gp_Cone Class Reference

Defines an infinite conical surface. A cone is defined by its half-angle (can be negative) at the apex and positioned in space with a coordinate system (a gp_Ax3 object) and a "reference radius" where: More...

#include <gp_Cone.hxx>

Public Member Functions
	gp_Cone ()
	Creates an indefinite Cone.
	gp_Cone (const gp_Ax3 &theA3, const Standard_Real theAng, const Standard_Real theRadius)
	Creates an infinite conical surface. theA3 locates the cone in the space and defines the reference plane of the surface. Ang is the conical surface semi-angle. Its absolute value is in range ]0, PI/2[. theRadius is the radius of the circle in the reference plane of the cone. theRaises ConstructionError.
void	SetAxis (const gp_Ax1 &theA1)
	Changes the symmetry axis of the cone. Raises ConstructionError the direction of theA1 is parallel to the "XDirection" of the coordinate system of the cone.
void	SetLocation (const gp_Pnt &theLoc)
	Changes the location of the cone.
void	SetPosition (const gp_Ax3 &theA3)
	Changes the local coordinate system of the cone. This coordinate system defines the reference plane of the cone.
void	SetRadius (const Standard_Real theR)
	Changes the radius of the cone in the reference plane of the cone. Raised if theR < 0.0.
void	SetSemiAngle (const Standard_Real theAng)
	Changes the semi-angle of the cone. Semi-angle can be negative. Its absolute value Abs(theAng) is in range ]0,PI/2[. Raises ConstructionError if Abs(theAng) < Resolution from gp or Abs(theAng) >= PI/2 - Resolution.
gp_Pnt	Apex () const
	Computes the cone's top. The Apex of the cone is on the negative side of the symmetry axis of the cone.
void	UReverse ()
	Reverses the U parametrization of the cone reversing the YAxis.
void	VReverse ()
	Reverses the V parametrization of the cone reversing the ZAxis.
Standard_Boolean	Direct () const
	Returns true if the local coordinate system of this cone is right-handed.
const gp_Ax1 &	Axis () const
	returns the symmetry axis of the cone.
void	Coefficients (Standard_Real &theA1, Standard_Real &theA2, Standard_Real &theA3, Standard_Real &theB1, Standard_Real &theB2, Standard_Real &theB3, Standard_Real &theC1, Standard_Real &theC2, Standard_Real &theC3, Standard_Real &theD) const
	Computes the coefficients of the implicit equation of the quadric in the absolute cartesian coordinates system : theA1.X**2 + theA2.Y**2 + theA3.Z**2 + 2.(theB1.X.Y + theB2.X.Z + theB3.Y.Z) + 2.(theC1.X + theC2.Y + theC3.Z) + theD = 0.0.
const gp_Pnt &	Location () const
	returns the "Location" point of the cone.
const gp_Ax3 &	Position () const
	Returns the local coordinates system of the cone.
Standard_Real	RefRadius () const
	Returns the radius of the cone in the reference plane.
Standard_Real	SemiAngle () const
	Returns the half-angle at the apex of this cone. Attention! Semi-angle can be negative.
gp_Ax1	XAxis () const
	Returns the XAxis of the reference plane.
gp_Ax1	YAxis () const
	Returns the YAxis of the reference plane.
void	Mirror (const gp_Pnt &theP)
gp_Cone	Mirrored (const gp_Pnt &theP) const
	Performs the symmetrical transformation of a cone with respect to the point theP which is the center of the symmetry.
void	Mirror (const gp_Ax1 &theA1)
gp_Cone	Mirrored (const gp_Ax1 &theA1) const
	Performs the symmetrical transformation of a cone with respect to an axis placement which is the axis of the symmetry.
void	Mirror (const gp_Ax2 &theA2)
gp_Cone	Mirrored (const gp_Ax2 &theA2) const
	Performs the symmetrical transformation of a cone with respect to a plane. The axis placement theA2 locates the plane of the of the symmetry : (Location, XDirection, YDirection).
void	Rotate (const gp_Ax1 &theA1, const Standard_Real theAng)
gp_Cone	Rotated (const gp_Ax1 &theA1, const Standard_Real theAng) const
	Rotates a cone. theA1 is the axis of the rotation. Ang is the angular value of the rotation in radians.
void	Scale (const gp_Pnt &theP, const Standard_Real theS)
gp_Cone	Scaled (const gp_Pnt &theP, const Standard_Real theS) const
	Scales a cone. theS is the scaling value. The absolute value of theS is used to scale the cone.
void	Transform (const gp_Trsf &theT)
gp_Cone	Transformed (const gp_Trsf &theT) const
	Transforms a cone with the transformation theT from class Trsf.
void	Translate (const gp_Vec &theV)
gp_Cone	Translated (const gp_Vec &theV) const
	Translates a cone in the direction of the vector theV. The magnitude of the translation is the vector's magnitude.
void	Translate (const gp_Pnt &theP1, const gp_Pnt &theP2)
gp_Cone	Translated (const gp_Pnt &theP1, const gp_Pnt &theP2) const
	Translates a cone from the point P1 to the point P2.

Detailed Description

Defines an infinite conical surface. A cone is defined by its half-angle (can be negative) at the apex and positioned in space with a coordinate system (a gp_Ax3 object) and a "reference radius" where:

• the "main Axis" of the coordinate system is the axis of revolution of the cone,
• the plane defined by the origin, the "X Direction" and the "Y Direction" of the coordinate system is the reference plane of the cone; the intersection of the cone with this reference plane is a circle of radius equal to the reference radius, if the half-angle is positive, the apex of the cone is on the negative side of the "main Axis" of the coordinate system. If the half-angle is negative, the apex is on the positive side. This coordinate system is the "local coordinate system" of the cone. Note: when a gp_Cone cone is converted into a Geom_ConicalSurface cone, some implicit properties of its local coordinate system are used explicitly:
• its origin, "X Direction", "Y Direction" and "main Direction" are used directly to define the parametric directions on the cone and the origin of the parameters,
• its implicit orientation (right-handed or left-handed) gives the orientation (direct or indirect) of the Geom_ConicalSurface cone. See Also gce_MakeCone which provides functions for more complex cone constructions Geom_ConicalSurface which provides additional functions for constructing cones and works, in particular, with the parametric equations of cones gp_Ax3

Constructor & Destructor Documentation

gp_Cone() [1/2]

gp_Cone::gp_Cone ( )

inline

Creates an indefinite Cone.

gp_Cone() [2/2]

gp_Cone::gp_Cone ( const gp_Ax3 &  theA3, const Standard_Real  theAng, const Standard_Real  theRadius  )

inline

Creates an infinite conical surface. theA3 locates the cone in the space and defines the reference plane of the surface. Ang is the conical surface semi-angle. Its absolute value is in range ]0, PI/2[. theRadius is the radius of the circle in the reference plane of the cone. theRaises ConstructionError.

• if theRadius is lower than 0.0
• Abs(theAng) < Resolution from gp or Abs(theAng) >= (PI/2) - Resolution.

Member Function Documentation

Apex()

gp_Pnt gp_Cone::Apex ( ) const

inline

Computes the cone's top. The Apex of the cone is on the negative side of the symmetry axis of the cone.

Axis()

const gp_Ax1 & gp_Cone::Axis ( ) const

inline

returns the symmetry axis of the cone.

Coefficients()

void gp_Cone::Coefficients	(	Standard_Real &	theA1,
		Standard_Real &	theA2,
		Standard_Real &	theA3,
		Standard_Real &	theB1,
		Standard_Real &	theB2,
		Standard_Real &	theB3,
		Standard_Real &	theC1,
		Standard_Real &	theC2,
		Standard_Real &	theC3,
		Standard_Real &	theD
	)		const

Computes the coefficients of the implicit equation of the quadric in the absolute cartesian coordinates system : theA1.X**2 + theA2.Y**2 + theA3.Z**2 + 2.(theB1.X.Y + theB2.X.Z + theB3.Y.Z) + 2.(theC1.X + theC2.Y + theC3.Z) + theD = 0.0.

Direct()

Standard_Boolean gp_Cone::Direct ( ) const

inline

Returns true if the local coordinate system of this cone is right-handed.

Location()

const gp_Pnt & gp_Cone::Location ( ) const

inline

returns the "Location" point of the cone.

Mirror() [1/3]

void gp_Cone::Mirror

(

const gp_Ax1 &

theA1

)

Mirror() [2/3]

void gp_Cone::Mirror

(

const gp_Ax2 &

theA2

)

Mirror() [3/3]

void gp_Cone::Mirror

(

const gp_Pnt &

theP

)

Mirrored() [1/3]

gp_Cone gp_Cone::Mirrored

(

const gp_Ax1 &

theA1

)

const

Performs the symmetrical transformation of a cone with respect to an axis placement which is the axis of the symmetry.

Mirrored() [2/3]

gp_Cone gp_Cone::Mirrored

(

const gp_Ax2 &

theA2

)

const

Performs the symmetrical transformation of a cone with respect to a plane. The axis placement theA2 locates the plane of the of the symmetry : (Location, XDirection, YDirection).

Mirrored() [3/3]

gp_Cone gp_Cone::Mirrored

(

const gp_Pnt &

theP

)

const

Performs the symmetrical transformation of a cone with respect to the point theP which is the center of the symmetry.

Position()

const gp_Ax3 & gp_Cone::Position ( ) const

inline

Returns the local coordinates system of the cone.

RefRadius()

Standard_Real gp_Cone::RefRadius ( ) const

inline

Returns the radius of the cone in the reference plane.

Rotate()

void gp_Cone::Rotate ( const gp_Ax1 &  theA1, const Standard_Real  theAng  )

inline

Rotated()

gp_Cone gp_Cone::Rotated ( const gp_Ax1 &  theA1, const Standard_Real  theAng  ) const

inline

Rotates a cone. theA1 is the axis of the rotation. Ang is the angular value of the rotation in radians.

Scale()

void gp_Cone::Scale ( const gp_Pnt &  theP, const Standard_Real  theS  )

inline

Scaled()

gp_Cone gp_Cone::Scaled ( const gp_Pnt &  theP, const Standard_Real  theS  ) const

inline

Scales a cone. theS is the scaling value. The absolute value of theS is used to scale the cone.

SemiAngle()

Standard_Real gp_Cone::SemiAngle ( ) const

inline

Returns the half-angle at the apex of this cone. Attention! Semi-angle can be negative.

SetAxis()

void gp_Cone::SetAxis ( const gp_Ax1 &  theA1 )

inline

Changes the symmetry axis of the cone. Raises ConstructionError the direction of theA1 is parallel to the "XDirection" of the coordinate system of the cone.

SetLocation()

void gp_Cone::SetLocation ( const gp_Pnt &  theLoc )

inline

Changes the location of the cone.

SetPosition()

void gp_Cone::SetPosition ( const gp_Ax3 &  theA3 )

inline

Changes the local coordinate system of the cone. This coordinate system defines the reference plane of the cone.

SetRadius()

void gp_Cone::SetRadius ( const Standard_Real  theR )

inline

Changes the radius of the cone in the reference plane of the cone. Raised if theR < 0.0.

SetSemiAngle()

void gp_Cone::SetSemiAngle ( const Standard_Real  theAng )

inline

Changes the semi-angle of the cone. Semi-angle can be negative. Its absolute value Abs(theAng) is in range ]0,PI/2[. Raises ConstructionError if Abs(theAng) < Resolution from gp or Abs(theAng) >= PI/2 - Resolution.

Transform()

void gp_Cone::Transform ( const gp_Trsf &  theT )

inline

Transformed()

gp_Cone gp_Cone::Transformed ( const gp_Trsf &  theT ) const

inline

Transforms a cone with the transformation theT from class Trsf.

Translate() [1/2]

void gp_Cone::Translate ( const gp_Pnt &  theP1, const gp_Pnt &  theP2  )

inline

Translate() [2/2]

void gp_Cone::Translate ( const gp_Vec &  theV )

inline

Translated() [1/2]

gp_Cone gp_Cone::Translated ( const gp_Pnt &  theP1, const gp_Pnt &  theP2  ) const

inline

Translates a cone from the point P1 to the point P2.

Translated() [2/2]

gp_Cone gp_Cone::Translated ( const gp_Vec &  theV ) const

inline

Translates a cone in the direction of the vector theV. The magnitude of the translation is the vector's magnitude.

UReverse()

void gp_Cone::UReverse ( )

inline

Reverses the U parametrization of the cone reversing the YAxis.

VReverse()

void gp_Cone::VReverse ( )

inline

Reverses the V parametrization of the cone reversing the ZAxis.

XAxis()

gp_Ax1 gp_Cone::XAxis ( ) const

inline

Returns the XAxis of the reference plane.

YAxis()

gp_Ax1 gp_Cone::YAxis ( ) const

inline

Returns the YAxis of the reference plane.

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

• gp_Cone.hxx