_IsClosed
|
Indicates whether a LinearElement is closed. |
Accept
|
Accepts and call the visitor methods |
BackProjectPointOnPerpendicular
|
|
CalculateAllProjectionPointsRange2d(DPoint3d,
Nullable(Double), Nullable(Double), Boolean,
Nullable(Double))
|
Calcuklates all projection of point within a range. |
CalculateAllProjectionPointsRange2d(DPoint3d,
Nullable(Double), Nullable(Double), Boolean, Boolean,
Nullable(Double))
|
Calcuklates nearst projection of point within a range. |
CalculateAllSkewPoints2d
|
Calcuklates all skew points |
CalculateAllTangentPoints2d
|
Calcuklates all tangennt points |
CalculateNearestProjection2d
|
Calcuklates nearst projection of point. |
CalculateNearestProjectionRange2d(DPoint3d,
Nullable(Double), Nullable(Double), Boolean,
Nullable(Double))
|
Calcuklates nearest projection of point within a range. |
CalculateNearestProjectionRange2d(DPoint3d,
Nullable(Double), Nullable(Double), Boolean, Boolean, Boolean,
Nullable(Double))
|
Calcuklates nearest projection of point within a range. |
Clip
|
Clips the LinearElement and returns the result. |
Clone
|
|
CloneInternal
|
Clones a LinearElement. All the class that derive from
LinearElement should implment this method and so return a copy of
an instance of themselve. The CloneInternal methods should follow
the pattern as below: return gcnew DerivedClass
(GetUnmanagedClone()->getDerivedClassUnmangedInteface()); Note:
this call generates 2 references to the unmanaged element and
LinearElement takes care of releasing one of them |
CollectAllLoops
|
Builds a larger closed areas from a set of closed, possibly
adjacent areas. |
CollectOuterLoops
|
Builds a larger closed areas from a set of closed, possibly
adjacent areas. |
ComputeClosestIntersWithInfiniteLine
|
Computes intersection with an infinite line which is closest to
the origin. |
CreateFromCurveVector
|
Creates a LinearElement from a CurveVector. |
CreateManagedGeometry
|
Creates a LinearElement from an unmangaed IBcLinearEl |
Dispose()
|
|
Dispose(Boolean)
|
|
DropLineStrings
|
|
Dump()
|
Dumps the element information. |
Dump(StringWriter)
|
Dumps the geometry for debug purpose. |
Equals(Object)
|
Indicates whether otherObject is a LinearElement and is
identical to this LinearElement.
(Overrides ) |
Equals(Object,
Double)
|
Indicates whether otherObject is a LinearElement and is nearly
identical to this LinearElement. This is to use in unit tests only
to compare with baselines stored in XML for example. Never use this
method in application code. |
ExtendBeginByLineOrTrim(Double)
|
Returns extended by line or trimmed element from its start
point |
ExtendBeginByLineOrTrim(Double,
Double)
|
Returns extended by line or trimmed element from its start
point |
ExtendElement
|
Extend element by a line (for splines and spirals) or by
continuing the element |
ExtendEndByLineOrTrim(Double)
|
Returns extended by line or trimmed element from its end
point |
ExtendEndByLineOrTrim(Double,
Double)
|
Returns extended by line or trimmed element from its end
point |
ExtendOrTrimBegin(Double)
|
Returns extended or trimmed element from its start point |
ExtendOrTrimBegin(Double,
Double)
|
Returns extended or trimmed element from its start point |
ExtendOrTrimBeginByParameter
|
Returns extended or trimmed element from its start point |
ExtendOrTrimBeginByPoint(DPoint3d)
|
Returns extended or trimmed element by its start point. |
ExtendOrTrimBeginByPoint(DPoint3d,
Double)
|
Returns extended or trimmed element by its start point. |
ExtendOrTrimEnd(Double)
|
Returns extended or trimmed element from its end point |
ExtendOrTrimEnd(Double,
Double)
|
Returns extended or trimmed element from its end point |
ExtendOrTrimEndByParameter
|
Returns extended or trimmed element from its end point |
ExtendOrTrimEndByPoint(DPoint3d)
|
Returns extended or trimmed element by its end point. |
ExtendOrTrimEndByPoint(DPoint3d,
Double)
|
Returns extended or trimmed element by its end point. |
Finalize
|
(Overrides ) |
GetAsProfiledElement
|
Get the linear element as a profiled element |
getBcLinearEl
|
|
GetCentroid
|
Get the centroid of a linear element; |
GetChordDistanceFromDistanceAlong(Double)
|
Gets Chord distance that corresponds to a given distance along
the element |
GetChordDistanceFromDistanceAlong(Double,
Double)
|
Gets Chord distance that corresponds to a given distance along
the element |
GetChordDistanceFromParameter(Double)
|
Gets chord distance that corresponds to a given parameter along
the element |
GetChordDistanceFromParameter(Double,
Double)
|
Gets chord distance that corresponds to a given parameter along
the element |
GetCurvatureAtParameter
|
Gets curvature at a given parameter on linear element. |
GetCurveVector
|
|
GetDistanceAlongFromChordDistance(Double)
|
Gets distance along that corresponds to a given chord distance
along the element |
GetDistanceAlongFromChordDistance(Double,
Double)
|
Gets distance along that corresponds to a given chord distance
along the element |
GetDistanceAlongMatches
|
Gets the correspondances between distance along on this element
and the other element. |
GetDistanceFromParameter
|
Gets distance that corresponds to a given parameter along the
element. |
GetExtendedElement
|
Get the element extended with lines of the given length. |
GetFirstDerivativeAtParameter
|
Gets the first derivate at a given parameter on linear
element. |
GetHorizontalControlPoints(HorizontalControlPointTypes)
|
Get horizontal control points from this linearelement. The
resulting collection contains the control points merged with points
of the linearPoints arguments. |
GetHorizontalControlPoints(HorizontalControlPointTypes,
LinearPointCollection)
|
Get horizontal control points from this linearelement. The
resulting collection contains the the control points merged with
points of the linearPoints arguments. |
GetLength
|
Gets 2D length of linear element |
GetLinearPointCollectionBySelection
|
Ported from Bentley.CifNET.GeometryModel (src.cs) |
GetLinearPointCollectionFromLineString
|
Ported from Bentley.CifNET.GeometryModel (src.cs) |
GetNativeElement
|
Gets the native element embedded into the managed
LinearElement. |
GetOffsetElement(Double)
|
Returns offset element |
GetOffsetElement(Double,
Double)
|
Returns offset element |
GetOffsetPoint
|
Gets a point at parameter offset. |
GetPartialByDistances(Double,
Double)
|
Returns a partial element from start distance to end
distance |
GetPartialByDistances(Double,
Double, Boolean)
|
Returns a partial element from start distance to end
distance |
GetPartialByDistances(Double,
Double, Double)
|
Returns a partial element from start distance to end
distance |
GetPartialByParameters
|
Returns a partial element from start parameter to end
parameter |
GetPartialByPoints
|
Gets partial between two points. Points can be null, meaning
that it starts on beginning or end. |
GetPointAtDistanceOffset(Double,
Double)
|
Gets point at given distance/offset from linear element. |
GetPointAtDistanceOffset(Double,
Double, Double)
|
Gets point at given distance/offset from linear element. |
GetPointAtParameterOffset
|
Gets point at given parameter and offset on linear
element. |
GetPositionMatches
|
Gets the correspondances between psition on this element and
the other element. |
GetSecondDerivativeAtParameter
|
Gets the second derivate at a given parameter on linear
element. |
GetThirdDerivativeAtParameter
|
Gets the third derivate at a given parameter on linear
element. |
GetVariableOffsetElement(Double,
Double)
|
Returns offset element with variable offset |
GetVariableOffsetElement(Double,
Double, Double)
|
Returns offset element with variable offset |
GetVariableOffsetElement(Double,
Double, Double, Double)
|
Returns offset element with variable offset |
GetVerticalControlPoints(VerticalControlPointTypes)
|
Get vertical control points from this linearelement. The
resulting collection contains the control points merged with points
of the linearPoints arguments. |
GetVerticalControlPoints(VerticalControlPointTypes,
LinearPointCollection)
|
Get vertical control points from this linearelement. The
resulting collection contains the the control points merged with
points of the linearPoints arguments. |
Intersect(LinearElement)
|
Gets collection of intersections with another linear
element. |
Intersect(DPoint3d,
DVector3d)
|
Gets collection of intersections with an infinite vector
starting at origin. |
Intersect(LinearElement,
Double)
|
Gets collection of intersections with another linear
element |
Intersect(DPoint3d,
DVector3d, Double)
|
Gets collection of intersections with an infinite vector
starting at origin. |
IsProfiledElement
|
Tells if LinearElement is a Profiled Element. |
MirroxX
|
Mirrors the element on X axis. |
ProjectPointOnPerpendicular(DPoint3d)
|
Projects a point onto an element perpendicularly. Gets the
closest projection. |
ProjectPointOnPerpendicular(DPoint3d,
Double)
|
Projects a point onto an element perpendicularly. Gets the
closest projection. |
ProjectPointOnPerpendicularAll(DPoint3d)
|
Projects a point onto an element perpendicularly. Gets all the
projections. |
ProjectPointOnPerpendicularAll(DPoint3d,
Double)
|
Projects a point onto an element perpendicularly. Gets all the
projections. |
ProjectPointOnSkew(DPoint3d,
Double, Double)
|
Projects a point onto an element with a skewed angle. Gets the
closest projection only. |
ProjectPointOnSkew(DPoint3d,
Double, Double, Double)
|
Projects a point onto an element with a skewed angle. Gets the
closest projection only. |
ProjectPointOnSkewAll(DPoint3d,
Double, Double)
|
Projects a point onto an element with a skewed angle. Gets all
the projection. |
ProjectPointOnSkewAll(DPoint3d,
Double, Double, Double)
|
Projects a point onto an element with a skewed angle. Gets all
the projection. |
ProjectPointOnTangent(DPoint3d)
|
Projects a point onto an element tangentially. Gets only the
closest projection. |
ProjectPointOnTangent(DPoint3d,
Double)
|
Projects a point onto an element tangentially. Gets only the
closest projection. |
ProjectPointOnTangentAll(DPoint3d)
|
Projects a point onto an element tangentially. Gets all the
projections. |
ProjectPointOnTangentAll(DPoint3d,
Double)
|
Projects a point onto an element tangentially. Gets all the
projections. |
RotateToDirection
|
Rotates the element around the center by a given angle. |
RotateToThruPoint
|
Rotates the element around the center and so that it passes
thru the point. |
SetBcLinearEl(IBcLinearEl*)
|
|
SetBcLinearEl(IBcLinearEl*)
|
|
SetDefaultCircleChordReferenceLength
|
|
ShallowCopy
|
Used to create a Shalow copy of this element. |
StrokeByChord(Double)
|
Strokes element by chord |
StrokeByChord(Double,
LinearPointCollection)
|
Strokes element by chord. |
StrokeByChord(Double,
Double)
|
Strokes element by chord |
StrokeByConnectionPoints(ConnectionPointTypes)
|
Strokes the complex element by its control points. The
resulting collection contains the connection points merged with
points of the linearPoints arguments. |
StrokeByConnectionPoints(ConnectionPointTypes,
LinearPointCollection)
|
Strokes the complex element by its control points. The
resulting collection contains the the connection points merged with
points of the linearPoints arguments. |
StrokeByDistances(Double[])
|
Strokes the linear element by distance. |
StrokeByDistances(Double[],
LinearPointCollection)
|
Strokes the linear element by distance. |
StrokeByDistances(Double[],
Double)
|
Strokes the linear element by distance. |
StrokeByDivisor(Int32)
|
Strokes linear element by divisor. |
StrokeByDivisor(Int32,
Double)
|
Strokes linear element by divisor. |
StrokeByEndPoints()
|
Strokes element by end points. |
StrokeByEndPoints(Double)
|
Strokes element by end points. |
StrokeByEndPoints(LinearPointCollection)
|
Strokes element by end points. |
StrokeByStep(Double,
StrokingByStepMethod)
|
Strokes linear element by step. |
StrokeByStep(Double,
StrokingByStepMethod, LinearPointCollection)
|
Strokes linear element by step. |
StrokeByStep(Double,
StrokingByStepMethod, Double)
|
Strokes linear element by step. |
Transform
|
Transforms an element and return the transformed element. |
TranslateToThruPoint
|
Transalets the element on a given direction so that it passes
thru a point. |