#include <GePlanarEnt.h>
Protected Member Functions | |
| OdGePlanarEnt () | |
| OdGePlanarEnt (const OdGePlanarEnt &plane) | |
 Protected Member Functions inherited from OdGeSurface | |
| OdGeSurface () | |
| OdGeSurface (const OdGeSurface &surf) | |
| Protected Member Functions inherited from OdGeEntity3d | |
| OdGeEntity3d () | |
| OdGeEntity3d (const OdGeEntity3d &) | |
| void | connectTo (OdGeEntity3dImpl *) |
Detailed Description
This class is the base class for all OdGe planes in 3D space.
- Remarks
- A parametric point on the plane with parameters u and v maps to the point S(u,v) as follows
<pre> S(u,v) = originOfPlanarEntity + (u * uAxis) + (v * vAxis) </pre>uAxis and vAxis need not be either normalized or perpendicular, but they must not be collinear.
The orthonormal canonical coordinate system associated with a plane defined as follows
Description Computed as origin Origin of plane. origin
axis1 A unit vector in the plane. uAxis.normal()
axis2 A unit vector perpendicular to the plane. uAxis.crossProduct(vAxis).normal()
The plane equation for a plane is as follows
<pre>
a * X + b * Y + c * Z + d = 0
</pre>
Corresponding C++ library: TD_Ge
<group OdGe_Classes>
Definition at line 67 of file GePlanarEnt.h.
Constructor & Destructor Documentation
◆ OdGePlanarEnt() [1/2]
|
protected |
◆ OdGePlanarEnt() [2/2]
|
protected |
Member Function Documentation
◆ closestPointToLinearEnt()
| OdGePoint3d OdGePlanarEnt::closestPointToLinearEnt | ( | const OdGeLinearEnt3d & | line, |
| OdGePoint3d & | pointOnLine, | ||
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns the point on this plane that is closest to the specified linear entity, and the point on the linear entity that is closest to this plane.
- Parameters
-
line [in] A 3D linear entity for which the closest point is computed. pointOnLine [out] Receives the closest point on the linear entity. tol [in] Geometric tolerance.
◆ closestPointToPlanarEnt()
| OdGePoint3d OdGePlanarEnt::closestPointToPlanarEnt | ( | const OdGePlanarEnt & | plane, |
| OdGePoint3d & | pointOnOtherPlane, | ||
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns the point on this plane that is closest to the specified plane, and the point on the specified plane that is closest to this plane.
- Parameters
-
plane [in] Any planar entity to which the closest point is computed. pointOnOtherPlane [out] Receives the closest point on the plane. tol [in] Geometric tolerance.
◆ get() [1/2]
| void OdGePlanarEnt::get | ( | OdGePoint3d & | origin, |
| OdGeVector3d & | uAxis, | ||
| OdGeVector3d & | vAxis | ||
| ) | const |
Returns the parameters of this plane.
- Parameters
-
origin [in] The origin of this plane. uAxis [in] The U-axis. vAxis [in] The V-axis.
- Remarks
- The U-axis and V-axis cannot be collinear, and are defined as follows
<pre> uAxis=uPnt-origin vAxis=vPnt-origin </pre>
◆ get() [2/2]
| void OdGePlanarEnt::get | ( | OdGePoint3d & | uPnt, |
| OdGePoint3d & | origin, | ||
| OdGePoint3d & | vPnt | ||
| ) | const |
Returns the parameters of this plane.
- Parameters
-
origin [in] The origin of this plane. uPnt [in] A point at the end of the U-axis. vPnt [in] A point at the end of the V-axis.
- Remarks
- The U-axis and V-axis cannot be collinear, and are defined as follows
<pre> uAxis=uPnt-origin vAxis=vPnt-origin </pre>
◆ getCoefficients()
| void OdGePlanarEnt::getCoefficients | ( | double & | a, |
| double & | b, | ||
| double & | c, | ||
| double & | d | ||
| ) | const |
Returns the coefficients of the plane equation for this plane.
- Parameters
-
a [out] Receives the coefficient a. b [out] Receives the coefficient b. c [out] Receives the coefficient c. d [out] Receives the coefficient d.
◆ getCoordSystem()
| void OdGePlanarEnt::getCoordSystem | ( | OdGePoint3d & | origin, |
| OdGeVector3d & | axis1, | ||
| OdGeVector3d & | axis2 | ||
| ) | const |
Returns the orthonormal canonical coordinate system of this plane.
- Parameters
-
origin [out] Receives the origin of this plane axis1 [out] Receives a unit vector in the plane. axis2 [out] Receives a unit vector perpendicular to the plane.
◆ intersectWith()
| bool OdGePlanarEnt::intersectWith | ( | const OdGeLinearEnt3d & | line, |
| OdGePoint3d & | point, | ||
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true and the intersection with the specified linear entity, if and only if the specified linear entity intersects with this plane.
- Parameters
-
line [in] A 3D linear entity with which the intersection is computed. point [out] Receives the point of intersection. tol [in] Geometric tolerance.
◆ isCoplanarTo()
| bool OdGePlanarEnt::isCoplanarTo | ( | const OdGePlanarEnt & | plane, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified plane is coplanar with this one.
- Parameters
-
plane [in] Any plane that is tested to be coplanar to this planar entity. tol [in] Geometric tolerance.
◆ isOnPlane()
| bool OdGePlanarEnt::isOnPlane | ( | const OdGePoint3d & | point, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified point is on this plane, regardless of the envelope, as determined by the tolerance.
- Parameters
-
point [in] Point to be queried. tol [in] Geometric tolerance.
◆ isParallelTo() [1/2]
| bool OdGePlanarEnt::isParallelTo | ( | const OdGeLinearEnt3d & | line, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified entity is parallel to this one.
- Parameters
-
line [in] Any 3D linear entity that is tested to be parallel to this planar entity. tol [in] Geometric tolerance.
◆ isParallelTo() [2/2]
| bool OdGePlanarEnt::isParallelTo | ( | const OdGePlanarEnt & | plane, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified entity is parallel to this one.
- Parameters
-
plane [in] Any planar entity that is tested to be parallel to this planar entity. tol [in] Geometric tolerance.
◆ isPerpendicularTo() [1/2]
| bool OdGePlanarEnt::isPerpendicularTo | ( | const OdGeLinearEnt3d & | line, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified entity is perpendicular to this one.
- Parameters
-
line [in] Any 3D linear entity that is tested to be perpendicular to this planar entity. tol [in] Geometric tolerance.
◆ isPerpendicularTo() [2/2]
| bool OdGePlanarEnt::isPerpendicularTo | ( | const OdGePlanarEnt & | plane, |
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Returns true if and only if the specified entity is perpendicular to this one.
- Parameters
-
plane [in] Any planar entity that is tested to be perpendicular to this planar entity. tol [in] Geometric tolerance.
◆ normal()
| OdGeVector3d OdGePlanarEnt::normal | ( | ) | const |
Returns the normal to the plane as a unit vector.
◆ operator=()
| OdGePlanarEnt & OdGePlanarEnt::operator= | ( | const OdGePlanarEnt & | plane | ) |
Assignment operator for the OdGePlanarEnt object.
- Parameters
-
plane [in] Planar entity to assign.
- Returns
- Reference to this OdGePlanarEnt object.
◆ pointOnPlane()
| OdGePoint3d OdGePlanarEnt::pointOnPlane | ( | ) | const |
Returns an arbitrary point on the plane.
◆ project()
| bool OdGePlanarEnt::project | ( | const OdGePoint3d & | p, |
| const OdGeVector3d & | unitDir, | ||
| OdGePoint3d & | projP, | ||
| const OdGeTol & | tol = OdGeContext::gTol |
||
| ) | const |
Projects a point onto this surface in given direction.
- Parameters
-
p [in] Any 3D point. unitDir [in] Unit vector specifying the projection direction. projP [out] Receives the point on this surface. tol [in] Geometric tolerance.
- Returns
- true if and only if there is a point on this surface, projP, where unitDir passes through the point p.
◆ TD_USING()
| OdGePlanarEnt::TD_USING | ( | OdGeSurface::project | ) |
The documentation for this class was generated from the following file: