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// $Id: Transform3D.h,v 1.5 2010/06/16 16:21:27 garren Exp $
// ---------------------------------------------------------------------------
//
// This file is a part of the CLHEP - a Class Library for High Energy Physics.
//
// Hep geometrical 3D Transformation class
//
// Author: Evgeni Chernyaev <Evgueni.Tcherniaev@cern.ch>
//
// ******************************************
// * *
// * Transform *
// * / / \ \ *
// * -------- / \ -------- *
// * / / \ \ *
// * Rotate Translate Reflect Scale *
// * / | \ / | \ / | \ / | \ *
// * X Y Z X Y Z X Y Z X Y Z *
// * *
// ******************************************
//
// Identity transformation:
// Transform3D::Identity - global identity transformation;
// any constructor without parameters, e.g. Transform3D();
// m.setIdentity() - set "m" to identity;
//
// General transformations:
// Transform3D(m,v) - transformation given by Rotation "m"
// and CLHEP::Hep3Vector "v";
// Transform3D(a0,a1,a2, b0,b1,b2) - transformation given by initial
// and transformed positions of three points;
// Rotations:
// Rotate3D(m) - rotation given by CLHEP::HepRotation "m";
// Rotate3D(ang,v) - rotation through the angle "ang" around
// vector "v";
// Rotate3D(ang,p1,p2) - rotation through the angle "ang"
// counterclockwise around the axis given by
// two points p1->p2;
// Rotate3D(a1,a2, b1,b2) - rotation around the origin defined by initial
// and transformed positions of two points;
// RotateX3D(ang) - rotation around X-axis;
// RotateY3D(ang) - rotation around Y-axis;
// RotateZ3D(ang) - rotation around Z-axis;
//
// Translations:
// Translate3D(v) - translation given by CLHEP::Hep3Vector "v";
// Translate3D(dx,dy,dz) - translation on vector (dx,dy,dz);
// TraslateX3D(dx) - translation along X-axis;
// TraslateY3D(dy) - translation along Y-axis;
// TraslateZ3D(dz) - translation along Z-axis;
//
// Reflections:
// Reflect3D(a,b,c,d) - reflection in the plane a*x+b*y+c*z+d=0;
// Reflect3D(normal,p) - reflection in the plane going through "p"
// and whose normal is equal to "normal";
// ReflectX3D(a) - reflect X in the plane x=a (default a=0);
// ReflectY3D(a) - reflect Y in the plane y=a (default a=0);
// ReflectZ3D(a) - reflect Z in the plane z=a (default a=0);
//
// Scalings:
// Scale3D(sx,sy,sz) - general scaling with factors "sx","sy","sz"
// along X, Y and Z;
// Scale3D(s) - scaling with constant factor "s" along all
// directions;
// ScaleX3D(sx) - scale X;
// ScaleY3D(sy) - scale Y;
// ScaleZ3D(sz) - scale Z;
//
// Inverse transformation:
// m.inverse() or - returns inverse transformation;
//
// Compound transformation:
// m3 = m2 * m1 - it is relatively slow in comparison with
// transformation of a vector. Use parenthesis
// to avoid this operation (see example below);
// Transformation of point:
// p2 = m * p1
//
// Transformation of vector:
// v2 = m * v1
//
// Transformation of normal:
// n2 = m * n1
//
// The following table explains how different transformations affect
// point, vector and normal. "+" means affect, "-" means do not affect,
// "*" meas affect but in different way than "+"
//
// Point Vector Normal
// -------------+-------+-------+-------
// Rotation ! + ! + ! +
// Translation ! + ! - ! -
// Reflection ! + ! + ! *
// Scaling ! + ! + ! *
// -------------+-------+-------+-------
//
// Example of the usage:
//
// Transform3D m1, m2, m3;
// HepVector3D v2, v1(0,0,0);
//
// m1 = Rotate3D(angle, Vector3D(1,1,1));
// m2 = Translate3D(dx,dy,dz);
// m3 = m1.inverse();
//
// v2 = m3*(m2*(m1*v1));
//
// History:
// 24.09.96 E.Chernyaev - initial version
//
// 26.02.97 E.Chernyaev
// - added global Identity by request of John Allison
// (to avoid problems with compilation on HP)
// - added getRotation and getTranslation
//
// 29.01.01 E.Chernyaev - added subscripting
// 11.06.01 E.Chernyaev - added getDecomposition
#ifndef HEP_TRANSFROM3D_H
#define HEP_TRANSFROM3D_H
#include "CLHEP/Geometry/defs.h"
#include "CLHEP/Vector/ThreeVector.h"
namespace HepGeom {
template<class T> class Point3D;
template<class T> class Vector3D;
template<class T> class Normal3D;
class Translate3D;
class Rotate3D;
class Scale3D;
/**
* Class for transformation of 3D geometrical objects.
* It allows different translations, rotations, scalings and reflections.
* Several specialized classes are derived from it:
*
* TranslateX3D, TranslateY3D, TranslateZ3D, Translate3D,<br>
* RotateX3D, RotateY3D, RotateZ3D, Rotate3D, <br>
* ScaleX3D, ScaleY3D, ScaleZ3D, Scale3D, <br>
* ReflectX3D, ReflectY3D, ReflectZ3D, Reflect3D.
*
* The idea behind these classes is to provide some additional constructors
* for Transform3D, they normally should not be used as separate classes.
*
* Example:
* @code
* HepGeom::Transform3D m;
* m = HepGeom::TranslateX3D(10.*cm);
* @endcode
*
* Remark:
* For the reason that the operator* is left associative, the notation
* @code
* v2 = m3*(m2*(m1*v1));
* @endcode
* is much more effective then the notation
* @code
* v2 = m3*m2*m1*v1;
* @endcode
* In the first case three operations Transform3D*Vector3D are executed,
* in the second case two operations Transform3D*Transform3D and one
* Transform3D*Vector3D are performed. Transform3D*Transform3D is
* roughly three times slower than Transform3D*Vector3D.
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class Transform3D {
protected:
double xx_, xy_, xz_, dx_, // 4x3 Transformation Matrix
yx_, yy_, yz_, dy_,
zx_, zy_, zz_, dz_;
// Protected constructor
Transform3D(double XX, double XY, double XZ, double DX,
double YX, double YY, double YZ, double DY,
double ZX, double ZY, double ZZ, double DZ)
: xx_(XX), xy_(XY), xz_(XZ), dx_(DX),
yx_(YX), yy_(YY), yz_(YZ), dy_(DY),
zx_(ZX), zy_(ZY), zz_(ZZ), dz_(DZ) {}
// Set transformation matrix
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) {
xx_ = XX; xy_ = XY; xz_ = XZ; dx_ = DX;
yx_ = YX; yy_ = YY; yz_ = YZ; dy_ = DY;
zx_ = ZX; zy_ = ZY; zz_ = ZZ; dz_ = DZ;
}
public:
/**
* Global identity transformation. */
static const Transform3D Identity;
// Helper class for implemention of C-style subscripting r[i][j]
class Transform3D_row {
public:
inline Transform3D_row(const Transform3D &, int);
inline double operator [] (int) const;
private:
const Transform3D & rr;
int ii;
};
/**
* Default constructor - sets the Identity transformation. */
Transform3D()
: xx_(1), xy_(0), xz_(0), dx_(0),
yx_(0), yy_(1), yz_(0), dy_(0),
zx_(0), zy_(0), zz_(1), dz_(0) {}
/**
* Constructor: rotation and then translation. */
inline Transform3D(const CLHEP::HepRotation & m, const CLHEP::Hep3Vector & v);
/**
* Constructor: transformation of basis (assumed - no reflection). */
Transform3D(const Point3D<double> & fr0,
const Point3D<double> & fr1,
const Point3D<double> & fr2,
const Point3D<double> & to0,
const Point3D<double> & to1,
const Point3D<double> & to2);
/**
* Copy constructor. */
Transform3D(const Transform3D & m)
: xx_(m.xx_), xy_(m.xy_), xz_(m.xz_), dx_(m.dx_),
yx_(m.yx_), yy_(m.yy_), yz_(m.yz_), dy_(m.dy_),
zx_(m.zx_), zy_(m.zy_), zz_(m.zz_), dz_(m.dz_) {}
/**
* Destructor.
* Virtual for now as some persistency mechanism needs that,
* in future releases this might go away again.
*/
~Transform3D() { /* nop */ }
/**
* Returns object of the helper class for C-style subscripting r[i][j] */
inline const Transform3D_row operator [] (int) const;
/** Fortran-style subscripting: returns (i,j) element of the matrix. */
double operator () (int, int) const;
/**
* Gets xx-element of the transformation matrix. */
double xx() const { return xx_; }
/**
* Gets xy-element of the transformation matrix. */
double xy() const { return xy_; }
/**
* Gets xz-element of the transformation matrix. */
double xz() const { return xz_; }
/**
* Gets yx-element of the transformation matrix. */
double yx() const { return yx_; }
/**
* Gets yy-element of the transformation matrix. */
double yy() const { return yy_; }
/**
* Gets yz-element of the transformation matrix. */
double yz() const { return yz_; }
/**
* Gets zx-element of the transformation matrix. */
double zx() const { return zx_; }
/**
* Gets zy-element of the transformation matrix. */
double zy() const { return zy_; }
/**
* Gets zz-element of the transformation matrix. */
double zz() const { return zz_; }
/**
* Gets dx-element of the transformation matrix. */
double dx() const { return dx_; }
/**
* Gets dy-element of the transformation matrix. */
double dy() const { return dy_; }
/**
* Gets dz-element of the transformation matrix. */
double dz() const { return dz_; }
/**
* Assignment. */
Transform3D & operator=(const Transform3D &m) {
xx_= m.xx_; xy_= m.xy_; xz_= m.xz_; dx_= m.dx_;
yx_= m.yx_; yy_= m.yy_; yz_= m.yz_; dy_= m.dy_;
zx_= m.zx_; zy_= m.zy_; zz_= m.zz_; dz_= m.dz_;
return *this;
}
/**
* Sets the Identity transformation. */
void setIdentity() {
xy_= xz_= dx_= yx_= yz_= dy_= zx_= zy_= dz_= 0; xx_= yy_= zz_= 1;
}
/**
* Returns the inverse transformation. */
Transform3D inverse() const;
/**
* Transformation by another Transform3D. */
Transform3D operator*(const Transform3D & b) const;
/**
* Decomposition of general transformation.
* This function gets decomposition of the transformation
* in three consequentive specific transformations: Scale3D,
* then Rotate3D, then Translate3, i.e.
* @code
* Transform3D = Translate3D * Rotate3D * Scale3D
* @endcode
*
* @param scale output: scaling transformation;
* if there was a reflection, then scale factor for
* z-component (scale(2,2)) will be negative.
* @param rotation output: rotation transformaion.
* @param translation output: translation transformaion.
*/
void getDecomposition(Scale3D & scale,
Rotate3D & rotation,
Translate3D & translation) const;
/**
* Returns true if the difference between corresponding
* matrix elements is less than the tolerance.
*/
bool isNear(const Transform3D & t, double tolerance = 2.2E-14 ) const;
/**
* Extracts the rotation matrix.
* This functions is obsolete - use getDecomposition() instead.
*/
inline CLHEP::HepRotation getRotation() const;
/**
* Extracts the translation vector.
* This functions is obsolete - use getDecomposition() instead.
*/
inline CLHEP::Hep3Vector getTranslation() const;
/**
* Test for equality. */
bool operator == (const Transform3D & transform) const;
/**
* Test for inequality. */
bool operator != (const Transform3D & transform) const {
return ! operator==(transform);
}
};
// R O T A T I O N S
/**
* Constructs a rotation transformation.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = Rotate3D(30.*deg, HepVector3D(1.,1.,1.));
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class Rotate3D : public Transform3D {
public:
/**
* Default constructor: sets the Identity transformation. */
Rotate3D() : Transform3D() {}
/**
* Constructor from CLHEP::HepRotation. */
inline Rotate3D(const CLHEP::HepRotation &m);
/**
* Constructor from angle and axis given by two points.
* @param a angle of rotation
* @param p1 begin point of the axis
* @param p2 end point of the axis
*/
Rotate3D(double a,
const Point3D<double> & p1,
const Point3D<double> & p2);
/**
* Constructor from angle and axis.
* @param a angle of rotation
* @param v axis of rotation
*/
inline Rotate3D(double a, const Vector3D<double> & v);
/**
* Constructor for rotation given by original and rotated position of
* two points. It is assumed that there is no reflection.
* @param fr1 original position of 1st point
* @param fr2 original position of 2nd point
* @param to1 rotated position of 1st point
* @param to2 rotated position of 2nd point
*/
inline Rotate3D(const Point3D<double> & fr1,
const Point3D<double> & fr2,
const Point3D<double> & to1,
const Point3D<double> & to2);
};
/**
* Constructs a rotation around x-axis.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = RotateX3D(30.*deg);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class RotateX3D : public Rotate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
RotateX3D() : Rotate3D() {}
/**
* Constructs a rotation around x-axis by angle a. */
RotateX3D(double a) {
double cosa = std::cos(a), sina = std::sin(a);
setTransform(1,0,0,0, 0,cosa,-sina,0, 0,sina,cosa,0);
}
};
/**
* 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:
* @code
* Transform3D m;
* m = RotateY3D(30.*deg);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class RotateY3D : public Rotate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
RotateY3D() : Rotate3D() {}
/**
* Constructs a rotation around y-axis by angle a. */
RotateY3D(double a) {
double cosa = std::cos(a), sina = std::sin(a);
setTransform(cosa,0,sina,0, 0,1,0,0, -sina,0,cosa,0);
}
};
/**
* Constructs a rotation around z-axis.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = RotateZ3D(30.*deg);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class RotateZ3D : public Rotate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
RotateZ3D() : Rotate3D() {}
/**
* Constructs a rotation around z-axis by angle a. */
RotateZ3D(double a) {
double cosa = std::cos(a), sina = std::sin(a);
setTransform(cosa,-sina,0,0, sina,cosa,0,0, 0,0,1,0);
}
};
// T R A N S L A T I O N S
/**
* Constructs a translation transformation.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = Translate3D(10.,20.,30.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class Translate3D : public Transform3D {
public:
/**
* Default constructor: sets the Identity transformation. */
Translate3D() : Transform3D() {}
/**
* Constructor from CLHEP::Hep3Vector. */
inline Translate3D(const CLHEP::Hep3Vector &v);
/**
* Constructor from three numbers. */
Translate3D(double x, double y, double z)
: Transform3D(1,0,0,x, 0,1,0,y, 0,0,1,z) {}
};
/**
* Constructs a translation along x-axis.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = TranslateX3D(10.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class TranslateX3D : public Translate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
TranslateX3D() : Translate3D() {}
/**
* Constructor from a number. */
TranslateX3D(double x) : Translate3D(x, 0, 0) {}
};
/**
* Constructs a translation along y-axis.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = TranslateY3D(10.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class TranslateY3D : public Translate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
TranslateY3D() : Translate3D() {}
/**
* Constructor from a number. */
TranslateY3D(double y) : Translate3D(0, y, 0) {}
};
/**
* Constructs a translation along z-axis.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = TranslateZ3D(10.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class TranslateZ3D : public Translate3D {
public:
/**
* Default constructor: sets the Identity transformation. */
TranslateZ3D() : Translate3D() {}
/**
* Constructor from a number. */
TranslateZ3D(double z) : Translate3D(0, 0, z) {}
};
// R E F L E C T I O N S
/**
* Constructs a reflection transformation.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = Reflect3D(1.,1.,1.,0.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class Reflect3D : public Transform3D {
protected:
Reflect3D(double XX, double XY, double XZ, double DX,
double YX, double YY, double YZ, double DY,
double ZX, double ZY, double ZZ, double DZ)
: Transform3D(XX,XY,XZ,DX, YX,YY,YZ,DY, ZX,ZY,ZZ,DZ) {}
public:
/**
* Default constructor: sets the Identity transformation. */
Reflect3D() : Transform3D() {}
/**
* Constructor from four numbers.
* Sets reflection in a plane a*x+b*y+c*z+d=0
*/
Reflect3D(double a, double b, double c, double d);
/**
* Constructor from a plane given by its normal and origin. */
inline Reflect3D(const Normal3D<double> & normal,
const Point3D<double> & point);
};
/**
* Constructs reflection in a plane x=const.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ReflectX3D(1.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ReflectX3D : public Reflect3D {
public:
/**
* Constructor from a number. */
ReflectX3D(double x=0) : Reflect3D(-1,0,0,x+x, 0,1,0,0, 0,0,1,0) {}
};
/**
* Constructs reflection in a plane y=const.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ReflectY3D(1.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ReflectY3D : public Reflect3D {
public:
/**
* Constructor from a number. */
ReflectY3D(double y=0) : Reflect3D(1,0,0,0, 0,-1,0,y+y, 0,0,1,0) {}
};
/**
* Constructs reflection in a plane z=const.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ReflectZ3D(1.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ReflectZ3D : public Reflect3D {
public:
/**
* Constructor from a number. */
ReflectZ3D(double z=0) : Reflect3D(1,0,0,0, 0,1,0,0, 0,0,-1,z+z) {}
};
// S C A L I N G S
/**
* Constructs a scaling transformation.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = Scale3D(2.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class Scale3D : public Transform3D {
public:
/**
* Default constructor: sets the Identity transformation. */
Scale3D() : Transform3D() {}
/**
* Constructor from three numbers - scale factors in different directions.
*/
Scale3D(double x, double y, double z)
: Transform3D(x,0,0,0, 0,y,0,0, 0,0,z,0) {}
/**
* Constructor from a number: sets uniform scaling in all directions. */
Scale3D(double s)
: Transform3D(s,0,0,0, 0,s,0,0, 0,0,s,0) {}
};
/**
* Constructs a scaling transformation in x-direction.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ScaleX3D(2.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ScaleX3D : public Scale3D {
public:
/**
* Default constructor: sets the Identity transformation. */
ScaleX3D() : Scale3D() {}
/**
* Constructor from a number (scale factor in x-direction). */
ScaleX3D(double x) : Scale3D(x, 1, 1) {}
};
/**
* Constructs a scaling transformation in y-direction.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ScaleY3D(2.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ScaleY3D : public Scale3D {
public:
/**
* Default constructor: sets the Identity transformation. */
ScaleY3D() : Scale3D() {}
/**
* Constructor from a number (scale factor in y-direction). */
ScaleY3D(double y) : Scale3D(1, y, 1) {}
};
/**
* Constructs a scaling transformation in z-direction.
* This class provides additional constructors for Transform3D
* and should not be used as a separate class.
*
* Example of use:
* @code
* Transform3D m;
* m = ScaleZ3D(2.);
* @endcode
*
* @author <Evgueni.Tcherniaev@cern.ch>
* @ingroup geometry
*/
class ScaleZ3D : public Scale3D {
public:
/**
* Default constructor: sets the Identity transformation. */
ScaleZ3D() : Scale3D() {}
/**
* Constructor from a number (scale factor in z-direction). */
ScaleZ3D(double z) : Scale3D(1, 1, z) {}
};
} /* namespace HepGeom */
#ifdef ENABLE_BACKWARDS_COMPATIBILITY
// backwards compatibility will be enabled ONLY in CLHEP 1.9
typedef HepGeom::Transform3D HepTransform3D;
typedef HepGeom::Rotate3D HepRotate3D;
typedef HepGeom::RotateX3D HepRotateX3D;
typedef HepGeom::RotateY3D HepRotateY3D;
typedef HepGeom::RotateZ3D HepRotateZ3D;
typedef HepGeom::Translate3D HepTranslate3D;
typedef HepGeom::TranslateX3D HepTranslateX3D;
typedef HepGeom::TranslateY3D HepTranslateY3D;
typedef HepGeom::TranslateZ3D HepTranslateZ3D;
typedef HepGeom::Reflect3D HepReflect3D;
typedef HepGeom::ReflectX3D HepReflectX3D;
typedef HepGeom::ReflectY3D HepReflectY3D;
typedef HepGeom::ReflectZ3D HepReflectZ3D;
typedef HepGeom::Scale3D HepScale3D;
typedef HepGeom::ScaleX3D HepScaleX3D;
typedef HepGeom::ScaleY3D HepScaleY3D;
typedef HepGeom::ScaleZ3D HepScaleZ3D;
#endif
#include "CLHEP/Geometry/Transform3D.icc"
#endif /* HEP_TRANSFROM3D_H */
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