#include <Transform3D.h>

Inheritance diagram for HepGeom::RotateY3D:

Public Member Functions
double	dx () const

double	dy () const

double	dz () const

void	getDecomposition (Scale3D &scale, Rotate3D &rotation, Translate3D &translation) const

CLHEP::HepRotation	getRotation () const

CLHEP::Hep3Vector	getTranslation () const

Transform3D	inverse () const

bool	isNear (const Transform3D &t, double tolerance=2.2E-14) const

bool	operator!= (const Transform3D &transform) const

double	operator() (int, int) const

Transform3D	operator* (const Transform3D &b) const

bool	operator== (const Transform3D &transform) const

const Transform3D_row	operator[] (int) const

	RotateY3D ()

	RotateY3D (double a)

void	setIdentity ()

double	xx () const

double	xy () const

double	xz () const

double	yx () const

double	yy () const

double	yz () const

double	zx () const

double	zy () const

double	zz () const

Static Public Attributes
static DLL_API const Transform3D	Identity = Transform3D ()

Protected Member Functions
void	setTransform (double XX, double XY, double XZ, double DX, double YX, double YY, double YZ, double DY, double ZX, double ZY, double ZZ, double DZ)

Protected Attributes
double	dx_

double	dy_

double	dz_

double	xx_

double	xy_

double	xz_

double	yx_

double	yy_

double	yz_

double	zx_

double	zy_

double	zz_

Detailed Description

Constructs a rotation around y-axis. This class provides additional constructors for Transform3D and should not be used as a separate class.

Example of use:

Transform3D m;

m = RotateY3D(30.*deg);

m

static constexpr double m

Definition: G4SIunits.hh:109

deg

static constexpr double deg

Definition: G4SIunits.hh:132

HepGeom::RotateY3D::RotateY3D

RotateY3D()

Definition: Transform3D.h:457

HepGeom::Transform3D::Transform3D

Transform3D()

Definition: Transform3D.h:210

Author: Evgue.nosp@m.ni.T.nosp@m.chern.nosp@m.iaev.nosp@m.@cern.nosp@m..ch

Definition at line 453 of file Transform3D.h.

Constructor & Destructor Documentation

◆ RotateY3D() [1/2]

HepGeom::RotateY3D::RotateY3D ( )

inline

Default constructor: sets the Identity transformation.

Definition at line 457 of file Transform3D.h.

457: Rotate3D() {}

HepGeom::Rotate3D::Rotate3D

Rotate3D()

Definition: Transform3D.h:374

◆ RotateY3D() [2/2]

HepGeom::RotateY3D::RotateY3D ( double a )

inline

Constructs a rotation around y-axis by angle a.

Definition at line 461 of file Transform3D.h.

                        {
      double cosa = std::cos(a), sina = std::sin(a);
      setTransform(cosa,0,sina,0,  0,1,0,0,  -sina,0,cosa,0);
    }

References HepGeom::Transform3D::setTransform().

Member Function Documentation

◆ dx()

double HepGeom::Transform3D::dx ( ) const

inlineinherited

Gets dx-element of the transformation matrix.

Definition at line 284 of file Transform3D.h.

284{ return dx_; }

HepGeom::Transform3D::dx_

double dx_

Definition: Transform3D.h:172

References HepGeom::Transform3D::dx_.

Referenced by G4VtkSceneHandler::AddCompound(), G4VtkSceneHandler::AddPrimitive(), G4VtkSceneHandler::AddPrimitiveTensorGlyph(), G4BoundingEnvelope::BoundingBoxVsVoxelLimits(), G4ReflectedSolid::BoundingLimits(), G4BoundingEnvelope::CalculateExtent(), G4PhysicalVolumeModel::DescribeAndDescend(), and operator<<().

◆ dy()

double HepGeom::Transform3D::dy ( ) const

inlineinherited

Gets dy-element of the transformation matrix.

Definition at line 287 of file Transform3D.h.

287{ return dy_; }

HepGeom::Transform3D::dy_

double dy_

Definition: Transform3D.h:173

References HepGeom::Transform3D::dy_.

Referenced by G4VtkSceneHandler::AddCompound(), G4VtkSceneHandler::AddPrimitive(), G4VtkSceneHandler::AddPrimitiveTensorGlyph(), G4BoundingEnvelope::BoundingBoxVsVoxelLimits(), G4ReflectedSolid::BoundingLimits(), G4BoundingEnvelope::CalculateExtent(), G4PhysicalVolumeModel::DescribeAndDescend(), and operator<<().

◆ dz()

double HepGeom::Transform3D::dz ( ) const

inlineinherited

Gets dz-element of the transformation matrix.

Definition at line 290 of file Transform3D.h.

290{ return dz_; }

HepGeom::Transform3D::dz_

double dz_

Definition: Transform3D.h:174

References HepGeom::Transform3D::dz_.

Referenced by G4VtkSceneHandler::AddCompound(), G4VtkSceneHandler::AddPrimitive(), G4VtkSceneHandler::AddPrimitiveTensorGlyph(), G4BoundingEnvelope::BoundingBoxVsVoxelLimits(), G4ReflectedSolid::BoundingLimits(), G4BoundingEnvelope::CalculateExtent(), G4PhysicalVolumeModel::DescribeAndDescend(), and operator<<().

◆ getDecomposition()

void HepGeom::Transform3D::getDecomposition	(	Scale3D &	scale,
		Rotate3D &	rotation,
		Translate3D &	translation
	)		const

inherited

Decomposition of general transformation. This function gets decomposition of the transformation in three consequentive specific transformations: Scale3D, then Rotate3D, then Translate3, i.e.

Transform3D = Translate3D * Rotate3D * Scale3D

Parameters

scale	output: scaling transformation; if there was a reflection, then scale factor for z-component (scale(2,2)) will be negative.
rotation	output: rotation transformaion.
translation	output: translation transformaion.

Definition at line 173 of file Transform3D.cc.

  {
    double sx = std::sqrt(xx_*xx_ + yx_*yx_ + zx_*zx_);
    double sy = std::sqrt(xy_*xy_ + yy_*yy_ + zy_*zy_);
    double sz = std::sqrt(xz_*xz_ + yz_*yz_ + zz_*zz_);
 
    if (xx_*(yy_*zz_-yz_*zy_) -
    xy_*(yx_*zz_-yz_*zx_) +
    xz_*(yx_*zy_-yy_*zx_) < 0) sz = -sz;
    scale.setTransform(sx,0,0,0,  0,sy,0,0, 0,0,sz,0);
    rotation.setTransform(xx_/sx,xy_/sy,xz_/sz,0,
              yx_/sx,yy_/sy,yz_/sz,0,
              zx_/sx,zy_/sy,zz_/sz,0); 
    translation.setTransform(1,0,0,dx_, 0,1,0,dy_, 0,0,1,dz_);
  }

Referenced by G4AssemblyVolume::AddPlacedAssembly(), G4AssemblyVolume::AddPlacedVolume(), G4PhysicalVolumeModel::DescribeAndDescend(), G4MultiUnion::GetGlobalVector(), G4MultiUnion::GetLocalVector(), operator<<(), G4GDMLWriteStructure::PhysvolWrite(), G4ReflectionFactory::Place(), and G4GDMLWriteStructure::TraverseVolumeTree().

◆ getRotation()

CLHEP::HepRotation HepGeom::Transform3D::getRotation ( ) const

inlineinherited

Extracts the rotation matrix. This functions is obsolete - use getDecomposition() instead.

Referenced by G4AssemblyVolume::AddPlacedAssembly(), G4AssemblyVolume::AddPlacedVolume(), G4VtkSceneHandler::AddPrimitive(), G4GMocrenFileSceneHandler::AddPrimitive(), G4GMocrenFileSceneHandler::AddSolid(), G4HepRepFileSceneHandler::AddSolid(), G4ReflectedSolid::BoundingLimits(), G4ReflectedSolid::CalculateExtent(), G4tgbGeometryDumper::DumpMultiUnionVolume(), G4GMocrenFileSceneHandler::EndSavingGdd(), G4PVPlacement::G4PVPlacement(), operator<<(), G4GDMLWriteStructure::PhysvolWrite(), G4ReflectedSolid::StreamInfo(), and G4GDMLWriteStructure::TraverseVolumeTree().

◆ getTranslation()

CLHEP::Hep3Vector HepGeom::Transform3D::getTranslation ( ) const

inlineinherited

Extracts the translation vector. This functions is obsolete - use getDecomposition() instead.

Referenced by G4AssemblyVolume::AddPlacedAssembly(), G4AssemblyVolume::AddPlacedVolume(), G4GMocrenFileSceneHandler::AddPrimitive(), G4GMocrenFileSceneHandler::AddSolid(), G4ReflectedSolid::BoundingLimits(), G4ReflectedSolid::CalculateExtent(), G4tgbGeometryDumper::DumpMultiUnionVolume(), G4GMocrenFileSceneHandler::EndSavingGdd(), G4GDMLWriteSolids::MultiUnionWrite(), operator<<(), G4GDMLWriteStructure::PhysvolWrite(), G4ReflectedSolid::StreamInfo(), G4BoundingEnvelope::TransformVertices(), and G4GDMLWriteStructure::TraverseVolumeTree().

◆ inverse()

Transform3D HepGeom::Transform3D::inverse ( ) const

inherited

Returns the inverse transformation.

Definition at line 141 of file Transform3D.cc.

  {
    double detxx = yy_*zz_-yz_*zy_;
    double detxy = yx_*zz_-yz_*zx_;
    double detxz = yx_*zy_-yy_*zx_;
    double det   = xx_*detxx - xy_*detxy + xz_*detxz;
    if (det == 0) {
      std::cerr << "Transform3D::inverse error: zero determinant" << std::endl;
      return Transform3D();
    }
    det = 1./det; detxx *= det; detxy *= det; detxz *= det;
    double detyx = (xy_*zz_ - xz_*zy_)*det;
    double detyy = (xx_*zz_ - xz_*zx_)*det;
    double detyz = (xx_*zy_ - xy_*zx_)*det;
    double detzx = (xy_*yz_ - xz_*yy_)*det;
    double detzy = (xx_*yz_ - xz_*yx_)*det;
    double detzz = (xx_*yy_ - xy_*yx_)*det;
    return Transform3D
      (detxx, -detyx,  detzx, -detxx*dx_+detyx*dy_-detzx*dz_,
      -detxy,  detyy, -detzy,  detxy*dx_-detyy*dy_+detzy*dz_,
       detxz, -detyz,  detzz, -detxz*dx_+detyz*dy_-detzz*dz_);
  }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::Transform3D(), HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

Referenced by G4VtkSceneHandler::AddPrimitiveTensorGlyph(), G4PhysicalVolumeModel::DescribeAndDescend(), G4PhysicalVolumeModel::DescribeSolid(), G4ScoringBox::Draw(), G4ScoringCylinder::Draw(), G4ScoringBox::DrawColumn(), G4ScoringCylinder::DrawColumn(), G4GMocrenFileSceneHandler::ExtractDetector(), G3toG4BuildPVTree(), G4MultiUnion::GetLocalPoint(), G4MultiUnion::GetLocalVector(), G4ReflectedSolid::GetTransform3D(), GetTransform3D(), G4ReflectionFactory::Place(), G4ReflectionFactory::ReflectPVPlacement(), SubstractSolids(), and G4GDMLWriteStructure::TraverseVolumeTree().

◆ isNear()

bool HepGeom::Transform3D::isNear	(	const Transform3D &	t,
		double	tolerance = `2.2E-14`
	)		const

inherited

Returns true if the difference between corresponding matrix elements is less than the tolerance.

Definition at line 203 of file Transform3D.cc.

  { 
    return ( (std::abs(xx_ - t.xx_) <= tolerance) && 
         (std::abs(xy_ - t.xy_) <= tolerance) &&
         (std::abs(xz_ - t.xz_) <= tolerance) &&
         (std::abs(dx_ - t.dx_) <= tolerance) &&
         (std::abs(yx_ - t.yx_) <= tolerance) &&
         (std::abs(yy_ - t.yy_) <= tolerance) &&
         (std::abs(yz_ - t.yz_) <= tolerance) &&
         (std::abs(dy_ - t.dy_) <= tolerance) &&
         (std::abs(zx_ - t.zx_) <= tolerance) &&
         (std::abs(zy_ - t.zy_) <= tolerance) &&
         (std::abs(zz_ - t.zz_) <= tolerance) &&
         (std::abs(dz_ - t.dz_) <= tolerance) );
  }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

◆ operator!=()

bool HepGeom::Transform3D::operator!= ( const Transform3D & transform ) const

inlineinherited

Test for inequality.

Definition at line 349 of file Transform3D.h.

                                                           {
      return ! operator==(transform);
    }

References HepGeom::Transform3D::operator==(), and G4coutFormatters::anonymous_namespace{G4coutFormatters.cc}::transform().

◆ operator()()

double HepGeom::Transform3D::operator()	(	int	i,
		int	j
	)		const

inherited

Fortran-style subscripting: returns (i,j) element of the matrix.

Definition at line 23 of file Transform3D.cc.

                                                     {
    if (i == 0) {
      if (j == 0) { return xx_; }
      if (j == 1) { return xy_; }
      if (j == 2) { return xz_; } 
      if (j == 3) { return dx_; } 
    } else if (i == 1) {
      if (j == 0) { return yx_; }
      if (j == 1) { return yy_; }
      if (j == 2) { return yz_; } 
      if (j == 3) { return dy_; } 
    } else if (i == 2) {
      if (j == 0) { return zx_; }
      if (j == 1) { return zy_; }
      if (j == 2) { return zz_; } 
      if (j == 3) { return dz_; } 
    } else if (i == 3) {
      if (j == 0) { return 0.0; }
      if (j == 1) { return 0.0; }
      if (j == 2) { return 0.0; } 
      if (j == 3) { return 1.0; } 
    } 
    std::cerr << "Transform3D subscripting: bad indices "
          << "(" << i << "," << j << ")" << std::endl;
    return 0.0;
  }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

◆ operator*()

Transform3D HepGeom::Transform3D::operator* ( const Transform3D & b ) const

inherited

Transformation by another Transform3D.

Definition at line 51 of file Transform3D.cc.

                                                                {
    return Transform3D
      (xx_*b.xx_+xy_*b.yx_+xz_*b.zx_, xx_*b.xy_+xy_*b.yy_+xz_*b.zy_,
       xx_*b.xz_+xy_*b.yz_+xz_*b.zz_, xx_*b.dx_+xy_*b.dy_+xz_*b.dz_+dx_,
       yx_*b.xx_+yy_*b.yx_+yz_*b.zx_, yx_*b.xy_+yy_*b.yy_+yz_*b.zy_,
       yx_*b.xz_+yy_*b.yz_+yz_*b.zz_, yx_*b.dx_+yy_*b.dy_+yz_*b.dz_+dy_,
       zx_*b.xx_+zy_*b.yx_+zz_*b.zx_, zx_*b.xy_+zy_*b.yy_+zz_*b.zy_,
       zx_*b.xz_+zy_*b.yz_+zz_*b.zz_, zx_*b.dx_+zy_*b.dy_+zz_*b.dz_+dz_);
  }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::Transform3D(), HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

◆ operator==()

bool HepGeom::Transform3D::operator== ( const Transform3D & transform ) const

inherited

Test for equality.

Definition at line 220 of file Transform3D.cc.

  {
    return (this == &t) ? true :
      (xx_==t.xx_ && xy_==t.xy_ && xz_==t.xz_ && dx_==t.dx_ && 
       yx_==t.yx_ && yy_==t.yy_ && yz_==t.yz_ && dy_==t.dy_ &&
       zx_==t.zx_ && zy_==t.zy_ && zz_==t.zz_ && dz_==t.dz_ );
  }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

Referenced by HepGeom::Transform3D::operator!=().

◆ operator[]()

const Transform3D_row HepGeom::Transform3D::operator[] ( int ) const

inlineinherited

Returns object of the helper class for C-style subscripting r[i][j]

◆ setIdentity()

void HepGeom::Transform3D::setIdentity ( )

inlineinherited

Sets the Identity transformation.

Definition at line 294 of file Transform3D.h.

                       {
      xy_= xz_= dx_= yx_= yz_= dy_= zx_= zy_= dz_= 0; xx_= yy_= zz_= 1;
    }

References HepGeom::Transform3D::dx_, HepGeom::Transform3D::dy_, HepGeom::Transform3D::dz_, HepGeom::Transform3D::xx_, HepGeom::Transform3D::xy_, HepGeom::Transform3D::xz_, HepGeom::Transform3D::yx_, HepGeom::Transform3D::yy_, HepGeom::Transform3D::yz_, HepGeom::Transform3D::zx_, HepGeom::Transform3D::zy_, and HepGeom::Transform3D::zz_.

Referenced by HepGeom::Reflect3D::Reflect3D(), and HepGeom::Transform3D::Transform3D().

◆ setTransform()

void HepGeom::Transform3D::setTransform	(	double	XX,
		double	XY,
		double	XZ,
		double	DX,
		double	YX,
		double	YY,
		double	YZ,
		double	DY,
		double	ZX,
		double	ZY,
		double	ZZ,
		double	DZ
	)

inlineprotectedinherited

Definition at line 185 of file Transform3D.h.

                                                          {
      xx_ = XX; xy_ = XY; xz_ = XZ; dx_ = DX;
      yx_ = YX; yy_ = YY; yz_ = YZ; dy_ = DY;
      zx_ = ZX; zy_ = ZY; zz_ = ZZ; dz_ = DZ;
    }