Garfield::SolidWire Class Reference

Wire. More...

#include <SolidWire.hh>

Inheritance diagram for Garfield::SolidWire:

Public Member Functions
	SolidWire (const double cx, const double cy, const double cz, const double r, const double lz)
	Constructor from centre, radius, and half-length.
	SolidWire (const double cx, const double cy, const double cz, const double r, const double lz, const double dx, const double dy, const double dz)
	Constructor from centre, radius, half-length and orientation.
	~SolidWire ()
	Destructor.
bool	IsInside (const double x, const double y, const double z, const bool tesselated) const override
	Check whether a given point is inside the solid.
bool	GetBoundingBox (double &xmin, double &ymin, double &zmin, double &xmax, double &ymax, double &zmax) const override
	Return the bounding box of the solid.
bool	IsWire () const override
	Return true if the solid is a wire.
void	SetHalfLength (const double lz)
void	SetRadius (const double r)
double	GetHalfLengthZ () const override
	Return the half-length along z.
double	GetRadius () const override
	Return the radius.
bool	SolidPanels (std::vector< Panel > &panels) override
	Retrieve the surface panels of the solid.
void	SetDiscretisationLevel (const double dis) override
	Set the discretisation level (for all panels).
double	GetDiscretisationLevel (const Panel &panel) override
	Retrieve the discretisation level of a panel.
void	Cut (const double x0, const double y0, const double z0, const double xn, const double yn, const double zn, std::vector< Panel > &panels) override
Public Member Functions inherited from Garfield::Solid
	Solid ()=delete
	Default constructor.
	Solid (const double cx, const double cy, const double cz, const std::string &name)
	Constructor.
virtual	~Solid ()
	Destructor.
virtual bool	IsBox () const
	Return true if the solid is a box.
virtual bool	IsTube () const
	Return true if the solid is a tube.
virtual bool	IsSphere () const
	Return true if the solid is a sphere.
virtual bool	IsHole () const
	Return true if the solid is a hole.
virtual bool	IsRidge () const
	Return true if the solid is a ridge.
virtual bool	IsExtrusion () const
	Return true if the solid is an extrusion.
void	SetLabel (const std::string &label)
	Set a label.
std::string	GetLabel () const
	Return the label.
bool	GetCentre (double &x, double &y, double &z) const
	Retrieve the centre point of the solid.
bool	GetDirection (double &dx, double &dy, double &dz) const
	Retrieve the direction vector.
bool	GetOrientation (double &ctheta, double &stheta, double &cphi, double &sphi) const
	Retrieve the orientation (azimuthal and polar angles) of the solid.
virtual double	GetHalfLengthX () const
	Return the half-length along x.
virtual double	GetHalfLengthY () const
	Return the half-length along y.
virtual double	GetInnerRadius () const
	Return the inner radius.
virtual double	GetOuterRadius () const
	Return the outer radius.
virtual double	GetLowerRadius () const
	Return the lower radius (of a hole).
virtual double	GetUpperRadius () const
	Return the upper radius (of a hole).
virtual double	GetRidgeOffset () const
	Return the x-offset of a ridge.
virtual double	GetRidgeHeight () const
	Return the height of a ridge.
virtual bool	GetProfile (std::vector< double > &xv, std::vector< double > &yv) const
	Get the vertices defining an extrusion.
unsigned int	GetId () const
	Get the ID of the solid.
void	SetBoundaryPotential (const double v)
	Apply Dirichlet boundary conditions (fixed voltage).
void	SetBoundaryChargeDensity (const double q)
	Apply fixed-charge boundary conditions.
void	SetBoundaryFloat ()
	Make the potential at the surface of the solid floating.
void	SetBoundaryDielectric ()
	Make the surfaces of the solid dielectric-dielectric interfaces.
void	SetBoundaryParallelField ()
void	SetBoundaryPerpendicularField ()
BoundaryCondition	GetBoundaryConditionType () const
	Retrieve the type of boundary condition.
double	GetBoundaryPotential () const
	Retrieve the potential.
double	GetBoundaryChargeDensity () const
	Retrieve the surface charge density.
void	EnableDebugging (const bool on=true)
	Switch debugging messages on/off.
void	SetColour (const int col)
	Set the colour of the solid.
int	GetColour () const
	Get the colour of the solid.

Private Attributes
double	m_r
	Radius.
double	m_lZ
	Half-length.
double	m_dis = -1.
	Discretisation level.

Additional Inherited Members
Public Types inherited from Garfield::Solid
enum	BoundaryCondition {   Unknown = 0 , Voltage , Charge , Float ,   Dielectric , DielectricCharge , ParallelField , PerpendicularField }
Static Public Member Functions inherited from Garfield::Solid
static bool	Intersect (const double x1, const double y1, const double z1, const double x2, const double y2, const double z2, const double x0, const double y0, const double z0, const double a, const double b, const double c, double &xc, double &yc, double &zc)
Protected Member Functions inherited from Garfield::Solid
void	ToLocal (const double x, const double y, const double z, double &u, double &v, double &w) const
	Transform a point from global coordinates (x, y, z) to local coordinates (u, v, w).
void	ToGlobal (const double u, const double v, const double w, double &x, double &y, double &z) const
	Transform a point from local coordinates (u, v, w) to global coordinates (x, y, z).
void	VectorToLocal (const double x, const double y, const double z, double &u, double &v, double &w)
	Transform a vector from global to local coordinates.
void	SetDirection (const double dx, const double dy, const double dz)
Protected Attributes inherited from Garfield::Solid
double	m_cX = 0.
	Centre of the solid.
double	m_cY = 0.
double	m_cZ = 0.
double	m_dX = 0.
	Direction vector.
double	m_dY = 0.
double	m_dZ = 1.
double	m_cPhi = 1.
	Azimuthal angle.
double	m_sPhi = 0.
double	m_cTheta = 1.
	Polar angle.
double	m_sTheta = 0.
std::string	m_className = "Solid"
	Class name.
std::string	m_label = ""
	Label.
bool	m_debug = false
	Debug flag.
BoundaryCondition	m_bctype = Unknown
	Type of boundary condition.
double	m_volt = 0.
	Potential at the surface.
double	m_charge = 0.
	Surface charge density.
double	m_eps = 0.
	Dielectric constant.
int	m_colour = -1
	Colour.

Detailed Description

Wire.

Definition at line 10 of file SolidWire.hh.

Constructor & Destructor Documentation

SolidWire() [1/2]

Garfield::SolidWire::SolidWire	(	const double	cx,
		const double	cy,
		const double	cz,
		const double	r,
		const double	lz )

Constructor from centre, radius, and half-length.

SolidWire() [2/2]

Garfield::SolidWire::SolidWire	(	const double	cx,
		const double	cy,
		const double	cz,
		const double	r,
		const double	lz,
		const double	dx,
		const double	dy,
		const double	dz )

Constructor from centre, radius, half-length and orientation.

~SolidWire()

Garfield::SolidWire::~SolidWire ( )

inline

Destructor.

Definition at line 19 of file SolidWire.hh.

{}

Member Function Documentation

Cut()

void Garfield::SolidWire::Cut ( const double x0, const double y0, const double z0, const double xn, const double yn, const double zn, std::vector< Panel > & panels )

overridevirtual

Implements Garfield::Solid.

GetBoundingBox()

bool Garfield::SolidWire::GetBoundingBox ( double & xmin, double & ymin, double & zmin, double & xmax, double & ymax, double & zmax ) const

overridevirtual

Return the bounding box of the solid.

Implements Garfield::Solid.

GetDiscretisationLevel()

double Garfield::SolidWire::GetDiscretisationLevel ( const Panel & panel )

overridevirtual

Retrieve the discretisation level of a panel.

Implements Garfield::Solid.

GetHalfLengthZ()

double Garfield::SolidWire::GetHalfLengthZ ( ) const

inlineoverridevirtual

Return the half-length along z.

Reimplemented from Garfield::Solid.

Definition at line 30 of file SolidWire.hh.

{ return m_lZ; }

GetRadius()

double Garfield::SolidWire::GetRadius ( ) const

inlineoverridevirtual

Return the radius.

Reimplemented from Garfield::Solid.

Definition at line 31 of file SolidWire.hh.

{ return m_r; }

IsInside()

bool Garfield::SolidWire::IsInside ( const double x, const double y, const double z, const bool tesselated ) const

overridevirtual

Check whether a given point is inside the solid.

If requested, use the tesselated approximation of the solid (if applicable).

Implements Garfield::Solid.

IsWire()

bool Garfield::SolidWire::IsWire ( ) const

inlineoverridevirtual

Return true if the solid is a wire.

Reimplemented from Garfield::Solid.

Definition at line 25 of file SolidWire.hh.

{ return true; }

SetDiscretisationLevel()

void Garfield::SolidWire::SetDiscretisationLevel ( const double dis )

inlineoverridevirtual

Set the discretisation level (for all panels).

Implements Garfield::Solid.

Definition at line 34 of file SolidWire.hh.

{ m_dis = dis; }

SetHalfLength()

void Garfield::SolidWire::SetHalfLength

(

const double

lz

)

SetRadius()

void Garfield::SolidWire::SetRadius

(

const double

r

)

SolidPanels()

bool Garfield::SolidWire::SolidPanels ( std::vector< Panel > & panels )

overridevirtual

Retrieve the surface panels of the solid.

Implements Garfield::Solid.

Member Data Documentation

m_dis

double Garfield::SolidWire::m_dis = -1.

private

Discretisation level.

Definition at line 48 of file SolidWire.hh.

m_lZ

double Garfield::SolidWire::m_lZ

private

Half-length.

Definition at line 45 of file SolidWire.hh.

m_r

double Garfield::SolidWire::m_r

private

Radius.

Definition at line 43 of file SolidWire.hh.

---

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

• /builds/garfield/docs/source/Include/Garfield/SolidWire.hh