Solid
Returns the surface area -- sum of all the areas of all faces
Returns the total volume of the Solid
Create a solid by specifying it's component faces as Surfaces.
Create a Solid by lofting between input cross section closed Curves.
Create a Solid by lofting between input cross section closed Curves, with guide Curve to assist. Guide Curve must intersect all cross section Curves.
Create a Solid by lofting between input cross section closed Curves, with guide Curves to assist. Guide Curves must intersect all cross section Curves.
public static Solid ByRevolve(Curve profile, Point axisOrigin, Vector axisDirection, double startAngle = 0, double sweepAngle = 180)
Create a Solid of revolution, sweeping the profile Curve around the axis Ray formed by the origin and the axis Vector, from the start angle in degrees to the sweep angle in degrees.
Create a Solid by lofting between input cross-sections comprising of closed PolyCurves. This operation is optimized for sections composed of line segments exclusively, with vertices following the same order. The check and repair option guarantees the validity of the produced solid when enabled, while disabling it should increase performance.
Sweep a closed Curve along a path.
Sweep a closed Curve along a path.
Sweep a closed profile Curve along two rail Curves.
Union a collection of solids into one solid
The centroid of the Solid
Chamfers a Solid along input Edges with a given offset from the edge corner.
The boolean difference of this Solid with another
The boolean difference of this Solid and the union of input Solids
Fillets a Solid along input Edges with a given radius.
Projects the input Geometry onto this Solid in the input Vector direction. !!This projection method currently supports only points or curves!!
Separates a Solid into individual Solids if it comprises more than one disjoint lump. Returns the same Solid if it is a single contiguous lump.
Obtain a solid Shell from the Faces of this Solid
The boolean union of this Solid and another.
Unions a list of Solids with this Solid.