CFx SDK Documentation  2020SP3
Public Member Functions | List of all members
OdGeCircArc3d Class Reference

#include <GeCircArc3d.h>

Inheritance diagram for OdGeCircArc3d:
OdGeCurve3d OdGeEntity3d

Public Member Functions

 OdGeCircArc3d ()
 
 OdGeCircArc3d (const OdGeCircArc3d &source)
 
 OdGeCircArc3d (const OdGePoint3d &center, const OdGeVector3d &normal, double radius)
 
 OdGeCircArc3d (const OdGePoint3d &center, const OdGeVector3d &normal, const OdGeVector3d &refVec, double radius, double startAng=0, double endAng=Oda2PI)
 
 OdGeCircArc3d (const OdGePoint3d &startPoint, const OdGePoint3d &secondPoint, const OdGePoint3d &endPoint)
 
OdGePoint3d closestPointToPlane (const OdGePlanarEnt &plane, OdGePoint3d &pointOnPlane, const OdGeTol &tol=OdGeContext::gTol) const
 
bool intersectWith (const OdGeLinearEnt3d &line, int &numInt, OdGePoint3d &p1, OdGePoint3d &p2, const OdGeTol &tol=OdGeContext::gTol) const
 
bool intersectWith (const OdGeCircArc3d &arc, int &numInt, OdGePoint3d &p1, OdGePoint3d &p2, const OdGeTol &tol=OdGeContext::gTol) const
 
bool intersectWith (const OdGePlanarEnt &plane, int &numInt, OdGePoint3d &p1, OdGePoint3d &p2, const OdGeTol &tol=OdGeContext::gTol) const
 
bool projIntersectWith (const OdGeLinearEnt3d &line, const OdGeVector3d &projDir, int &numInt, OdGePoint3d &pntOnArc1, OdGePoint3d &pntOnArc2, OdGePoint3d &pntOnLine1, OdGePoint3d &pntOnLine2, const OdGeTol &tol=OdGeContext::gTol) const
 
bool tangent (const OdGePoint3d &point, OdGeLine3d &line, const OdGeTol &tol=OdGeContext::gTol) const
 
bool tangent (const OdGePoint3d &point, OdGeLine3d &line, const OdGeTol &tol, OdGeError &status) const
 
void getPlane (OdGePlane &plane) const
 
bool isInside (const OdGePoint3d &point, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGePoint3d center () const
 
OdGeVector3d normal () const
 
OdGeVector3d refVec () const
 
double radius () const
 
double startAng () const
 
double endAng () const
 
OdGePoint3d startPoint () const
 
OdGePoint3d endPoint () const
 
OdGeCircArc3dsetCenter (const OdGePoint3d &center)
 
OdGeCircArc3dsetAxes (const OdGeVector3d &normal, const OdGeVector3d &refVec)
 
OdGeCircArc3dsetRadius (double radius)
 
OdGeCircArc3dsetAngles (double startAng, double endAng)
 
OdGeCircArc3dset (const OdGePoint3d &center, const OdGeVector3d &normal, double radius)
 
OdGeCircArc3dset (const OdGePoint3d &center, const OdGeVector3d &normal, const OdGeVector3d &refVec, double radius, double startAng, double endAng)
 
OdGeCircArc3dset (const OdGePoint3d &startPoint, const OdGePoint3d &secondPoint, const OdGePoint3d &endPoint)
 
OdGeCircArc3dset (const OdGePoint3d &startPoint, const OdGePoint3d &secondPoint, const OdGePoint3d &endPoint, OdGeError &status)
 
OdGeCircArc3dset (const OdGeCurve3d &curve1, const OdGeCurve3d &curve2, double radius, double &param1, double &param2, bool &success)
 
OdGeCircArc3dset (const OdGeCurve3d &curve1, const OdGeCurve3d &curve2, const OdGeCurve3d &curve3, double &param1, double &param2, double &param3, bool &success)
 
OdGeCircArc3doperator= (const OdGeCircArc3d &arc)
 
void getGeomExtents (OdGeExtents3d &extents) const
 
- Public Member Functions inherited from OdGeCurve3d
void getInterval (OdGeInterval &interval) const
 
void getInterval (OdGeInterval &interval, OdGePoint3d &start, OdGePoint3d &end) const
 
OdGeCurve3dreverseParam ()
 
OdGeCurve3dsetInterval ()
 
bool setInterval (const OdGeInterval &interval)
 
double distanceTo (const OdGePoint3d &point, const OdGeTol &tol=OdGeContext::gTol) const
 
double distanceTo (const OdGeCurve3d &curve, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGePoint3d closestPointTo (const OdGePoint3d &point, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGePoint3d closestPointTo (const OdGeCurve3d &curve, OdGePoint3d &pntOnOtherCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
void getClosestPointTo (const OdGePoint3d &point, OdGePointOnCurve3d &pntOnCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
void getClosestPointTo (const OdGeCurve3d &curve, OdGePointOnCurve3d &pntOnThisCrv, OdGePointOnCurve3d &pntOnOtherCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGePoint3d projClosestPointTo (const OdGePoint3d &point, const OdGeVector3d &projectDirection, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGePoint3d projClosestPointTo (const OdGeCurve3d &curve, const OdGeVector3d &projectDirection, OdGePoint3d &pntOnOtherCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
void getProjClosestPointTo (const OdGePoint3d &point, const OdGeVector3d &projectDirection, OdGePointOnCurve3d &pntOnCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
void getProjClosestPointTo (const OdGeCurve3d &curve, const OdGeVector3d &projectDirection, OdGePointOnCurve3d &pntOnThisCrv, OdGePointOnCurve3d &pntOnOtherCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
bool getNormalPoint (const OdGePoint3d &point, OdGePointOnCurve3d &pntOnCrv, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGeBoundBlock3d boundBlock () const
 
OdGeBoundBlock3d boundBlock (const OdGeInterval &range) const
 
OdGeBoundBlock3d orthoBoundBlock () const
 
OdGeBoundBlock3d orthoBoundBlock (const OdGeInterval &range) const
 
OdGeEntity3dproject (const OdGePlane &projectionPlane, const OdGeVector3d &projectDirection, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGeEntity3dorthoProject (const OdGePlane &projectionPlane, const OdGeTol &tol=OdGeContext::gTol) const
 
 TD_USING (OdGeEntity3d::isOn)
 
bool isOn (const OdGePoint3d &point, double &param, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isOn (double param, const OdGeTol &tol=OdGeContext::gTol) const
 
double paramOf (const OdGePoint3d &point, const OdGeTol &tol=OdGeContext::gTol) const
 
void getTrimmedOffset (double distance, const OdGeVector3d &planeNormal, OdGeCurve3dPtrArray &offsetCurveList, OdGe::OffsetCrvExtType extensionType=OdGe::kFillet, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isClosed (const OdGeTol &tol=OdGeContext::gTol) const
 
bool isPlanar (OdGePlane &plane, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isLinear (OdGeLine3d &line, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isCoplanarWith (const OdGeCurve3d &curve, OdGePlane &plane, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isPeriodic (double &period) const
 
double length (double fromParam, double toParam, double tol=OdGeContext::gTol.equalPoint()) const
 
double length (double tol=OdGeContext::gTol.equalPoint()) const
 
double paramAtLength (double datumParam, double length, bool posParamDir=true, double tol=OdGeContext::gTol.equalPoint()) const
 
bool area (double startParam, double endParam, double &value, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isDegenerate (OdGe::EntityId &degenerateType, const OdGeTol &tol=OdGeContext::gTol) const
 
bool isDegenerate (OdGeEntity3d *&pConvertedEntity, const OdGeTol &tol=OdGeContext::gTol) const
 
void getSplitCurves (double param, OdGeCurve3d *&piece1, OdGeCurve3d *&piece2) const
 
bool explode (OdGeCurve3dPtrArray &explodedCurves, OdGeIntArray &newExplodedCurves, const OdGeInterval *pInterval=NULL) const
 
void getLocalClosestPoints (const OdGePoint3d &point, OdGePointOnCurve3d &approxPntOnThisCrv, const OdGeInterval *pInterval1=NULL, const OdGeTol &tol=OdGeContext::gTol) const
 
void getLocalClosestPoints (const OdGeCurve3d &curve, OdGePointOnCurve3d &approxPntOnThisCrv, OdGePointOnCurve3d &approxPntOnOtherCrv, const OdGeInterval *pInterval1=NULL, const OdGeInterval *pInterval2=NULL, const OdGeTol &tol=OdGeContext::gTol) const
 
bool hasStartPoint (OdGePoint3d &startPoint) const
 
bool hasEndPoint (OdGePoint3d &endPoint) const
 
OdGePoint3d evalPoint (double param) const
 
OdGePoint3d evalPoint (double param, int numDeriv, OdGeVector3dArray &derivatives) const
 
void getSamplePoints (double fromParam, double toParam, double approxEps, OdGePoint3dArray &pointArray, OdGeDoubleArray &paramArray, bool forceResampling=false) const
 
void getSamplePoints (int numSample, OdGePoint3dArray &pointArray) const
 
void getSamplePoints (int numSample, OdGePoint3dArray &pointArray, OdGeDoubleArray &paramArray) const
 
OdGeCurve3doperator= (const OdGeCurve3d &curve)
 
void getSamplePoints (double fromParam, double toParam, double approxEps, OdGePoint3dArray &pointArray, OdGeDoubleArray *paramArray=NULL) const
 
void getSamplePoints (const OdGeInterval *paramInterval, double approxEps, OdGePoint3dArray &pointArray, OdGeDoubleArray *pParamArray=NULL) const
 
void appendSamplePoints (double fromParam, double toParam, double approxEps, OdGePoint3dArray &pointArray, OdGeDoubleArray *pParamArray=NULL) const
 
void appendSamplePoints (int numSample, OdGePoint3dArray &pointArray, OdGeDoubleArray *pParamArray=NULL) const
 
void appendSamplePoints (const OdGeInterval *paramInterval, double approxEps, OdGePoint3dArray &pointArray, OdGeDoubleArray *pParamArray=NULL) const
 
- Public Member Functions inherited from OdGeEntity3d
 ODRX_HEAP_OPERATORS ()
 
 ~OdGeEntity3d ()
 
bool isKindOf (OdGe::EntityId entType) const
 
OdGe::EntityId type () const
 
OdGeEntity3dcopy () const
 
OdGeEntity3doperator= (const OdGeEntity3d &entity)
 
bool operator== (const OdGeEntity3d &entity) const
 
bool operator!= (const OdGeEntity3d &entity) const
 
bool isEqualTo (const OdGeEntity3d &object, const OdGeTol &tol=OdGeContext::gTol) const
 
OdGeEntity3dtransformBy (const OdGeMatrix3d &xfm)
 
OdGeEntity3dtranslateBy (const OdGeVector3d &translateVec)
 
OdGeEntity3drotateBy (double angle, const OdGeVector3d &vect, const OdGePoint3d &basePoint=OdGePoint3d::kOrigin)
 
OdGeEntity3dmirror (const OdGePlane &plane)
 
OdGeEntity3dscaleBy (double scaleFactor, const OdGePoint3d &basePoint=OdGePoint3d::kOrigin)
 
bool isOn (const OdGePoint3d &point, const OdGeTol &tol=OdGeContext::gTol) const
 

Additional Inherited Members

- Protected Member Functions inherited from OdGeCurve3d
 OdGeCurve3d ()
 
 OdGeCurve3d (const OdGeCurve3d &source)
 
- Protected Member Functions inherited from OdGeEntity3d
 OdGeEntity3d ()
 
 OdGeEntity3d (const OdGeEntity3d &)
 
void connectTo (OdGeEntity3dImpl *)
 

Detailed Description

A mathematical entity used to represent a circular arc in 3D space.

Corresponding C++ library: TD_Ge

<group OdGe_Classes>

See also
<link ge_OdGeCircArc3d.html, Working with Circular Arcs>

Definition at line 47 of file GeCircArc3d.h.

Constructor & Destructor Documentation

◆ OdGeCircArc3d() [1/5]

OdGeCircArc3d::OdGeCircArc3d ( )
Parameters
center[in] Center of arc.
normal[in] A vector normal to the plane of the arc
radius[in] Radius of arc.
startAng[in] Starting angle of arc.
endAng[in] Ending angle of arc.
refVec[in] The reference vector defining arc angle 0.
isClockWise[in] If true, the arc is drawn clockwise, otherwise, counterclockwise.
startPoint[in] Startpoint of arc.
secondPoint[in] Second point on a 3-point arc.
endPoint[in] Endpoint of arc.
source[in] Object to be cloned.
Remarks
To construct a circle, set endAng = startAng + Oda2PI
All angles are expressed in radians.

startAng must be less than endAng.

◆ OdGeCircArc3d() [2/5]

OdGeCircArc3d::OdGeCircArc3d ( const OdGeCircArc3d source)

◆ OdGeCircArc3d() [3/5]

OdGeCircArc3d::OdGeCircArc3d ( const OdGePoint3d center,
const OdGeVector3d normal,
double  radius 
)

◆ OdGeCircArc3d() [4/5]

OdGeCircArc3d::OdGeCircArc3d ( const OdGePoint3d center,
const OdGeVector3d normal,
const OdGeVector3d refVec,
double  radius,
double  startAng = 0,
double  endAng = Oda2PI 
)

◆ OdGeCircArc3d() [5/5]

OdGeCircArc3d::OdGeCircArc3d ( const OdGePoint3d startPoint,
const OdGePoint3d secondPoint,
const OdGePoint3d endPoint 
)

Member Function Documentation

◆ center()

OdGePoint3d OdGeCircArc3d::center ( ) const

Returns the center of this arc.

◆ closestPointToPlane()

OdGePoint3d OdGeCircArc3d::closestPointToPlane ( const OdGePlanarEnt plane,
OdGePoint3d pointOnPlane,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns the point on this circle closest to the specified plane, and the point on the plane closest to this circle.

Parameters
plane[in] Any plane.
pointOnPlane[out] Receives the closest point on plane.
tol[in] Geometric tolerance.

◆ endAng()

double OdGeCircArc3d::endAng ( ) const

Returns the ending angle measured from the reference vector in the arc direction.

Remarks
All angles are expressed in radians.

◆ endPoint()

OdGePoint3d OdGeCircArc3d::endPoint ( ) const

Returns the end point of this arc.

◆ getGeomExtents()

void OdGeCircArc3d::getGeomExtents ( OdGeExtents3d extents) const

Returns the geometric extents of this arc.

Parameters
extents[out] Receives the geometric extents.

◆ getPlane()

void OdGeCircArc3d::getPlane ( OdGePlane plane) const

Returns the plane of the arc.

Parameters
plane[out] Receives the plane of the arc.

◆ intersectWith() [1/3]

bool OdGeCircArc3d::intersectWith ( const OdGeCircArc3d arc,
int &  numInt,
OdGePoint3d p1,
OdGePoint3d p2,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns True if the specified arc intersects the arc entity.

Parameters
arc[in] Any 3D arc entity.
intn[out] Receives the number of intersections.
p1[out] Receives the first intersection point on the arc.
p2[out] Receives the second intersection point on the arc.
tol[in] Geometric tolerance.
Remarks
p1 has meaning only if intn > 0. p2 has meaning only if intn > 1.

◆ intersectWith() [2/3]

bool OdGeCircArc3d::intersectWith ( const OdGeLinearEnt3d line,
int &  numInt,
OdGePoint3d p1,
OdGePoint3d p2,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns the intersections with other objects.

Parameters
arc[in] Any 3D arc.
line[in] Any 3D linear entity.
plane[in] Any plane.
numInt[out] Receives the number of intersections.
p1[out] Receives the first intersection point.
p2[out] Receives the second intersection point.
tol[in] Geometric tolerance.

◆ intersectWith() [3/3]

bool OdGeCircArc3d::intersectWith ( const OdGePlanarEnt plane,
int &  numInt,
OdGePoint3d p1,
OdGePoint3d p2,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns True if the specifed plane, line, or arc entity intersects this arc entity, and returns the number of intersections and points of intersection.

Parameters
plane[in] Any plane entity.
numInt[out] Receives the number of intersections.
p1[out] Receives the first intersection point on the arc.
p2[out] Receives the second intersection point on the arc.
tol[in] Geometric tolerance.
Remarks
p1 has meaning only if numInt > 0. p2 has meaning only if numInt > 1.

◆ isInside()

bool OdGeCircArc3d::isInside ( const OdGePoint3d point,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns true if and only if the specified point lies inside the full circle of this arc, and is on the same plane as this arc.

Parameters
point[in] Any 3D point.
tol[in] Geometric tolerance.

◆ normal()

OdGeVector3d OdGeCircArc3d::normal ( ) const

Returns the vector normal to the plane of this arc.

◆ operator=()

OdGeCircArc3d& OdGeCircArc3d::operator= ( const OdGeCircArc3d arc)

◆ projIntersectWith()

bool OdGeCircArc3d::projIntersectWith ( const OdGeLinearEnt3d line,
const OdGeVector3d projDir,
int &  numInt,
OdGePoint3d pntOnArc1,
OdGePoint3d pntOnArc2,
OdGePoint3d pntOnLine1,
OdGePoint3d pntOnLine2,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns True if the projected points of the arc intersect with the specified linear entity, and returns the number of intersections and points of intersection.

Parameters
line[in] Any 3D linear entity.
projDir[in] Projection direction.
numInt[out] Receives the number of intersections.
pntOnArc1[out] Receives the first intersection point on the arc.
pntOnArc2[out] Receives the second intersection point on the arc.
pntOnLine1[out] Receives the first intersection point on the line.
pntOnLine2[out] Receives the second intersection point on the line.
tol[in] Geometric tolerance.

◆ radius()

double OdGeCircArc3d::radius ( ) const

Returns the radius of this arc.

◆ refVec()

OdGeVector3d OdGeCircArc3d::refVec ( ) const

Returns the reference vector as a unit vector.

◆ set() [1/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGeCurve3d curve1,
const OdGeCurve3d curve2,
const OdGeCurve3d curve3,
double &  param1,
double &  param2,
double &  param3,
bool &  success 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
curve1[in] First curve to define a tangent arc.
curve2[in] Second curve to define a tangent arc.
curve3[in] Third curve to define a tangent arc.
param1[in] Parameter corresponding tangency point on curve1.
param2[in] Parameter corresponding tangency point on curve2.
param3[in] Parameter corresponding tangency point on curve3.
success[out] Receives true if and only if the tan-tan-radius or tan-tan-tan curve could be constructed. If false, this arc is unmodified.

◆ set() [2/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGeCurve3d curve1,
const OdGeCurve3d curve2,
double  radius,
double &  param1,
double &  param2,
bool &  success 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
radius[in] Radius of arc.
curve1[in] First curve to define a tangent arc.
curve2[in] Second curve to define a tangent arc.
param1[in] Parameter corresponding tangency point on curve1.
param2[in] Parameter corresponding tangency point on curve2.
success[out] Receives true if and only if the tan-tan-radius or tan-tan-tan curve could be constructed. If false, this arc is unmodified.

◆ set() [3/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGePoint3d center,
const OdGeVector3d normal,
const OdGeVector3d refVec,
double  radius,
double  startAng,
double  endAng 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
center[in] Center of arc.
normal[in] A vector normal to the plane of the arc
radius[in] Radius of arc.
startAng[in] Starting angle of arc.
endAng[in] Ending angle of arc.
refVec[in] The reference vector defining arc angle 0.
Remarks
To construct a circle, set endAng = startAng + Oda2PI
All angles are expressed in radians.

startAng must be less than endAng.

◆ set() [4/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGePoint3d center,
const OdGeVector3d normal,
double  radius 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
center[in] Center of arc.
normal[in] A vector normal to the plane of the arc
radius[in] Radius of arc.

◆ set() [5/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGePoint3d startPoint,
const OdGePoint3d secondPoint,
const OdGePoint3d endPoint 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
startPoint[in] Startpoint of arc.
secondPoint[in] Second point on a 3-point arc.
endPoint[in] Endpoint of arc.

◆ set() [6/6]

OdGeCircArc3d& OdGeCircArc3d::set ( const OdGePoint3d startPoint,
const OdGePoint3d secondPoint,
const OdGePoint3d endPoint,
OdGeError status 
)

Sets the parameters for this arc according to the arguments, and returns a reference to this arc.

Parameters
startPoint[in] Startpoint of arc.
secondPoint[in] Second point on a 3-point arc.
endPoint[in] Endpoint of arc.
status[out] Receives status of set().

◆ setAngles()

OdGeCircArc3d& OdGeCircArc3d::setAngles ( double  startAng,
double  endAng 
)

Sets the starting and ending angles of this arc, and returns a reference to this arc.

Parameters
startAng[in] Starting angle of arc.
endAng[in] Ending angle of arc.
Remarks
All angles are expressed in radians.

◆ setAxes()

OdGeCircArc3d& OdGeCircArc3d::setAxes ( const OdGeVector3d normal,
const OdGeVector3d refVec 
)

Sets the normal and reference vectors for this arc. Returns a reference to this arc.

Parameters
normal[in] A vector normal to the plane of the arc.
refVec[in] The reference vector defining arc angle 0.

◆ setCenter()

OdGeCircArc3d& OdGeCircArc3d::setCenter ( const OdGePoint3d center)

Sets the center of this arc, and returns a reference to this arc.

Parameters
center[in] Center of arc.

◆ setRadius()

OdGeCircArc3d& OdGeCircArc3d::setRadius ( double  radius)

Sets the radius of this arc, and returns a reference to this arc.

Parameters
radius[in] Radius of arc.

◆ startAng()

double OdGeCircArc3d::startAng ( ) const

Returns the starting angle measured from the reference vector in the arc direction.

Remarks
All angles are expressed in radians.

◆ startPoint()

OdGePoint3d OdGeCircArc3d::startPoint ( ) const

Returns the start point of this arc.

◆ tangent() [1/2]

bool OdGeCircArc3d::tangent ( const OdGePoint3d point,
OdGeLine3d line,
const OdGeTol tol,
OdGeError status 
) const

Returns true if and only if the specified point is on the full circle of this arc, the tangent at that point, and the status of the query.

Parameters
point[in] The point on the full circle.
line[out] Receives the tangent line at that point.
tol[in] Geometric tolerance.
status[out] Receives the status of the query.
Remarks
Possible values for status are as follows:

@untitled table kArg1TooBig kArg1InsideThis kArg1OnThis

◆ tangent() [2/2]

bool OdGeCircArc3d::tangent ( const OdGePoint3d point,
OdGeLine3d line,
const OdGeTol tol = OdGeContext::gTol 
) const

Returns true if and only if the specified point is on the full circle of this arc, the tangent at that point.

Parameters
point[in] The point on the full circle.
line[out] Receives the tangent line at that point.
tol[in] Geometric tolerance.

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