Source code for compas_rhino.utilities.constructors


from __future__ import print_function
from __future__ import absolute_import
from __future__ import division

from compas.utilities import geometric_key

import Rhino
import scriptcontext as sc


__all__ = ['volmesh_from_polysurfaces']


[docs]def volmesh_from_polysurfaces(cls, guids, precision=None): """Construct a volumetric mesh from given polysurfaces. Essentially, this function does the following: * find each of the polysurfaces and check if they have a boundary representation (b-rep) * convert to b-rep and extract the edge loops * make a face of each loop by referring to vertices using their geometric keys * add a cell per brep * and add the faces of a brep to the cell * create a volmesh from the found vertices and cells Parameters ---------- cls : :class:`compas.datastructures.VolMesh` The class of volmesh. guids : sequence of str or System.Guid The *globally unique identifiers* of the polysurfaces. precision: string Precision of the polysurface connectivity. Returns ------- :class:`compas.datastructures.Volmesh` The volumetric mesh object. """ gkey_xyz = {} cells = [] for guid in guids: cell = [] obj = sc.doc.Objects.Find(guid) if not obj.Geometry.HasBrepForm: continue brep = Rhino.Geometry.Brep.TryConvertBrep(obj.Geometry) for loop in brep.Loops: curve = loop.To3dCurve() segments = curve.Explode() face = [] sp = segments[0].PointAtStart ep = segments[0].PointAtEnd sp_gkey = geometric_key(sp, precision) ep_gkey = geometric_key(ep, precision) gkey_xyz[sp_gkey] = sp gkey_xyz[ep_gkey] = ep face.append(sp_gkey) face.append(ep_gkey) for segment in segments[1:-1]: ep = segment.PointAtEnd ep_gkey = geometric_key(ep, precision) face.append(ep_gkey) gkey_xyz[ep_gkey] = ep cell.append(face) cells.append(cell) gkey_index = dict((gkey, index) for index, gkey in enumerate(gkey_xyz)) vertices = [list(xyz) for gkey, xyz in gkey_xyz.items()] cells = [[[gkey_index[gkey] for gkey in face] for face in cell] for cell in cells] return cls.from_vertices_and_cells(vertices, cells)
# ============================================================================== # Main # ============================================================================== if __name__ == "__main__": pass