Torus

class compas.geometry.Torus(plane, radius_axis, radius_pipe, **kwargs)[source]

Bases: compas.geometry.shapes._shape.Shape

A torus is defined by a plane and two radii.

Parameters

• plane (compas.geometry.Plane or tuple of point and normal) – The plane of the torus.

• radius_axis (float) – The radius of the axis.

• radius_pipe (float) – The radius of the pipe.

Attributes

• plane (compas.geometry.Plane) – The plane of the torus.

• radius_axis (float) – The radius of the axis.

• radius_pipe (float) – The radius of the pipe.

• center (read-only) (compas.geometry.Point) – The center of the torus.

• area (read-only) (float) – The surface area of the torus.

• volume (read-only) (float) – The volume of the torus.

Examples

>>> from compas.geometry import Plane
>>> from compas.geometry import Torus
>>> torus = Torus(Plane.worldXY(), 5., 2.)

Methods

copy([cls])	Make an independent copy of the data object.
from_data(data)	Construct a torus from its data representation.
from_json(filepath)	Construct an object from serialized data contained in a JSON file.
from_jsonstring(string)	Construct an object from serialized data contained in a JSON string.
to_data()	Convert an object to its native data representation.
to_json(filepath[, pretty])	Serialize the data representation of an object to a JSON file.
to_jsonstring([pretty])	Serialize the data representation of an object to a JSON string.
to_vertices_and_faces([u, v, triangulated])	Returns a list of vertices and faces
transform(transformation)	Transform the torus.
transformed(transformation)	Returns a transformed copy of this geometry.
validate_data()	Validate the object's data against its data schema (self.DATASCHEMA).
validate_json()	Validate the object's data against its json schema (self.JSONSCHEMA).