#include <DDG4SolidConverter.h>

Public Types
typedef G4VSolid (	FNPTR )(const DDSolid &)

Public Member Functions
G4VSolid *	convert (const DDSolid &)

	DDG4SolidConverter ()

	~DDG4SolidConverter ()

Static Private Member Functions
static G4VSolid *	box (const DDSolid &)

static G4VSolid *	cons (const DDSolid &)

static G4VSolid *	ellipsoid (const DDSolid &)

static G4VSolid *	ellipticaltube (const DDSolid &)

static G4VSolid *	intersection (const DDSolid &)

static G4VSolid *	orb (const DDSolid &)

static G4VSolid *	para (const DDSolid &)

static G4VSolid *	polycone_rrz (const DDSolid &)

static G4VSolid *	polycone_rz (const DDSolid &)

static G4VSolid *	polyhedra_rrz (const DDSolid &)

static G4VSolid *	polyhedra_rz (const DDSolid &)

static G4VSolid *	pseudotrap (const DDSolid &)

static G4VSolid *	reflected (const DDSolid &)

static G4VSolid *	shapeless (const DDSolid &)

static G4VSolid *	sphere (const DDSolid &)

static G4VSolid *	subtraction (const DDSolid &)

static G4VSolid *	torus (const DDSolid &)

static G4VSolid *	trap (const DDSolid &)

static G4VSolid *	trunctubs (const DDSolid &)

static G4VSolid *	tubs (const DDSolid &)

static G4VSolid *	unionsolid (const DDSolid &)

Private Attributes
std::map< DDSolidShape, FNPTR >	convDispatch_

Static Private Attributes
static const std::vector < double > *	par_ = 0

Detailed Description

Definition at line 12 of file DDG4SolidConverter.h.

Member Typedef Documentation

typedef G4VSolid*(* DDG4SolidConverter::FNPTR)(const DDSolid &)

Definition at line 17 of file DDG4SolidConverter.h.

Constructor & Destructor Documentation

DDG4SolidConverter::DDG4SolidConverter ( )

Definition at line 13 of file DDG4SolidConverter.cc.

References box(), cons(), ddbox, ddcons, ddellipsoid, ddellipticaltube, ddintersection, ddorb, ddparallelepiped, ddpolycone_rrz, ddpolycone_rz, ddpolyhedra_rrz, ddpolyhedra_rz, ddpseudotrap, ddreflected, ddsphere, ddsubtraction, ddtorus, ddtrap, ddtrunctubs, ddtubs, ddunion, ellipsoid(), ellipticaltube(), intersection(), orb(), para(), polycone_rrz(), polycone_rz(), polyhedra_rrz(), polyhedra_rz(), pseudotrap(), reflected(), sphere(), subtraction(), torus(), trap(), trunctubs(), tubs(), and unionsolid().

 {
    // could also be done 'dynamically' from outside 
    // would then need to have a 'register' method ...
   par_=0;
   convDispatch_[ddbox]            = DDG4SolidConverter::box; 
   convDispatch_[ddtubs]           = DDG4SolidConverter::tubs;
   convDispatch_[ddtrap]           = DDG4SolidConverter::trap;
   convDispatch_[ddcons]           = DDG4SolidConverter::cons;
   convDispatch_[ddpolycone_rrz]   = DDG4SolidConverter::polycone_rrz;
   convDispatch_[ddpolycone_rz]    = DDG4SolidConverter::polycone_rz;
   convDispatch_[ddpolyhedra_rrz]  = DDG4SolidConverter::polyhedra_rrz;
   convDispatch_[ddpolyhedra_rz]   = DDG4SolidConverter::polyhedra_rz;   
   convDispatch_[ddtorus]          = DDG4SolidConverter::torus;   
   convDispatch_[ddreflected]      = DDG4SolidConverter::reflected;
   convDispatch_[ddunion]          = DDG4SolidConverter::unionsolid;
   convDispatch_[ddintersection]   = DDG4SolidConverter::intersection;
   convDispatch_[ddsubtraction]    = DDG4SolidConverter::subtraction;
   convDispatch_[ddpseudotrap]     = DDG4SolidConverter::pseudotrap;
   convDispatch_[ddtrunctubs]      = DDG4SolidConverter::trunctubs;
   convDispatch_[ddsphere]         = DDG4SolidConverter::sphere;   
   convDispatch_[ddorb]            = DDG4SolidConverter::orb;   
   convDispatch_[ddellipticaltube] = DDG4SolidConverter::ellipticaltube;   
   convDispatch_[ddellipsoid]      = DDG4SolidConverter::ellipsoid;   
   convDispatch_[ddparallelepiped] = DDG4SolidConverter::para;   
 }

DDG4SolidConverter::~DDG4SolidConverter ( )

Definition at line 41 of file DDG4SolidConverter.cc.

41 { }

Member Function Documentation

G4VSolid * DDG4SolidConverter::box ( const DDSolid & s )

staticprivate

Definition at line 66 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: box = " << s ;
    return new G4Box(s.name().name(), (*par_)[0],(*par_)[1],(*par_)[2]);
 }

G4VSolid * DDG4SolidConverter::cons ( const DDSolid & s )

staticprivate

Definition at line 104 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: cons = " << s ;  
    return new G4Cons(s.name().name(), (*par_)[1],  // rmin -z
                                (*par_)[2],  // rmax -z
                    (*par_)[3],  // rmin +z
                    (*par_)[4],  // rmax +z
                    (*par_)[0],  // zHalf
                    (*par_)[5],  // phistart
                    (*par_)[6]); // deltaphi
 }

G4VSolid * DDG4SolidConverter::convert ( const DDSolid & s )

Definition at line 43 of file DDG4SolidConverter.cc.

References Exception, DDSolid::parameters(), query::result, DDSolid::shape(), and DDBase< N, C >::toString().

Referenced by DDG4Builder::convertSolid(), intersection(), reflected(), subtraction(), and unionsolid().

 {
   if ( !s ) {
     edm::LogError("SimG4CoreGeometry") <<" DDG4SolidConverter::convert(..) found an undefined DDSolid " << s.toString();
     throw cms::Exception("SimG4CoreGeometry", "DDG4SolidConverter::convert(..) found an undefined DDSolid " + s.toString());
   }
    G4VSolid * result = 0;
    par_ = &(s.parameters());
    map<DDSolidShape,FNPTR>::iterator it = convDispatch_.find(s.shape());
    if (it != convDispatch_.end()) {
      result = it->second(s);
    } 
    else {
      throw cms::Exception("DetectorDescriptionFault") 
        <<  "DDG4SolidConverter::convert: conversion failed for s=" << s
        << "\n solid.shape()=" << s.shape()
        << std::endl;
    }
    return result;
 }

G4VSolid * DDG4SolidConverter::ellipsoid ( const DDSolid & s )

staticprivate

Definition at line 561 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), alignCSCRings::s, DDEllipsoid::xSemiAxis(), DDEllipsoid::ySemiAxis(), DDEllipsoid::zBottomCut(), DDEllipsoid::zSemiAxis(), and DDEllipsoid::zTopCut().

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: ellipsoid = " << s ;  
    DDEllipsoid sp(s);
    return new G4Ellipsoid(s.name().name(),
               sp.xSemiAxis(),
               sp.ySemiAxis(),
               sp.zSemiAxis(),
               sp.zBottomCut(),
               sp.zTopCut());
 }

G4VSolid * DDG4SolidConverter::ellipticaltube ( const DDSolid & s )

staticprivate

Definition at line 550 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), alignCSCRings::s, DDEllipticalTube::xSemiAxis(), DDEllipticalTube::ySemiAxis(), and DDEllipticalTube::zHeight().

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: ellipticaltube = " << s ;  
    DDEllipticalTube sp(s);
    return new G4EllipticalTube(s.name().name(),
                    sp.xSemiAxis(),
                                sp.ySemiAxis(),
                    sp.zHeight());
 }

G4VSolid * DDG4SolidConverter::intersection ( const DDSolid & s )

staticprivate

Definition at line 321 of file DDG4SolidConverter.cc.

References convert(), LogDebug, DDName::name(), DDBase< N, C >::name(), DDRotation::rotation(), DDBooleanSolid::rotation(), alignCSCRings::s, DDBooleanSolid::solidA(), DDBooleanSolid::solidB(), and DDBooleanSolid::translation().

Referenced by DDG4SolidConverter().

 {
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: intersection = " << s ;
   G4IntersectionSolid * us = 0;
   DDBooleanSolid bs(s);
   if (bs) {
     G4VSolid * sa = DDG4SolidConverter().convert(bs.solidA());
     G4VSolid * sb = DDG4SolidConverter().convert(bs.solidB());
     LogDebug("SimG4CoreGeometry") << " name:" << s.name() << " t=" << bs.translation() << flush;
     LogDebug("SimG4CoreGeometry") << " " << bs.rotation().rotation()->Inverse() << flush;
     std::vector<double> tdbl(9);
     bs.rotation().rotation()->Inverse().GetComponents(tdbl.begin(), tdbl.end());
     CLHEP::HepRep3x3 temprep(tdbl[0], tdbl[1], tdbl[2], tdbl[3], tdbl[4], tdbl[5], tdbl[6], tdbl[7], tdbl[8]);
     CLHEP::Hep3Vector temphvec(bs.translation().X(), bs.translation().Y(), bs.translation().Z()); 
     us = new G4IntersectionSolid(s.name().name(),
                  sa,
                  sb,
                  new CLHEP::HepRotation(temprep),
                  temphvec);
   }
   return us;       
 }

G4VSolid * DDG4SolidConverter::orb ( const DDSolid & s )

staticprivate

Definition at line 542 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), DDOrb::radius(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: orb = " << s ;  
    DDOrb sp(s);
    return new G4Orb(s.name().name(), sp.radius());
 }

G4VSolid * DDG4SolidConverter::para ( const DDSolid & s )

staticprivate

Definition at line 574 of file DDG4SolidConverter.cc.

References DDParallelepiped::alpha(), LogDebug, DDName::name(), DDBase< N, C >::name(), DDParallelepiped::phi(), alignCSCRings::s, DDParallelepiped::theta(), DDParallelepiped::xHalf(), DDParallelepiped::yHalf(), and DDParallelepiped::zHalf().

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: parallelepiped = " << s ;  
    DDParallelepiped sp(s);
    return new G4Para(s.name().name(),
              sp.xHalf(),
              sp.yHalf(),
              sp.zHalf(),
              sp.alpha(),
              sp.theta(),
              sp.phi());
 }

G4VSolid * DDG4SolidConverter::polycone_rrz ( const DDSolid & s )

staticprivate

Definition at line 148 of file DDG4SolidConverter.cc.

References prof2calltree::count, i, LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
     LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: pcon_rrz = " << s ;  
     vector<double> z_p;
     vector<double> rmin_p;
     vector<double> rmax_p;
     vector<double>::const_iterator i = par_->begin()+2;
     int count = 0;
     for (; i!=par_->end(); ++i) {
         LogDebug("SimG4CoreGeometry") << "z=" << *i ;
     z_p.push_back(*i); ++i;
         LogDebug("SimG4CoreGeometry") << "rmin=" << *i ;
     rmin_p.push_back(*i); ++i;
         LogDebug("SimG4CoreGeometry") << "rmax=" << *i ;
     rmax_p.push_back(*i); 
       count++;
     }
     LogDebug("SimG4CoreGeometry") << "sp=" << (*par_)[0]/deg << " ep=" << (*par_)[1]/deg ;
     /*
     std::cout << "### Polycone_RRZ: " << "sp=" << (*par_)[0]/deg 
           << " ep=" << (*par_)[1]/deg 
           << " N= " << count << std::endl;
     for(int i=0; i<count; ++i) { 
       std::cout << " R1= " << rmin_p[i] << " R1= " << rmax_p[i] << " Z= " << z_p[i] << std::endl;
     }
     */
     return new G4Polycone(s.name().name(), (*par_)[0], (*par_)[1], // start,delta-phi
                         count, // sections
             &(z_p[0]),
             &(rmin_p[0]),
             &(rmax_p[0]));
             
 }

G4VSolid * DDG4SolidConverter::polycone_rz ( const DDSolid & s )

staticprivate

Definition at line 118 of file DDG4SolidConverter.cc.

References prof2calltree::count, i, LogDebug, DDName::name(), DDBase< N, C >::name(), alignCSCRings::r, and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: pcon_rz = " << s ;  
   vector<double> r;
   vector<double> z;
   vector<double>::const_iterator i = (*par_).begin()+2;
   int count=0;
   for(; i!=(*par_).end(); ++i) {
     LogDebug("SimG4CoreGeometry") << "z=" << *i ;
     z.push_back(*i); ++i;
     LogDebug("SimG4CoreGeometry") << " r=" << *i ;
     r.push_back(*i);
     count++;
    }
    LogDebug("SimG4CoreGeometry") << "sp=" << (*par_)[0]/deg << " ep=" << (*par_)[1]/deg ;
    /*
    std::cout << "### Polycone_RZ: " << "sp=" << (*par_)[0]/deg 
          << " ep=" << (*par_)[1]/deg 
          << " N= " << count << std::endl;
    for(int i=0; i<count; ++i) { 
      std::cout << " R= " << r[i] << " Z= " << z[i] << std::endl;
    }
    */
    return new G4Polycone(s.name().name(), (*par_)[0], (*par_)[1], // start,delta-phi
              count, // numRZ
              &(r[0]),
              &(z[0]));
 }

G4VSolid * DDG4SolidConverter::polyhedra_rrz ( const DDSolid & s )

staticprivate

Definition at line 205 of file DDG4SolidConverter.cc.

References prof2calltree::count, i, LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
     LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: phed_rrz = " << s ;  
     vector<double> z_p;
     vector<double> rmin_p;
     vector<double> rmax_p;
     vector<double>::const_iterator i = par_->begin()+3;
     int count = 0;
     for (; i!=par_->end(); ++i) {
         LogDebug("SimG4CoreGeometry") << "z=" << *i ;
     z_p.push_back(*i); ++i;
         LogDebug("SimG4CoreGeometry") << "rmin=" << *i ;
     rmin_p.push_back(*i); ++i;
         LogDebug("SimG4CoreGeometry") << "rmax=" << *i ;
     rmax_p.push_back(*i); 
       count++;
     }
     LogDebug("SimG4CoreGeometry") << "sp=" << (*par_)[0]/deg << " ep=" << (*par_)[1]/deg ;
     return new G4Polyhedra(s.name().name(), (*par_)[1], (*par_)[2], int((*par_)[0]), // start,delta-phi,sides
                count, // sections
                &(z_p[0]),
                &(rmin_p[0]),
                &(rmax_p[0]));  
 }

G4VSolid * DDG4SolidConverter::polyhedra_rz ( const DDSolid & s )

staticprivate

Definition at line 184 of file DDG4SolidConverter.cc.

References prof2calltree::count, i, LogDebug, DDName::name(), DDBase< N, C >::name(), alignCSCRings::r, and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
     LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: phed_rz = " << s ;  
     vector<double> r;
     vector<double> z;
     vector<double>::const_iterator i = par_->begin()+3;
     int count=0;
     
     for(; i!=par_->end(); ++i) {
       z.push_back(*i); ++i;
       r.push_back(*i);
       count++;
     }
       
     return new G4Polyhedra(s.name().name(), (*par_)[1], (*par_)[2], int((*par_)[0]),// start,delta-phi;sides
                count, // numRZ
                &(r[0]),
                &(z[0]));
 }

G4VSolid * DDG4SolidConverter::pseudotrap ( const DDSolid & s )

staticprivate

correct implementation, but fails to visualize due to G4/Iguana limitations

Definition at line 346 of file DDG4SolidConverter.cc.

References funct::abs(), DDPseudoTrap::atMinusZ(), delta, Exception, firstTime, h, DDPseudoTrap::halfZ(), LogDebug, DDName::name(), mergeVDriftHistosByStation::name, DDBase< N, C >::name(), EnergyCorrector::pt, alignCSCRings::r, DDPseudoTrap::radius(), query::result, makeMuonMisalignmentScenario::rot, alignCSCRings::s, mathSSE::sqrt(), x(), DDPseudoTrap::x1(), DDPseudoTrap::x2(), DDPseudoTrap::y1(), and DDPseudoTrap::y2().

Referenced by DDG4SolidConverter().

 {
   static G4RotationMatrix * rot = 0;
   static bool firstTime=true;
   if (firstTime) {
     firstTime=false;
     rot = new G4RotationMatrix;
     rot->rotateX(90.*deg);
     
   }
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: pseudoTrap = " << s ;
   G4Trd * trap = 0;
   G4Tubs * tubs = 0;
   G4VSolid * result = 0;
   DDPseudoTrap pt(s); // pt...PseudoTrap
   double r = pt.radius();
   bool atMinusZ = pt.atMinusZ();
   double x = 0;
   double h = 0;
   bool intersec = false; // union or intersection solid
   if (pt.atMinusZ()) {
     x = pt.x1(); // tubs radius
   } 
   else {
     x = pt.x2(); // tubs radius
   }
   double openingAngle = 2.*asin(x/abs(r));
   //trap = new G4Trd(s.name().name(), 
   double displacement=0;
   double startPhi=0;
   /* calculate the displacement of the tubs w.r.t. to the trap,
      determine the opening angle of the tubs */
   double delta = sqrt(r*r-x*x);
   if (r < 0 && abs(r) >= x) {
     intersec = true; // intersection solid
     h = pt.y1() < pt.y2() ? pt.y2() : pt.y1(); // tubs half height
     h += h/20.; // enlarge a bit - for subtraction solid
     if (atMinusZ) {
       displacement = - pt.halfZ() - delta; 
       startPhi = 270.*deg - openingAngle/2.;
     }
     else {
       displacement =   pt.halfZ() + delta;
       startPhi = 90.*deg - openingAngle/2.;
     }
   }
   else if ( r > 0 && abs(r) >= x )
     {
       if (atMinusZ) {
         displacement = - pt.halfZ() + delta;
     startPhi = 90.*deg - openingAngle/2.;
     h = pt.y1();
       }
       else {
         displacement =   pt.halfZ() - delta; 
     startPhi = 270.*deg - openingAngle/2.;
     h = pt.y2();
       }    
     }
   else {
     throw cms::Exception("DetectorDescriptionFault", "Check parameters of the PseudoTrap! name=" + pt.name().name());
    }
   G4ThreeVector displ(0.,0.,displacement); // displacement of the tubs w.r.t. trap
   LogDebug("SimG4CoreGeometry") << "DDSolidConverter::pseudotrap(): displacement=" << displacement 
                 << " openingAngle=" << openingAngle/deg << " x=" << x << " h=" << h;
     
   // Now create two solids (trd & tubs), and a boolean solid out of them 
   string name=pt.name().name();
   trap = new G4Trd(name, pt.x1(), pt.x2(), pt.y1(), pt.y2(), pt.halfZ());
   tubs = new G4Tubs(name, 
             0., // rMin
             abs(r), // rMax
             h, // half height
             startPhi, // start angle
             openingAngle);
   if (intersec) {
     result = new G4SubtractionSolid(name, trap, tubs, rot, displ);
   }
   else {
     G4VSolid * tubicCap = new G4SubtractionSolid(name, 
                          tubs, 
                          new G4Box(name, 1.1*x, sqrt(r*r-x*x), 1.1*h),  
                          0, 
                          G4ThreeVector());
     result = new G4UnionSolid(name, trap, tubicCap, rot, displ);
             
     // approximative implementation - also fails to visualize due to G4/Iguana limitations
     /*
       delete tubs;
       tubs = new G4Tubs(name, 
       sqrt(r*r-x*x), // rMin-approximation!
       abs(r), // rMax
       h, // half height
       startPhi, // start angle
       openingAngle);
       result = new G4UnionSolid(name, trap, tubs, rot, displ);
     */
   }                
   return result;
 }

G4VSolid * DDG4SolidConverter::reflected ( const DDSolid & s )

staticprivate

Definition at line 248 of file DDG4SolidConverter.cc.

References convert(), LogDebug, DDName::name(), DDBase< N, C >::name(), alignCSCRings::s, and DDReflectionSolid::unreflected().

Referenced by DDG4SolidConverter().

 {
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: reflected = " << s ;  
   G4ReflectedSolid * rs = 0;
   DDReflectionSolid rfs(s); 
   if (rfs) {    
     rs = new G4ReflectedSolid(s.name().name(), 
                               DDG4SolidConverter().convert(rfs.unreflected()), 
                   z_reflection);
     
   } // else ?
   return rs;
 }

static G4VSolid* DDG4SolidConverter::shapeless ( const DDSolid & )

staticprivate

G4VSolid * DDG4SolidConverter::sphere ( const DDSolid & s )

staticprivate

Definition at line 529 of file DDG4SolidConverter.cc.

References DDSphere::deltaPhi(), DDSphere::deltaTheta(), DDSphere::innerRadius(), LogDebug, DDName::name(), DDBase< N, C >::name(), DDSphere::outerRadius(), alignCSCRings::s, DDSphere::startPhi(), and DDSphere::startTheta().

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: sphere = " << s ;  
    DDSphere sp(s);
    return new G4Sphere(s.name().name(), sp.innerRadius(),
                sp.outerRadius(),
                sp.startPhi(),
                sp.deltaPhi(),
                sp.startTheta(),
                sp.deltaTheta());
 }

G4VSolid * DDG4SolidConverter::subtraction ( const DDSolid & s )

staticprivate

Definition at line 293 of file DDG4SolidConverter.cc.

References convert(), LogDebug, DDName::name(), DDBase< N, C >::name(), DDRotation::rotation(), DDBooleanSolid::rotation(), alignCSCRings::s, DDBooleanSolid::solidA(), DDBooleanSolid::solidB(), and DDBooleanSolid::translation().

Referenced by DDG4SolidConverter().

 {
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: subtraction = " << s ;
   G4SubtractionSolid * us = 0;
   DDBooleanSolid bs(s);
   if (bs) {
     G4VSolid * sa = DDG4SolidConverter().convert(bs.solidA());
     G4VSolid * sb = DDG4SolidConverter().convert(bs.solidB());
     LogDebug("SimG4CoreGeometry") << " name:" << s.name() << " t=" << bs.translation() << flush;
     //       stringstream sst;
     //       bs.rotation().rotation()->inverse().print(sst);
     //       LogDebug("SimG4CoreGeometry") << " " << sst.str() << flush;
     LogDebug("SimG4CoreGeometry") << " " << bs.rotation().rotation()->Inverse() << flush;
     std::vector<double> tdbl(9);
     bs.rotation().rotation()->Inverse().GetComponents(tdbl.begin(), tdbl.end());
     CLHEP::HepRep3x3 temprep(tdbl[0], tdbl[1], tdbl[2], tdbl[3], tdbl[4], tdbl[5], tdbl[6], tdbl[7], tdbl[8]);
     CLHEP::Hep3Vector temphvec(bs.translation().X(), bs.translation().Y(), bs.translation().Z()); 
     us = new G4SubtractionSolid(s.name().name(),
                 sa,
                 sb,
                 new CLHEP::HepRotation(temprep),
                 temphvec);
   }
   return us;       
 }

G4VSolid * DDG4SolidConverter::torus ( const DDSolid & s )

staticprivate

Definition at line 231 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: torus = " << s ;  
    return new G4Torus(s.name().name(), (*par_)[0], // rmin
                                (*par_)[1], // rmax
                    (*par_)[2], // Rtor
                    (*par_)[3], // phiStart
                    (*par_)[4]);// deltaPhi
 }

G4VSolid * DDG4SolidConverter::trap ( const DDSolid & s )

staticprivate

Definition at line 86 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: trap = " << s ;
    return new G4Trap(s.name().name(), (*par_)[0],  // pDz
                                (*par_)[1],  // theta
                    (*par_)[2],  // phi
                    (*par_)[3],  // y1
                    (*par_)[4],  // x1
                    (*par_)[5],  // x2
                    (*par_)[6],  // alpha1
                    (*par_)[7],  // y2
                    (*par_)[8],  // x3
                    (*par_)[9],  // x4
                    (*par_)[10]);// alpha2
 }

G4VSolid * DDG4SolidConverter::trunctubs ( const DDSolid & s )

staticprivate

Definition at line 449 of file DDG4SolidConverter.cc.

References funct::abs(), alpha, funct::cos(), DDTruncTubs::cutAtDelta(), DDTruncTubs::cutAtStart(), DDTruncTubs::cutInside(), SiPixelRawToDigiRegional_cfi::deltaPhi, DDTruncTubs::deltaPhi(), Exception, DDName::fullname(), LogDebug, visualization-live-secondInstance_cfg::m, DDSolidShapesName::name(), DDName::name(), mergeVDriftHistosByStation::name, DDBase< N, C >::name(), dttmaxenums::R, alignCSCRings::r, query::result, DDTruncTubs::rIn(), makeMuonMisalignmentScenario::rot, DDTruncTubs::rOut(), alignCSCRings::s, DDSolid::shape(), funct::sin(), mathSSE::sqrt(), DDTruncTubs::startPhi(), groupFilesInBlocks::tt, and DDTruncTubs::zHalf().

Referenced by DDG4SolidConverter().

 {
   // truncated tube-section: a boolean subtraction solid:
   //                         from a tube-section a box is subtracted according to the  
   //                         given parameters
   LogDebug("SimG4CoreGeometry") << "MantisConverter: solidshape=" << DDSolidShapesName::name(s.shape()) << " " << s;
   LogDebug("SimG4CoreGeometry") << "before";
   DDTruncTubs tt(s);
   LogDebug("SimG4CoreGeometry") << "after";
   double rIn(tt.rIn()), rOut(tt.rOut()), zHalf(tt.zHalf()),
     startPhi(tt.startPhi()), deltaPhi(tt.deltaPhi()), 
     cutAtStart(tt.cutAtStart()), cutAtDelta(tt.cutAtDelta());
   bool cutInside(bool(tt.cutInside()));
   string name=tt.name().name();
 
   // check the parameters
   if (rIn <= 0 || rOut <=0 || cutAtStart <=0 || cutAtDelta <= 0) {
     throw cms::Exception("DetectorDescriptionFault", "TruncTubs " + string(tt.name().fullname()) + ": 0 <= rIn,cutAtStart,rOut,cutAtDelta,rOut violated!");
   }
   if (rIn >= rOut) {
     throw cms::Exception("DetectorDescriptionFault", "TruncTubs " + string(tt.name().fullname()) + ": rIn<rOut violated!");
   }
   if (startPhi != 0.) {
     throw cms::Exception("DetectorDescriptionFault", "TruncTubs " + string(tt.name().fullname()) + ": startPhi != 0 not supported!");
   }
   //     if (cutInside != false) {
   //       throw cms::Exception("DetectorDescriptionFault", "TruncTubs " + string(tt.name()) + " cutInside == true not supported!");
   //     }
 
   startPhi=0.;
   double r(cutAtStart), R(cutAtDelta);
   G4VSolid * result(0);
   G4VSolid * tubs = new G4Tubs(name,rIn,rOut,zHalf,startPhi,deltaPhi);
   LogDebug("SimG4CoreGeometry") << "G4Tubs: " << rIn << ' ' << rOut << ' ' << zHalf << ' ' << startPhi/deg << ' ' << deltaPhi/deg;
   LogDebug("SimG4CoreGeometry") << s;
   // length & hight of the box 
   double boxX(30.*rOut), boxY(20.*rOut); // exaggerate dimensions - does not matter, it's subtracted!
    
   // width of the box > width of the tubs
   double boxZ(1.1*zHalf);
    
   // angle of the box w.r.t. tubs
   double cath = r-R*cos(deltaPhi);
   double hypo = sqrt(r*r+R*R-2.*r*R*cos(deltaPhi));
   double cos_alpha = cath/hypo;
 
   double alpha = -acos(cos_alpha);
   LogDebug("SimG4CoreGeometry") << "cath=" << cath/m;
   LogDebug("SimG4CoreGeometry") << "hypo=" << hypo/m;
   LogDebug("SimG4CoreGeometry") << "al=" << acos(cath/hypo)/deg;
   LogDebug("SimG4CoreGeometry") << "deltaPhi=" << deltaPhi/deg << "\n"
                 << "r=" << r/m << "\n"
                 <<  "R=" << R/m;
 
   LogDebug("SimG4CoreGeometry") << "alpha=" << alpha/deg;
     
   // rotationmatrix of box w.r.t. tubs
   G4RotationMatrix * rot = new G4RotationMatrix;
   rot->rotateZ(-alpha);
   LogDebug("SimG4CoreGeometry") << (*rot);
 
   // center point of the box
   double xBox;
   if (!cutInside) {
     xBox = r+boxY/sin(abs(alpha));
   } else {
     xBox = -(boxY/sin(abs(alpha))-r);
   }
 
   G4ThreeVector trans(xBox,0.,0.);
   LogDebug("SimG4CoreGeometry") << "trans=" << trans;
 
   G4VSolid * box = new G4Box(name,boxX,boxY,boxZ);
   result = new G4SubtractionSolid(name,tubs,box,rot,trans);
       
   return result;
 
 }

G4VSolid * DDG4SolidConverter::tubs ( const DDSolid & s )

staticprivate

Definition at line 74 of file DDG4SolidConverter.cc.

References LogDebug, DDName::name(), DDBase< N, C >::name(), and alignCSCRings::s.

Referenced by DDG4SolidConverter().

 {
    LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: tubs = " << s ;  
    return new G4Tubs(s.name().name(), (*par_)[1], // rmin
                                (*par_)[2], // rmax
                    (*par_)[0], // dzHalf
                    (*par_)[3], // phiStart
                    (*par_)[4]);// deltaPhi
 }

G4VSolid * DDG4SolidConverter::unionsolid ( const DDSolid & s )

staticprivate

Definition at line 264 of file DDG4SolidConverter.cc.

References convert(), LogDebug, DDName::name(), DDBase< N, C >::name(), DDRotation::rotation(), DDBooleanSolid::rotation(), DDBooleanSolid::solidA(), DDBooleanSolid::solidB(), and DDBooleanSolid::translation().

Referenced by DDG4SolidConverter().

 {
   LogDebug("SimG4CoreGeometry") << "DDG4SolidConverter: unionsolid = " << s.name() ;
   G4UnionSolid * us = 0;
   DDBooleanSolid bs(s);
   if (bs) {
     LogDebug("SimG4CoreGeometry") << "SolidA=" << bs.solidA();
     G4VSolid * sa = DDG4SolidConverter().convert(bs.solidA());
     LogDebug("SimG4CoreGeometry") << "SolidB=" << bs.solidB();
     G4VSolid * sb = DDG4SolidConverter().convert(bs.solidB());
     LogDebug("SimG4CoreGeometry") << " name:" << s.name() << " t=" << bs.translation() << flush;
     LogDebug("SimG4CoreGeometry") << " " << bs.rotation().rotation()->Inverse() << flush;
     std::vector<double> tdbl(9);
     bs.rotation().rotation()->Inverse().GetComponents(tdbl.begin(), tdbl.end());
     CLHEP::HepRep3x3 temprep(tdbl[0], tdbl[1], tdbl[2], tdbl[3], tdbl[4], tdbl[5], tdbl[6], tdbl[7], tdbl[8]);
     CLHEP::Hep3Vector temphvec(bs.translation().X(), bs.translation().Y(), bs.translation().Z()); 
     us = new G4UnionSolid(s.name().name(),
               sa,
               sb,
               new CLHEP::HepRotation(temprep),
               temphvec);
     
   } // else?
   return us;       
 }

Member Data Documentation

std::map<DDSolidShape,FNPTR> DDG4SolidConverter::convDispatch_

private

Definition at line 44 of file DDG4SolidConverter.h.

const vector< double > * DDG4SolidConverter::par_ = 0

staticprivate

Definition at line 43 of file DDG4SolidConverter.h.

Public Types

Public Member Functions

Static Private Member Functions

Private Attributes

Static Private Attributes

Detailed Description

Member Typedef Documentation

Constructor & Destructor Documentation

Member Function Documentation

Member Data Documentation