/// <summary>
/// Constructs a point by projecting a point on surface with given
/// project direction.
/// </summary>
/// <param name="contextSurface">The surface on which the projection is to be made.</param>
/// <param name="direction">The direction vector of the projection</param>
/// <returns>Projected point on surface</returns>
public DSPoint Project(DSSurface contextSurface, DSVector direction)
{
if (null == contextSurface)
{
throw new ArgumentNullException("contextSurface");
}
if (null == direction || direction.IsZeroVector())
{
throw new ArgumentException(string.Format(Properties.Resources.InvalidInput, direction, "Project on surface"), "direction");
}
DSPoint pt = ProjectOnGeometry(contextSurface, direction);
pt.Context = contextSurface;
pt.Direction = direction;
pt.ReferencePoint = this;
double[] parameters = contextSurface.ParameterAtPoint(pt);
if (null != parameters)
{
pt.U = parameters[0];
pt.V = parameters[1];
}
return(pt);
}
internal override IGeometryEntity[] ProjectOn(DSGeometry other, DSVector direction)
{
IVector dir = direction.IVector;
DSSurface surf = other as DSSurface;
if (null != surf)
{
return(surf.SurfaceEntity.Project(PointEntity, dir));
}
DSCurve curve = other as DSCurve;
if (null != curve)
{
IPointEntity pt = curve.CurveEntity.Project(PointEntity, dir);
return(new IGeometryEntity[] { pt });
}
DSPlane plane = other as DSPlane;
if (null != plane)
{
IPointEntity pt = plane.PlaneEntity.Project(PointEntity, dir);
return(new IGeometryEntity[] { pt });
}
DSSolid solid = other as DSSolid;
if (null != solid)
{
return(solid.SolidEntity.Project(PointEntity, dir));
}
return(base.ProjectOn(other, direction));
}
/// <summary>
/// Constructors a plane on a surface by given parameter.
/// </summary>
/// <param name="contextSurface"></param>
/// <param name="u"></param>
/// <param name="v"></param>
/// <returns></returns>
public static DSPlane AtParameter(DSSurface contextSurface, double u, double v)
{
DSCoordinateSystem cs = DSCoordinateSystem.AtParameterCore(contextSurface, u, v, false);
DSPlane plane = DSPlane.FromCoordinateSystem(cs);
plane.Context = contextSurface;
plane.U = u;
plane.V = v;
return(plane);
}
/// <summary>
///
/// </summary>
/// <param name="surface"></param>
/// <param name="selectPoint"></param>
/// <param name="autoExtend"></param>
/// <returns></returns>
public DSSurface Trim(DSSurface surface, DSPoint selectPoint, bool autoExtend)
{
if (null == surface)
{
throw new System.ArgumentNullException("surface");
}
DSSurface[] surfaces = { surface };
return(Trim(null, null, surfaces, null, selectPoint, autoExtend));
}
/// <summary>
/// Split this surface using a surface as cutting tool.
/// </summary>
/// <param name="splittingSurface">Surface as cutting tool.</param>
/// <returns>Array of surfaces.</returns>
public DSSurface[] Split(DSSurface splittingSurface)
{
ISurfaceEntity[] splitSurfaces = SurfaceEntity.Split(splittingSurface.SurfaceEntity);
if (null == splitSurfaces || splitSurfaces.Length < 1)
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.OperationFailed, "DSSurface.Split"));
}
return(splitSurfaces.ConvertAll((ISurfaceEntity host) => host.ToSurf(true, this)));
}
private DSSurfaceCurvature(DSSurface contextSurface, double u, double v, ICoordinateSystemEntity coordinateSystemEntity)
{
FirstPrincipleCurvature = new DSVector(coordinateSystemEntity.XAxis);
SecondPrincipleCurvature = new DSVector(coordinateSystemEntity.YAxis);
GaussianCurvature = FirstPrincipleCurvature.Length * SecondPrincipleCurvature.Length;
mPointOnSurface = DSPoint.ToGeometry(coordinateSystemEntity.Origin, false, contextSurface) as DSPoint;
U = u;
V = v;
ContextSurface = contextSurface;
mCoordinateSystem = DSCoordinateSystem.ToCS(coordinateSystemEntity, false);
}
private DSSurfaceCurvature(DSSurface contextSurface, double u, double v, ICoordinateSystemEntity coordinateSystemEntity)
{
FirstPrincipleCurvature = new DSVector(coordinateSystemEntity.XAxis);
SecondPrincipleCurvature = new DSVector(coordinateSystemEntity.YAxis);
GaussianCurvature = FirstPrincipleCurvature.Length * SecondPrincipleCurvature.Length;
mPointOnSurface = DSPoint.ToGeometry(coordinateSystemEntity.Origin, false, contextSurface) as DSPoint;
U = u;
V = v;
ContextSurface = contextSurface;
mCoordinateSystem = DSCoordinateSystem.ToCS(coordinateSystemEntity, false);
}
public DSGeometry[] Intersect(DSGeometry other)
{
if (null == other)
{
throw new ArgumentNullException("other");
}
IGeometryEntity[] geoms = null;
DSPlane plane = other as DSPlane;
if (plane != null)
{
geoms = IntersectWithPlane(plane);
}
else
{
DSSurface surf = other as DSSurface;
if (surf != null)
{
geoms = IntersectWithSurface(surf);
}
else
{
DSSolid solid = other as DSSolid;
if (solid != null)
{
geoms = IntersectWithSolid(solid);
}
else
{
DSCurve curve = other as DSCurve;
if (curve != null)
{
geoms = IntersectWithCurve(curve);
}
else
{
DSPoint point = other as DSPoint;
if (null != point)
{
geoms = IntersectWithPoint(point);
}
else
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.InvalidIntersect, GetType().Name, other.GetType().Name));
}
}
}
}
}
return(geoms.ToArray <DSGeometry, IGeometryEntity>(true));
}
/// <summary>
/// Returns a parallel Surface with specific distance from original surface.
/// </summary>
/// <param name="distance">Offset distance value.</param>
/// <returns>Surface.</returns>
public DSSurface Offset(double distance)
{
if (distance.EqualsTo(0.0))
{
throw new System.ArgumentException(string.Format(Properties.Resources.IsZero, "offset distance"), "distance");
}
ISurfaceEntity surfEntity = SurfaceEntity.Offset(distance);
if (null == surfEntity)
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.OperationFailed, "DSSurface.Offset"));
}
DSSurface surf = surfEntity.ToSurf(true, this);
surf.Context = this;
return(surf);
}
/// <summary>
/// Contructs a point on the normal of a given surface at a given offset
/// </summary>
/// <param name="contextSurface">Input surface</param>
/// <param name="u">U parameter value</param>
/// <param name="v">V parameter value</param>
/// <param name="offset">Offset in the direction of normal</param>
/// <returns>Point</returns>
internal static DSPoint AtParameter(DSSurface contextSurface, double u, double v, double offset)
{
if (contextSurface == null)
{
return(null);
}
var pt = contextSurface.PointAtParametersCore(ref u, ref v, offset);
if (null == pt)
{
return(null);
}
pt.Context = contextSurface;
pt.U = u;
pt.V = v;
pt.Distance = offset;
pt.Persist();
return(pt);
}
public DSSolid[] Slice(DSSurface surface, bool isRegular)
{
if (null == surface)
{
throw new ArgumentNullException("surface");
}
IGeometryEntity[] solids = null;
if (isRegular)
{
solids = SolidEntity.SliceWithSurface(surface.SurfaceEntity);
}
else
{
solids = new[] { SolidEntity.NonRegularSliceWithSurface(surface.SurfaceEntity) }
};
if (solids == null || solids.Length == 0)
{
throw new System.Exception(string.Format(Properties.Resources.OperationFailed, "DSSolid.Slice"));
}
return(solids.ToArray <DSSolid, IGeometryEntity>(true));
}
/// <summary>
///
/// </summary>
/// <param name="contextSurface"></param>
/// <param name="u"></param>
/// <param name="v"></param>
/// <returns></returns>
public static DSSurfaceCurvature BySurfaceParameters(DSSurface contextSurface, double u, double v)
{
if (contextSurface == null)
{
return(null);
}
ISurfaceEntity host = contextSurface.GetSurfaceEntity();
if (host == null)
{
return(null);
}
ICoordinateSystemEntity coordinateSystemEntity = host.CurvatureAtParameter(u, v);
if (null != coordinateSystemEntity)
{
DSSurfaceCurvature surfCurv = new DSSurfaceCurvature(contextSurface, u, v, coordinateSystemEntity);
return(surfCurv);
}
return(null);
}
/// <summary>
/// Constructs a point by projecting a point on surface. It is equivalent
/// to finding the nearest point on the surface
/// </summary>
/// <param name="contextSurface">The surface on which the projection is to be made.</param>
/// <returns>Projected point on surface</returns>
public DSPoint Project(DSSurface contextSurface)
{
if (null == contextSurface)
{
throw new ArgumentNullException("contextSurface");
}
DSPoint pt = ProjectOnGeometry(contextSurface, null);
if (null == pt)
{
throw new InvalidOperationException(string.Format(Properties.Resources.OperationFailed, "Project on surface"));
}
pt.Context = contextSurface;
pt.ReferencePoint = this;
double[] parameters = contextSurface.ParameterAtPoint(pt);
if (null != parameters)
{
pt.U = parameters[0];
pt.V = parameters[1];
}
return(pt);
}
/// <summary>
///
/// </summary>
/// <param name="curves"></param>
/// <param name="planes"></param>
/// <param name="surfaces"></param>
/// <param name="solids"></param>
/// <param name="selectPoint"></param>
/// <param name="autoExtend"></param>
/// <returns></returns>
public DSSurface Trim(DSCurve[] curves, DSPlane[] planes, DSSurface[] surfaces, DSSolid[] solids, DSPoint selectPoint, bool autoExtend)
{
if (null == selectPoint)
throw new System.ArgumentNullException("selectPoint");
ICurveEntity[] hostCurves = curves.ConvertAll(DSGeometryExtension.ToEntity<DSCurve, ICurveEntity>);
IPlaneEntity[] hostPlanes = planes.ConvertAll(DSGeometryExtension.ToEntity<DSPlane, IPlaneEntity>);
ISurfaceEntity[] hostSurfaces = surfaces.ConvertAll(DSGeometryExtension.ToEntity<DSSurface, ISurfaceEntity>);
ISolidEntity[] hostSolids = solids.ConvertAll(DSGeometryExtension.ToEntity<DSSolid, ISolidEntity>);
IPointEntity hostPoint = selectPoint.PointEntity;
if (hostCurves == null && hostPlanes == null && hostSurfaces == null && hostSolids == null)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "DSGeometry", "DSSurface.Trim"));
ISurfaceEntity trimSurface = SurfaceEntity.Trim(hostCurves, hostPlanes, hostSurfaces, hostSolids, hostPoint, autoExtend);
//For trim operation, if the return value is not null, hide the original tools and surfaces.
if (null != trimSurface)
{
Hide(curves);
Hide(planes);
Hide(surfaces);
Hide(solids);
SetVisibility(false);
}
return trimSurface.ToSurf(true, this);
}
public static DSSurface[] SelectTrim(DSSurface[] surfaces, DSSolid[] trimmingSolids, bool keepInside)
{
string kMethodName = "DSSurface.SelectTrim";
ISurfaceEntity[] surfacehosts = surfaces.ConvertAll(DSGeometryExtension.ToEntity<DSSurface, ISurfaceEntity>);
if (surfacehosts == null || surfacehosts.Length == 0)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "surfaces", kMethodName), "surfaces");
ISolidEntity[] solidhosts = trimmingSolids.ConvertAll(DSGeometryExtension.ToEntity<DSSolid, ISolidEntity>);
if (null == solidhosts || solidhosts.Length == 0)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "trimmingSolids", kMethodName), "trimmingSolids");
DSSurface[] result = null;
if (solidhosts.Length == 1)
{
result = SelectTrimCore(surfacehosts, solidhosts[0], keepInside);
}
else
{
DSSolid unionSolid = DSSolid.UnionCore(solidhosts[0], solidhosts, false);
if (null == unionSolid)
throw new System.InvalidOperationException(string.Format(Properties.Resources.OperationFailed, kMethodName));
result = SelectTrimCore(surfacehosts, unionSolid.SolidEntity, keepInside);
}
if (null != result)
{
Hide(surfaces);
Hide(trimmingSolids);
}
return result;
}
/// <summary>
/// Split this surface using a surface as cutting tool.
/// </summary>
/// <param name="splittingSurface">Surface as cutting tool.</param>
/// <returns>Array of surfaces.</returns>
public DSSurface[] Split(DSSurface splittingSurface)
{
ISurfaceEntity[] splitSurfaces = SurfaceEntity.Split(splittingSurface.SurfaceEntity);
if (null == splitSurfaces || splitSurfaces.Length < 1)
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.OperationFailed, "DSSurface.Split"));
}
return splitSurfaces.ConvertAll((ISurfaceEntity host) => host.ToSurf(true, this));
}
/// <summary>
///
/// </summary>
/// <param name="surface"></param>
/// <param name="selectPoint"></param>
/// <returns></returns>
public DSSolid Trim(DSSurface surface, DSPoint selectPoint)
{
DSSurface[] surfaces = { surface };
return(Trim(null, surfaces, null, selectPoint));
}
public static DSSurface[] SelectTrim(DSSurface[] surfaces, DSSolid trimmingSolid, bool keepInside)
{
string kMethodName = "DSSurface.SelectTrim";
if (null == trimmingSolid)
throw new System.ArgumentNullException("trimmingSolid");
ISurfaceEntity[] surfacehosts = surfaces.ConvertAll(DSGeometryExtension.ToEntity<DSSurface, ISurfaceEntity>);
if (surfacehosts == null || surfacehosts.Length == 0)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "surfaces", kMethodName), "surfaces");
ISolidEntity trimmingEntity = trimmingSolid.SolidEntity;
DSSurface[] result = SelectTrimCore(surfacehosts, trimmingEntity, keepInside);
if (null != result)
{
Hide(surfaces);
Hide(trimmingSolid);
}
return result;
}
/// <summary>
/// Constructs a point by projecting a point on surface. It is equivalent
/// to finding the nearest point on the surface
/// </summary>
/// <param name="contextSurface">The surface on which the projection is to be made.</param>
/// <returns>Projected point on surface</returns>
public DSPoint Project(DSSurface contextSurface)
{
if (null == contextSurface)
throw new ArgumentNullException("contextSurface");
DSPoint pt = ProjectOnGeometry(contextSurface, null);
if (null == pt)
throw new InvalidOperationException(string.Format(Properties.Resources.OperationFailed, "Project on surface"));
pt.Context = contextSurface;
pt.ReferencePoint = this;
double[] parameters = contextSurface.ParameterAtPoint(pt);
if (null != parameters)
{
pt.U = parameters[0];
pt.V = parameters[1];
}
return pt;
}
/// <summary>
/// Contructs a point on a given surface at given U, V parameter.
/// </summary>
/// <param name="contextSurface">Input Surface</param>
/// <param name="u">U parameter value.</param>
/// <param name="v">V parameter value.</param>
/// <returns>Point</returns>
public static DSPoint AtParameter(DSSurface contextSurface, double u, double v)
{
return AtParameter(contextSurface, u, v, 0.0);
}
/// <summary>
/// Constructs a point by projecting a point on surface with given
/// project direction.
/// </summary>
/// <param name="contextSurface">The surface on which the projection is to be made.</param>
/// <param name="direction">The direction vector of the projection</param>
/// <returns>Projected point on surface</returns>
public DSPoint Project(DSSurface contextSurface, DSVector direction)
{
if (null == contextSurface)
throw new ArgumentNullException("contextSurface");
if (null == direction || direction.IsZeroVector())
throw new ArgumentException(string.Format(Properties.Resources.InvalidInput, direction, "Project on surface"), "direction");
DSPoint pt = ProjectOnGeometry(contextSurface, direction);
pt.Context = contextSurface;
pt.Direction = direction;
pt.ReferencePoint = this;
double[] parameters = contextSurface.ParameterAtPoint(pt);
if (null != parameters)
{
pt.U = parameters[0];
pt.V = parameters[1];
}
return pt;
}
/// <summary>
///
/// </summary>
/// <param name="contextSurface"></param>
/// <param name="u"></param>
/// <param name="v"></param>
/// <returns></returns>
public static DSSurfaceCurvature BySurfaceParameters(DSSurface contextSurface, double u, double v)
{
if (contextSurface == null)
return null;
ISurfaceEntity host = contextSurface.GetSurfaceEntity();
if (host == null)
return null;
ICoordinateSystemEntity coordinateSystemEntity = host.CurvatureAtParameter(u, v);
if (null != coordinateSystemEntity)
{
DSSurfaceCurvature surfCurv = new DSSurfaceCurvature(contextSurface, u, v, coordinateSystemEntity);
return surfCurv;
}
return null;
}
/// <summary>
/// Constructors a plane on a surface by given parameter.
/// </summary>
/// <param name="contextSurface"></param>
/// <param name="u"></param>
/// <param name="v"></param>
/// <returns></returns>
public static DSPlane AtParameter(DSSurface contextSurface, double u, double v)
{
DSCoordinateSystem cs = DSCoordinateSystem.AtParameterCore(contextSurface, u, v, false);
DSPlane plane = DSPlane.FromCoordinateSystem(cs);
plane.Context = contextSurface;
plane.U = u;
plane.V = v;
return plane;
}
/// <summary>
/// Contructs a point on the normal of a given surface at a given offset
/// </summary>
/// <param name="contextSurface">Input surface</param>
/// <param name="u">U parameter value</param>
/// <param name="v">V parameter value</param>
/// <param name="offset">Offset in the direction of normal</param>
/// <returns>Point</returns>
internal static DSPoint AtParameter(DSSurface contextSurface, double u, double v, double offset)
{
if (contextSurface == null)
return null;
var pt = contextSurface.PointAtParametersCore(ref u, ref v, offset);
if (null == pt)
return null;
pt.Context = contextSurface;
pt.U = u;
pt.V = v;
pt.Distance = offset;
pt.Persist();
return pt;
}
/// <summary>
///
/// </summary>
/// <param name="surfaces"></param>
/// <param name="selectPoint"></param>
/// <param name="autoExtend"></param>
/// <returns></returns>
public DSSurface Trim(DSSurface[] surfaces, DSPoint selectPoint, bool autoExtend)
{
if(null == surfaces)
throw new System.ArgumentNullException("surfaces");
return Trim(null, null, surfaces, null, selectPoint, autoExtend);
}
// TODO: To be fixed - pratapa
/// <summary>
///
/// </summary>
/// <param name="planes"></param>
/// <param name="surfaces"></param>
/// <param name="solids"></param>
/// <param name="selectPoint"></param>
/// <returns></returns>
public DSSolid Trim(DSPlane[] planes, DSSurface[] surfaces, DSSolid[] solids, DSPoint selectPoint)
{
IPlaneEntity[] hostPlanes = planes.ConvertAll(DSGeometryExtension.ToEntity<DSPlane, IPlaneEntity>);
ISurfaceEntity[] hostSurfaces = surfaces.ConvertAll(DSGeometryExtension.ToEntity<DSSurface, ISurfaceEntity>);
ISolidEntity[] hostSolids = solids.ConvertAll(DSGeometryExtension.ToEntity<DSSolid, ISolidEntity>);
if (selectPoint == null)
throw new System.ArgumentNullException("selectPoint");
IPointEntity hostPoint = selectPoint.PointEntity;
if (hostPlanes == null && hostSurfaces == null && hostSolids == null)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "DSGeometry", "DSSolid.Trim"));
ISolidEntity trimSolid = SolidEntity.Trim(hostPlanes, hostSurfaces, hostSolids, hostPoint);
if (null == trimSolid)
throw new System.Exception(string.Format(Properties.Resources.OperationFailed, "DSSolid.Trim"));
Hide(planes);
Hide(surfaces);
Hide(solids);
SetVisibility(false);
return new DSSolid(trimSolid, true);
}
public DSSolid[] Slice(DSSurface surface, bool isRegular)
{
if (null == surface)
throw new ArgumentNullException("surface");
IGeometryEntity[] solids = null;
if (isRegular)
solids = SolidEntity.SliceWithSurface(surface.SurfaceEntity);
else
solids = new[] { SolidEntity.NonRegularSliceWithSurface(surface.SurfaceEntity) };
if (solids == null || solids.Length == 0)
throw new System.Exception(string.Format(Properties.Resources.OperationFailed, "DSSolid.Slice"));
return solids.ToArray<DSSolid, IGeometryEntity>(true);
}
public DSSolid[] Slice(DSSurface[] surfaces, bool isRegular)
{
ISurfaceEntity[] surfaceHosts = surfaces.ConvertAll(DSGeometryExtension.ToEntity<DSSurface, ISurfaceEntity>);
if (null == surfaceHosts || surfaceHosts.Length == 0)
throw new System.ArgumentException(string.Format(Properties.Resources.InvalidInput, "surfaces", "DSSolid.Slice"), "surfaces");
IGeometryEntity[] solids = null;
if (isRegular)
solids = SolidEntity.SliceWithSurfaces(surfaceHosts);
else
solids = new[] { SolidEntity.NonRegularSliceWithSurfaces(surfaceHosts) };
if (solids == null || solids.Length == 0)
throw new System.Exception(string.Format(Properties.Resources.OperationFailed, "DSSolid.Slice"));
return solids.ToArray<DSSolid, IGeometryEntity>(true);
}
internal override IGeometryEntity[] IntersectWithSurface(DSSurface surf)
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.InvalidIntersect, GetType().Name, "DSSurface"));
}
internal override IGeometryEntity[] IntersectWithSurface(DSSurface surf)
{
return SurfaceEntity.IntersectWith(surf.SurfaceEntity);
}
/// <summary>
/// Contructs a point on a given surface at given U, V parameter.
/// </summary>
/// <param name="contextSurface">Input Surface</param>
/// <param name="u">U parameter value.</param>
/// <param name="v">V parameter value.</param>
/// <returns>Point</returns>
public static DSPoint AtParameter(DSSurface contextSurface, double u, double v)
{
return(AtParameter(contextSurface, u, v, 0.0));
}
internal override IGeometryEntity[] IntersectWithSurface(DSSurface surf)
{
throw new System.InvalidOperationException(string.Format(Properties.Resources.InvalidIntersect, GetType().Name, "DSSurface"));
}
internal static DSCoordinateSystem AtParameterCore(DSSurface contextSurface, double u, double v, bool visible)
{
if (contextSurface == null)
throw new System.ArgumentNullException("contextSurface");
var cs = contextSurface.GetCSAtParameters(u, v);
if (null == cs)
throw new System.Exception(string.Format(Properties.Resources.OperationFailed, "DSCoordinateSystem.AtParameter"));
cs.ContextSurface = contextSurface;
cs.U = u;
cs.V = v;
cs.Visible = visible;
return cs;
}
/// <summary>
///
/// </summary>
/// <param name="surfaces"></param>
/// <param name="selectPoint"></param>
/// <returns></returns>
public DSSolid Trim(DSSurface[] surfaces, DSPoint selectPoint)
{
return Trim(null, surfaces, null, selectPoint);
}
/// <summary>
/// Constructs a CoordinateSystem at the given u, v parameters on the given surface. The x-axis of the CoordinateSystem
/// is aligned with the u-directional tangent, the y-axis with the v-directional tangent and the z-axis is mutually
/// perpendicular to the x and y axes.
/// </summary>
/// <param name="contextSurface"></param>
/// <param name="u"></param>
/// <param name="v"></param>
/// <returns></returns>
public static DSCoordinateSystem AtParameter(DSSurface contextSurface, double u, double v)
{
return AtParameterCore(contextSurface, u, v, true);//make sure it's visible
}
internal override IGeometryEntity[] IntersectWithSurface(DSSurface surf)
{
return(SurfaceEntity.IntersectWith(surf.SurfaceEntity));
}
public DSCurve[] Project(DSSurface surface, DSVector direction)
{
string kMethodName = "DSCurve.Project";
if (null == surface)
throw new System.ArgumentNullException("surface");
else if (null == direction)
throw new System.ArgumentNullException("direction");
IGeometryEntity[] entities = CurveEntity.ProjectOn(surface.SurfaceEntity, direction.IVector);
if(null == entities)
throw new System.InvalidOperationException(string.Format(Properties.Resources.OperationFailed, kMethodName));
return entities.ToArray<DSCurve, IGeometryEntity>(true);
}
