Source code for ladybug_display.geometry3d.mesh
"""A mesh in 3D space with display properties."""
from ladybug_geometry.geometry3d.mesh import Mesh3D
from ladybug.color import Color
from ._base import _SingleColorModeBase3D
[docs]
class DisplayMesh3D(_SingleColorModeBase3D):
"""A mesh in 3D space with display properties.
Args:
geometry: A ladybug-geometry Mesh3D.
color: A ladybug Color object. If None, a default black color will be
used. (Default: None).
display_mode: Text to indicate the display mode (surface, wireframe, etc.).
Choose from the following. (Default: Surface).
* Surface
* SurfaceWithEdges
* Wireframe
* Points
Properties:
* geometry
* color
* display_mode
* vertices
* faces
* min
* max
* center
* area
* face_areas
* face_centroids
* face_normals
* vertex_normals
* user_data
"""
__slots__ = ()
def __init__(self, geometry, color=None, display_mode='Surface'):
"""Initialize base with shade object."""
assert isinstance(geometry, Mesh3D), '\
Expected ladybug_geometry Mesh3D. Got {}'.format(type(geometry))
_SingleColorModeBase3D.__init__(self, geometry, color, display_mode)
[docs]
@classmethod
def from_dict(cls, data):
"""Initialize a DisplayMesh3D from a dictionary.
Args:
data: A dictionary representation of an DisplayMesh3D object.
"""
assert data['type'] == 'DisplayMesh3D', \
'Expected DisplayMesh3D dictionary. Got {}.'.format(data['type'])
color = Color.from_dict(data['color']) if 'color' in data and data['color'] \
is not None else None
d_mode = data['display_mode'] if 'display_mode' in data and \
data['display_mode'] is not None else 'Surface'
geo = cls(Mesh3D.from_dict(data['geometry']), color, d_mode)
if 'user_data' in data and data['user_data'] is not None:
geo.user_data = data['user_data']
return geo
@property
def vertices(self):
"""Get a tuple of vertices in the mesh."""
return self._geometry.vertices
@property
def faces(self):
"""Get a tuple of all faces in the mesh."""
return self._geometry.faces
@property
def min(self):
"""Get a Point3D for the minimum of the bounding box around the object."""
return self._geometry.min
@property
def max(self):
"""Get a Point3D for the maximum of the bounding box around the object."""
return self._geometry.max
@property
def center(self):
"""Get a Point3D for the center of the bounding box around the object."""
return self._geometry.center
@property
def area(self):
"""Get the area of the mesh."""
return self._geometry.area
@property
def face_areas(self):
"""Get a tuple with the area of each face in the mesh."""
return self._geometry.face_areas
@property
def face_centroids(self):
"""Get a tuple with the centroid of each face in the mesh."""
return self._geometry.face_centroids
@property
def face_normals(self):
"""Get a tuple of Vector3D objects for all face normals."""
return self._geometry.face_normals
@property
def vertex_normals(self):
"""Get a tuple of Vector3D objects for all vertex normals."""
return self._geometry.vertex_normals
[docs]
def to_dict(self):
"""Return DisplayMesh3D as a dictionary."""
base = {'type': 'DisplayMesh3D'}
base['geometry'] = self._geometry.to_dict()
base['color'] = self.color.to_dict()
base['display_mode'] = self.display_mode
if self.user_data is not None:
base['user_data'] = self.user_data
return base
def __copy__(self):
new_g = DisplayMesh3D(self.geometry, self.color, self.display_mode)
new_g._user_data = None if self.user_data is None else self.user_data.copy()
return new_g
def __repr__(self):
return 'DisplayMesh3D: {}'.format(self.geometry)