In This Package:

SolidCons Class Reference

A simple implementation segment of conical tube. More...

#include <DetDesc/SolidCons.h>

Inheritance diagram for SolidCons:

[legend]Collaboration diagram for SolidCons:[legend]List of all members.

Public Types
typedef double	Tick
	useful type definition for dealing with intersections of the solid and the line
typedef StaticArray< Tick, 64 >	Ticks
	SUCCESS
	NO_INTERFACE
	VERSMISMATCH
	LAST_ERROR
enum	Status
Public Member Functions
	SolidCons (const std::string &name, const double ZHalfLength, const double OuterRadiusAtMinusZ, const double OuterRadiusAtPlusZ, const double InnerRadiusAtMinusZ=0.0, const double InnerRadiusAtPlusZ=0.0, const double StartPhiAngle=0.0 *Gaudi::Units::degree, const double DeltaPhiAngle=360.0 *Gaudi::Units::degree, const int CoverModel=0)
	standard constructor
virtual	~SolidCons ()
	destructor
std::string	typeName () const
	retrieve the conical tube segment type implementation of ISolid abstract interface
bool	isInside (const Gaudi::XYZPoint &point) const
	check for the given 3D-point.
bool	isInside (const Gaudi::Polar3DPoint &point) const
bool	isInside (const Gaudi::RhoZPhiPoint &point) const
const ISolid *	cover () const
	-# retrieve the pointer to "simplified" solid - "cover" for Model = 0 -# the cover for the general conical tube segment is the conical tube -# the cover for the conical tube is conical cylinder -# the cover for the conical cylinder is TRD for Model != 0 -# the cover for conical tube serment is conical cylinder segment -# the cover for conical cylinder segment is conical cylinder -# the cover for conical cylinder is TRD -# implementation of ISolid abstract interface
virtual std::ostream &	printOut (std::ostream &os=std::cout) const
	printout to STD/STL stream implementation of ISolid abstract interface reimplementation of SolidBase::printOut( std::ostream& )
virtual MsgStream &	printOut (MsgStream &) const
	printout to Gaudi MsgStream stream implementation of ISolid abstract interface reimplementation of SolidBase::printOut( MsgStream& )
virtual unsigned int	intersectionTicks (const Gaudi::XYZPoint &Point, const Gaudi::XYZVector &Vector, ISolid::Ticks &ticks) const
	calculate the intersection points("ticks") of the solid objects with given line.
virtual unsigned int	intersectionTicks (const Gaudi::Polar3DPoint &Point, const Gaudi::Polar3DVector &Vector, ISolid::Ticks &ticks) const
virtual unsigned int	intersectionTicks (const Gaudi::RhoZPhiPoint &Point, const Gaudi::RhoZPhiVector &Vector, ISolid::Ticks &ticks) const
unsigned int	intersectionTicks (const Gaudi::XYZPoint &Point, const Gaudi::XYZVector &Vector, const ISolid::Tick &tickMin, const ISolid::Tick &tickMax, ISolid::Ticks &ticks) const
	calculate the intersection points("ticks") of the solid objects with given line.
unsigned int	intersectionTicks (const Gaudi::Polar3DPoint &Point, const Gaudi::Polar3DVector &Vector, const ISolid::Tick &tickMin, const ISolid::Tick &tickMax, ISolid::Ticks &ticks) const
unsigned int	intersectionTicks (const Gaudi::RhoZPhiPoint &Point, const Gaudi::RhoZPhiVector &Vector, const ISolid::Tick &tickMin, const ISolid::Tick &tickMax, ISolid::Ticks &ticks) const
double	innerRadiusAtMinusZ () const
	inner radius at minus Z
double	outerRadiusAtMinusZ () const
	outer radius at minus Z
double	innerRadiusAtPlusZ () const
	inner radius at plus Z
double	outerRadiusAtPlusZ () const
	outer radius at plus Z
double	zHalfLength () const
	half length
double	startPhiAngle () const
	start phi angle
double	deltaPhiAngle () const
	delta phi
double	innerDiameterAtMinusZ () const
	inner diameter at minus Z
double	outerDiameterAtMinusZ () const
	outer radius at minus Z
double	innerDiameterAtPlusZ () const
	inner radius at plus Z
double	outerDiameterAtPlusZ () const
	outer radius at plus Z
double	zLength () const
	full length
double	endPhiAngle () const
	end phi angle
virtual const std::string &	name () const
	retrieve the name of the concrete Solid object implementation of ISolid abstract interface
virtual ISolid *	reset ()
	reset solid to its inititial state, remove all auxillary data fields and pointers.
virtual StatusCode	queryInterface (const InterfaceID &ID, void **ppI)
	query the interface implementation of IInterface abstract interface
virtual unsigned long	addRef ()
	increment the reference count of Interface instance implementation of IInterface abstract interface
virtual unsigned long	release ()
	release interface instance implementation of IInterface abstract interface
virtual const ISolid *	coverTop () const
	retrieve the pointer to "the most simplified cover", ideally to something like "the bounding box" implementation of ISolid interface
double	xMin () const
	accessor to "minimal x" value of the solid ("bounding box")
double	xMax () const
	accessor to "maximal x" value of the solid ("bounding box")
double	yMin () const
	accessor to "minimal y" value of the solid ("bounding box")
double	yMax () const
	accessor to "maximal y" value of the solid ("bounding box")
double	zMin () const
	accessor to "minimal z" value of the solid ("bounding box")
double	zMax () const
	accessor to "maximal z" value of the solid ("bounding box")
double	rMax () const
	accessor to "maximal r" value of the solid ("bounding sphere")
double	rhoMax () const
	accessor to "maximal rho" value of the solid ("bounding sphere")
Static Public Member Functions
static const InterfaceID &	interfaceID ()
	retrieve the uninque interface identifier
Public Attributes
	SUCCESS
	NO_INTERFACE
	VERSMISMATCH
	LAST_ERROR
Protected Member Functions
double	iR_z (const double z) const
	inner radius at given z
double	oR_z (const double z) const
	outer radius at given z
bool	noPhiGap () const
	gap in phi ?
bool	insidePhi (const double phi) const
	check if phi is in phi range
template<class aPoint>
bool	insidePhi (const aPoint &point) const
	check for phi
Ticks::size_type	maxNumberOfTicks () const
	Calculate the maximum number of ticks that a straight line could make with this solid.
	SolidCons (const std::string &Name="Anonymous CONS")
	default protected constructor
void	setBP ()
	set bounding parameters
template<class aPoint>
bool	isOutBBox (const aPoint &point, const double tolerance) const
	Fast check if the point is outside the bounding box of the solid.
template<class aPoint>
bool	isOutBBox (const aPoint &point) const
	Fast check if the point is outside the bounding box of the solid.
template<class aPointA, class aPointB>
bool	isOutBBox (const aPointA &p1, const aPointB &p2, const double tolerance) const
	Fast check if the segment of the line between two points is outside the bounding box.
template<class aPointA, class aPointB>
bool	isOutBBox (const aPointA &p1, const aPointB &p2) const
	Fast check if the segment of the line between two points is outside the bounding box.
template<class aPoint, class aVector>
bool	isOutBBox (const aPoint &p, const aVector &v, const ISolid::Tick &tmin, const ISolid::Tick &tmax, const double tolerance) const
	Fast check if the segment of the line between two points is outside the bounding box.
template<class aPoint, class aVector>
bool	isOutBBox (const aPoint &p, const aVector &v, const ISolid::Tick &tmin, const ISolid::Tick &tmax) const
	Fast check if the segment of the line between two points is outside the bounding box.
template<class aPoint>
bool	isOutBSphere (const aPoint &point, const double tolerance) const
	Fast check if the point is outside the bounding sphere of the solid.
template<class aPoint>
bool	isOutBSphere (const aPoint &point) const
	Fast check if the point is outside the bounding sphere of the solid.
template<class aPoint>
bool	isOutBCylinder (const aPoint &point, const double tolerance) const
	Fast check if the point is outside the bounding cylinder of the solid.
template<class aPoint>
bool	isOutBCylinder (const aPoint &point) const
	Fast check if the point is outside the bounding cylinder of the solid.
template<class aPoint, class aVector>
bool	crossBSphere (const aPoint &p, const aVector &v, const double tolerance=0) const
	Fast check if the line cross the bounding sphere.
template<class aPoint, class aVector>
bool	crossBCylinder (const aPoint &p, const aVector &v, const double tolerance=0) const
	Fast check if the line cross the surface of bounding cylinder.
void	setXMin (const double value)
	set "minimal x" for the solid
void	setXMax (const double value)
	set "maximal x" for the solid
void	setYMin (const double value)
	set "minimal y" for the solid
void	setYMax (const double value)
	set "maximal y" for the solid
void	setZMin (const double value)
	set "minimal z" for the solid
void	setZMax (const double value)
	set "maximal z" for the solid
void	setRMax (const double value)
	set "maximal r" for the solid
void	setRhoMax (const double value)
	set "maximal r" for the solid
void	checkBP () const
	check bounding parameters Exceptions: SolidException  for wrong set of bounding parameters
IMessageSvc *	msgSvc () const
	accessor to massage service
Protected Attributes
std::string	m_name
	name of the solid
ISolid *	m_cover
	pointer to cover
double	m_xmin
double	m_ymin
double	m_zmin
double	m_xmax
double	m_ymax
double	m_zmax
double	m_rmax
double	m_rhomax
DetDesc::Services *	m_services
	reference to services
Private Member Functions
	SolidCons (const SolidCons &)
	no copy-constructor
SolidCons &	operator= (const SolidCons &)
	no assignment
template<class aPoint>
bool	isInsideImpl (const aPoint &point) const
	implementation of isInside
template<class aPoint, class aVector>
unsigned int	intersectionTicksImpl (const aPoint &Point, const aVector &Vector, const ISolid::Tick &tickMin, const ISolid::Tick &tickMax, ISolid::Ticks &ticks) const
template<class aPoint, class aVector>
unsigned int	intersectionTicksImpl (const aPoint &Point, const aVector &Vector, ISolid::Ticks &ticks) const
Private Attributes
double	m_cons_zHalfLength
double	m_cons_outerRadiusMinusZ
double	m_cons_outerRadiusPlusZ
double	m_cons_innerRadiusMinusZ
double	m_cons_innerRadiusPlusZ
double	m_cons_startPhiAngle
double	m_cons_deltaPhiAngle
int	m_cons_coverModel
bool	m_noPhiGap
Friends
class	SolidFactory< SolidCons >
	friend factory for instantiation

---

Detailed Description

A simple implementation segment of conical tube.

The shape corresponds to Geant4 shape G4Cons and to Geant3 shape CONS

Author:

Vanya Belyaev

Definition at line 28 of file SolidCons.h.

---

Member Typedef Documentation

typedef double ISolid::Tick [inherited]

useful type definition for dealing with intersections of the solid and the line

Definition at line 35 of file ISolid.h.

typedef StaticArray<Tick,64> ISolid::Ticks [inherited]

Definition at line 36 of file ISolid.h.

---

Constructor & Destructor Documentation

SolidCons::SolidCons	(	const std::string &	name,
		const double	ZHalfLength,
		const double	OuterRadiusAtMinusZ,
		const double	OuterRadiusAtPlusZ,
		const double	InnerRadiusAtMinusZ = 0.0,
		const double	InnerRadiusAtPlusZ = 0.0,
		const double	StartPhiAngle = 0.0 *Gaudi::Units::degree,
		const double	DeltaPhiAngle = 360.0 *Gaudi::Units::degree,
		const int	CoverModel = 0
	)

standard constructor

Parameters:

	name	name of conical tube segment
	ZHalfLength	half-length
	OuterRadiusAtMinusZ	outer radius at minus Z
	OuterRadiusAtPlusZ	outer radius at plus Z
	InnerRadiusAtMinusZ	inner radius at minus Z
	InnerRadiusAtPlusZ	inner radius at plus Z
	StartPhiAngle	start phi angle
	DeltaPhiAngle	delta phi angle
	CoverModel	covering model

Exceptions:

SolidException

wrong parameters range

virtual SolidCons::~SolidCons

(

)

[virtual]

destructor

SolidCons::SolidCons

(

const std::string &

Name = "Anonymous CONS"

)

[protected]

default protected constructor

Parameters:

Name

name of conical tube segment

SolidCons::SolidCons

(

const SolidCons &

)

[private]

no copy-constructor

---

Member Function Documentation

std::string SolidCons::typeName

(

)

const [inline, virtual]

• retrieve the conical tube segment type
  • implementation of ISolid abstract interface

See also:

ISolid return box type

Implements ISolid.

Definition at line 65 of file SolidCons.h.

{ return "SolidCons"; };

bool SolidCons::isInside

(

const Gaudi::XYZPoint &

point

)

const [virtual]

• check for the given 3D-point.

Point coordinated are in the local reference frame of the solid.

• implementation of ISolid absstract interface

  See also:

  ISolid

  Parameters:

  point

  point (in local reference system of the solid)

  Returns:

  true if the point is inside the solid

Implements ISolid.

bool SolidCons::isInside

(

const Gaudi::Polar3DPoint &

point

)

const [virtual]

Implements ISolid.

bool SolidCons::isInside

(

const Gaudi::RhoZPhiPoint &

point

)

const [virtual]

Implements ISolid.

const ISolid* SolidCons::cover

(

)

const [virtual]

-# retrieve the pointer to "simplified" solid - "cover"

• for Model = 0 -# the cover for the general conical tube segment is the conical tube -# the cover for the conical tube is conical cylinder -# the cover for the conical cylinder is TRD
• for Model != 0 -# the cover for conical tube serment is conical cylinder segment -# the cover for conical cylinder segment is conical cylinder -# the cover for conical cylinder is TRD -# implementation of ISolid abstract interface

See also:

ISolid

Returns:

pointer to "simplified" solid - "cover"

Implements ISolid.

virtual std::ostream& SolidCons::printOut

(

std::ostream &

os = std::cout

)

const [virtual]

• printout to STD/STL stream
  • implementation of ISolid abstract interface
  • reimplementation of SolidBase::printOut( std::ostream& )

See also:

SolidBase

ISolid

Parameters:

os

STD/STL stream

Returns:

reference to the stream

Reimplemented from SolidBase.

virtual MsgStream& SolidCons::printOut

(

MsgStream &

)

const [virtual]

• printout to Gaudi MsgStream stream
  • implementation of ISolid abstract interface
  • reimplementation of SolidBase::printOut( MsgStream& )

See also:

SolidBase

ISolid

Parameters:

""

STD/STL stream

Returns:

reference to the stream

Reimplemented from SolidBase.

virtual unsigned int SolidCons::intersectionTicks	(	const Gaudi::XYZPoint &	Point,
		const Gaudi::XYZVector &	Vector,
		ISolid::Ticks &	ticks
	)			const [virtual]

• calculate the intersection points("ticks") of the solid objects with given line.

1. Line is parametrized with parameter t :
   • is a point on the line
   • is a vector along the line
2. tick is just a value of parameter t, at which the intersection of the solid and the line occurs
3. both Point () and Vector () are defined in local reference system of the solid

• implementation of ISolid abstract interface

  See also:

  ISolid

  Parameters:

  	Point	initial point for the line
  	Vector	vector along the line
  	ticks	output container of "Ticks"

  Returns:

  the number of intersection points

Reimplemented from SolidBase.

virtual unsigned int SolidCons::intersectionTicks	(	const Gaudi::Polar3DPoint &	Point,
		const Gaudi::Polar3DVector &	Vector,
		ISolid::Ticks &	ticks
	)			const [virtual]

Reimplemented from SolidBase.

virtual unsigned int SolidCons::intersectionTicks	(	const Gaudi::RhoZPhiPoint &	Point,
		const Gaudi::RhoZPhiVector &	Vector,
		ISolid::Ticks &	ticks
	)			const [virtual]

Reimplemented from SolidBase.

unsigned int SolidCons::intersectionTicks	(	const Gaudi::XYZPoint &	Point,
		const Gaudi::XYZVector &	Vector,
		const ISolid::Tick &	tickMin,
		const ISolid::Tick &	tickMax,
		ISolid::Ticks &	ticks
	)			const [virtual]

calculate the intersection points("ticks") of the solid objects with given line.

• Line is parametrized with parameter t :
  • is a point on the line
  • is a vector along the line
• tick is just a value of parameter t, at which the intersection of the solid and the line occurs
• both Point () and Vector () are defined in local reference system of the solid Only intersection ticks within the range tickMin and tickMax are taken into account.

  See also:

  ISolid::intersectionTicks()

  Parameters:

  	Point	initial point for the line
  	Vector	vector along the line
  	tickMin	minimum value of Tick
  	tickMax	maximu value of Tick
  	ticks	output container of "Ticks"

  Returns:

  the number of intersection points

Reimplemented from SolidBase.

unsigned int SolidCons::intersectionTicks	(	const Gaudi::Polar3DPoint &	Point,
		const Gaudi::Polar3DVector &	Vector,
		const ISolid::Tick &	tickMin,
		const ISolid::Tick &	tickMax,
		ISolid::Ticks &	ticks
	)			const [virtual]

Reimplemented from SolidBase.

unsigned int SolidCons::intersectionTicks	(	const Gaudi::RhoZPhiPoint &	Point,
		const Gaudi::RhoZPhiVector &	Vector,
		const ISolid::Tick &	tickMin,
		const ISolid::Tick &	tickMax,
		ISolid::Ticks &	ticks
	)			const [virtual]

Reimplemented from SolidBase.

double SolidCons::innerRadiusAtMinusZ

(

)

const [inline]

inner radius at minus Z

Returns:

inner radius at minus Z

Definition at line 188 of file SolidCons.h.

  { return m_cons_innerRadiusMinusZ ; };

double SolidCons::outerRadiusAtMinusZ

(

)

const [inline]

outer radius at minus Z

Returns:

outer radius at minus Z

Definition at line 194 of file SolidCons.h.

  { return m_cons_outerRadiusMinusZ ; };

double SolidCons::innerRadiusAtPlusZ

(

)

const [inline]

inner radius at plus Z

Returns:

inner radius at plus Z

Definition at line 200 of file SolidCons.h.

  { return m_cons_innerRadiusPlusZ  ; };

double SolidCons::outerRadiusAtPlusZ

(

)

const [inline]

outer radius at plus Z

Returns:

outer radius at plus Z

Definition at line 206 of file SolidCons.h.

  { return m_cons_outerRadiusPlusZ  ; };

double SolidCons::zHalfLength

(

)

const [inline]

half length

Returns:

half length

Definition at line 212 of file SolidCons.h.

  { return m_cons_zHalfLength       ; };

double SolidCons::startPhiAngle

(

)

const [inline]

start phi angle

Returns:

start phi angle

Definition at line 218 of file SolidCons.h.

  { return m_cons_startPhiAngle     ; }; 

double SolidCons::deltaPhiAngle

(

)

const [inline]

delta phi

Returns:

delta phi

Definition at line 224 of file SolidCons.h.

  { return m_cons_deltaPhiAngle     ; }; 

double SolidCons::innerDiameterAtMinusZ

(

)

const [inline]

inner diameter at minus Z

Returns:

inner diameter at minus Z

Definition at line 230 of file SolidCons.h.

  { return m_cons_innerRadiusMinusZ * 2 ; };

double SolidCons::outerDiameterAtMinusZ

(

)

const [inline]

outer radius at minus Z

Returns:

outer radius at minus Z

Definition at line 236 of file SolidCons.h.

  { return m_cons_outerRadiusMinusZ * 2 ; };

double SolidCons::innerDiameterAtPlusZ

(

)

const [inline]

inner radius at plus Z

Returns:

inner radius at plus Z

Definition at line 242 of file SolidCons.h.

  { return m_cons_innerRadiusPlusZ  * 2 ; };

double SolidCons::outerDiameterAtPlusZ

(

)

const [inline]

outer radius at plus Z

Returns:

outer radius at plus Z

Definition at line 248 of file SolidCons.h.

  { return m_cons_outerRadiusPlusZ  * 2 ; };

double SolidCons::zLength

(

)

const [inline]

full length

Returns:

full length

Definition at line 254 of file SolidCons.h.

  { return m_cons_zHalfLength       * 2 ; };

double SolidCons::endPhiAngle

(

)

const [inline]

end phi angle

Returns:

end phi angle

Definition at line 260 of file SolidCons.h.

  { return m_cons_startPhiAngle + m_cons_deltaPhiAngle ; }; 

double SolidCons::iR_z

(

const double

z

)

const [inline, protected]

inner radius at given z

Parameters:

z

z position

Returns:

inner ragius at given z

Definition at line 355 of file SolidCons.h.

{  
  const double a = 
    ( innerRadiusAtPlusZ () - innerRadiusAtMinusZ () ) / zHalfLength ();
  const double b = 
    ( innerRadiusAtPlusZ () + innerRadiusAtMinusZ () )  ; 
  return 0.5 * ( a * z  + b );
};

double SolidCons::oR_z

(

const double

z

)

const [inline, protected]

outer radius at given z

Parameters:

z

z position

Returns:

outer ragius at given z

Definition at line 371 of file SolidCons.h.

{
  const double a = 
    ( outerRadiusAtPlusZ () - outerRadiusAtMinusZ () ) / zHalfLength ();
  const double b = 
    ( outerRadiusAtPlusZ () + outerRadiusAtMinusZ () )  ; 
  return 0.5*(a*z+b);
};

bool SolidCons::noPhiGap

(

)

const [inline, protected]

gap in phi ?

Definition at line 279 of file SolidCons.h.

{ return m_noPhiGap ; }

bool SolidCons::insidePhi

(

const double

phi

)

const [inline, protected]

check if phi is in phi range

Parameters:

phi

point to be checked [-pi,pi]

Returns:

true if point is "inside phi"

Definition at line 387 of file SolidCons.h.

{
  return 
    noPhiGap() ||
    ( startPhiAngle ()                   <= phi &&
      startPhiAngle () + deltaPhiAngle() >= phi     ) ||
    ( startPhiAngle ()                   <= phi + 2*M_PI &&
      startPhiAngle () + deltaPhiAngle() >= phi + 2*M_PI ) ;
};

template<class aPoint>

bool SolidCons::insidePhi

(

const aPoint &

point

)

const [inline, protected]

check for phi

Parameters:

point

to be checked

Returns:

true if point is "inside phi"

Definition at line 404 of file SolidCons.h.

{
  return noPhiGap() || insidePhi( point.phi() ) ;
};

Ticks::size_type SolidCons::maxNumberOfTicks

(

)

const [inline, protected, virtual]

Calculate the maximum number of ticks that a straight line could make with this solid.

Returns:

maximum number of ticks

Implements ISolid.

Definition at line 295 of file SolidCons.h.

{ return 4 ; }

void SolidCons::setBP

(

)

[protected]

set bounding parameters

SolidCons& SolidCons::operator=

(

const SolidCons &

)

[private]

no assignment

template<class aPoint>

bool SolidCons::isInsideImpl

(

const aPoint &

point

)

const [private]

implementation of isInside

Parameters:

point

reference to any kind of point with x(), y(), z()

Returns:

bool

template<class aPoint, class aVector>

unsigned int SolidCons::intersectionTicksImpl	(	const aPoint &	Point,
		const aVector &	Vector,
		const ISolid::Tick &	tickMin,
		const ISolid::Tick &	tickMax,
		ISolid::Ticks &	ticks
	)			const [private]

Reimplemented from SolidBase.

template<class aPoint, class aVector>

unsigned int SolidCons::intersectionTicksImpl	(	const aPoint &	Point,
		const aVector &	Vector,
		ISolid::Ticks &	ticks
	)			const [private]

virtual const std::string& SolidBase::name

(

)

const [inline, virtual, inherited]

• retrieve the name of the concrete Solid object
  • implementation of ISolid abstract interface

See also:

ISolid

Returns:

name of the solid object

Implements ISolid.

Definition at line 30 of file SolidBase.h.

{ return m_name ; }

virtual ISolid* SolidBase::reset

(

)

[virtual, inherited]

• reset solid to its inititial state, remove all auxillary data fields and pointers.

• implementation of ISolid abstract interface

  See also:

  ISolid

  SolidBase::~SolidBase()

  Returns:

  self-reference

Implements ISolid.

Reimplemented in SolidBoolean, and SolidChild.

virtual StatusCode SolidBase::queryInterface	(	const InterfaceID &	ID,
		void **	ppI
	)			[virtual, inherited]

• query the interface
  • implementation of IInterface abstract interface

See also:

IInterface

Parameters:

	ID	unique interafce identifier
	ppI	placeholder for returned interface

Returns:

status code

Implements IInterface.

virtual unsigned long SolidBase::addRef

(

)

[virtual, inherited]

• increment the reference count of Interface instance
  • implementation of IInterface abstract interface

See also:

IInterface

Returns:

reference count

Implements IInterface.

virtual unsigned long SolidBase::release

(

)

[virtual, inherited]

• release interface instance
  • implementation of IInterface abstract interface

See also:

IInterface

Returns:

reference count

Implements IInterface.

virtual const ISolid* SolidBase::coverTop

(

)

const [virtual, inherited]

• retrieve the pointer to "the most simplified cover", ideally to something like "the bounding box"
  • implementation of ISolid interface

See also:

ISolid

ISolid::cover()

Returns:

pointer to the most simplified cover

Implements ISolid.

Reimplemented in SolidBoolean, SolidBox, SolidChild, and SolidUnion.

double SolidBase::xMin

(

)

const [inline, inherited]

accessor to "minimal x" value of the solid ("bounding box")

Definition at line 161 of file SolidBase.h.

{ return m_xmin    ; }

double SolidBase::xMax

(

)

const [inline, inherited]

accessor to "maximal x" value of the solid ("bounding box")

Definition at line 163 of file SolidBase.h.

{ return m_xmax    ; }

double SolidBase::yMin

(

)

const [inline, inherited]

accessor to "minimal y" value of the solid ("bounding box")

Definition at line 166 of file SolidBase.h.

{ return m_ymin    ; }

double SolidBase::yMax

(

)

const [inline, inherited]

accessor to "maximal y" value of the solid ("bounding box")

Definition at line 168 of file SolidBase.h.

{ return m_ymax    ; }

double SolidBase::zMin

(

)

const [inline, inherited]

accessor to "minimal z" value of the solid ("bounding box")

Definition at line 171 of file SolidBase.h.

{ return m_zmin    ; }

double SolidBase::zMax

(

)

const [inline, inherited]

accessor to "maximal z" value of the solid ("bounding box")

Definition at line 173 of file SolidBase.h.

{ return m_zmax    ; }

double SolidBase::rMax

(

)

const [inline, inherited]

accessor to "maximal r" value of the solid ("bounding sphere")

Definition at line 176 of file SolidBase.h.

{ return m_rmax    ; }

double SolidBase::rhoMax

(

)

const [inline, inherited]

accessor to "maximal rho" value of the solid ("bounding sphere")

Definition at line 179 of file SolidBase.h.

{ return m_rhomax  ; }

template<class aPoint>

bool SolidBase::isOutBBox	(	const aPoint &	point,
		const double	tolerance
	)			const [inline, protected, inherited]

Fast check if the point is outside the bounding box of the solid.

Parameters:

	point	point to be checked
	tolerance	tolerance parameter

Returns:

true of point is outside the bounding box

Definition at line 190 of file SolidBase.h.

  {
    return 
      point.z () < zMin () - tolerance ||
      point.z () > zMax () + tolerance ||
      point.x () < xMin () - tolerance ||
      point.x () > xMax () + tolerance ||
      point.y () < yMin () - tolerance ||
      point.y () > yMax () + tolerance ;
  };

template<class aPoint>

bool SolidBase::isOutBBox

(

const aPoint &

point

)

const [inline, protected, inherited]

Fast check if the point is outside the bounding box of the solid.

Parameters:

point

point to be checked

Returns:

true of point is outside the bounding box

Definition at line 207 of file SolidBase.h.

  {
    return 
      point.z () < zMin () ||
      point.z () > zMax () ||
      point.x () < xMin () ||
      point.x () > xMax () ||
      point.y () < yMin () ||
      point.y () > yMax () ;
  };

template<class aPointA, class aPointB>

bool SolidBase::isOutBBox	(	const aPointA &	p1,
		const aPointB &	p2,
		const double	tolerance
	)			const [inline, protected, inherited]

Fast check if the segment of the line between two points is outside the bounding box.

Parameters:

	p1	first point of the segment
	p2	second point of the segment
	tolerance	tolerance parameter

Returns:

true if the whole segment is "outside" of the bounding box

Definition at line 283 of file SolidBase.h.

  {  
    return 
      ( (p1.z() < zMin()-tolerance && p2.z() < zMin()-tolerance) ||
        (p1.z() > zMax()+tolerance && p2.z() > zMax()+tolerance) ||
        (p1.x() < xMin()-tolerance && p2.x() < xMin()-tolerance) ||
        (p1.x() > xMax()+tolerance && p2.x() > xMax()+tolerance) ||
        (p1.y() < yMin()-tolerance && p2.y() < yMin()-tolerance) ||
        (p1.y() > yMax()+tolerance && p2.y() > yMax()+tolerance) );
  };

template<class aPointA, class aPointB>

bool SolidBase::isOutBBox	(	const aPointA &	p1,
		const aPointB &	p2
	)			const [inline, protected, inherited]

Fast check if the segment of the line between two points is outside the bounding box.

Parameters:

	p1	first point of the segment
	p2	second point of the segment

Returns:

true if the whole segment is "outside" of the bounding box

Definition at line 304 of file SolidBase.h.

  { 
    return 
      ( p1.z() < zMin() && p2.z() < zMin() ) ||
      ( p1.z() > zMax() && p2.z() > zMax() ) ||
      ( p1.x() < xMin() && p2.x() < xMin() ) ||
      ( p1.x() > xMax() && p2.x() > xMax() ) ||
      ( p1.y() < yMin() && p2.y() < yMin() ) ||
      ( p1.y() > yMax() && p2.y() > yMax() ) ;
  };

template<class aPoint, class aVector>

bool SolidBase::isOutBBox	(	const aPoint &	p,
		const aVector &	v,
		const ISolid::Tick &	tmin,
		const ISolid::Tick &	tmax,
		const double	tolerance
	)			const [inline, protected, inherited]

Fast check if the segment of the line between two points is outside the bounding box.

Parameters:

	p	first point of the segment
	v	vector along the line
	tmin	"minimal value of tick"
	tmax	"maximal value of tick"
	tolerance	tolerance parameter

Returns:

true if the whole segment is "outside" of the bounding box

Definition at line 327 of file SolidBase.h.

  {
    return isOutBBox( p + tmin * v , p + tmax * v , tolerance );
  };  

template<class aPoint, class aVector>

bool SolidBase::isOutBBox	(	const aPoint &	p,
		const aVector &	v,
		const ISolid::Tick &	tmin,
		const ISolid::Tick &	tmax
	)			const [inline, protected, inherited]

Fast check if the segment of the line between two points is outside the bounding box.

Parameters:

	p	first point of the segment
	v	vector along the line
	tmin	"minimal value of tick"
	tmax	"maximal value of tick"

Returns:

true if the whole segment is "outside" of the bounding box

Definition at line 346 of file SolidBase.h.

  {
    return isOutBBox( p + tmin * v , p + tmax * v );
  };  

template<class aPoint>

bool SolidBase::isOutBSphere	(	const aPoint &	point,
		const double	tolerance
	)			const [inline, protected, inherited]

Fast check if the point is outside the bounding sphere of the solid.

Parameters:

	point	point to be checked
	tolerance	tolerance parameter

Returns:

true of point is outside the bounding sphere

Definition at line 225 of file SolidBase.h.

  {
    const  double rmax = rMax()  + tolerance ;
    return rmax <= 0 || point.mag2() > rmax * rmax ;
  };

template<class aPoint>

bool SolidBase::isOutBSphere

(

const aPoint &

point

)

const [inline, protected, inherited]

Fast check if the point is outside the bounding sphere of the solid.

Parameters:

point

point to be checked

Returns:

true of point is outside the bounding sphere

Definition at line 237 of file SolidBase.h.

  {
    return  point.mag2 () > rMax () * rMax () ;
  };

template<class aPoint>

bool SolidBase::isOutBCylinder	(	const aPoint &	point,
		const double	tolerance
	)			const [inline, protected, inherited]

Fast check if the point is outside the bounding cylinder of the solid.

Parameters:

	point	point to be checked
	tolerance	tolerance parameter

Returns:

true of point is outside the bounding cylinder

Definition at line 250 of file SolidBase.h.

  {
    const double rhomax = rhoMax() + tolerance ;
    return rhomax <= 0 ? true : 
      point.z     () < zMin   () - tolerance ? true :
      point.z     () > zMax   () + tolerance ? true :
      point.perp2 () > rhomax * rhomax       ? true : false ;
  };

template<class aPoint>

bool SolidBase::isOutBCylinder

(

const aPoint &

point

)

const [inline, protected, inherited]

Fast check if the point is outside the bounding cylinder of the solid.

Parameters:

point

point to be checked

Returns:

true of point is outside the bounding cylinder

Definition at line 266 of file SolidBase.h.

  {
    return 
      point.z     () < zMin   () ||
      point.z     () > zMax   () ||
      point.perp2 () > rhoMax () * rhoMax () ;
  };

template<class aPoint, class aVector>

bool SolidBase::crossBSphere	(	const aPoint &	p,
		const aVector &	v,
		const double	tolerance = 0
	)			const [inline, protected, inherited]

Fast check if the line cross the bounding sphere.

Parameters:

	p	first point on the line
	v	vector along the line
	tolerance	tolerance parameter

Returns:

true if line do not cross the bounding sphere

Definition at line 362 of file SolidBase.h.

  {
    const double pp   = p.mag2 ()           ;
    const double vv   = v.mag2 ()           ;
    const double pv   = p.Dot  ( v )        ;
    const double rmax = rMax() + tolerance  ;
    const double dd   = rmax * rmax         ;
    return ( rmax > 0                       && 
             !(0 == vv && pp > dd)          &&
             !( (vv*pp) - (pv*pv) > vv*dd ) );
  };

template<class aPoint, class aVector>

bool SolidBase::crossBCylinder	(	const aPoint &	p,
		const aVector &	v,
		const double	tolerance = 0
	)			const [inline, protected, inherited]

Fast check if the line cross the surface of bounding cylinder.

Parameters:

	p	first point on the line
	v	vector along the line
	tolerance	tolerance parameter

Returns:

true if line do not cross the surface of bounding cylinder

Definition at line 384 of file SolidBase.h.

  {
    const double pp     = p.perp2 ()                  ;
    const double vv     = v.perp2 ()                  ;
    const double pv     = p.Dot ( v ) - p.z() * v.z() ;
    const double rhomax = rhoMax() + tolerance  ;
    const double dd     = rhomax * rhomax     ;
    return ( rhomax > 0                     &&
             !( 0 == vv && pp > dd )        &&
             !( (vv*pp) - (pv*pv) > vv*dd ) );
  };

void SolidBase::setXMin

(

const double

value

)

[inline, protected, inherited]

set "minimal x" for the solid

Definition at line 401 of file SolidBase.h.

{ m_xmin   = value ; }

void SolidBase::setXMax

(

const double

value

)

[inline, protected, inherited]

set "maximal x" for the solid

Definition at line 403 of file SolidBase.h.

{ m_xmax   = value ; }

void SolidBase::setYMin

(

const double

value

)

[inline, protected, inherited]

set "minimal y" for the solid

Definition at line 406 of file SolidBase.h.

{ m_ymin   = value ; }

void SolidBase::setYMax

(

const double

value

)

[inline, protected, inherited]

set "maximal y" for the solid

Definition at line 408 of file SolidBase.h.

{ m_ymax   = value ; }

void SolidBase::setZMin

(

const double

value

)

[inline, protected, inherited]

set "minimal z" for the solid

Definition at line 411 of file SolidBase.h.

{ m_zmin   = value ; }

void SolidBase::setZMax

(

const double

value

)

[inline, protected, inherited]

set "maximal z" for the solid

Definition at line 413 of file SolidBase.h.

{ m_zmax   = value ; }

void SolidBase::setRMax

(

const double

value

)

[inline, protected, inherited]

set "maximal r" for the solid

Definition at line 416 of file SolidBase.h.

{ m_rmax   = value ; }

void SolidBase::setRhoMax

(

const double

value

)

[inline, protected, inherited]

set "maximal r" for the solid

Definition at line 418 of file SolidBase.h.

{ m_rhomax = value ; }

void SolidBase::checkBP

(

)

const [protected, inherited]

check bounding parameters

Exceptions:

SolidException

for wrong set of bounding parameters

IMessageSvc* SolidBase::msgSvc

(

)

const [protected, inherited]

accessor to massage service

Returns:

pointer to message service

static const InterfaceID& ISolid::interfaceID

(

)

[inline, static, inherited]

retrieve the uninque interface identifier

See also:

Interface::interfaceID()

Returns:

uniqie interface identifier

Reimplemented from IInterface.

Definition at line 44 of file ISolid.h.

{ return IID_ISolid; }

---

Friends And Related Function Documentation

friend class SolidFactory< SolidCons > [friend]

friend factory for instantiation

Definition at line 31 of file SolidCons.h.

---

Member Data Documentation

double SolidCons::m_cons_zHalfLength [private]

Definition at line 335 of file SolidCons.h.

double SolidCons::m_cons_outerRadiusMinusZ [private]

Definition at line 336 of file SolidCons.h.

double SolidCons::m_cons_outerRadiusPlusZ [private]

Definition at line 337 of file SolidCons.h.

double SolidCons::m_cons_innerRadiusMinusZ [private]

Definition at line 338 of file SolidCons.h.

double SolidCons::m_cons_innerRadiusPlusZ [private]

Definition at line 339 of file SolidCons.h.

double SolidCons::m_cons_startPhiAngle [private]

Definition at line 340 of file SolidCons.h.

double SolidCons::m_cons_deltaPhiAngle [private]

Definition at line 341 of file SolidCons.h.

int SolidCons::m_cons_coverModel [private]

Definition at line 343 of file SolidCons.h.

bool SolidCons::m_noPhiGap [private]

Definition at line 344 of file SolidCons.h.

std::string SolidBase::m_name [protected, inherited]

name of the solid

Definition at line 460 of file SolidBase.h.

ISolid* SolidBase::m_cover [mutable, protected, inherited]

pointer to cover

Definition at line 461 of file SolidBase.h.

double SolidBase::m_xmin [protected, inherited]

Definition at line 463 of file SolidBase.h.

double SolidBase::m_ymin [protected, inherited]

Definition at line 464 of file SolidBase.h.

double SolidBase::m_zmin [protected, inherited]

Definition at line 465 of file SolidBase.h.

double SolidBase::m_xmax [protected, inherited]

Definition at line 467 of file SolidBase.h.

double SolidBase::m_ymax [protected, inherited]

Definition at line 468 of file SolidBase.h.

double SolidBase::m_zmax [protected, inherited]

Definition at line 469 of file SolidBase.h.

double SolidBase::m_rmax [protected, inherited]

Definition at line 471 of file SolidBase.h.

double SolidBase::m_rhomax [protected, inherited]

Definition at line 472 of file SolidBase.h.

DetDesc::Services* SolidBase::m_services [protected, inherited]

reference to services

Definition at line 475 of file SolidBase.h.

---

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

• /home/dayabay/installs/trunk_2011_04_11_opt/NuWa-trunk/lhcb/Det/DetDesc/DetDesc/SolidCons.h

---