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 // $Id: G4ParameterisationCons.cc 66356 2012-12-18 09:02:32Z gcosmo $

 //

 // class G4ParameterisationCons Implementation file

 //

 // 26.05.03 - P.Arce, Initial version

 // 08.04.04 - I.Hrivnacova, Implemented reflection

 // 21.04.10 - M.Asai, Added gaps

 // --------------------------------------------------------------------


 #include "G4ParameterisationCons.hh"


 #include <iomanip>

 #include "G4ThreeVector.hh"

 #include "G4RotationMatrix.hh"

 #include "G4VPhysicalVolume.hh"

 #include "G4LogicalVolume.hh"

 #include "G4ReflectedSolid.hh"

 #include "G4Cons.hh"


 //--------------------------------------------------------------------------

 G4VParameterisationCons::

 G4VParameterisationCons( EAxis axis, G4int nDiv, G4double width,

                         G4double offset, G4VSolid* msolid,

                         DivisionType divType )

   :  G4VDivisionParameterisation( axis, nDiv, width, offset, divType, msolid )

 {

   G4Cons* msol = (G4Cons*)(msolid);

   if (msolid->GetEntityType() == "G4ReflectedSolid")

   {

     // Get constituent solid

     G4VSolid* mConstituentSolid

        = ((G4ReflectedSolid*)msolid)->GetConstituentMovedSolid();

     msol = (G4Cons*)(mConstituentSolid);


     // Create a new solid with inversed parameters

     G4Cons* newSolid

       = new G4Cons(msol->GetName(),

                    msol->GetInnerRadiusPlusZ(), msol->GetOuterRadiusPlusZ(),

                    msol->GetInnerRadiusMinusZ(), msol->GetOuterRadiusMinusZ(),

                    msol->GetZHalfLength(),

                    msol->GetStartPhiAngle(), msol->GetDeltaPhiAngle());

     msol = newSolid;

     fmotherSolid = newSolid;

     fReflectedSolid = true;

     fDeleteSolid = true;

   }

 }


 //------------------------------------------------------------------------

 G4VParameterisationCons::~G4VParameterisationCons()

 {

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsRho::

 G4ParameterisationConsRho( EAxis axis, G4int nDiv,

                            G4double width, G4double offset,

                            G4VSolid* msolid, DivisionType divType )

   :  G4VParameterisationCons( axis, nDiv, width, offset, msolid, divType )

 {

   CheckParametersValidity();

   SetType( "DivisionConsRho" );


   G4Cons* msol = (G4Cons*)(fmotherSolid);

   if( msol->GetInnerRadiusPlusZ() == 0. )

   {

     std::ostringstream message;

     message << "OuterRadiusMinusZ = 0" << G4endl

             << "Width is calculated as that of OuterRadiusMinusZ !";

     G4Exception("G4ParameterisationConsRho::G4ParameterisationConsRho()",

                 "GeomDiv1001", JustWarning, message);

   }


   if( divType == DivWIDTH )

   {

     fnDiv = CalculateNDiv( msol->GetOuterRadiusMinusZ()

                          - msol->GetInnerRadiusMinusZ(), width, offset );

   }

   else if( divType == DivNDIV )

   {

     G4Cons* mconsol = (G4Cons*)(msolid);

     fwidth = CalculateWidth( mconsol->GetOuterRadiusMinusZ()

                            - mconsol->GetInnerRadiusMinusZ(), nDiv, offset );

   }


 #ifdef G4DIVDEBUG

   if( verbose >= 1 )

   {

     G4cout << " G4ParameterisationConsRho - no divisions " << fnDiv << " = "

            << nDiv << G4endl

            << " Offset " << foffset << " = " << offset

            << " - Width " << fwidth << " = " << width << G4endl;

   }

 #endif

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsRho::~G4ParameterisationConsRho()

 {

 }


 //------------------------------------------------------------------------

 G4double G4ParameterisationConsRho::GetMaxParameter() const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);

   return msol->GetOuterRadiusMinusZ() - msol->GetInnerRadiusMinusZ();

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsRho::

 ComputeTransformation( const G4int, G4VPhysicalVolume *physVol ) const

 {

   //----- translation

   G4ThreeVector origin(0.,0.,0.);

   //----- set translation

   physVol->SetTranslation( origin );


   //----- calculate rotation matrix: unit


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout <<  " G4ParameterisationConsRho " << G4endl

            << " Offset: " << foffset

            << " - Width: " << fwidth << G4endl;

   }

 #endif


   ChangeRotMatrix( physVol );


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << std::setprecision(8) << " G4ParameterisationConsRho" << G4endl

            << " Position: " << origin << " - Width: " << fwidth

            << " - Axis: " << faxis  << G4endl;

   }

 #endif

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsRho::

 ComputeDimensions( G4Cons& cons, const G4int copyNo,

                    const G4VPhysicalVolume* ) const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);


   G4double pRMin1 = msol->GetInnerRadiusMinusZ() + foffset + fwidth * copyNo;

   G4double pRMax1 = msol->GetInnerRadiusMinusZ() + foffset + fwidth * (copyNo+1);


   //width at Z Plus

   //- G4double fwidthPlus =

   //   fwidth * ( msol->GetOuterRadiusPlusZ()/ msol->GetInnerRadiusPlusZ())

   //-         / ( msol->GetOuterRadiusMinusZ() - msol->GetInnerRadiusMinusZ());

   G4double fwidthPlus = CalculateWidth( msol->GetOuterRadiusPlusZ()

                            - msol->GetInnerRadiusPlusZ(), fnDiv, foffset );

   G4double pRMin2 = msol->GetInnerRadiusPlusZ()

                   + foffset + fwidthPlus * copyNo;

   G4double pRMax2 = msol->GetInnerRadiusPlusZ()

                   + foffset + fwidthPlus * (copyNo+1);

   G4double pDz = msol->GetZHalfLength();


   G4double d_half_gap = fhgap * pRMax2 / pRMax1;

   //- already rotated  double pSR = foffset + copyNo*fwidth;

   G4double pSPhi = msol->GetStartPhiAngle();

   G4double pDPhi = msol->GetDeltaPhiAngle();;


   cons.SetInnerRadiusMinusZ( pRMin1 + fhgap );

   cons.SetOuterRadiusMinusZ( pRMax1 - fhgap );

   cons.SetInnerRadiusPlusZ( pRMin2 + d_half_gap );

   cons.SetOuterRadiusPlusZ( pRMax2 - d_half_gap );

   cons.SetZHalfLength( pDz );

   cons.SetStartPhiAngle( pSPhi, false );

   cons.SetDeltaPhiAngle( pDPhi );


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << " G4ParameterisationConsRho::ComputeDimensions()" << G4endl

            << " pRMin: " << pRMin1 << " - pRMax: " << pRMax1 << G4endl;

     if( verbose >= 4 ) cons.DumpInfo();

   }

 #endif

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsPhi::

 G4ParameterisationConsPhi( EAxis axis, G4int nDiv,

                            G4double width, G4double offset,

                            G4VSolid* msolid, DivisionType divType )

   :  G4VParameterisationCons( axis, nDiv, width, offset, msolid, divType )

 {

   CheckParametersValidity();

   SetType( "DivisionConsPhi" );


   G4Cons* msol = (G4Cons*)(fmotherSolid);

   if( divType == DivWIDTH )

   {

     fnDiv = CalculateNDiv( msol->GetDeltaPhiAngle(), width, offset );

   }

   else if( divType == DivNDIV )

   {

     fwidth = CalculateWidth( msol->GetDeltaPhiAngle(), nDiv, offset );

   }


 #ifdef G4DIVDEBUG

   if( verbose >= 1 )

   {

     G4cout << " G4ParameterisationConsPhi no divisions " << fnDiv << " = "

            << nDiv << G4endl

            << " Offset " << foffset << " = " << offset << G4endl

            << " Width " << fwidth << " = " << width << G4endl;

   }

 #endif

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsPhi::~G4ParameterisationConsPhi()

 {

 }


 //------------------------------------------------------------------------

 G4double G4ParameterisationConsPhi::GetMaxParameter() const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);

   return msol->GetDeltaPhiAngle();

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsPhi::

 ComputeTransformation( const G4int copyNo, G4VPhysicalVolume *physVol ) const

 {

   //----- translation

   G4ThreeVector origin(0.,0.,0.);

   //----- set translation

   physVol->SetTranslation( origin );


   //----- calculate rotation matrix (so that all volumes point to the centre)

   G4double posi = foffset  + copyNo*fwidth;


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << " G4ParameterisationConsPhi - position: " << posi/deg << G4endl

            << " Origin: " << origin << " copyNo: " << copyNo

            << " - foffset: " << foffset/deg

            << " - fwidth: " << fwidth/deg << G4endl

            << " - Axis: " << faxis << G4endl;

   }

 #endif


   ChangeRotMatrix( physVol, -posi );

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsPhi::

 ComputeDimensions( G4Cons& cons, const G4int,

                    const G4VPhysicalVolume* ) const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);


   G4double pRMin1 = msol->GetInnerRadiusMinusZ();

   G4double pRMax1 = msol->GetOuterRadiusMinusZ();

   G4double pRMin2 = msol->GetInnerRadiusPlusZ();

   G4double pRMax2 = msol->GetOuterRadiusPlusZ();

   G4double pDz = msol->GetZHalfLength();


   //- already rotated  double pSPhi = foffset + copyNo*fwidth;

   G4double pSPhi = foffset + msol->GetStartPhiAngle() + fhgap;

   G4double pDPhi = fwidth - 2.*fhgap;


   cons.SetInnerRadiusMinusZ( pRMin1 );

   cons.SetOuterRadiusMinusZ( pRMax1 );

   cons.SetInnerRadiusPlusZ( pRMin2 );

   cons.SetOuterRadiusPlusZ( pRMax2 );

   cons.SetZHalfLength( pDz );

   cons.SetStartPhiAngle( pSPhi, false );

   cons.SetDeltaPhiAngle( pDPhi );


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << " G4ParameterisationConsPhi::ComputeDimensions" << G4endl

            << " pSPhi: " << pSPhi << " - pDPhi: " << pDPhi << G4endl;

     if( verbose >= 4 ) cons.DumpInfo();

   }

 #endif

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsZ::

 G4ParameterisationConsZ( EAxis axis, G4int nDiv,

                          G4double width, G4double offset,

                          G4VSolid* msolid, DivisionType divType )

   :  G4VParameterisationCons( axis, nDiv, width, offset, msolid, divType )

 {

   CheckParametersValidity();

   SetType( "DivisionConsZ" );


   G4Cons* msol = (G4Cons*)(fmotherSolid);

   if( divType == DivWIDTH )

   {

     fnDiv = CalculateNDiv( 2*msol->GetZHalfLength(), width, offset );

   }

   else if( divType == DivNDIV )

   {

     fwidth = CalculateWidth( 2*msol->GetZHalfLength(), nDiv, offset );

   }


 #ifdef G4DIVDEBUG

   if( verbose >= 1 )

   {

     G4cout << " G4ParameterisationConsZ: # divisions " << fnDiv << " = "

            << nDiv << G4endl

            << " Offset " << foffset << " = " << offset << G4endl

            << " Width " << fwidth << " = " << width << G4endl

            << " - Axis: " << faxis << G4endl;

   }

 #endif

 }


 //--------------------------------------------------------------------------

 G4ParameterisationConsZ::~G4ParameterisationConsZ()

 {

 }


 //------------------------------------------------------------------------

 G4double G4ParameterisationConsZ::GetMaxParameter() const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);

   return 2*msol->GetZHalfLength();

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsZ::

 ComputeTransformation( const G4int copyNo, G4VPhysicalVolume* physVol ) const

 {

   //----- set translation: along Z axis

   G4Cons* motherCons = (G4Cons*)(GetMotherSolid());

   G4double posi = - motherCons->GetZHalfLength() + OffsetZ()

                   + fwidth/2 + copyNo*fwidth;

   G4ThreeVector origin(0.,0.,posi);

   physVol->SetTranslation( origin );


   //----- calculate rotation matrix: unit


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << " G4ParameterisationConsZ::ComputeTransformation()" << G4endl

            << " Origin: " << origin << " - copyNo: " << copyNo << G4endl

            << " foffset: " << foffset << " - fwidth: " << fwidth

            << G4endl;

   }

 #endif


   ChangeRotMatrix( physVol );

 }


 //--------------------------------------------------------------------------

 void

 G4ParameterisationConsZ::

 ComputeDimensions( G4Cons& cons, const G4int copyNo,

                    const G4VPhysicalVolume* ) const

 {

   G4Cons* msol = (G4Cons*)(fmotherSolid);


   G4double mHalfLength = msol->GetZHalfLength() - fhgap;

   G4double aRInner = (msol->GetInnerRadiusPlusZ()

                    - msol->GetInnerRadiusMinusZ()) / (2*mHalfLength);

   G4double bRInner = (msol->GetInnerRadiusPlusZ()

                    + msol->GetInnerRadiusMinusZ()) / 2;

   G4double aROuter = (msol->GetOuterRadiusPlusZ()

                    - msol->GetOuterRadiusMinusZ()) / (2*mHalfLength);

   G4double bROuter = (msol->GetOuterRadiusPlusZ()

                    + msol->GetOuterRadiusMinusZ()) / 2;

   G4double xMinusZ = -mHalfLength + OffsetZ() + fwidth*copyNo + fhgap;

   G4double xPlusZ  = -mHalfLength + OffsetZ() + fwidth*(copyNo+1) - fhgap;

   cons.SetInnerRadiusMinusZ( aRInner * xMinusZ + bRInner );

   cons.SetOuterRadiusMinusZ( aROuter * xMinusZ + bROuter );

   cons.SetInnerRadiusPlusZ( aRInner * xPlusZ + bRInner );

   cons.SetOuterRadiusPlusZ( aROuter * xPlusZ + bROuter );


   G4double pDz = fwidth / 2. - fhgap;

   G4double pSPhi = msol->GetStartPhiAngle();

   G4double pDPhi = msol->GetDeltaPhiAngle();


   cons.SetZHalfLength( pDz );

   cons.SetStartPhiAngle( pSPhi, false );

   cons.SetDeltaPhiAngle( pDPhi );


 #ifdef G4DIVDEBUG

   if( verbose >= 2 )

   {

     G4cout << " G4ParameterisationConsZ::ComputeDimensions()" << G4endl

            << " pDz: " << pDz << G4endl;

     if( verbose >= 4 ) cons.DumpInfo();

   }

 #endif


 }

G4ParameterisationConsPhi::ComputeDimensions
void ComputeDimensions(G4Cons &tubs, const G4int copyNo, const G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:287

G4Cons::SetZHalfLength
void SetZHalfLength(G4double newDz)

G4VSolid::GetName
G4String GetName() const

DivisionType
DivisionType
Definition: G4VDivisionParameterisation.hh:49

CLHEP::Hep3Vector
Definition: ThreeVector.h:41

G4VDivisionParameterisation::CheckParametersValidity
virtual void CheckParametersValidity()
Definition: G4VDivisionParameterisation.cc:130

G4Cons::SetInnerRadiusMinusZ
void SetInnerRadiusMinusZ(G4double Rmin1)

G4VDivisionParameterisation::SetType
void SetType(const G4String &type)

G4VPhysicalVolume
Definition: G4VPhysicalVolume.hh:80

G4VDivisionParameterisation::foffset
G4double foffset
Definition: G4VDivisionParameterisation.hh:101

G4ParameterisationConsRho::ComputeDimensions
void ComputeDimensions(G4Cons &tubs, const G4int copyNo, const G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:171

G4ParameterisationConsZ::~G4ParameterisationConsZ
~G4ParameterisationConsZ()
Definition: G4ParameterisationCons.cc:353

G4ParameterisationConsZ::G4ParameterisationConsZ
G4ParameterisationConsZ(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *motherSolid, DivisionType divType)
Definition: G4ParameterisationCons.cc:322

width
#define width

G4VDivisionParameterisation::CalculateWidth
G4double CalculateWidth(G4double motherDim, G4int nDiv, G4double offset) const
Definition: G4VDivisionParameterisation.cc:117

G4Cons::SetOuterRadiusPlusZ
void SetOuterRadiusPlusZ(G4double Rmax2)

G4ParameterisationConsPhi::G4ParameterisationConsPhi
G4ParameterisationConsPhi(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *motherSolid, DivisionType divType)
Definition: G4ParameterisationCons.cc:216

G4VParameterisationCons::~G4VParameterisationCons
virtual ~G4VParameterisationCons()
Definition: G4ParameterisationCons.cc:76

G4VDivisionParameterisation::fmotherSolid
G4VSolid * fmotherSolid
Definition: G4VDivisionParameterisation.hh:103

G4VDivisionParameterisation::fnDiv
G4int fnDiv
Definition: G4VDivisionParameterisation.hh:99

G4Cons::GetOuterRadiusMinusZ
G4double GetOuterRadiusMinusZ() const

DivNDIV
Definition: G4VDivisionParameterisation.hh:49

G4VDivisionParameterisation::verbose
static G4ThreadLocal G4int verbose
Definition: G4VDivisionParameterisation.hh:107

G4VSolid::GetEntityType
virtual G4GeometryType GetEntityType() const =0

G4ParameterisationConsRho::~G4ParameterisationConsRho
~G4ParameterisationConsRho()
Definition: G4ParameterisationCons.cc:124

JustWarning
Definition: G4ExceptionSeverity.hh:64

G4int
int G4int
Definition: G4Types.hh:78

G4VSolid::DumpInfo
void DumpInfo() const

G4ReflectedSolid.hh

G4ParameterisationConsZ::GetMaxParameter
G4double GetMaxParameter() const
Definition: G4ParameterisationCons.cc:358

G4ParameterisationConsPhi::~G4ParameterisationConsPhi
~G4ParameterisationConsPhi()
Definition: G4ParameterisationCons.cc:246

G4ParameterisationConsRho::GetMaxParameter
G4double GetMaxParameter() const
Definition: G4ParameterisationCons.cc:129

G4VSolid
Definition: G4VSolid.hh:87

G4cout
G4GLOB_DLL std::ostream G4cout

G4VDivisionParameterisation::ChangeRotMatrix
void ChangeRotMatrix(G4VPhysicalVolume *physVol, G4double rotZ=0.) const
Definition: G4VDivisionParameterisation.cc:88

G4ParameterisationConsRho::ComputeTransformation
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:138

G4ParameterisationConsPhi::GetMaxParameter
G4double GetMaxParameter() const
Definition: G4ParameterisationCons.cc:251

G4Cons::SetDeltaPhiAngle
void SetDeltaPhiAngle(G4double newDPhi)

G4VDivisionParameterisation::faxis
EAxis faxis
Definition: G4VDivisionParameterisation.hh:98

G4Cons
Definition: G4Cons.hh:82

G4VPhysicalVolume::SetTranslation
void SetTranslation(const G4ThreeVector &v)

G4ParameterisationConsZ::ComputeTransformation
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:367

G4Cons::GetStartPhiAngle
G4double GetStartPhiAngle() const

G4Cons::GetInnerRadiusPlusZ
G4double GetInnerRadiusPlusZ() const

G4VDivisionParameterisation::OffsetZ
G4double OffsetZ() const
Definition: G4VDivisionParameterisation.cc:172

G4VParameterisationCons::G4VParameterisationCons
G4VParameterisationCons(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *msolid, DivisionType divType)
Definition: G4ParameterisationCons.cc:48

G4Exception
void G4Exception(const char *originOfException, const char *exceptionCode, G4ExceptionSeverity severity, const char *comments)
Definition: G4Exception.cc:41

python.hepunit.deg
deg
Definition: hepunit.py:77

G4VDivisionParameterisation
Definition: G4VDivisionParameterisation.hh:54

G4ParameterisationCons.hh

G4LogicalVolume.hh

DivWIDTH
Definition: G4VDivisionParameterisation.hh:49

G4VDivisionParameterisation::GetMotherSolid
G4VSolid * GetMotherSolid() const

EAxis
EAxis
Definition: geomdefs.hh:54

G4RotationMatrix.hh

G4ParameterisationConsRho::G4ParameterisationConsRho
G4ParameterisationConsRho(EAxis axis, G4int nCopies, G4double offset, G4double step, G4VSolid *motherSolid, DivisionType divType)
Definition: G4ParameterisationCons.cc:82

G4VDivisionParameterisation::CalculateNDiv
G4int CalculateNDiv(G4double motherDim, G4double width, G4double offset) const
Definition: G4VDivisionParameterisation.cc:102

G4ReflectedSolid
Definition: G4ReflectedSolid.hh:51

G4Cons.hh

G4VDivisionParameterisation::fReflectedSolid
G4bool fReflectedSolid
Definition: G4VDivisionParameterisation.hh:104

G4endl
#define G4endl
Definition: G4ios.hh:61

G4VDivisionParameterisation::fDeleteSolid
G4bool fDeleteSolid
Definition: G4VDivisionParameterisation.hh:105

G4VParameterisationCons
Definition: G4ParameterisationCons.hh:66

G4Cons::SetOuterRadiusMinusZ
void SetOuterRadiusMinusZ(G4double Rmax1)

G4Cons::SetStartPhiAngle
void SetStartPhiAngle(G4double newSPhi, G4bool trig=true)

G4VPhysicalVolume.hh

G4VDivisionParameterisation::fhgap
G4double fhgap
Definition: G4VDivisionParameterisation.hh:112

G4double
double G4double
Definition: G4Types.hh:76

G4Cons::GetInnerRadiusMinusZ
G4double GetInnerRadiusMinusZ() const

G4ThreeVector.hh

G4Cons::SetInnerRadiusPlusZ
void SetInnerRadiusPlusZ(G4double Rmin2)

G4Cons::GetOuterRadiusPlusZ
G4double GetOuterRadiusPlusZ() const

G4ParameterisationConsPhi::ComputeTransformation
void ComputeTransformation(const G4int copyNo, G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:260

G4Cons::GetZHalfLength
G4double GetZHalfLength() const

G4ParameterisationConsZ::ComputeDimensions
void ComputeDimensions(G4Cons &tubs, const G4int copyNo, const G4VPhysicalVolume *physVol) const
Definition: G4ParameterisationCons.cc:395

G4Cons::GetDeltaPhiAngle
G4double GetDeltaPhiAngle() const

G4VDivisionParameterisation::fwidth
G4double fwidth
Definition: G4VDivisionParameterisation.hh:100