (aNom - aUnd), //double aHalfLengthXPosZLoY , // bl2, a/2
1605  0.5 * (bNom - bUnd), //double aHalfLengthXPosZHiY , // tl2, b/2
1606  0.5 * (HNom - HUnd), //double aHalfLengthYNegZ , // h1, H/2
1607  0.5 * (hNom - hUnd), //double aHalfLengthYPosZ , // h2, h/2
1608  0.5 * (LNom - LUnd), //double aHalfLengthZ , // dz, L/2
1609  alfCry, //double aAngleAD , // alfa1
1610  aNom - aUnd - ANom + AUnd, //double aCoord15X , // x15
1611  hNom - hUnd - HNom + HUnd //double aCoord15Y // y15
1612  );
1613 
1614  const string cryDDName(cry.name + sType);
1615  Solid crySolid = mytrap(cry.name, trapCry);
1616  Volume cryLog = Volume(cryDDName, crySolid, ns.material(cry.mat));
1617 
1618  //++++++++++++++++++++++++++++++++++ APD ++++++++++++++++++++++++++++++++++
1619  const unsigned int copyCap(1);
1620  const string capDDName(cap.name + sType);
1621  Solid capSolid = Box(capDDName, cap.xSizeHalf, cap.ySizeHalf, cap.thickHalf);
1622 #ifdef EDM_ML_DEBUG
1623  edm::LogVerbatim("EBGeom") << capDDName << " Box " << cms::convert2mm(cap.xSizeHalf) << ":"
1624  << cms::convert2mm(cap.ySizeHalf) << ":" << cms::convert2mm(cap.thickHalf);
1625 #endif
1626  Volume capLog = Volume(capDDName, capSolid, ns.material(cap.mat));
1627 
1628  const string sglDDName(apd.sglName + sType);
1629  Solid sglSolid = Box(sglDDName, cap.xSizeHalf, cap.ySizeHalf, apd.sglThick / 2.);
1630 #ifdef EDM_ML_DEBUG
1631  edm::LogVerbatim("EBGeom") << sglDDName << " Box " << cms::convert2mm(cap.xSizeHalf) << ":"
1632  << cms::convert2mm(cap.ySizeHalf) << ":" << cms::convert2mm(apd.sglThick / 2.);
1633 #endif
1634  Volume sglLog = Volume(sglDDName, sglSolid, ns.material(apd.sglMat));
1635  const unsigned int copySGL(1);
1636 
1637  const string cerDDName(cer.name + sType);
1638  Solid cerSolid = Box(cerDDName, cer.xSizeHalf, cer.ySizeHalf, cer.thickHalf);
1639 #ifdef EDM_ML_DEBUG
1640  edm::LogVerbatim("EBGeom") << cerDDName << " Box " << cms::convert2mm(cer.xSizeHalf) << ":"
1641  << cms::convert2mm(cer.ySizeHalf) << ":" << cms::convert2mm(cer.thickHalf);
1642 #endif
1643  Volume cerLog = Volume(cerDDName, cerSolid, ns.material(cer.mat));
1644  unsigned int copyCER(0);
1645 
1646  const string bsiDDName(bSi.name + sType);
1647  Solid bsiSolid = Box(bsiDDName, bSi.xSizeHalf, bSi.ySizeHalf, bSi.thickHalf);
1648 #ifdef EDM_ML_DEBUG
1649  edm::LogVerbatim("EBGeom") << bsiDDName << " Box " << cms::convert2mm(bSi.xSizeHalf) << ":"
1650  << cms::convert2mm(bSi.ySizeHalf) << ":" << cms::convert2mm(bSi.thickHalf);
1651 #endif
1652  Volume bsiLog = Volume(bsiDDName, bsiSolid, ns.material(bSi.mat));
1653  const unsigned int copyBSi(1);
1654 
1655  const string atjDDName(apd.atjName + sType);
1656  Solid atjSolid = Box(atjDDName, 0.5 * apd.side, 0.5 * apd.side, apd.atjThickHalf);
1657 #ifdef EDM_ML_DEBUG
1658  edm::LogVerbatim("EBGeom") << atjDDName << " Box " << cms::convert2mm(0.5 * apd.side) << ":"
1659  << cms::convert2mm(0.5 * apd.side) << ":" << cms::convert2mm(apd.atjThickHalf);
1660 #endif
1661  Volume atjLog = Volume(atjDDName, atjSolid, ns.material(apd.atjMat));
1662  const unsigned int copyATJ(1);
1663 
1664  const string aglDDName(apd.aglName + sType);
1665  Solid aglSolid = Box(aglDDName, bSi.xSizeHalf, bSi.ySizeHalf, 0.5 * apd.aglThick);
1666 #ifdef EDM_ML_DEBUG
1667  edm::LogVerbatim("EBGeom") << aglDDName << " Box " << cms::convert2mm(bSi.xSizeHalf) << ":"
1668  << cms::convert2mm(bSi.ySizeHalf) << ":" << cms::convert2mm(0.5 * apd.aglThick);
1669 #endif
1670  Volume aglLog = Volume(aglDDName, aglSolid, ns.material(apd.aglMat));
1671  const unsigned int copyAGL(1);
1672 
1673  const string andDDName(apd.andName + sType);
1674  Solid andSolid = Box(andDDName, 0.5 * apd.side, 0.5 * apd.side, 0.5 * apd.andThick);
1675 #ifdef EDM_ML_DEBUG
1676  edm::LogVerbatim("EBGeom") << andDDName << " Box " << cms::convert2mm(0.5 * apd.side) << ":"
1677  << cms::convert2mm(0.5 * apd.side) << ":" << cms::convert2mm(0.5 * apd.andThick);
1678 #endif
1679  Volume andLog = Volume(andDDName, andSolid, ns.material(apd.andMat));
1680  const unsigned int copyAND(1);
1681 
1682  const string apdDDName(apd.name + sType);
1683  Solid apdSolid = Box(apdDDName, 0.5 * apd.side, 0.5 * apd.side, 0.5 * apd.thick);
1684 #ifdef EDM_ML_DEBUG
1685  edm::LogVerbatim("EBGeom") << apdDDName << " Box " << cms::convert2mm(0.5 * apd.side) << ":"
1686  << cms::convert2mm(0.5 * apd.side) << ":" << cms::convert2mm(0.5 * apd.thick);
1687 #endif
1688  Volume apdLog = Volume(apdDDName, apdSolid, ns.material(apd.mat));
1689  const unsigned int copyAPD(1);
1690 
1691  //++++++++++++++++++++++++++++++++++ END APD ++++++++++++++++++++++++++++++++++
1692 
1693  const double delta(atan((HNom - hNom) / LNom));
1694  const double sindelta(sin(delta));
1695 
1696  const double gamma(atan((ANom - aNom) / LNom));
1697  const double singamma(sin(gamma));
1698 
1699  const double beta(atan((BNom - bNom) / LNom));
1700  const double sinbeta(sin(beta));
1701 
1702  // Now clearance trap
1703  const double alfClr(90_deg + atan((bNom - aNom) / (hNom + sClr)));
1704 
1705  const EcalTrap trapClr(0.5 * (ANom + sClr + rClr * singamma), //double aHalfLengthXNegZLoY , // bl1, A/2
1706  0.5 * (aNom + sClr - fClr * singamma), //double aHalfLengthXPosZLoY , // bl2, a/2
1707  0.5 * (bNom + sClr - fClr * sinbeta), //double aHalfLengthXPosZHiY , // tl2, b/2
1708  0.5 * (HNom + sClr + rClr * sindelta), //double aHalfLengthYNegZ , // h1, H/2
1709  0.5 * (hNom + sClr - fClr * sindelta), //double aHalfLengthYPosZ , // h2, h/2
1710  0.5 * (LNom + fClr + rClr), // dz, L/2
1711  alfClr, //double aAngleAD , // alfa1
1712  aNom - ANom, //double aCoord15X , // x15
1713  hNom - HNom //double aCoord15Y // y15
1714  );
1715 
1716  const string clrDDName(cry.clrName + sType);
1717  Solid clrSolid = mytrap(clrDDName, trapClr);
1718  Volume clrLog = Volume(clrDDName, clrSolid, ns.material(cry.clrMat));
1719 
1720  // Now wrap trap
1721  const double alfWrap(90_deg + atan((bNom - aNom) / (hNom + sClr + 2. * sWrap)));
1722 
1723  const EcalTrap trapWrap(0.5 * (trapClr.A() + 2. * sWrap + rWrap * singamma), // bl1, A/2
1724  0.5 * (trapClr.a() + 2. * sWrap - fWrap * singamma), // bl2, a/2
1725  0.5 * (trapClr.b() + 2. * sWrap - fWrap * sinbeta), // tl2, b/2
1726  0.5 * (trapClr.H() + 2. * sWrap + rWrap * sindelta), // h1, H/2
1727  0.5 * (trapClr.h() + 2. * sWrap - fWrap * sindelta), // h2, h/2
1728  0.5 * (trapClr.L() + fWrap + rWrap), // dz, L/2
1729  alfWrap, //double aAngleAD , // alfa1
1730  aNom - ANom - (cryType > 9 ? 0 : 0.020 * dd4hep::mm),
1731  hNom - HNom //double aCoord15Y // y15
1732  );
1733 
1734  const string wrapDDName(cry.wrapName + sType);
1735  Solid wrapSolid = mytrap(wrapDDName, trapWrap);
1736  Volume wrapLog = Volume(wrapDDName, wrapSolid, ns.material(cry.wrapMat));
1737 
1738  // Now wall trap
1739 
1740  const double alfWall(90_deg + atan((bNom - aNom) / (hNom + sClr + 2. * sWrap + 2. * sWall)));
1741 
1742  const EcalTrap trapWall(0.5 * (trapWrap.A() + 2 * sWall + rWall * singamma), // A/2
1743  0.5 * (trapWrap.a() + 2 * sWall - fWall * singamma), // a/2
1744  0.5 * (trapWrap.b() + 2 * sWall - fWall * sinbeta), // b/2
1745  0.5 * (trapWrap.H() + 2 * sWall + rWall * sindelta), // H/2
1746  0.5 * (trapWrap.h() + 2 * sWall - fWall * sindelta), // h/2
1747  0.5 * (trapWrap.L() + fWall + rWall), // L/2
1748  alfWall, // alfa1
1749  aNom - ANom - (cryType < 10 ? 0.150 * dd4hep::mm : 0.100 * dd4hep::mm),
1750  hNom - HNom // y15
1751  );
1752 
1753  const string wallDDName(cry.wallName + sType);
1754  Solid wallSolid = mytrap(wallDDName, trapWall);
1755  Volume wallLog = Volume(wallDDName, wallSolid, ns.material(cry.wallMat));
1756 
1757  // Now for placement of cry within clr
1758  const Vec3 cryToClr(0., 0., 0.5 * (rClr - fClr));
1759  clrLog.placeVolume(cryLog, copyOne, Position(0, 0, 0.5 * (rClr - fClr)));
1760 #ifdef EDM_ML_DEBUG
1761  edm::LogVerbatim("EBGeomX") << cryLog.name() << ":" << copyOne << " positioned in " << clrLog.name()
1762  << " at (0,0," << cms::convert2mm(0.5 * (rClr - fClr)) << ") with no rotation";
1763 #endif
1764  if (0 != cap.here) {
1765  bsiLog.placeVolume(aglLog, copyAGL, Position(0, 0, -0.5 * apd.aglThick + bSi.thickHalf));
1766 #ifdef EDM_ML_DEBUG
1767  edm::LogVerbatim("EBGeomX") << aglLog.name() << ":" << copyAGL << " positioned in " << bsiLog.name()
1768  << " at (0,0," << cms::convert2mm(-0.5 * apd.aglThick + bSi.thickHalf)
1769  << ") with no rotation";
1770 #endif
1771  bsiLog.placeVolume(andLog, copyAND, Position(0, 0, -0.5 * apd.andThick - apd.aglThick + bSi.thickHalf));
1772 #ifdef EDM_ML_DEBUG
1773  edm::LogVerbatim("EBGeomX") << andLog.name() << ":" << copyAND << " positioned in " << bsiLog.name()
1774  << " at (0,0,"
1775  << cms::convert2mm(-0.5 * apd.andThick - apd.aglThick + bSi.thickHalf)
1776  << ") with no rotation";
1777 #endif
1778  bsiLog.placeVolume(
1779  apdLog, copyAPD, Position(0, 0, -0.5 * apd.thick - apd.andThick - apd.aglThick + bSi.thickHalf));
1780 #ifdef EDM_ML_DEBUG
1781  edm::LogVerbatim("EBGeomX") << apdLog.name() << ":" << copyAPD << " positioned in " << bsiLog.name()
1782  << " at (0,0,"
1783  << cms::convert2mm(-0.5 * apd.thick - apd.andThick - apd.aglThick + bSi.thickHalf)
1784  << ") with no rotation";
1785 #endif
1786  bsiLog.placeVolume(atjLog,
1787  copyATJ,
1788  Position(0, 0, -apd.atjThickHalf - apd.thick - apd.andThick - apd.aglThick + bSi.thickHalf));
1789 #ifdef EDM_ML_DEBUG
1790  edm::LogVerbatim("EBGeomX") << atjLog.name() << ":" << copyATJ << " positioned in " << bsiLog.name()
1791  << " at (0,0,"
1792  << cms::convert2mm(-apd.atjThickHalf - apd.thick - apd.andThick - apd.aglThick +
1793  bSi.thickHalf)
1794  << ") with no rotation";
1795 #endif
1796  cerLog.placeVolume(bsiLog, copyBSi, Position(0, 0, -bSi.thickHalf + cer.thickHalf));
1797 #ifdef EDM_ML_DEBUG
1798  edm::LogVerbatim("EBGeomX") << bsiLog.name() << ":" << copyBSi << " positioned in " << cerLog.name()
1799  << " at (0,0," << cms::convert2mm(-bSi.thickHalf + cer.thickHalf)
1800  << ") with no rotation";
1801 #endif
1802  capLog.placeVolume(sglLog, copySGL, Position(0, 0, -0.5 * apd.sglThick + cap.thickHalf));
1803 #ifdef EDM_ML_DEBUG
1804  edm::LogVerbatim("EBGeomX") << sglLog.name() << ":" << copySGL << " positioned in " << capLog.name()
1805  << " at (0,0," << cms::convert2mm(-0.5 * apd.sglThick + cap.thickHalf)
1806  << ") with no rotation";
1807 #endif
1808 
1809  for (unsigned int ijkl(0); ijkl != 2; ++ijkl) {
1810  capLog.placeVolume(cerLog,
1811  ++copyCER,
1812  Position(trapCry.bl1() - (0 == ijkl ? apd.x1 : apd.x2),
1813  trapCry.h1() - apd.z,
1814  -apd.sglThick - cer.thickHalf + cap.thickHalf));
1815 #ifdef EDM_ML_DEBUG
1816  edm::LogVerbatim("EBGeomX") << cerLog.name() << ":" << copyCER << " positioned in " << capLog.name()
1817  << " at (" << cms::convert2mm(trapCry.bl1() - (0 == ijkl ? apd.x1 : apd.x2))
1818  << "," << cms::convert2mm(trapCry.h1() - apd.z) << ","
1819  << cms::convert2mm(-apd.sglThick - cer.thickHalf + cap.thickHalf)
1820  << ") with no rotation";
1821 #endif
1822  }
1823  clrLog.placeVolume(capLog, copyCap, Position(0, 0, -trapCry.dz() - cap.thickHalf + 0.5 * (rClr - fClr)));
1824 #ifdef EDM_ML_DEBUG
1825  edm::LogVerbatim("EBGeomX") << capLog.name() << ":" << copyCap << " positioned in " << clrLog.name()
1826  << " at (0,0,"
1827  << cms::convert2mm(-trapCry.dz() - cap.thickHalf + 0.5 * (rClr - fClr))
1828  << ") with no rotation";
1829 #endif
1830  }
1831 
1832  const Vec3 clrToWrap(0, 0, 0.5 * (rWrap - fWrap));
1833  wrapLog.placeVolume(clrLog, copyOne, Position(0, 0, 0.5 * (rWrap - fWrap))); //SAME as cryToWrap
1834 #ifdef EDM_ML_DEBUG
1835  edm::LogVerbatim("EBGeomX") << clrLog.name() << ":" << copyOne << " positioned in " << wrapLog.name()
1836  << " at (0,0," << cms::convert2mm(0.5 * (rWrap - fWrap)) << ") with no rotation";
1837 #endif
1838 
1839  // Now for placement of clr within wall
1840  const Vec3 wrapToWall1(0, 0, 0.5 * (rWall - fWall));
1841  const Vec3 wrapToWall(Vec3((cryType > 9 ? 0 : 0.005 * dd4hep::mm), 0, 0) + wrapToWall1);
1842  wallLog.placeVolume(
1843  wrapLog,
1844  copyOne,
1845  Position(Vec3((cryType > 9 ? 0 : 0.005 * dd4hep::mm), 0, 0) + wrapToWall1)); //SAME as wrapToWall
1846 #ifdef EDM_ML_DEBUG
1847  edm::LogVerbatim("EBGeomX") << wrapLog.name() << ":" << copyOne << " positioned in " << wallLog.name() << " at ("
1848  << cms::convert2mm(wrapToWall.x()) << "," << cms::convert2mm(wrapToWall.y()) << ","
1849  << cms::convert2mm(wrapToWall.z()) << ") with no rotation";
1850 #endif
1851 
1852  const EcalTrap::VertexList vWall(trapWall.vertexList());
1853  const EcalTrap::VertexList vCry(trapCry.vertexList());
1854 
1855  const double sidePrime(0.5 * (trapWall.a() - trapCry.a()));
1856  const double frontPrime(fWall + fWrap + fClr + 0.5 * LUnd);
1857 
1858  // define web plates with clearance ===========================================
1859 
1860  if (1 == cryType) // first web plate: inside clearance volume
1861  {
1862  const unsigned int iWeb(0);
1863  const Pt3D corner(vHAW[4] + Pt3D(0, alvWedge.hawYOffCry, 0));
1864  const unsigned int copyOne(1);
1865  const double LWebx(web.vecWebLength[iWeb]);
1866  const double BWebx(trapWall.b() + (trapWall.B() - trapWall.b()) * LWebx / trapWall.L());
1867 
1868  const double thick(web.vecWebPlTh[iWeb] + web.vecWebClrTh[iWeb]);
1869  const EcalTrap trapWebClr(0.5 * BWebx, // A/2
1870  0.5 * trapWall.b(), // a/2
1871  0.5 * trapWall.b(), // b/2
1872  0.5 * thick, // H/2
1873  0.5 * thick, // h/2
1874  0.5 * LWebx, // L/2
1875  90_deg, // alfa1
1876  trapWall.b() - BWebx, // x15
1877  0 // y15
1878  );
1879  std::string webClrName(web.clrName + std::to_string(iWeb));
1880  Solid webClrSolid = mytrap(webClrName, trapWebClr);
1881  Volume webClrLog = Volume(webClrName, webClrSolid, ns.material(web.clrMat));
1882 
1883  const EcalTrap trapWebPl(0.5 * trapWebClr.A(), // A/2
1884  0.5 * trapWebClr.a(), // a/2
1885  0.5 * trapWebClr.b(), // b/2
1886  0.5 * web.vecWebPlTh[iWeb], // H/2
1887  0.5 * web.vecWebPlTh[iWeb], // h/2
1888  0.5 * trapWebClr.L(), // L/2
1889  90._deg, // alfa1
1890  trapWebClr.b() - trapWebClr.B(), // x15
1891  0 // y15
1892  );
1893  std::string webPlName(web.plName + std::to_string(iWeb));
1894  Solid webPlSolid = mytrap(webPlName, trapWebPl);
1895  Volume webPlLog = Volume(webPlName, webPlSolid, ns.material(web.plMat));
1896 
1897  webClrLog.placeVolume(webPlLog, copyOne); // place plate inside clearance volume
1898 #ifdef EDM_ML_DEBUG
1899  edm::LogVerbatim("EBGeomX") << webPlLog.name() << ":" << copyOne << " positioned in " << webClrName
1900  << " at (0,0,0) with no rotation";
1901 #endif
1902  const EcalTrap::VertexList vWeb(trapWebClr.vertexList());
1903 
1904  zee += trapWebClr.h() / sin(theta);
1905 
1906  const double beta(theta + delta);
1907 
1908  const double zWeb(zee - frontPrime * cos(beta) + sidePrime * sin(beta));
1909  const double yWeb(frontPrime * sin(beta) + sidePrime * cos(beta));
1910 
1911  const Pt3D wedge3(corner + Pt3D(0, -yWeb, zWeb));
1912  const Pt3D wedge2(wedge3 + Pt3D(0, trapWebClr.h() * cos(theta), -trapWebClr.h() * sin(theta)));
1913  const Pt3D wedge1(wedge3 + Pt3D(trapWebClr.a(), 0, 0));
1914 #ifdef EDM_ML_DEBUG
1915  edm::LogVerbatim("EcalGeom") << "trap1=" << vWeb[0] << ", trap2=" << vWeb[2] << ", trap3=" << vWeb[3];
1916  edm::LogVerbatim("EcalGeom") << "wedge1=" << wedge1 << ", wedge2=" << wedge2 << ", wedge3=" << wedge3;
1917 #endif
1918  const Tf3D tForm(vWeb[0], vWeb[2], vWeb[3], wedge1, wedge2, wedge3);
1919 
1920  if (0 != web.here) {
1921  hawRLog.placeVolume(
1922  webClrLog,
1923  copyOne,
1924  Transform3D(
1925  myrot(ns, webClrName + std::to_string(iWeb), tForm.getRotation()),
1926  Position(tForm.getTranslation().x(), tForm.getTranslation().y(), tForm.getTranslation().z())));
1927 #ifdef EDM_ML_DEBUG
1928  edm::LogVerbatim("EBGeomX") << webClrLog.name() << ":" << copyOne << " positioned in " << hawRLog.name()
1929  << " at (" << cms::convert2mm(tForm.getTranslation().x()) << ","
1930  << cms::convert2mm(tForm.getTranslation().y()) << ","
1931  << cms::convert2mm(tForm.getTranslation().z()) << ") with rotation";
1932 #endif
1933  }
1934  zee += alv.vecGapAlvEta[0];
1935  }
1936 
1937  for (unsigned int etaAlv(1); etaAlv <= alv.nCryPerAlvEta; ++etaAlv) {
1938 #ifdef EDM_ML_DEBUG
1939  edm::LogVerbatim("EcalGeom") << "theta=" << convertRadToDeg(theta) << ", sidePrime=" << sidePrime
1940  << ", frontPrime=" << frontPrime << ", zeta=" << zeta << ", delta=" << delta
1941  << ", zee=" << zee;
1942 #endif
1943 
1944  zee += 0.075 * dd4hep::mm + (side * cos(zeta) + trapWall.h() - sidePrime) / sin(theta);
1945 
1946  // make transform for placing enclosed crystal
1947 
1948  const Pt3D trap2(vCry[2] + cryToClr + clrToWrap + wrapToWall);
1949 
1950  const Pt3D trap3(trap2 + Pt3D(0, -trapCry.h(), 0));
1951  const Pt3D trap1(trap3 + Pt3D(-trapCry.a(), 0, 0));
1952 
1953  const Pt3D wedge3(vHAW[4] + Pt3D(sidePrime, alvWedge.hawYOffCry, zee));
1954  const Pt3D wedge2(wedge3 + Pt3D(0, trapCry.h() * cos(theta), -trapCry.h() * sin(theta)));
1955  const Pt3D wedge1(wedge3 + Pt3D(trapCry.a(), 0, 0));
1956 
1957  const Tf3D tForm1(trap1, trap2, trap3, wedge1, wedge2, wedge3);
1958 
1959  const double xx(0.050 * dd4hep::mm);
1960 
1961  const Tf3D tForm(HepGeom::Translate3D(xx, 0, 0) * tForm1);
1962  hawRLog.placeVolume(
1963  wallLog,
1964  etaAlv,
1965  Transform3D(myrot(ns, wallDDName + "_" + std::to_string(etaAlv), tForm.getRotation()),
1966  Position(tForm.getTranslation().x(), tForm.getTranslation().y(), tForm.getTranslation().z())));
1967 #ifdef EDM_ML_DEBUG
1968  edm::LogVerbatim("EBGeomX") << wallLog.name() << ":" << etaAlv << " positioned in " << hawRLog.name() << " at ("
1969  << cms::convert2mm(tForm.getTranslation().x()) << ","
1970  << cms::convert2mm(tForm.getTranslation().y()) << ","
1971  << cms::convert2mm(tForm.getTranslation().z()) << ") with rotation";
1972 #endif
1973  theta -= delta;
1974  side = sidePrime;
1975  zeta = delta;
1976  }
1977  if (5 == cryType || 9 == cryType || 13 == cryType || 17 == cryType) { // web plates
1978  zee += 0.5 * alv.vecGapAlvEta[cryType] / sin(theta);
1979 
1980  const unsigned int iWeb(cryType / 4);
1981  const Pt3D corner(vHAW[4] + Pt3D(0, alvWedge.hawYOffCry, 0));
1982  const unsigned int copyOne(1);
1983  const double LWebx(web.vecWebLength[iWeb]);
1984  const double BWebx(trapWall.a() + (trapWall.A() - trapWall.a()) * LWebx / trapWall.L());
1985 
1986  const double thick(web.vecWebPlTh[iWeb] + web.vecWebClrTh[iWeb]);
1987  const EcalTrap trapWebClr(0.5 * BWebx, // A/2
1988  0.5 * trapWall.a(), // a/2
1989  0.5 * trapWall.a(), // b/2
1990  0.5 * thick, // H/2
1991  0.5 * thick, // h/2
1992  0.5 * LWebx, // L/2
1993  90_deg, // alfa1
1994  trapWall.a() - BWebx, // x15
1995  0 // y15
1996  );
1997  std::string webClrName(web.clrName + std::to_string(iWeb));
1998  Solid webClrSolid = mytrap(webClrName, trapWebClr);
1999  Volume webClrLog = Volume(webClrName, webClrSolid, ns.material(web.clrMat));
2000 
2001  const EcalTrap trapWebPl(0.5 * trapWebClr.A(), // A/2
2002  0.5 * trapWebClr.a(), // a/2
2003  0.5 * trapWebClr.b(), // b/2
2004  0.5 * web.vecWebPlTh[iWeb], // H/2
2005  0.5 * web.vecWebPlTh[iWeb], // h/2
2006  0.5 * trapWebClr.L(), // L/2
2007  90._deg, // alfa1
2008  trapWebClr.b() - trapWebClr.B(), // x15
2009  0 // y15
2010  );
2011  std::string webPlName(web.plName + std::to_string(iWeb));
2012  Solid webPlSolid = mytrap(webPlName, trapWebPl);
2013  Volume webPlLog = Volume(webPlName, webPlSolid, ns.material(web.plMat));
2014 
2015  webClrLog.placeVolume(webPlLog, copyOne); // place plate inside clearance volume
2016 #ifdef EDM_ML_DEBUG
2017  edm::LogVerbatim("EBGeomX") << webPlLog.name() << ":" << copyOne << " positioned in " << webClrName
2018  << " at (0,0,0) with no rotation";
2019 #endif
2020  const EcalTrap::VertexList vWeb(trapWebClr.vertexList());
2021 
2022  zee += trapWebClr.h() / sin(theta);
2023 
2024  const double beta(theta + delta);
2025 
2026  const double zWeb(zee - frontPrime * cos(beta) + sidePrime * sin(beta));
2027  const double yWeb(frontPrime * sin(beta) + sidePrime * cos(beta));
2028 
2029  const Pt3D wedge3(corner + Pt3D(0, -yWeb, zWeb));
2030  const Pt3D wedge2(wedge3 + Pt3D(0, trapWebClr.h() * cos(theta), -trapWebClr.h() * sin(theta)));
2031  const Pt3D wedge1(wedge3 + Pt3D(trapWebClr.a(), 0, 0));
2032 #ifdef EDM_ML_DEBUG
2033  edm::LogVerbatim("EcalGeom") << "trap1=" << vWeb[0] << ", trap2=" << vWeb[2] << ", trap3=" << vWeb[3];
2034  edm::LogVerbatim("EcalGeom") << "wedge1=" << wedge1 << ", wedge2=" << wedge2 << ", wedge3=" << wedge3;
2035 #endif
2036  const Tf3D tForm(vWeb[0], vWeb[2], vWeb[3], wedge1, wedge2, wedge3);
2037 
2038  if (0 != web.here) {
2039  hawRLog.placeVolume(
2040  webClrLog,
2041  copyOne,
2042  Transform3D(
2043  myrot(ns, webClrName + std::to_string(iWeb), tForm.getRotation()),
2044  Position(tForm.getTranslation().x(), tForm.getTranslation().y(), tForm.getTranslation().z())));
2045 #ifdef EDM_ML_DEBUG
2046  edm::LogVerbatim("EBGeomX") << webClrLog.name() << ":" << copyOne << " positioned in " << hawRLog.name()
2047  << " at (" << cms::convert2mm(tForm.getTranslation().x()) << ","
2048  << cms::convert2mm(tForm.getTranslation().y()) << ","
2049  << cms::convert2mm(tForm.getTranslation().z()) << ") with rotation";
2050 #endif
2051  }
2052 
2053  zee += 0.5 * alv.vecGapAlvEta[cryType] / sin(theta);
2054  } else {
2055  if (17 != cryType)
2056  zee += alv.vecGapAlvEta[cryType] / sin(theta);
2057  }
2058  }
2059  // END filling Wedge with crystal plus supports --------------------------
2060 
2061  //------------------------------------------------------------------------
2062  //------------------------------------------------------------------------
2063  //------------------------------------------------------------------------
2064  //------------------------------------------------------------------------
2065  //**************** Material at outer radius of supermodule ***************
2066  //------------------------------------------------------------------------
2067  //------------------------------------------------------------------------
2068  //------------------------------------------------------------------------
2069  //------------------------------------------------------------------------
2070 
2071  if (0 != back.here) {
2077 
2078  const Position outtra(back.xOff + 0.5 * back.sideHeight, back.yOff, 0.5 * back.sideLength);
2079 
2080  const double realBPthick(back.plateThick + back.plate2Thick);
2081  array<double, 3> backPlateParms{{0.5 * back.plateWidth, 0.5 * realBPthick, 0.5 * back.plateLength}};
2082  Solid backPlateSolid = Box(back.plateName, backPlateParms[0], backPlateParms[1], backPlateParms[2]);
2083 #ifdef EDM_ML_DEBUG
2084  edm::LogVerbatim("EBGeom") << back.plateName << " Box " << cms::convert2mm(backPlateParms[0]) << ":"
2085  << cms::convert2mm(backPlateParms[1]) << ":" << cms::convert2mm(backPlateParms[2]);
2086 #endif
2087  Volume backPlateLog = Volume(back.plateName, backPlateSolid, ns.material(back.plateMat));
2088 
2089  const Position backPlateTra(
2090  0.5 * back.sideHeight + backPlateParms[1], 0, backPlateParms[2] - 0.5 * back.sideLength);
2091 
2092  Solid backPlate2Solid =
2093  Box(back.plate2Name, 0.5 * back.plateWidth, 0.5 * back.plate2Thick, 0.5 * back.plateLength);
2094 #ifdef EDM_ML_DEBUG
2095  edm::LogVerbatim("EBGeom") << back.plate2Name << " Box " << cms::convert2mm(0.5 * back.plateWidth) << ":"
2096  << cms::convert2mm(0.5 * back.plate2Thick) << ":"
2097  << cms::convert2mm(0.5 * back.plateLength);
2098 #endif
2099  Volume backPlate2Log = Volume(back.plate2Name, backPlate2Solid, ns.material(back.plate2Mat));
2100 
2101  const Position backPlate2Tra(0, -backPlateParms[1] + back.plate2Thick / 2., 0);
2102  if (0 != back.plateHere) {
2103  backPlateLog.placeVolume(backPlate2Log, copyOne, Transform3D(backPlate2Tra));
2104 #ifdef EDM_ML_DEBUG
2105  edm::LogVerbatim("EBGeomX") << backPlate2Log.name() << ":" << copyOne << " positioned in "
2106  << backPlateLog.name() << " at (" << cms::convert2mm(backPlate2Tra.x()) << ","
2107  << cms::convert2mm(backPlate2Tra.y()) << "," << cms::convert2mm(backPlate2Tra.z())
2108  << ") with no rotation";
2109 #endif
2110  spmLog.placeVolume(
2111  backPlateLog,
2112  copyOne,
2113  Transform3D(myrot(ns, back.plateName + "Rot5", CLHEP::HepRotationZ(270_deg)), outtra + backPlateTra));
2114 #ifdef EDM_ML_DEBUG
2115  edm::LogVerbatim("EBGeomX") << backPlateLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
2116  << " at (" << cms::convert2mm((outtra + backPlateTra).x()) << ","
2117  << cms::convert2mm((outtra + backPlateTra).y()) << ","
2118  << cms::convert2mm((outtra + backPlateTra).z()) << ") with rotation";
2119 #endif
2120  }
2126 
2132 
2133  const EcalTrap trapBS(back.sideWidth / 2., //double aHalfLengthXNegZLoY , // bl1, A/2
2134  back.sideWidth / 2., //double aHalfLengthXPosZLoY , // bl2, a/2
2135  back.sideWidth / 4., //double aHalfLengthXPosZHiY , // tl2, b/2
2136  back.sideHeight / 2., //double aHalfLengthYNegZ , // h1, H/2
2137  back.sideHeight / 2., //double aHalfLengthYPosZ , // h2, h/2
2138  back.sideLength / 2., //double aHalfLengthZ , // dz, L/2
2139  back.sideAngle, //double aAngleAD , // alfa1
2140  0, //double aCoord15X , // x15
2141  0 //double aCoord15Y // y15
2142  );
2143 
2144  Solid backSideSolid = mytrap(back.sideName, trapBS);
2145  Volume backSideLog = Volume(back.sideName, backSideSolid, ns.material(back.sideMat));
2146 
2147  const Position backSideTra1(0, back.plateWidth / 2 + back.sideYOff1, 1 * dd4hep::mm);
2148  if (0 != back.sideHere) {
2149  spmLog.placeVolume(
2150  backSideLog,
2151  copyOne,
2152  Transform3D(myrot(ns, back.sideName + "Rot8", CLHEP::HepRotationX(180_deg) * CLHEP::HepRotationZ(90_deg)),
2153  outtra + backSideTra1));
2154 #ifdef EDM_ML_DEBUG
2155  edm::LogVerbatim("EBGeomX") << backSideLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
2156  << " at (" << cms::convert2mm((outtra + backSideTra1).x()) << ","
2157  << cms::convert2mm((outtra + backSideTra1).y()) << ","
2158  << cms::convert2mm((outtra + backSideTra1).z()) << ") with rotation";
2159 #endif
2160  const Position backSideTra2(0, -back.plateWidth / 2 + back.sideYOff2, 1 * dd4hep::mm);
2161  spmLog.placeVolume(
2162  backSideLog,
2163  copyTwo,
2164  Transform3D(myrot(ns, back.sideName + "Rot9", CLHEP::HepRotationZ(90_deg)), outtra + backSideTra2));
2165 #ifdef EDM_ML_DEBUG
2166  edm::LogVerbatim("EBGeomX") << backSideLog.name() << ":" << copyTwo << " positioned in " << spmLog.name()
2167  << " at (" << cms::convert2mm((outtra + backSideTra2).x()) << ","
2168  << cms::convert2mm((outtra + backSideTra2).y()) << ","
2169  << cms::convert2mm((outtra + backSideTra2).z()) << ") with rotation";
2170 #endif
2171  }
2177 
2178  //=====================
2179  const double backCoolWidth(backCool.barWidth + 2. * backCoolTank.width);
2180 
2186 
2187  const double manifCut(2 * dd4hep::mm);
2188 
2189  Solid mBManifSolid = Tube(0, mbManif.outDiam / 2, backCoolWidth / 2. - manifCut, 0_deg, 360_deg);
2190 #ifdef EDM_ML_DEBUG
2191  edm::LogVerbatim("EBGeom") << mbManif.name << " Tubs " << cms::convert2mm(backCoolWidth / 2. - manifCut)
2192  << ":0:" << cms::convert2mm(mbManif.outDiam / 2) << ":0:360";
2193 #endif
2194  Volume mBManifLog = Volume(mbManif.name, mBManifSolid, ns.material(mbManif.mat));
2195 
2196  const string mBManifWaName(mbManif.name + "Wa");
2197  Solid mBManifWaSolid = Tube(0, mbManif.innDiam / 2, backCoolWidth / 2. - manifCut, 0_deg, 360_deg);
2198 #ifdef EDM_ML_DEBUG
2199  edm::LogVerbatim("EBGeom") << mBManifWaName << " Tubs " << cms::convert2mm(backCoolWidth / 2. - manifCut)
2200  << ":0:" << cms::convert2mm(mbManif.innDiam / 2) << ":0:360";
2201 #endif
2202  Volume mBManifWaLog(mBManifWaName, mBManifWaSolid, ns.material(backPipe.waterMat));
2203  mBManifLog.placeVolume(mBManifWaLog, copyOne);
2204 #ifdef EDM_ML_DEBUG
2205  edm::LogVerbatim("EBGeomX") << mBManifWaLog.name() << ":" << copyOne << " positioned in " << mBManifLog.name()
2206  << " at (0,0,0) with no rotation";
2207 #endif
2208 
2214  //=====================
2215 
2221  const double deltaY(-5 * dd4hep::mm);
2222 
2223  Solid grEdgeSlotSolid =
2224  Box(grille.edgeSlotName, grille.edgeSlotHeight / 2., grille.edgeSlotWidth / 2., grille.thick / 2.);
2225 #ifdef EDM_ML_DEBUG
2226  edm::LogVerbatim("EBGeom") << grille.edgeSlotName << " Box " << cms::convert2mm(grille.edgeSlotHeight / 2.) << ":"
2227  << cms::convert2mm(grille.edgeSlotWidth / 2.) << ":"
2228  << cms::convert2mm(grille.thick / 2.);
2229 #endif
2230  Volume grEdgeSlotLog = Volume(grille.edgeSlotName, grEdgeSlotSolid, ns.material(grille.edgeSlotMat));
2231 
2232  unsigned int edgeSlotCopy(0);
2233  unsigned int midSlotCopy(0);
2234 
2235  Volume grMidSlotLog[4];
2236 
2237  for (unsigned int iGr(0); iGr != grille.vecHeight.size(); ++iGr) {
2238  string gName(grille.name + std::to_string(iGr));
2239  Solid grilleSolid = Box(gName, grille.vecHeight[iGr] / 2., backCoolWidth / 2., grille.thick / 2.);
2240 #ifdef EDM_ML_DEBUG
2241  edm::LogVerbatim("EBGeom") << gName << " Box " << cms::convert2mm(grille.vecHeight[iGr] / 2.) << ":"
2242  << cms::convert2mm(backCoolWidth / 2.) << ":" << cms::convert2mm(grille.thick / 2.);
2243 #endif
2244  Volume grilleLog = Volume(gName, grilleSolid, ns.material(grille.mat));
2245 
2246  const Position grilleTra(-realBPthick / 2 - grille.vecHeight[iGr] / 2,
2247  deltaY,
2248  grille.vecZOff[iGr] + grille.thick / 2 - back.sideLength / 2);
2249  const Position gTra(outtra + backPlateTra + grilleTra);
2250 
2251  if (0 != grille.midSlotHere && 0 != iGr) {
2252  if (0 == (iGr - 1) % 2) {
2253  string mName(grille.midSlotName + std::to_string(iGr / 2));
2254  Solid grMidSlotSolid =
2255  Box(mName, grille.vecMidSlotHeight[(iGr - 1) / 2] / 2., grille.midSlotWidth / 2., grille.thick / 2.);
2256 #ifdef EDM_ML_DEBUG
2257  edm::LogVerbatim("EBGeom") << mName << " Box "
2258  << cms::convert2mm(grille.vecMidSlotHeight[(iGr - 1) / 2] / 2.) << ":"
2259  << cms::convert2mm(grille.midSlotWidth / 2.) << ":"
2260  << cms::convert2mm(grille.thick / 2.);
2261 #endif
2262  grMidSlotLog[(iGr - 1) / 2] = Volume(mName, grMidSlotSolid, ns.material(grille.midSlotMat));
2263  }
2264  grilleLog.placeVolume(
2265  grMidSlotLog[(iGr - 1) / 2],
2266  ++midSlotCopy,
2267  Transform3D(Position(
2268  grille.vecHeight[iGr] / 2. - grille.vecMidSlotHeight[(iGr - 1) / 2] / 2., +grille.midSlotXOff, 0)));
2269 #ifdef EDM_ML_DEBUG
2270  edm::LogVerbatim("EBGeomX") << grMidSlotLog[(iGr - 1) / 2].name() << ":" << midSlotCopy << " positioned in "
2271  << grilleLog.name() << " at ("
2272  << cms::convert2mm(grille.vecHeight[iGr] / 2. -
2273  grille.vecMidSlotHeight[(iGr - 1) / 2] / 2.)
2274  << "," << cms::convert2mm(grille.midSlotXOff) << ",0) with no rotation";
2275 #endif
2276  grilleLog.placeVolume(
2277  grMidSlotLog[(iGr - 1) / 2],
2278  ++midSlotCopy,
2279  Transform3D(Position(
2280  grille.vecHeight[iGr] / 2. - grille.vecMidSlotHeight[(iGr - 1) / 2] / 2., -grille.midSlotXOff, 0)));
2281 #ifdef EDM_ML_DEBUG
2282  edm::LogVerbatim("EBGeomX") << grMidSlotLog[(iGr - 1) / 2].name() << ":" << midSlotCopy << " positioned in "
2283  << grilleLog.name() << " at ("
2284  << cms::convert2mm(grille.vecHeight[iGr] / 2. -
2285  grille.vecMidSlotHeight[(iGr - 1) / 2] / 2.)
2286  << "," << cms::convert2mm(-grille.midSlotXOff) << ",0) with no rotation";
2287 #endif
2288  }
2289 
2290  if (0 != grille.edgeSlotHere && 0 != iGr) {
2291  grilleLog.placeVolume(grEdgeSlotLog,
2292  ++edgeSlotCopy,
2293  Transform3D(Position(grille.vecHeight[iGr] / 2. - grille.edgeSlotHeight / 2.,
2294  backCoolWidth / 2 - grille.edgeSlotWidth / 2.,
2295  0)));
2296 #ifdef EDM_ML_DEBUG
2297  edm::LogVerbatim("EBGeomX") << grEdgeSlotLog.name() << ":" << edgeSlotCopy << " positioned in "
2298  << grilleLog.name() << " at ("
2299  << cms::convert2mm(grille.vecHeight[iGr] / 2. - grille.edgeSlotHeight / 2.) << ","
2300  << cms::convert2mm(backCoolWidth / 2 - grille.edgeSlotWidth / 2.)
2301  << ",0) with no rotation";
2302 #endif
2303  grilleLog.placeVolume(grEdgeSlotLog,
2304  ++edgeSlotCopy,
2305  Transform3D(Position(grille.vecHeight[iGr] / 2. - grille.edgeSlotHeight / 2.,
2306  -backCoolWidth / 2 + grille.edgeSlotWidth / 2.,
2307  0)));
2308 #ifdef EDM_ML_DEBUG
2309  edm::LogVerbatim("EBGeomX") << grEdgeSlotLog.name() << ":" << edgeSlotCopy << " positioned in "
2310  << grilleLog.name() << " at ("
2311  << cms::convert2mm(grille.vecHeight[iGr] / 2. - grille.edgeSlotHeight / 2.) << ","
2312  << cms::convert2mm(-backCoolWidth / 2 + grille.edgeSlotWidth / 2.)
2313  << ",0) with no rotation";
2314 #endif
2315  }
2316  if (0 != grille.here) {
2317  spmLog.placeVolume(grilleLog, iGr, Transform3D(gTra));
2318 #ifdef EDM_ML_DEBUG
2319  edm::LogVerbatim("EBGeomX") << grilleLog.name() << ":" << iGr << " positioned in " << spmLog.name() << " at ("
2320  << cms::convert2mm(gTra.x()) << "," << cms::convert2mm(gTra.y()) << ","
2321  << cms::convert2mm(gTra.z()) << ") with no rotation";
2322 #endif
2323  }
2324 
2325  if ((0 != iGr % 2) && (0 != mbManif.here)) {
2326  spmLog.placeVolume(mBManifLog,
2327  iGr,
2328  Transform3D(myrot(ns, mbManif.name + "R1", CLHEP::HepRotationX(90_deg)),
2329  gTra - Position(-mbManif.outDiam / 2. + grille.vecHeight[iGr] / 2.,
2330  manifCut,
2331  grille.thick / 2. + 3 * mbManif.outDiam / 2.)));
2332 #ifdef EDM_ML_DEBUG
2333  edm::LogVerbatim("EBGeomX") << mBManifLog.name() << ":" << iGr << " positioned in " << spmLog.name()
2334  << " at ("
2335  << cms::convert2mm(gTra.x() + mbManif.outDiam / 2. - grille.vecHeight[iGr] / 2.)
2336  << "," << cms::convert2mm(gTra.y() - manifCut) << ","
2337  << cms::convert2mm(gTra.z() - grille.thick / 2. - 3 * mbManif.outDiam / 2.)
2338  << ") with rotation";
2339 #endif
2340  spmLog.placeVolume(mBManifLog,
2341  iGr - 1,
2342  Transform3D(myrot(ns, mbManif.name + "R2", CLHEP::HepRotationX(90_deg)),
2343  gTra - Position(-3 * mbManif.outDiam / 2. + grille.vecHeight[iGr] / 2.,
2344  manifCut,
2345  grille.thick / 2 + 3 * mbManif.outDiam / 2.)));
2346 #ifdef EDM_ML_DEBUG
2347  edm::LogVerbatim("EBGeomX") << mBManifLog.name() << ":" << (iGr - 1) << " positioned in " << spmLog.name()
2348  << " at ("
2349  << cms::convert2mm(gTra.x() + 3 * mbManif.outDiam / 2. -
2350  grille.vecHeight[iGr] / 2.)
2351  << "," << cms::convert2mm(gTra.y() - manifCut) << ","
2352  << cms::convert2mm(gTra.z() - grille.thick / 2 - 3 * mbManif.outDiam / 2.)
2353  << ") with rotation";
2354 #endif
2355  }
2356  }
2357 
2363 
2369 
2370  Solid backCoolBarSolid =
2371  Box(backCool.barName, backCool.barHeight / 2., backCool.barWidth / 2., backCool.barThick / 2.);
2372 #ifdef EDM_ML_DEBUG
2373  edm::LogVerbatim("EBGeom") << backCool.barName << " Box " << cms::convert2mm(backCool.barHeight / 2.) << ":"
2374  << cms::convert2mm(backCool.barWidth / 2.) << ":"
2375  << cms::convert2mm(backCool.barThick / 2.);
2376 #endif
2377  Volume backCoolBarLog = Volume(backCool.barName, backCoolBarSolid, ns.material(backCool.barMat));
2378 
2379  Solid backCoolBarSSSolid =
2380  Box(backCool.barSSName, backCool.barHeight / 2., backCool.barWidth / 2., backCool.barSSThick / 2.);
2381 #ifdef EDM_ML_DEBUG
2382  edm::LogVerbatim("EBGeom") << backCool.barSSName << " Box " << cms::convert2mm(backCool.barHeight / 2.) << ":"
2383  << cms::convert2mm(backCool.barWidth / 2.) << ":"
2384  << cms::convert2mm(backCool.barSSThick / 2.);
2385 #endif
2386  Volume backCoolBarSSLog = Volume(backCool.barSSName, backCoolBarSSSolid, ns.material(backCool.barSSMat));
2387  const Position backCoolBarSSTra(0, 0, 0);
2388  backCoolBarLog.placeVolume(backCoolBarSSLog, copyOne, Transform3D(backCoolBarSSTra));
2389 #ifdef EDM_ML_DEBUG
2390  edm::LogVerbatim("EBGeomX") << backCoolBarSSLog.name() << ":" << copyOne << " positioned in "
2391  << backCoolBarLog.name() << " at (" << cms::convert2mm(backCoolBarSSTra.x()) << ","
2392  << cms::convert2mm(backCoolBarSSTra.y()) << ","
2393  << cms::convert2mm(backCoolBarSSTra.z()) << ") with no rotation";
2394 #endif
2395 
2396  Solid backCoolBarWaSolid =
2397  Box(backCool.barWaName, backCool.barHeight / 2., backCool.barWidth / 2., backCool.barWaThick / 2.);
2398 #ifdef EDM_ML_DEBUG
2399  edm::LogVerbatim("EBGeom") << backCool.barWaName << " Box " << cms::convert2mm(backCool.barHeight / 2.) << ":"
2400  << cms::convert2mm(backCool.barWidth / 2.) << ":"
2401  << cms::convert2mm(backCool.barWaThick / 2.);
2402 #endif
2403  Volume backCoolBarWaLog = Volume(backCool.barWaName, backCoolBarWaSolid, ns.material(backCool.barWaMat));
2404  const Position backCoolBarWaTra(0, 0, 0);
2405  backCoolBarSSLog.placeVolume(backCoolBarWaLog, copyOne, Transform3D(backCoolBarWaTra));
2406 #ifdef EDM_ML_DEBUG
2407  edm::LogVerbatim("EBGeomX") << backCoolBarWaLog.name() << ":" << copyOne << " positioned in "
2408  << backCoolBarSSLog.name() << " at (" << cms::convert2mm(backCoolBarWaTra.x()) << ","
2409  << cms::convert2mm(backCoolBarWaTra.y()) << ","
2410  << cms::convert2mm(backCoolBarWaTra.z()) << ") with no rotation";
2411 #endif
2412 
2418 
2424 
2425  double thickVFE(0);
2426  for (unsigned int iLyr(0); iLyr != backCool.vecBackVFELyrThick.size(); ++iLyr) {
2427  thickVFE += backCool.vecBackVFELyrThick[iLyr];
2428  }
2429  Solid backVFESolid =
2430  Box((myns + backCool.backVFEName), backCool.barHeight / 2., backCool.barWidth / 2., thickVFE / 2.);
2431 #ifdef EDM_ML_DEBUG
2432  edm::LogVerbatim("EBGeom") << (myns + backCool.backVFEName) << " Box " << cms::convert2mm(backCool.barHeight / 2.)
2433  << ":" << cms::convert2mm(backCool.barWidth / 2.) << ":"
2434  << cms::convert2mm(thickVFE / 2.);
2435 #endif
2436  Volume backVFELog =
2437  ns.addVolume(Volume(myns + backCool.backVFEName, backVFESolid, ns.material(backCool.backVFEMat)));
2438  Position offTra(0, 0, -thickVFE / 2);
2439  for (unsigned int iLyr(0); iLyr != backCool.vecBackVFELyrThick.size(); ++iLyr) {
2440  Solid backVFELyrSolid = Box(backCool.vecBackVFELyrName[iLyr],
2441  backCool.barHeight / 2.,
2442  backCool.barWidth / 2.,
2443  backCool.vecBackVFELyrThick[iLyr] / 2.);
2444 #ifdef EDM_ML_DEBUG
2445  edm::LogVerbatim("EBGeom") << backCool.vecBackVFELyrName[iLyr] << " Box "
2446  << cms::convert2mm(backCool.barHeight / 2.) << ":"
2447  << cms::convert2mm(backCool.barWidth / 2.) << ":"
2448  << cms::convert2mm(backCool.vecBackVFELyrThick[iLyr] / 2.);
2449 #endif
2450  Volume backVFELyrLog =
2451  Volume(backCool.vecBackVFELyrName[iLyr], backVFELyrSolid, ns.material(backCool.vecBackVFELyrMat[iLyr]));
2452  const Position backVFELyrTra(0, 0, backCool.vecBackVFELyrThick[iLyr] / 2);
2453  backVFELog.placeVolume(backVFELyrLog, copyOne, Transform3D(backVFELyrTra + offTra));
2454 #ifdef EDM_ML_DEBUG
2455  edm::LogVerbatim("EBGeomX") << backVFELyrLog.name() << ":" << copyOne << " positioned in " << backVFELog.name()
2456  << " at (" << cms::convert2mm((backVFELyrTra + offTra).x()) << ","
2457  << cms::convert2mm((backVFELyrTra + offTra).y()) << ","
2458  << cms::convert2mm((backVFELyrTra + offTra).z()) << ") with no rotation";
2459 #endif
2460  offTra += 2 * backVFELyrTra;
2461  }
2462 
2468 
2474 
2475  const double halfZCoolVFE(thickVFE + backCool.barThick / 2.);
2476  Solid backCoolVFESolid = Box(backCool.barHeight / 2., backCool.barWidth / 2., halfZCoolVFE);
2477 #ifdef EDM_ML_DEBUG
2478  edm::LogVerbatim("EBGeom") << backCool.vFEName << " Box " << cms::convert2mm(backCool.barHeight / 2.) << ":"
2479  << cms::convert2mm(backCool.barWidth / 2.) << ":" << cms::convert2mm(halfZCoolVFE);
2480 #endif
2481  Volume backCoolVFELog = ns.addVolume(Volume(backCool.vFEName, backCoolVFESolid, ns.material(backCool.vFEMat)));
2482  if (0 != backCool.barHere) {
2483  backCoolVFELog.placeVolume(backCoolBarLog, copyOne, Transform3D());
2484 #ifdef EDM_ML_DEBUG
2485  edm::LogVerbatim("EBGeomX") << backCoolBarLog.name() << ":" << copyOne << " positioned in "
2486  << backCoolVFELog.name() << " at (0,0,0) with no rotation";
2487 #endif
2488  }
2489  if (0 != backCool.vFEHere) {
2490  backCoolVFELog.placeVolume(
2491  backVFELog, copyOne, Transform3D(Position(0, 0, backCool.barThick / 2. + thickVFE / 2.)));
2492 #ifdef EDM_ML_DEBUG
2493  edm::LogVerbatim("EBGeomX") << backVFELog.name() << ":" << copyOne << " positioned in " << backCoolVFELog.name()
2494  << " at (0,0," << cms::convert2mm(backCool.barThick / 2. + thickVFE / 2.)
2495  << ") with no rotation";
2496 #endif
2497  }
2498  backCoolVFELog.placeVolume(backVFELog,
2499  copyTwo,
2500  Transform3D(myrot(ns, backCool.vFEName + "Flip", CLHEP::HepRotationX(180_deg)),
2501  Position(0, 0, -backCool.barThick / 2. - thickVFE / 2.)));
2502 #ifdef EDM_ML_DEBUG
2503  edm::LogVerbatim("EBGeomX") << backVFELog.name() << ":" << copyTwo << " positioned in " << backCoolVFELog.name()
2504  << " at (0,0," << cms::convert2mm(-backCool.barThick / 2. - thickVFE / 2.)
2505  << ") with rotation";
2506 #endif
2507 
2513 
2519  unsigned int iCVFECopy(1);
2520  unsigned int iSep(0);
2521  unsigned int iNSec(0);
2522  const unsigned int nMisc(backMisc.vecThick.size() / 4);
2523  for (unsigned int iMod(0); iMod != 4; ++iMod) {
2524  const double pipeLength(grille.vecZOff[2 * iMod + 1] - grille.vecZOff[2 * iMod] - grille.thick -
2525  3 * dd4hep::mm);
2526  const double pipeZPos(grille.vecZOff[2 * iMod + 1] - pipeLength / 2 - 1.5 * dd4hep::mm);
2527 
2528  // accumulate total height of parent volume
2529  double backCoolHeight(backCool.barHeight + mbCoolTube.outDiam);
2530  for (unsigned int iMisc(0); iMisc != nMisc; ++iMisc) {
2531  backCoolHeight += backMisc.vecThick[iMod * nMisc + iMisc];
2532  }
2533  double bottomThick(mbCoolTube.outDiam);
2534  for (unsigned int iMB(0); iMB != mbLyr.vecMBLyrThick.size(); ++iMB) {
2535  backCoolHeight += mbLyr.vecMBLyrThick[iMB];
2536  bottomThick += mbLyr.vecMBLyrThick[iMB];
2537  }
2538 
2539  const double halfZBCool((pipeLength - 2 * mbManif.outDiam - grille.zSpace) / 2);
2540  Solid backCoolSolid = Box(backCool.vecName[iMod], backCoolHeight / 2., backCoolWidth / 2., halfZBCool);
2541 #ifdef EDM_ML_DEBUG
2542  edm::LogVerbatim("EBGeom") << backCool.vecName[iMod] << " Box " << cms::convert2mm(backCoolHeight / 2.) << ":"
2543  << cms::convert2mm(backCoolWidth / 2.) << ":" << cms::convert2mm(halfZBCool);
2544 #endif
2545  Volume backCoolLog = Volume(backCool.vecName[iMod], backCoolSolid, ns.material(spm.mat));
2546 
2547  const Position bCoolTra(
2548  -realBPthick / 2 + backCoolHeight / 2 - grille.vecHeight[2 * iMod],
2549  deltaY,
2550  grille.vecZOff[2 * iMod] + grille.thick + grille.zSpace + halfZBCool - back.sideLength / 2);
2551  if (0 != backCool.here) {
2552  spmLog.placeVolume(backCoolLog, iMod + 1, outtra + backPlateTra + bCoolTra);
2553 #ifdef EDM_ML_DEBUG
2554  edm::LogVerbatim("EBGeomX") << backCoolLog.name() << ":" << (iMod + 1) << " positioned in " << spmLog.name()
2555  << " at (" << cms::convert2mm((outtra + backPlateTra + bCoolTra).x()) << ","
2556  << cms::convert2mm((outtra + backPlateTra + bCoolTra).y()) << ","
2557  << cms::convert2mm((outtra + backPlateTra + bCoolTra).z())
2558  << ") with no rotation";
2559 #endif
2560  }
2561 
2562  //===
2563  const double backCoolTankHeight(backCool.barHeight); // - backBracketHeight() ) ;
2564  const double halfZTank(halfZBCool - 5 * dd4hep::cm);
2565 
2566  string bTankName(backCoolTank.name + std::to_string(iMod + 1));
2567  Solid backCoolTankSolid = Box(bTankName, backCoolTankHeight / 2., backCoolTank.width / 2., halfZTank);
2568 #ifdef EDM_ML_DEBUG
2569  edm::LogVerbatim("EBGeom") << bTankName << " Box " << cms::convert2mm(backCoolTankHeight / 2.) << ":"
2570  << cms::convert2mm(backCoolTank.width / 2.) << ":" << cms::convert2mm(halfZTank);
2571 #endif
2572  Volume backCoolTankLog = Volume(bTankName, backCoolTankSolid, ns.material(backCoolTank.mat));
2573  if (0 != backCoolTank.here) {
2574  backCoolLog.placeVolume(backCoolTankLog,
2575  copyOne,
2576  Transform3D(Rotation3D(),
2577  Position(-backCoolHeight / 2 + backCoolTankHeight / 2. + bottomThick,
2578  backCool.barWidth / 2. + backCoolTank.width / 2.,
2579  0)));
2580 #ifdef EDM_ML_DEBUG
2581  edm::LogVerbatim("EBGeomX") << backCoolTankLog.name() << ":" << copyOne << " positioned in "
2582  << backCoolLog.name() << " at ("
2583  << cms::convert2mm(-backCoolHeight / 2 + backCoolTankHeight / 2. + bottomThick)
2584  << "," << cms::convert2mm(backCool.barWidth / 2. + backCoolTank.width / 2.)
2585  << ",0) with no rotation";
2586 #endif
2587  }
2588 
2589  string bTankWaName(backCoolTank.waName + std::to_string(iMod + 1));
2590  Solid backCoolTankWaSolid = Box(bTankWaName,
2591  backCoolTankHeight / 2. - backCoolTank.thick / 2.,
2592  backCoolTank.waWidth / 2.,
2593  halfZTank - backCoolTank.thick / 2.);
2594 #ifdef EDM_ML_DEBUG
2595  edm::LogVerbatim("EBGeom") << bTankWaName << " Box "
2596  << cms::convert2mm(backCoolTankHeight / 2. - backCoolTank.thick / 2.) << ":"
2597  << cms::convert2mm(backCoolTank.waWidth / 2.) << ":"
2598  << cms::convert2mm(halfZTank - backCoolTank.thick / 2.);
2599 #endif
2600  Volume backCoolTankWaLog = Volume(bTankWaName, backCoolTankWaSolid, ns.material(backCoolTank.waMat));
2601  backCoolTankLog.placeVolume(backCoolTankWaLog, copyOne, Transform3D(Rotation3D(), Position(0, 0, 0)));
2602 #ifdef EDM_ML_DEBUG
2603  edm::LogVerbatim("EBGeomX") << backCoolTankWaLog.name() << ":" << copyOne << " positioned in "
2604  << backCoolTankLog.name() << " at (0,0,0) with no rotation";
2605 #endif
2606 
2607  string bBracketName(backCoolTank.backBracketName + std::to_string(iMod + 1));
2608  Solid backBracketSolid =
2609  Box(bBracketName, backCoolTank.backBracketHeight / 2., backCoolTank.width / 2., halfZTank);
2610 #ifdef EDM_ML_DEBUG
2611  edm::LogVerbatim("EBGeom") << bBracketName << " Box " << cms::convert2mm(backCoolTank.backBracketHeight / 2.)
2612  << ":" << cms::convert2mm(backCoolTank.width / 2.) << ":"
2613  << cms::convert2mm(halfZTank);
2614 #endif
2615  Volume backBracketLog = Volume(bBracketName, backBracketSolid, ns.material(backCoolTank.backBracketMat));
2616  if (0 != backCoolTank.here) {
2617  backCoolLog.placeVolume(backBracketLog,
2618  copyOne,
2619  Transform3D(Rotation3D(),
2620  Position(backCool.barHeight - backCoolHeight / 2. -
2621  backCoolTank.backBracketHeight / 2. + bottomThick,
2622  -backCool.barWidth / 2. - backCoolTank.width / 2.,
2623  0)));
2624 #ifdef EDM_ML_DEBUG
2625  edm::LogVerbatim("EBGeomX") << backBracketLog.name() << ":" << copyOne << " positioned in "
2626  << backCoolLog.name() << " at ("
2627  << cms::convert2mm(backCool.barHeight - backCoolHeight / 2. -
2628  backCoolTank.backBracketHeight / 2. + bottomThick)
2629  << "," << cms::convert2mm(-backCool.barWidth / 2. - backCoolTank.width / 2.)
2630  << ",0) with no rotation";
2631 #endif
2632  }
2633  //===
2634 
2635  Position bSumTra(backCool.barHeight - backCoolHeight / 2. + bottomThick, 0, 0);
2636  for (unsigned int j(0); j != nMisc; ++j) { // loop over miscellaneous layers
2637  Solid bSolid = Box(backMisc.vecName[iMod * nMisc + j],
2638  backMisc.vecThick[iMod * nMisc + j] / 2,
2639  backCool.barWidth / 2. + backCoolTank.width,
2640  halfZBCool);
2641 #ifdef EDM_ML_DEBUG
2642  edm::LogVerbatim("EBGeom") << backMisc.vecName[iMod * nMisc + j] << " Box "
2643  << cms::convert2mm(backMisc.vecThick[iMod * nMisc + j] / 2) << ":"
2644  << cms::convert2mm(backCool.barWidth / 2. + backCoolTank.width) << ":"
2645  << cms::convert2mm(halfZBCool);
2646 #endif
2647 
2648  Volume bLog =
2649  Volume(backMisc.vecName[iMod * nMisc + j], bSolid, ns.material(backMisc.vecMat[iMod * nMisc + j]));
2650 
2651  const Position bTra(backMisc.vecThick[iMod * nMisc + j] / 2, 0, 0);
2652 
2653  if (0 != backMisc.here) {
2654  backCoolLog.placeVolume(bLog, copyOne, Transform3D(Rotation3D(), bSumTra + bTra));
2655 #ifdef EDM_ML_DEBUG
2656  edm::LogVerbatim("EBGeomX") << bLog.name() << ":" << copyOne << " positioned in " << backCoolLog.name()
2657  << " at (" << cms::convert2mm((bSumTra + bTra).x()) << ","
2658  << cms::convert2mm((bSumTra + bTra).y()) << ","
2659  << cms::convert2mm((bSumTra + bTra).z()) << ") with no rotation";
2660 #endif
2661  }
2662 
2663  bSumTra += 2 * bTra;
2664  }
2665 
2666  const double bHalfWidth(backCool.barWidth / 2. + backCoolTank.width);
2667 
2668  if (0 != mbLyr.here) {
2669  Position mTra(-backCoolHeight / 2. + mbCoolTube.outDiam, 0, 0);
2670  for (unsigned int j(0); j != mbLyr.vecMBLyrThick.size(); ++j) // loop over MB layers
2671  {
2672  Solid mSolid = Box(mbLyr.vecMBLyrThick[j] / 2, bHalfWidth, halfZBCool);
2673 #ifdef EDM_ML_DEBUG
2674  edm::LogVerbatim("EBGeom") << (mbLyr.vecMBLyrName[j] + "_" + std::to_string(iMod + 1)) << " Box "
2675  << cms::convert2mm(mbLyr.vecMBLyrThick[j] / 2) << ":"
2676  << cms::convert2mm(bHalfWidth) << ":" << cms::convert2mm(halfZBCool);
2677 #endif
2678  Volume mLog = Volume(
2679  mbLyr.vecMBLyrName[j] + "_" + std::to_string(iMod + 1), mSolid, ns.material(mbLyr.vecMBLyrMat[j]));
2680 
2681  mTra += Position(mbLyr.vecMBLyrThick[j] / 2.0, 0, 0);
2682  backCoolLog.placeVolume(mLog, copyOne, Transform3D(Rotation3D(), mTra));
2683 #ifdef EDM_ML_DEBUG
2684  edm::LogVerbatim("EBGeomX") << mLog.name() << ":" << copyOne << " positioned in " << backCoolLog.name()
2685  << " at (" << cms::convert2mm(mTra.x()) << "," << cms::convert2mm(mTra.y())
2686  << "," << cms::convert2mm(mTra.z()) << ") with no rotation";
2687 #endif
2688  mTra += Position(mbLyr.vecMBLyrThick[j] / 2.0, 0, 0);
2689  }
2690  }
2691 
2692  if (0 != mbCoolTube.here) {
2693  const string mBName(mbCoolTube.name + "_" + std::to_string(iMod + 1));
2694 
2695  Solid mBCoolTubeSolid = Tube(0, mbCoolTube.outDiam / 2, halfZBCool, 0_deg, 360_deg);
2696 #ifdef EDM_ML_DEBUG
2697  edm::LogVerbatim("EBGeom") << mBName << " Tubs " << cms::convert2mm(halfZBCool)
2698  << ":0:" << cms::convert2mm(mbCoolTube.outDiam / 2) << ":0:360";
2699 #endif
2700  Volume mBLog = Volume(mBName, mBCoolTubeSolid, ns.material(mbCoolTube.mat));
2701 
2702  const string mBWaName(mbCoolTube.name + "Wa_" + std::to_string(iMod + 1));
2703  Solid mBCoolTubeWaSolid = Tube(mBWaName, 0, mbCoolTube.innDiam / 2, halfZBCool, 0_deg, 360_deg);
2704 #ifdef EDM_ML_DEBUG
2705  edm::LogVerbatim("EBGeom") << mBWaName << " Tubs " << cms::convert2mm(halfZBCool)
2706  << ":0:" << cms::convert2mm(mbCoolTube.innDiam / 2) << ":0:360";
2707 #endif
2708  Volume mBWaLog = Volume(mBWaName, mBCoolTubeWaSolid, ns.material(backPipe.waterMat));
2709  mBLog.placeVolume(mBWaLog, copyOne);
2710 #ifdef EDM_ML_DEBUG
2711  edm::LogVerbatim("EBGeomX") << mBWaLog.name() << ":" << copyOne << " positioned in " << mBLog.name()
2712  << " at (0,0,0) with no rotation";
2713 #endif
2714 
2715  for (unsigned int j(0); j != dryAirTube.mbCoolTubeNum; ++j) // loop over all MB cooling circuits
2716  {
2717  backCoolLog.placeVolume(mBLog,
2718  2 * j + 1,
2719  Transform3D(Rotation3D(),
2720  Position(-backCoolHeight / 2.0 + mbCoolTube.outDiam / 2.,
2721  -bHalfWidth + (j + 1) * bHalfWidth / 5,
2722  0)));
2723 #ifdef EDM_ML_DEBUG
2724  edm::LogVerbatim("EBGeomX") << mBLog.name() << ":" << (2 * j + 1) << " positioned in " << backCoolLog.name()
2725  << " at (" << cms::convert2mm(-backCoolHeight / 2.0 + mbCoolTube.outDiam / 2.)
2726  << "," << cms::convert2mm(-bHalfWidth + (j + 1) * bHalfWidth / 5)
2727  << ",0) with no rotation";
2728 #endif
2729  }
2730  }
2731 
2737  if (0 != backPipe.here && 0 != iMod) {
2738  string bPipeName(backPipe.name + "_" + std::to_string(iMod + 1));
2739  string bInnerName(backPipe.name + "_H2O_" + std::to_string(iMod + 1));
2740 
2741  Solid backPipeSolid = Tube(bPipeName, 0, backPipe.vecDiam[iMod] / 2, pipeLength / 2, 0_deg, 360_deg);
2742  Solid backInnerSolid =
2743  Tube(bInnerName, 0, backPipe.vecDiam[iMod] / 2 - backPipe.vecThick[iMod], pipeLength / 2, 0_deg, 360_deg);
2744 #ifdef EDM_ML_DEBUG
2745  edm::LogVerbatim("EBGeom") << bPipeName << " Tubs " << cms::convert2mm(pipeLength / 2)
2746  << ":0:" << cms::convert2mm(backPipe.vecDiam[iMod] / 2) << ":0:360";
2747  edm::LogVerbatim("EBGeom") << bInnerName << " Tubs " << cms::convert2mm(pipeLength / 2)
2748  << ":0:" << cms::convert2mm(backPipe.vecDiam[iMod] / 2 - backPipe.vecThick[iMod])
2749  << ":0:360";
2750 #endif
2751 
2752  Volume backPipeLog = Volume(bPipeName, backPipeSolid, ns.material(backPipe.mat));
2753  Volume backInnerLog = Volume(bInnerName, backInnerSolid, ns.material(backPipe.waterMat));
2754 
2755  const Position bPipeTra1(back.xOff + back.sideHeight - 0.7 * backPipe.vecDiam[iMod],
2756  back.yOff + back.plateWidth / 2 - back.sideWidth - 0.7 * backPipe.vecDiam[iMod],
2757  pipeZPos);
2758 
2759  spmLog.placeVolume(backPipeLog, copyOne, Transform3D(Rotation3D(), bPipeTra1));
2760 #ifdef EDM_ML_DEBUG
2761  edm::LogVerbatim("EBGeomX") << backPipeLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
2762  << " at (" << cms::convert2mm(bPipeTra1.x()) << ","
2763  << cms::convert2mm(bPipeTra1.y()) << "," << cms::convert2mm(bPipeTra1.z())
2764  << ") with no rotation";
2765 #endif
2766  const Position bPipeTra2(
2767  bPipeTra1.x(), back.yOff - back.plateWidth / 2 + back.sideWidth + backPipe.vecDiam[iMod], bPipeTra1.z());
2768 
2769  spmLog.placeVolume(backPipeLog, copyTwo, Transform3D(Rotation3D(), bPipeTra2));
2770 #ifdef EDM_ML_DEBUG
2771  edm::LogVerbatim("EBGeomX") << backPipeLog.name() << ":" << copyTwo << " positioned in " << spmLog.name()
2772  << " at (" << cms::convert2mm(bPipeTra2.x()) << ","
2773  << cms::convert2mm(bPipeTra2.y()) << "," << cms::convert2mm(bPipeTra2.z())
2774  << ") with no rotation";
2775 #endif
2776 
2777  backPipeLog.placeVolume(backInnerLog, copyOne, Transform3D(Rotation3D(), Position()));
2778 #ifdef EDM_ML_DEBUG
2779  edm::LogVerbatim("EBGeomX") << backInnerLog.name() << ":" << copyOne << " positioned in "
2780  << backPipeLog.name() << " at (0,0,0) with no rotation";
2781 #endif
2782  }
2788 
2789  //=================================================
2790 
2791  if (0 != dryAirTube.here) {
2792  string dryAirTubName(dryAirTube.name + std::to_string(iMod + 1));
2793 
2794  Solid dryAirTubeSolid =
2795  Tube(dryAirTubName, dryAirTube.innDiam / 2, dryAirTube.outDiam / 2, pipeLength / 2, 0_deg, 360_deg);
2796 #ifdef EDM_ML_DEBUG
2797  edm::LogVerbatim("EBGeom") << dryAirTubName << " Tubs " << cms::convert2mm(pipeLength / 2) << ":"
2798  << cms::convert2mm(dryAirTube.innDiam / 2) << ":"
2799  << cms::convert2mm(dryAirTube.outDiam / 2) << ":0:360";
2800 #endif
2801  Volume dryAirTubeLog = Volume((myns + dryAirTubName), dryAirTubeSolid, ns.material(dryAirTube.mat));
2802 
2803  const Position dryAirTubeTra1(back.xOff + back.sideHeight - 0.7 * dryAirTube.outDiam - backPipe.vecDiam[iMod],
2804  back.yOff + back.plateWidth / 2 - back.sideWidth - 1.2 * dryAirTube.outDiam,
2805  pipeZPos);
2806 
2807  spmLog.placeVolume(dryAirTubeLog, copyOne, Transform3D(Rotation3D(), dryAirTubeTra1));
2808 #ifdef EDM_ML_DEBUG
2809  edm::LogVerbatim("EBGeomX") << dryAirTubeLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
2810  << " at (" << cms::convert2mm(dryAirTubeTra1.x()) << ","
2811  << cms::convert2mm(dryAirTubeTra1.y()) << ","
2812  << cms::convert2mm(dryAirTubeTra1.z()) << ") with no rotation";
2813 #endif
2814 
2815  const Position dryAirTubeTra2(dryAirTubeTra1.x(),
2816  back.yOff - back.plateWidth / 2 + back.sideWidth + 0.7 * dryAirTube.outDiam,
2817  dryAirTubeTra1.z());
2818 
2819  spmLog.placeVolume(dryAirTubeLog, copyTwo, Transform3D(Rotation3D(), dryAirTubeTra2));
2820 #ifdef EDM_ML_DEBUG
2821  edm::LogVerbatim("EBGeomX") << dryAirTubeLog.name() << ":" << copyTwo << " positioned in " << spmLog.name()
2822  << " at (" << cms::convert2mm(dryAirTubeTra2.x()) << ","
2823  << cms::convert2mm(dryAirTubeTra2.y()) << ","
2824  << cms::convert2mm(dryAirTubeTra2.z()) << ") with no rotation";
2825 #endif
2826  }
2827  //++++++++++++++++++++++++++++++++++++++++++++++++++++++++++
2828 
2829  // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2830  // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2831  // !!!!!!!!!!!!!! Begin Placement of Cooling + VFE Cards !!!!!!
2832  // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2833  // !!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!!
2834 
2835  Position cTra(backCool.barHeight / 2. - backCoolHeight / 2. + bottomThick, 0, -halfZTank + halfZCoolVFE);
2836  const unsigned int numSec(static_cast<unsigned int>(backCool.vecBackCoolNSec[iMod]));
2837  for (unsigned int jSec(0); jSec != numSec; ++jSec) {
2838  const unsigned int nMax(static_cast<unsigned int>(backCool.vecBackCoolNPerSec[iNSec++]));
2839  for (unsigned int iBar(0); iBar != nMax; ++iBar) {
2840  backCoolLog.placeVolume(backCoolVFELog, iCVFECopy++, cTra);
2841 #ifdef EDM_ML_DEBUG
2842  edm::LogVerbatim("EBGeomX") << backCoolVFELog.name() << ":" << iCVFECopy << " positioned in "
2843  << backCoolLog.name() << " at (" << cms::convert2mm(cTra.x()) << ","
2844  << cms::convert2mm(cTra.y()) << "," << cms::convert2mm(cTra.z())
2845  << ") with no rotation";
2846 #endif
2847  cTra += Position(0, 0, backMisc.backCBStdSep);
2848  }
2849  cTra -= Position(0, 0, backMisc.backCBStdSep); // backspace to previous
2850  if (jSec != numSec - 1)
2851  cTra += Position(0, 0, backCool.vecBackCoolSecSep[iSep++]); // now take atypical step
2852  }
2858  }
2859 
2865 
2871 
2872  double patchHeight(0);
2873  for (unsigned int iPatch(0); iPatch != patchPanel.vecThick.size(); ++iPatch) {
2874  patchHeight += patchPanel.vecThick[iPatch];
2875  }
2876 
2877  array<double, 3> patchParms{
2878  {patchHeight / 2., backCool.barWidth / 2., (spm.vecZPts.back() - grille.vecZOff.back() - grille.thick) / 2}};
2879  Solid patchSolid = Box(patchParms[0], patchParms[1], patchParms[2]);
2880 #ifdef EDM_ML_DEBUG
2881  edm::LogVerbatim("EBGeom") << patchPanel.name << " Box " << cms::convert2mm(patchParms[0]) << ":"
2882  << cms::convert2mm(patchParms[1]) << ":" << cms::convert2mm(patchParms[2]);
2883 #endif
2884  Volume patchLog = Volume(patchPanel.name, patchSolid, ns.material(spm.mat));
2885 
2886  const Position patchTra(back.xOff + 4 * dd4hep::mm, 0, grille.vecZOff.back() + grille.thick + patchParms[2]);
2887  if (0 != patchPanel.here) {
2888  spmLog.placeVolume(patchLog, copyOne, patchTra);
2889 #ifdef EDM_ML_DEBUG
2890  edm::LogVerbatim("EBGeomX") << patchLog.name() << ":" << copyOne << " positioned in " << spmLog.name()
2891  << " at (" << cms::convert2mm(patchTra.x()) << "," << cms::convert2mm(patchTra.y())
2892  << "," << cms::convert2mm(patchTra.z()) << ") with no rotation";
2893 #endif
2894  }
2895 
2896  Position pTra(-patchParms[0], 0, 0);
2897 
2898  for (unsigned int j(0); j != patchPanel.vecNames.size(); ++j) {
2899  Solid pSolid = Box(patchPanel.vecThick[j] / 2., patchParms[1], patchParms[2]);
2900 #ifdef EDM_ML_DEBUG
2901  edm::LogVerbatim("EBGeom") << patchPanel.vecNames[j] << " Box " << cms::convert2mm(patchPanel.vecThick[j] / 2.)
2902  << ":" << cms::convert2mm(patchParms[1]) << ":" << cms::convert2mm(patchParms[2]);
2903 #endif
2904  Volume pLog = Volume(patchPanel.vecNames[j], pSolid, ns.material(patchPanel.vecMat[j]));
2905 
2906  pTra += Position(patchPanel.vecThick[j] / 2, 0, 0);
2907  patchLog.placeVolume(pLog, copyOne, pTra);
2908 #ifdef EDM_ML_DEBUG
2909  edm::LogVerbatim("EBGeomX") << pLog.name() << ":" << copyOne << " positioned in " << patchLog.name() << " at ("
2910  << cms::convert2mm(pTra.x()) << "," << cms::convert2mm(pTra.y()) << ","
2911  << cms::convert2mm(pTra.z()) << ") with no rotation";
2912 #endif
2913 
2914  pTra += Position(patchPanel.vecThick[j] / 2, 0, 0);
2915  }
2921 
2927 
2928  if (0 != pincer.rodHere) {
2929  // Make hierarchy of rods, envelopes, blocks, shims, and cutouts
2930 
2931  Solid rodSolid = Box(pincer.rodName, pincer.envWidthHalf, pincer.envHeightHalf, ilyLengthHalf);
2932 #ifdef EDM_ML_DEBUG
2933  edm::LogVerbatim("EBGeom") << pincer.rodName << " Box " << cms::convert2mm(pincer.envWidthHalf) << ":"
2934  << cms::convert2mm(pincer.envHeightHalf) << ":" << cms::convert2mm(ilyLengthHalf);
2935 #endif
2936  Volume rodLog = Volume(pincer.rodName, rodSolid, ns.material(pincer.rodMat));
2937 
2938  array<double, 3> envParms{{pincer.envWidthHalf, pincer.envHeightHalf, pincer.envLengthHalf}};
2939  Solid envSolid = Box(pincer.envName, envParms[0], envParms[1], envParms[2]);
2940 #ifdef EDM_ML_DEBUG
2941  edm::LogVerbatim("EBGeom") << pincer.envName << " Box " << cms::convert2mm(envParms[0]) << ":"
2942  << cms::convert2mm(envParms[1]) << ":" << cms::convert2mm(envParms[2]);
2943 #endif
2944  Volume envLog = Volume(pincer.envName, envSolid, ns.material(pincer.envMat));
2945 
2946  array<double, 3> blkParms{{pincer.envWidthHalf, pincer.envHeightHalf, pincer.blkLengthHalf}};
2947  Solid blkSolid = Box(pincer.blkName, blkParms[0], blkParms[1], blkParms[2]);
2948 #ifdef EDM_ML_DEBUG
2949  edm::LogVerbatim("EBGeom") << pincer.blkName << " Box " << cms::convert2mm(blkParms[0]) << ":"
2950  << cms::convert2mm(blkParms[1]) << ":" << cms::convert2mm(blkParms[2]);
2951 #endif
2952  Volume blkLog = Volume(pincer.blkName, blkSolid, ns.material(pincer.blkMat));
2953 
2954  envLog.placeVolume(blkLog, copyOne, Position(0, 0, pincer.envLengthHalf - pincer.blkLengthHalf));
2955 #ifdef EDM_ML_DEBUG
2956  edm::LogVerbatim("EBGeomX") << blkLog.name() << ":" << copyOne << " positioned in " << envLog.name()
2957  << " at (0,0," << cms::convert2mm(pincer.envLengthHalf - pincer.blkLengthHalf)
2958  << ") with no rotation";
2959 #endif
2960 
2961  array<double, 3> cutParms{{pincer.cutWidth / 2., pincer.cutHeight / 2., pincer.blkLengthHalf}};
2962  Solid cutSolid = Box(pincer.cutName, cutParms[0], cutParms[1], cutParms[2]);
2963 #ifdef EDM_ML_DEBUG
2964  edm::LogVerbatim("EBGeom") << pincer.cutName << " Box " << cms::convert2mm(cutParms[0]) << ":"
2965  << cms::convert2mm(cutParms[1]) << ":" << cms::convert2mm(cutParms[2]);
2966 #endif
2967  Volume cutLog = Volume(pincer.cutName, cutSolid, ns.material(pincer.cutMat));
2968  blkLog.placeVolume(
2969  cutLog,
2970  copyOne,
2971  Position(
2972  +blkParms[0] - cutParms[0] - pincer.shim1Width + pincer.shim2Width, -blkParms[1] + cutParms[1], 0));
2973 #ifdef EDM_ML_DEBUG
2974  edm::LogVerbatim("EBGeomX") << cutLog.name() << ":" << copyOne << " positioned in " << blkLog.name() << " at ("
2975  << cms::convert2mm(+blkParms[0] - cutParms[0] - pincer.shim1Width +
2976  pincer.shim2Width)
2977  << "," << cms::convert2mm(-blkParms[1] + cutParms[1]) << ",0) with no rotation";
2978 #endif
2979  array<double, 3> shim2Parms{{pincer.shim2Width / 2., pincer.shimHeight / 2., pincer.blkLengthHalf}};
2980  Solid shim2Solid = Box(pincer.shim2Name, shim2Parms[0], shim2Parms[1], shim2Parms[2]);
2981 #ifdef EDM_ML_DEBUG
2982  edm::LogVerbatim("EBGeom") << pincer.shim2Name << " Box " << cms::convert2mm(shim2Parms[0]) << ":"
2983  << cms::convert2mm(shim2Parms[1]) << ":" << cms::convert2mm(shim2Parms[2]);
2984 #endif
2985  Volume shim2Log = Volume(pincer.shim2Name, shim2Solid, ns.material(pincer.shimMat));
2986  cutLog.placeVolume(shim2Log, copyOne, Position(+cutParms[0] - shim2Parms[0], -cutParms[1] + shim2Parms[1], 0));
2987 #ifdef EDM_ML_DEBUG
2988  edm::LogVerbatim("EBGeomX") << shim2Log.name() << ":" << copyOne << " positioned in " << cutLog.name()
2989  << " at (" << cms::convert2mm(cutParms[0] - shim2Parms[0]) << ","
2990  << cms::convert2mm(-cutParms[1] + shim2Parms[1]) << ",0) with no rotation";
2991 #endif
2992 
2993  array<double, 3> shim1Parms{
2994  {pincer.shim1Width / 2., pincer.shimHeight / 2., pincer.envLengthHalf - pincer.blkLengthHalf}};
2995  Solid shim1Solid = Box(pincer.shim1Name, shim1Parms[0], shim1Parms[1], shim1Parms[2]);
2996 #ifdef EDM_ML_DEBUG
2997  edm::LogVerbatim("EBGeom") << pincer.shim1Name << " Box " << cms::convert2mm(shim1Parms[0]) << ":"
2998  << cms::convert2mm(shim1Parms[1]) << ":" << cms::convert2mm(shim1Parms[2]);
2999 #endif
3000  Volume shim1Log = Volume(pincer.shim1Name, shim1Solid, ns.material(pincer.shimMat));
3001  envLog.placeVolume(
3002  shim1Log,
3003  copyOne,
3004  Position(+envParms[0] - shim1Parms[0], -envParms[1] + shim1Parms[1], -envParms[2] + shim1Parms[2]));
3005 #ifdef EDM_ML_DEBUG
3006  edm::LogVerbatim("EBGeomX") << shim1Log.name() << ":" << copyOne << " positioned in " << envLog.name()
3007  << " at (" << cms::convert2mm(envParms[0] - shim1Parms[0]) << ","
3008  << cms::convert2mm(-envParms[1] + shim1Parms[1]) << ","
3009  << cms::convert2mm(-envParms[2] + shim1Parms[2]) << ") with no rotation";
3010 #endif
3011 
3012  for (unsigned int iEnv(0); iEnv != pincer.vecEnvZOff.size(); ++iEnv) {
3013  rodLog.placeVolume(
3014  envLog, 1 + iEnv, Position(0, 0, -ilyLengthHalf + pincer.vecEnvZOff[iEnv] - pincer.envLengthHalf));
3015 #ifdef EDM_ML_DEBUG
3016  edm::LogVerbatim("EBGeomX") << envLog.name() << ":" << (1 + iEnv) << " positioned in " << rodLog.name()
3017  << " at (0,0,"
3018  << cms::convert2mm(-ilyLengthHalf + pincer.vecEnvZOff[iEnv] -
3019  pincer.envLengthHalf)
3020  << ") with no rotation";
3021 #endif
3022  }
3023 
3024  // Place the rods
3025  const double radius(ilyRMin - pincer.envHeightHalf - 1 * dd4hep::mm);
3026  const string xilyName(ily.name + std::to_string(ily.vecIlyMat.size() - 1));
3027 
3028  for (unsigned int iRod(0); iRod != pincer.vecRodAzimuth.size(); ++iRod) {
3029  const Position rodTra(radius * cos(pincer.vecRodAzimuth[iRod]), radius * sin(pincer.vecRodAzimuth[iRod]), 0);
3030  xilyLog.placeVolume(rodLog,
3031  1 + iRod,
3032  Transform3D(myrot(ns,
3033  pincer.rodName + std::to_string(iRod),
3034  CLHEP::HepRotationZ(90_deg + pincer.vecRodAzimuth[iRod])),
3035  rodTra));
3036 #ifdef EDM_ML_DEBUG
3037  edm::LogVerbatim("EBGeomX") << rodLog.name() << ":" << (1 + iRod) << " positioned in " << xilyLog.name()
3038  << " at (" << cms::convert2mm(rodTra.x()) << "," << cms::convert2mm(rodTra.y())
3039  << "," << cms::convert2mm(rodTra.z()) << ") with rotation";
3040 #endif
3041  }
3042  }
3048  }
3049  }
3050 
3051  return 1;
3052 }
size
Write out results.
Log< level::Info, true > LogVerbatim
weight_default_t b3[10]
Definition: b3.h:9
weight_default_t b1[25]
Definition: b1.h:9
CLHEP::Hep3Vector Vec3
HepGeom::Rotate3D Ro3D
HepGeom::RotateX3D RoX3D
HepGeom::Translate3D Tl3D
constexpr NumType convertRadToDeg(NumType radians)
Definition: angle_units.h:21
constexpr NumType convert2mm(NumType length)
Definition: DDutils.h:7
HepGeom::RotateZ3D RoZ3D
Sin< T >::type sin(const T &t)
Definition: Sin.h:22
HepGeom::Point3D< double > Pt3D
Definition: __init__.py:1
HepGeom::Transform3D Tf3D
#define M_PI_2
std::string to_string(const V &value)
Definition: OMSAccess.h:77
HepGeom::RotateZ3D RoZ3D
float float float z
Barrel
Definition: gmt_cfi.py:20
T sqrt(T t)
Definition: SSEVec.h:19
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
weight_default_t b2[10]
Definition: b2.h:9
dd4hep::Volume Volume
#define M_PI
HepGeom::Translate3D Tl3D
CaloCellGeometry::Pt3D Pt3D
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:79
static std::atomic< unsigned int > counter
float x
math::XYZVector XYZVector
Definition: RawParticle.h:26
CLHEP::HepRotation Rota
HepGeom::Rotate3D Ro3D
Geom::Theta< T > theta() const
CaloCellGeometry::Pt3DVec VertexList
CLHEP::Hep3Vector Vec3
unsigned transform(const HcalDetId &id, unsigned transformCode)

◆ DD4HEP_OPEN_PLUGIN()

DD4HEP_OPEN_PLUGIN ( dd4hep  ,
ddcms_det_element_DDCMS_ecal_DDEcalBarrelNewAlgoSubtraction   
)

Definition at line 3054 of file DDEcalBarrelNewAlgoSubtraction.cc.