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MathPlane Class Reference

Infinite plane Shape (or half space). More...

#include <MathPlane.hxx>

Inheritance diagram for MathPlane:
Shape TReference MCNP::Plane Serpent::Plane

Public Member Functions

Constructors
 MathPlane (double A=0, double B=0, double C=1, double D=0, int Sign=- 1)
 Normal Constructor.
 
Shape_ptr Clone (int count=0) override
 Clone a Shape.
 
void Copy (Shape_ptr P) override
 Copy all attributs of a Shape (but not attributs of the father classes).
 
Shape parameters
unsigned IsPlane () override
 
double GetA ()
 
double GetB ()
 
double GetC ()
 
double GetD ()
 
Relations with other shapes
unsigned IsIncluded (Shape_ptr OtherShape) override
 return 1 if the Plane is included in OtherShape otherwise 0
 
unsigned IsDisjoint (Shape_ptr OtherShape) override
 return 1 if the Plane is disjoint of OtherShape otherwise 0
 
Shape transformations
void Translate (double dx, double dy, double dz, int count=0) override
 Translate the Node of (dx, dy, dz).
 
void Rotate (double phi, double theta=0, double psi=0, double *center=nullptr, int count=0) override
 Rotate the Shape clockwise.
 
- Public Member Functions inherited from Shape
 Shape ()
 Default constructor. The interior of a Shape is built.
 
 Shape (const Shape &s)
 Copy constructor.
 
 ~Shape () override
 Normal destructor.
 
Shape_ptr Not ()
 Return the complementary Shape (i.e. the other side)
 
void NewNot ()
 
void SetClone (Shape_ptr clone)
 
void SetClone2Not ()
 Set the CloneShape to a Not.
 
int GetSign ()
 
void SetSign (int s)
 
void SetOutermostShape (bool flag=true)
 Say that this Shape is the most outer one.
 
virtual unsigned IsBrick ()
 
virtual unsigned IsCylinder ()
 
virtual unsigned IsFullVoid ()
 
virtual unsigned IsHexagon ()
 
virtual unsigned IsNode ()
 
virtual unsigned IsSphere ()
 
virtual unsigned IsTube ()
 
virtual unsigned IsFull ()
 
virtual unsigned IsVoid ()
 
virtual unsigned IsZTorus ()
 
bool IsInfinite ()
 
virtual double GetVolume ()
 Get the Volume of a Shape.
 
void SetVolume (double V)
 
virtual double GetArea ()
 Get the Area of a Shape.
 
void SetArea (double S)
 
virtual void SetMirrorBoundary (bool state=true)
 mirror a particle on the surface
 
virtual void SetTopBottomPlanesOpen ()
 
virtual bool IsTopBottomPlanesOpen ()
 
virtual void SetSidePlanesOpen ()
 
virtual bool IsSidePlanesOpen ()
 
virtual void SetWhiteBoundary (bool state=true)
 
virtual void SetPeriodicBoundary (bool state=true, string TopBottPlaneBC="mirror")
 Periodic boundary (WARNING: only for Brick and Hexagon).
 
virtual bool IsMirrorBoundary ()
 
virtual bool IsWhiteBoundary ()
 
virtual bool IsPeriodicBoundary ()
 
virtual unsigned Add (Shape_ptr OtherShape)
 Add a new Shape (in fact a Shape_ptr) to a Node.
 
virtual void ReplaceLeaf (int i, Shape_ptr OtherShape)
 
unsigned AddInsideShape (Shape_ptr OtherShape)
 Add a Shape in fInsideShape each time a "put in" is done.
 
unsigned AddOriginalInsideShape (Shape_ptr OtherShape)
 This method is called by Shape::AddInsideShape.
 
void ClearOriginalInsideShape ()
 
void ClearInsideShape ()
 
unsigned GetInsideShapeSize ()
 
unsigned GetOriginalInsideShapeSize ()
 
void SetInsideShape (int i, Shape_ptr S)
 
void SetOriginalInsideShape (int i, Shape_ptr S)
 
Shape_ptr GetInsideShape (int i)
 
Shape_ptr GetOriginalInsideShape (int i)
 
virtual Shape_ptr GetLeaf (int i)
 
virtual int GetNumberOfLeaves ()
 
string GetShapeName ()
 returns the Shape name
 
virtual int NumberOfShapes ()
 
void SetDebugName (string str)
 
string GetDebugName ()
 
virtual void SetUniverse (int u=- 1)
 Set the Universe number for a Shape .
 
virtual void SetFill (int f)
 
int GetFill ()
 
int GetUniverse ()
 
void IncrementSurface (double S)
 
virtual double GetVirtualSphereRadius ()
 
virtual double * GetVirtualSphereCenter ()
 
virtual void RemoveSurface ()
 
virtual string Print ()
 
virtual void PrintX (int count=0)
 Debug method: Print the shape surface when fMouvement=true.
 
virtual void PrintY (int count=0)
 Debug method: Print the shape surfaces, InsideShape, ...
 
virtual void SetLinkedPlane (Shape_ptr P)
 
virtual void ReplaceNode (Shape_ptr C)
 Replace a Node by an other (C must be a Node)
 
virtual SurfaceCardGetSurfaceCard ()
 
virtual SurfaceCardGetSurfaceCard (int i)
 
virtual void ResetIsDefinedSurfaceCalled ()
 
virtual void Simplify (bool violent=false)
 Simplify a tree of Node.
 
virtual void SetMouvement (bool state=true)
 
virtual void UnSetMouvement ()
 Set the fMouvement flag to false;.
 
bool GetMouvement ()
 
virtual void DevElague (int count=0, bool violent=false)
 Developps and Trims a tree of Node.
 
void SetViolentSimplify (bool Allowed=true)
 Enable/disable violent simplification a certain shapes to avoid "union" (for Serpent outside)
 
void SetFreezeSimplify (bool flag=true)
 Enable/disable simplification a certain nodes to avoid "union" (for Serpent outside)
 
bool IsViolentSimplifyAllowed ()
 
virtual int GetMonoSurfaceType ()
 
void SetInfinite ()
 
- Public Member Functions inherited from TReference
 TReference ()
 
virtual ~TReference ()=default
 Destructor.
 
void AddReference (unsigned n=1)
 
unsigned DelReference (unsigned n=1)
 
unsigned Reference ()
 

Miscellaneous methods

double fA
 1st component of the normal vector
 
double fB
 2nd component of the normal vector
 
double fC
 3th component of the normal vector
 
double fD
 Plane position.
 
bool PointInShape (double *P, int border) override
 true if the point P is in the Shape.
 
void CalculNot () override
 Allocates and calculs the complement of a Plane.
 
MathPlaneCreateNewInstance (int sign=1) override
 a new MathPlane instance.
 
void Norme ()
 Normalisation of Normal vector.
 

Additional Inherited Members

- Protected Member Functions inherited from Shape
virtual void MinimumCopy (Shape *S)
 Copy all attributs of a Shape S (but not attributs of the father classes).
 
void SetNot (Shape *aNot)
 Allocates and calculs the complement of Shape.
 
void SetNotofNot ()
 
- Protected Attributes inherited from Shape
vector< Shape_ptrfInsideShape
 a vector to remember which Shapes are inside the current one.Clear at each ">>"
 
vector< Shape_ptrfOriginalInsideShape
 a vector to remember which Shapes are inside the current one.
 
int fSign
 Define whether the interior (-1) or the exterior (+1) of the Shape is considered.
 
bool fInfinite
 Determines whether the shape is infinite or not.
 
ShapefNot
 pointer on complementary Shape if exists, else 0.
 
bool fMouvement
 Flag that indicate a Shape is in mouvement (translation, ..) in a tree.
 
int fUniverse
 Universe number (for lattice filling)
 
int fFill
 Universe number that fill the Shape.
 
double fVolume
 the Volume of a Shape;
 
double fArea
 the area of a Shape;
 
string fShapeName
 Name of a Shape.
 
string fDebugName
 Debug Name of a Shape.
 
double fVirtualSphereR
 the radius of a Sphere containing the Shape
 
double * fVirtualSphereO
 the center of a Sphere containing the Shape
 
Shape_ptr fCloneShape
 the clone of a Shape
 
bool fMirrorBoundary
 whether or not mirror a particle on the surface
 
bool fOpenZPlanes
 whether the top/bottom planes are not mirrors (default=false)
 
bool fOpenXYPlanes
 whether the side planes are not mirrors (default=false)
 
bool fWhiteBoundary
 whether or not mirror a particle on the surface with a cosine distribution
 
bool fPeriodicBoundary
 whether or not Periodic boundary are applied (only for plane)
 
string fTopBottPlaneBoundaryCondition
 whether the top(bottom) plane of a periodic boundary Shape is white or mirror
 
Shape_ptr fLinkedPlane
 the Plane linked to an this for periodic boundary
 
bool fIsViolentSimplifyAllowed
 whether or not a "violent simplification is allowed (ie a Node or a Brick are allowed to be separated)
 
bool fOutermostShape
 whether or not this Shape is the limit to the exterior world (for calculating particle losses).
 
bool fFreezeSimplify
 disable any Node simplification (for serpent in ReactorAssembly)
 

Detailed Description

Infinite plane Shape (or half space).

Equation of the plane is fA*x + fB*y + fC*z - fD = 0. It thus defines one of the 2 half spaces : if fSigne=+1 : fA*x + fB*y + fC*z - fD>0 is considered else it is fA*x + fB*y + fC*z - fD<0 It is only a mathematical shape (no link to any code output). User should use Plane (from MCNP or Serpent namespace).

Author
WEC
PTO
J. Hajnrych
Version
2.0

Constructor & Destructor Documentation

◆ MathPlane()

MathPlane::MathPlane ( double  A = 0,
double  B = 0,
double  C = 1,
double  D = 0,
int  Sign = - 1 
)

Normal Constructor.

Default: horizontal plane at the origin z=0. Because sign is <0, it defines the half infinit space perpendicular to z axis below the origin.

Plane of equation is fA*x + fB*y + fC*z - fD = 0.

Normal Vector (A, B, C) to the Plane is normed by the constructor.

Parameters
A: 1st component of the normal vector
B: 2nd component of the normal vector
C: 3th component of the normal vector
D: Plane position
Sign: which part of the space is considered Sign=-1 (default) fA*x + fB*y + fC*z - fD<0

Member Function Documentation

◆ CalculNot()

void MathPlane::CalculNot ( )
overridevirtual

Allocates and calculs the complement of a Plane.

Reimplemented from Shape.

◆ Clone()

Shape_ptr MathPlane::Clone ( int  count = 0)
overridevirtual

Clone a Shape.

Implements Shape.

◆ Copy()

void MathPlane::Copy ( Shape_ptr  P)
overridevirtual

Copy all attributs of a Shape (but not attributs of the father classes).

Reimplemented from Shape.

◆ CreateNewInstance()

MathPlane * MathPlane::CreateNewInstance ( int  sign = 1)
overrideprotectedvirtual

a new MathPlane instance.

Implements Shape.

Reimplemented in MCNP::Plane, and Serpent::Plane.

◆ GetA()

double MathPlane::GetA ( )
inline

< return 1st component of the normal vector

◆ GetB()

double MathPlane::GetB ( )
inline

< return 2nd component of the normal vector

◆ GetC()

double MathPlane::GetC ( )
inline

< return 3th component of the normal vector

◆ GetD()

double MathPlane::GetD ( )
inline

< return Plane position

◆ IsDisjoint()

unsigned MathPlane::IsDisjoint ( Shape_ptr  OtherShape)
overridevirtual

return 1 if the Plane is disjoint of OtherShape otherwise 0

Implements Shape.

◆ IsIncluded()

unsigned MathPlane::IsIncluded ( Shape_ptr  OtherShape)
overridevirtual

return 1 if the Plane is included in OtherShape otherwise 0

Implements Shape.

◆ IsPlane()

unsigned MathPlane::IsPlane ( )
inlineoverridevirtual

< 1 if Shape is a Plane

Reimplemented from Shape.

◆ Norme()

void MathPlane::Norme ( )
protected

Normalisation of Normal vector.

◆ PointInShape()

bool MathPlane::PointInShape ( double *  P,
int  border 
)
overridevirtual

true if the point P is in the Shape.

Parameters
P: a (x, y, z) point of space
border: =-1 : if P is at the Shape surface then P is inside or =+1 : if P is at the Shape surface then P is outside

Reimplemented from Shape.

◆ Rotate()

void MathPlane::Rotate ( double  phi,
double  theta = 0,
double  psi = 0,
double *  center = nullptr,
int  count = 0 
)
overridevirtual

Rotate the Shape clockwise.

Parameters
phi: arround z axis
theta: arround y axis
psi: arround x axis
center: the center of rotation (Default=origin)
count: normal used is default (=0) ; usefull to know the recursion depth

Implements Shape.

◆ Translate()

void MathPlane::Translate ( double  dx,
double  dy,
double  dz,
int  count = 0 
)
overridevirtual

Translate the Node of (dx, dy, dz).

Parameters
dx: translation along x-axis
dy: translation along y-axis
dz: translation along z-axis
count: normal used is default (=0) ; usefull to know the recursion depth

Implements Shape.

Member Data Documentation

◆ fA

double MathPlane::fA
protected

1st component of the normal vector

◆ fB

double MathPlane::fB
protected

2nd component of the normal vector

◆ fC

double MathPlane::fC
protected

3th component of the normal vector

◆ fD

double MathPlane::fD
protected

Plane position.


The documentation for this class was generated from the following files:

MURE Project, documentation generated by Doxygen 1.9.7 - Fri Jan 19 2024