Open CASCADE Technology  7.3.0
Public Member Functions
gp_Torus Class Reference

Describes a torus. A torus is defined by its major and minor radii and positioned in space with a coordinate system (a gp_Ax3 object) as follows: More...

#include <gp_Torus.hxx>

Public Member Functions

 gp_Torus ()
 creates an indefinite Torus. More...
 
 gp_Torus (const gp_Ax3 &A3, const Standard_Real MajorRadius, const Standard_Real MinorRadius)
 a torus centered on the origin of coordinate system A3, with major radius MajorRadius and minor radius MinorRadius, and with the reference plane defined by the origin, the "X Direction" and the "Y Direction" of A3. Warnings : It is not forbidden to create a torus with MajorRadius = MinorRadius = 0.0 Raises ConstructionError if MinorRadius < 0.0 or if MajorRadius < 0.0 More...
 
void SetAxis (const gp_Ax1 &A1)
 Modifies this torus, by redefining its local coordinate system so that: More...
 
void SetLocation (const gp_Pnt &Loc)
 Changes the location of the torus. More...
 
void SetMajorRadius (const Standard_Real MajorRadius)
 Assigns value to the major radius of this torus. Raises ConstructionError if MajorRadius - MinorRadius <= Resolution() More...
 
void SetMinorRadius (const Standard_Real MinorRadius)
 Assigns value to the minor radius of this torus. Raises ConstructionError if MinorRadius < 0.0 or if MajorRadius - MinorRadius <= Resolution from gp. More...
 
void SetPosition (const gp_Ax3 &A3)
 Changes the local coordinate system of the surface. More...
 
Standard_Real Area () const
 Computes the area of the torus. More...
 
void UReverse ()
 Reverses the U parametrization of the torus reversing the YAxis. More...
 
void VReverse ()
 Reverses the V parametrization of the torus reversing the ZAxis. More...
 
Standard_Boolean Direct () const
 returns true if the Ax3, the local coordinate system of this torus, is right handed. More...
 
const gp_Ax1Axis () const
 returns the symmetry axis of the torus. More...
 
void Coefficients (TColStd_Array1OfReal &Coef) const
 Computes the coefficients of the implicit equation of the surface in the absolute Cartesian coordinate system: Coef(1) * X^4 + Coef(2) * Y^4 + Coef(3) * Z^4 + Coef(4) * X^3 * Y + Coef(5) * X^3 * Z + Coef(6) * Y^3 * X + Coef(7) * Y^3 * Z + Coef(8) * Z^3 * X + Coef(9) * Z^3 * Y + Coef(10) * X^2 * Y^2 + Coef(11) * X^2 * Z^2 + Coef(12) * Y^2 * Z^2 + Coef(13) * X^2 * Y * Z + Coef(14) * X * Y^2 * Z + Coef(15) * X * Y * Z^2 + Coef(16) * X^3 + Coef(17) * Y^3 + Coef(18) * Z^3 + Coef(19) * X^2 * Y + Coef(20) * X^2 * Z + Coef(21) * Y^2 * X + Coef(22) * Y^2 * Z + Coef(23) * Z^2 * X + Coef(24) * Z^2 * Y + Coef(25) * X * Y * Z + Coef(26) * X^2 + Coef(27) * Y^2 + Coef(28) * Z^2 + Coef(29) * X * Y + Coef(30) * X * Z + Coef(31) * Y * Z + Coef(32) * X + Coef(33) * Y + Coef(34) * Z + Coef(35) = 0.0 Raises DimensionError if the length of Coef is lower than 35. More...
 
const gp_PntLocation () const
 Returns the Torus's location. More...
 
const gp_Ax3Position () const
 Returns the local coordinates system of the torus. More...
 
Standard_Real MajorRadius () const
 returns the major radius of the torus. More...
 
Standard_Real MinorRadius () const
 returns the minor radius of the torus. More...
 
Standard_Real Volume () const
 Computes the volume of the torus. More...
 
gp_Ax1 XAxis () const
 returns the axis X of the torus. More...
 
gp_Ax1 YAxis () const
 returns the axis Y of the torus. More...
 
void Mirror (const gp_Pnt &P)
 
gp_Torus Mirrored (const gp_Pnt &P) const
 Performs the symmetrical transformation of a torus with respect to the point P which is the center of the symmetry. More...
 
void Mirror (const gp_Ax1 &A1)
 
gp_Torus Mirrored (const gp_Ax1 &A1) const
 Performs the symmetrical transformation of a torus with respect to an axis placement which is the axis of the symmetry. More...
 
void Mirror (const gp_Ax2 &A2)
 
gp_Torus Mirrored (const gp_Ax2 &A2) const
 Performs the symmetrical transformation of a torus with respect to a plane. The axis placement A2 locates the plane of the of the symmetry : (Location, XDirection, YDirection). More...
 
void Rotate (const gp_Ax1 &A1, const Standard_Real Ang)
 
gp_Torus Rotated (const gp_Ax1 &A1, const Standard_Real Ang) const
 Rotates a torus. A1 is the axis of the rotation. Ang is the angular value of the rotation in radians. More...
 
void Scale (const gp_Pnt &P, const Standard_Real S)
 
gp_Torus Scaled (const gp_Pnt &P, const Standard_Real S) const
 Scales a torus. S is the scaling value. The absolute value of S is used to scale the torus. More...
 
void Transform (const gp_Trsf &T)
 
gp_Torus Transformed (const gp_Trsf &T) const
 Transforms a torus with the transformation T from class Trsf. More...
 
void Translate (const gp_Vec &V)
 
gp_Torus Translated (const gp_Vec &V) const
 Translates a torus in the direction of the vector V. The magnitude of the translation is the vector's magnitude. More...
 
void Translate (const gp_Pnt &P1, const gp_Pnt &P2)
 
gp_Torus Translated (const gp_Pnt &P1, const gp_Pnt &P2) const
 Translates a torus from the point P1 to the point P2. More...
 

Detailed Description

Describes a torus. A torus is defined by its major and minor radii and positioned in space with a coordinate system (a gp_Ax3 object) as follows:

Constructor & Destructor Documentation

◆ gp_Torus() [1/2]

gp_Torus::gp_Torus ( )

creates an indefinite Torus.

◆ gp_Torus() [2/2]

gp_Torus::gp_Torus ( const gp_Ax3 A3,
const Standard_Real  MajorRadius,
const Standard_Real  MinorRadius 
)

a torus centered on the origin of coordinate system A3, with major radius MajorRadius and minor radius MinorRadius, and with the reference plane defined by the origin, the "X Direction" and the "Y Direction" of A3. Warnings : It is not forbidden to create a torus with MajorRadius = MinorRadius = 0.0 Raises ConstructionError if MinorRadius < 0.0 or if MajorRadius < 0.0

Member Function Documentation

◆ Area()

Standard_Real gp_Torus::Area ( ) const

Computes the area of the torus.

◆ Axis()

const gp_Ax1& gp_Torus::Axis ( ) const

returns the symmetry axis of the torus.

◆ Coefficients()

void gp_Torus::Coefficients ( TColStd_Array1OfReal Coef) const

Computes the coefficients of the implicit equation of the surface in the absolute Cartesian coordinate system: Coef(1) * X^4 + Coef(2) * Y^4 + Coef(3) * Z^4 + Coef(4) * X^3 * Y + Coef(5) * X^3 * Z + Coef(6) * Y^3 * X + Coef(7) * Y^3 * Z + Coef(8) * Z^3 * X + Coef(9) * Z^3 * Y + Coef(10) * X^2 * Y^2 + Coef(11) * X^2 * Z^2 + Coef(12) * Y^2 * Z^2 + Coef(13) * X^2 * Y * Z + Coef(14) * X * Y^2 * Z + Coef(15) * X * Y * Z^2 + Coef(16) * X^3 + Coef(17) * Y^3 + Coef(18) * Z^3 + Coef(19) * X^2 * Y + Coef(20) * X^2 * Z + Coef(21) * Y^2 * X + Coef(22) * Y^2 * Z + Coef(23) * Z^2 * X + Coef(24) * Z^2 * Y + Coef(25) * X * Y * Z + Coef(26) * X^2 + Coef(27) * Y^2 + Coef(28) * Z^2 + Coef(29) * X * Y + Coef(30) * X * Z + Coef(31) * Y * Z + Coef(32) * X + Coef(33) * Y + Coef(34) * Z + Coef(35) = 0.0 Raises DimensionError if the length of Coef is lower than 35.

◆ Direct()

Standard_Boolean gp_Torus::Direct ( ) const

returns true if the Ax3, the local coordinate system of this torus, is right handed.

◆ Location()

const gp_Pnt& gp_Torus::Location ( ) const

Returns the Torus's location.

◆ MajorRadius()

Standard_Real gp_Torus::MajorRadius ( ) const

returns the major radius of the torus.

◆ MinorRadius()

Standard_Real gp_Torus::MinorRadius ( ) const

returns the minor radius of the torus.

◆ Mirror() [1/3]

void gp_Torus::Mirror ( const gp_Pnt P)

◆ Mirror() [2/3]

void gp_Torus::Mirror ( const gp_Ax1 A1)

◆ Mirror() [3/3]

void gp_Torus::Mirror ( const gp_Ax2 A2)

◆ Mirrored() [1/3]

gp_Torus gp_Torus::Mirrored ( const gp_Pnt P) const

Performs the symmetrical transformation of a torus with respect to the point P which is the center of the symmetry.

◆ Mirrored() [2/3]

gp_Torus gp_Torus::Mirrored ( const gp_Ax1 A1) const

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

◆ Mirrored() [3/3]

gp_Torus gp_Torus::Mirrored ( const gp_Ax2 A2) const

Performs the symmetrical transformation of a torus with respect to a plane. The axis placement A2 locates the plane of the of the symmetry : (Location, XDirection, YDirection).

◆ Position()

const gp_Ax3& gp_Torus::Position ( ) const

Returns the local coordinates system of the torus.

◆ Rotate()

void gp_Torus::Rotate ( const gp_Ax1 A1,
const Standard_Real  Ang 
)

◆ Rotated()

gp_Torus gp_Torus::Rotated ( const gp_Ax1 A1,
const Standard_Real  Ang 
) const

Rotates a torus. A1 is the axis of the rotation. Ang is the angular value of the rotation in radians.

◆ Scale()

void gp_Torus::Scale ( const gp_Pnt P,
const Standard_Real  S 
)

◆ Scaled()

gp_Torus gp_Torus::Scaled ( const gp_Pnt P,
const Standard_Real  S 
) const

Scales a torus. S is the scaling value. The absolute value of S is used to scale the torus.

◆ SetAxis()

void gp_Torus::SetAxis ( const gp_Ax1 A1)

Modifies this torus, by redefining its local coordinate system so that:

  • its origin and "main Direction" become those of the axis A1 (the "X Direction" and "Y Direction" are then recomputed). Raises ConstructionError if the direction of A1 is parallel to the "XDirection" of the coordinate system of the toroidal surface.

◆ SetLocation()

void gp_Torus::SetLocation ( const gp_Pnt Loc)

Changes the location of the torus.

◆ SetMajorRadius()

void gp_Torus::SetMajorRadius ( const Standard_Real  MajorRadius)

Assigns value to the major radius of this torus. Raises ConstructionError if MajorRadius - MinorRadius <= Resolution()

◆ SetMinorRadius()

void gp_Torus::SetMinorRadius ( const Standard_Real  MinorRadius)

Assigns value to the minor radius of this torus. Raises ConstructionError if MinorRadius < 0.0 or if MajorRadius - MinorRadius <= Resolution from gp.

◆ SetPosition()

void gp_Torus::SetPosition ( const gp_Ax3 A3)

Changes the local coordinate system of the surface.

◆ Transform()

void gp_Torus::Transform ( const gp_Trsf T)

◆ Transformed()

gp_Torus gp_Torus::Transformed ( const gp_Trsf T) const

Transforms a torus with the transformation T from class Trsf.

◆ Translate() [1/2]

void gp_Torus::Translate ( const gp_Vec V)

◆ Translate() [2/2]

void gp_Torus::Translate ( const gp_Pnt P1,
const gp_Pnt P2 
)

◆ Translated() [1/2]

gp_Torus gp_Torus::Translated ( const gp_Vec V) const

Translates a torus in the direction of the vector V. The magnitude of the translation is the vector's magnitude.

◆ Translated() [2/2]

gp_Torus gp_Torus::Translated ( const gp_Pnt P1,
const gp_Pnt P2 
) const

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

◆ UReverse()

void gp_Torus::UReverse ( )

Reverses the U parametrization of the torus reversing the YAxis.

◆ Volume()

Standard_Real gp_Torus::Volume ( ) const

Computes the volume of the torus.

◆ VReverse()

void gp_Torus::VReverse ( )

Reverses the V parametrization of the torus reversing the ZAxis.

◆ XAxis()

gp_Ax1 gp_Torus::XAxis ( ) const

returns the axis X of the torus.

◆ YAxis()

gp_Ax1 gp_Torus::YAxis ( ) const

returns the axis Y of the torus.


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