NurbsSurface
- class compas.geometry.NurbsSurface[source]
Bases:
Surface
A NURBS surface is defined by control points, weights, knots, and a degree, in two directions U and V.
- Parameters:
- namestr, optional
The name of the surface.
- Attributes:
- pointslist[list[
compas.geometry.Point
]], read-only The control points as rows along the U direction.
- weightslist[list[float]], read-only
The weights of the control points.
- knots_ulist[float], read-only
The knots in the U direction, without multiplicity.
- knots_vlist[float], read-only
The knots in the V direction, without multiplicity.
- mults_ulist[int], read-only
Multiplicity of the knots in the U direction.
- mults_vlist[int], read-only
Multiplicity of the knots in the V direction.
- degree_ulist[int], read-only
The degree of the surface in the U direction.
- degree_vlist[int], read-only
The degree of the surface in the V direction.
- pointslist[list[
Methods
Make an independent copy of the surface.
Construct a NURBS surface from the infill between two, three or four contiguous NURBS curves.
Construct a NURBS surface from a mesh grid.
Construct a NURBS surface from a surface object.
Construct a NURBS surface from explicit parameters.
Construct a NURBS surface from control points.
Load a NURBS surface from a STP file.
Inherited Methods
Converts the instance to a string.
Compute the axis aligned bounding box of the surface.
Compute the boundary curves of the surface.
Compute the closest point on the curve to a given point.
Compute the axis-aligned bounding box of the geometry.
Compute the oriented bounding box of the geometry.
Compute the curvature at a point on the surface.
Compute the local frame at a point on the curve.
Construct an object of this type from a JSON file.
Construct an object of this type from a JSON string.
Load a surface from an OBJ file.
Construct a surface from a plane.
Compute the intersections with a curve.
Compute the intersections with a line.
Compute the intersections with a plane.
Compute the isoparametric curve at parameter u.
Compute the isoparametric curve at parameter v.
Compute a normal at a point on the surface.
Compute the oriented bounding box of the surface.
Compute a point on the surface.
Compute point locations corresponding to evenly spaced parameters over the surface domain.
Rotate the geometry.
Returns a rotated copy of this geometry.
Scale the geometry.
Returns a scaled copy of this geometry.
Compute a hash of the data for comparison during version control using the sha256 algorithm.
Compute evenly spaced parameters over the surface domain in the U direction.
Compute evenly spaced parameters over the surface domain in the V direction.
Convert the surface to a BREP representation.
Convert an object to its native data representation and save it to a JSON file.
Convert an object to its native data representation and save it to a JSON string.
Convert the surface to a mesh.
Convert the surface to a polyhedron.
Convert the surface to a list of quads.
Write the surface geometry to a STP file.
Convert the surface to a triangle mesh.
Convert the surface to a list of triangles.
Convert the surface to a list of vertices and faces.
Transform the local coordinate system of the surface.
Returns a transformed copy of this geometry.
Translate the geometry.
Returns a translated copy of this geometry.
Validate the data against the object's data schema.