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G4AffineTransform.hh
Go to the documentation of this file.
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//
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//
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//
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// $Id: G4AffineTransform.hh 66356 2012-12-18 09:02:32Z gcosmo $
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//
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//
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// class G4AffineTransform
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//
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// Class description:
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//
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// A class for geometric affine transformations [see, eg. Foley & Van Dam]
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// Supports efficient arbitrary rotation & transformation of vectors and the
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// computation of compound & inverse transformations. A `rotation flag' is
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// maintained internally for greater computational efficiency for transforms
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// that do not involve rotation.
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//
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// Interfaces to the CLHEP classes G4ThreeVector & G4RotationMatrix
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//
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// For member function descriptions, see comments by declarations. For
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// additional clarification, also check the `const' declarations for
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// functions & their parameters.
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//
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// Member data:
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//
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// G4double rxx,rxy,rxz;
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// G4double ryx,ryy,ryz; A 3x3 rotation matrix - net rotation
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// G4double rzx,rzy,rzz;
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// G4double tx,ty,tz; Net translation
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// History:
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// Paul R C Kent 6 Aug 1996 - initial version
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//
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// 19.09.96 E.Chernyaev:
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// - direct access to the protected members of the G4RotationMatrix class
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// replaced by access via public access functions
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// - conversion of the rotation matrix to angle & axis used to get
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// a possibility to remove "friend" from the G4RotationMatrix class
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// --------------------------------------------------------------------
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#ifndef G4AFFINETRANSFORM_HH
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#define G4AFFINETRANSFORM_HH
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#include "
G4Types.hh
"
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#include "
G4ThreeVector.hh
"
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#include "
G4RotationMatrix.hh
"
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class
G4AffineTransform
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{
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public
:
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G4AffineTransform
();
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public
:
// with description
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G4AffineTransform
(
const
G4ThreeVector
&tlate);
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// Translation only: under t'form translate point at origin by tlate
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G4AffineTransform
(
const
G4RotationMatrix
&rot);
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// Rotation only: under t'form rotate by rot
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G4AffineTransform
(
const
G4RotationMatrix
&rot,
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const
G4ThreeVector
&tlate);
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// Under t'form: rotate by rot then translate by tlate
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G4AffineTransform
(
const
G4RotationMatrix
*rot,
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const
G4ThreeVector
&tlate);
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// Optionally rotate by *rot then translate by tlate - rot may be null
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G4AffineTransform
operator *
(
const
G4AffineTransform
&tf)
const
;
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// Compound Transforms:
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// tf2=tf2*tf1 equivalent to tf2*=tf1
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// Returns compound transformation of self*tf
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G4AffineTransform
&
operator *=
(
const
G4AffineTransform
&tf);
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// (Modifying) Multiplies self by tf; Returns self reference
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// ie. A=AB for a*=b
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G4AffineTransform
&
Product
(
const
G4AffineTransform
&tf1,
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const
G4AffineTransform
&tf2);
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// 'Products' for avoiding (potential) temporaries:
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// c.Product(a,b) equivalent to c=a*b
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// c.InverseProduct(a*b,b ) equivalent to c=a
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// (Modifying) Sets self=tf1*tf2; Returns self reference
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G4AffineTransform
&
InverseProduct
(
const
G4AffineTransform
&tf1,
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const
G4AffineTransform
&tf2);
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// (Modifying) Sets self=tf1*(tf2^-1); Returns self reference
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G4ThreeVector
TransformPoint
(
const
G4ThreeVector
&vec)
const
;
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// Transform the specified point: returns vec*rot+tlate
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G4ThreeVector
TransformAxis
(
const
G4ThreeVector
&axis)
const
;
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// Transform the specified axis: returns
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void
ApplyPointTransform
(
G4ThreeVector
&vec)
const
;
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// Transform the specified point (in place): sets vec=vec*rot+tlate
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void
ApplyAxisTransform
(
G4ThreeVector
&axis)
const
;
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// Transform the specified axis (in place): sets axis=axis*rot;
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G4AffineTransform
Inverse
()
const
;
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// Return inverse of current transform
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G4AffineTransform
&
Invert
();
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// (Modifying) Sets self=inverse of self; Returns self reference
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G4AffineTransform
&
operator +=
(
const
G4ThreeVector
&tlate);
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G4AffineTransform
&
operator -=
(
const
G4ThreeVector
&tlate);
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// (Modifying) Adjust net translation by given vector;
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// Returns self reference
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G4bool
operator ==
(
const
G4AffineTransform
&tf)
const
;
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G4bool
operator !=
(
const
G4AffineTransform
&tf)
const
;
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G4double
operator []
(
const
G4int
n
)
const
;
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G4bool
IsRotated
()
const
;
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// True if transform includes rotation
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G4bool
IsTranslated
()
const
;
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// True if transform includes translation
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G4RotationMatrix
NetRotation
()
const
;
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G4ThreeVector
NetTranslation
()
const
;
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void
SetNetRotation
(
const
G4RotationMatrix
&rot);
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void
SetNetTranslation
(
const
G4ThreeVector
&tlate);
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private
:
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G4AffineTransform
(
const
G4double
prxx,
const
G4double
prxy,
const
G4double
prxz,
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const
G4double
pryx,
const
G4double
pryy,
const
G4double
pryz,
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const
G4double
przx,
const
G4double
przy,
const
G4double
przz,
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const
G4double
ptx,
const
G4double
pty,
const
G4double
ptz );
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G4double
rxx
,
rxy
,
rxz
;
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G4double
ryx
,
ryy
,
ryz
;
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G4double
rzx
,
rzy
,
rzz
;
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G4double
tx
,
ty
,
tz
;
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};
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#include "
G4AffineTransform.icc
"
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#endif
G4AffineTransform::operator==
G4bool operator==(const G4AffineTransform &tf) const
G4AffineTransform::operator*=
G4AffineTransform & operator*=(const G4AffineTransform &tf)
G4Types.hh
G4ThreeVector
CLHEP::Hep3Vector G4ThreeVector
Definition:
G4ThreeVector.hh:42
G4RotationMatrix
CLHEP::HepRotation G4RotationMatrix
Definition:
G4RotationMatrix.hh:43
G4AffineTransform::Inverse
G4AffineTransform Inverse() const
G4AffineTransform::IsRotated
G4bool IsRotated() const
G4AffineTransform::NetTranslation
G4ThreeVector NetTranslation() const
G4AffineTransform::ApplyAxisTransform
void ApplyAxisTransform(G4ThreeVector &axis) const
G4int
int G4int
Definition:
G4Types.hh:78
G4AffineTransform::operator*
G4AffineTransform operator*(const G4AffineTransform &tf) const
G4AffineTransform::ryy
G4double ryy
Definition:
G4AffineTransform.hh:163
G4AffineTransform
Definition:
G4AffineTransform.hh:69
G4AffineTransform::rxx
G4double rxx
Definition:
G4AffineTransform.hh:162
G4AffineTransform::ty
G4double ty
Definition:
G4AffineTransform.hh:165
G4AffineTransform::Invert
G4AffineTransform & Invert()
G4AffineTransform::InverseProduct
G4AffineTransform & InverseProduct(const G4AffineTransform &tf1, const G4AffineTransform &tf2)
G4AffineTransform::SetNetTranslation
void SetNetTranslation(const G4ThreeVector &tlate)
G4AffineTransform.icc
G4AffineTransform::SetNetRotation
void SetNetRotation(const G4RotationMatrix &rot)
G4AffineTransform::rzy
G4double rzy
Definition:
G4AffineTransform.hh:164
G4AffineTransform::operator!=
G4bool operator!=(const G4AffineTransform &tf) const
G4AffineTransform::tz
G4double tz
Definition:
G4AffineTransform.hh:165
G4bool
bool G4bool
Definition:
G4Types.hh:79
G4AffineTransform::IsTranslated
G4bool IsTranslated() const
n
const G4int n
Definition:
G4UrQMD1_3Interface.hh:144
G4AffineTransform::tx
G4double tx
Definition:
G4AffineTransform.hh:165
G4AffineTransform::NetRotation
G4RotationMatrix NetRotation() const
G4AffineTransform::ryz
G4double ryz
Definition:
G4AffineTransform.hh:163
G4AffineTransform::TransformPoint
G4ThreeVector TransformPoint(const G4ThreeVector &vec) const
G4RotationMatrix.hh
G4AffineTransform::TransformAxis
G4ThreeVector TransformAxis(const G4ThreeVector &axis) const
G4AffineTransform::ryx
G4double ryx
Definition:
G4AffineTransform.hh:163
G4AffineTransform::Product
G4AffineTransform & Product(const G4AffineTransform &tf1, const G4AffineTransform &tf2)
G4AffineTransform::operator+=
G4AffineTransform & operator+=(const G4ThreeVector &tlate)
G4double
double G4double
Definition:
G4Types.hh:76
G4AffineTransform::operator[]
G4double operator[](const G4int n) const
G4ThreeVector.hh
G4AffineTransform::rxy
G4double rxy
Definition:
G4AffineTransform.hh:162
G4AffineTransform::G4AffineTransform
G4AffineTransform()
G4AffineTransform::rxz
G4double rxz
Definition:
G4AffineTransform.hh:162
G4AffineTransform::operator-=
G4AffineTransform & operator-=(const G4ThreeVector &tlate)
G4AffineTransform::rzz
G4double rzz
Definition:
G4AffineTransform.hh:164
G4AffineTransform::ApplyPointTransform
void ApplyPointTransform(G4ThreeVector &vec) const
G4AffineTransform::rzx
G4double rzx
Definition:
G4AffineTransform.hh:164
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G4AffineTransform.hh
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