309 lines
9.7 KiB
Python
309 lines
9.7 KiB
Python
"""
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Polyhedron module
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SPDX - License - Identifier: LGPL - 3.0 - or -later
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Copyright © 2020 Project Author Guille Gutierrez guillermo.gutierrezmorote@concordia.ca
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"""
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import numpy as np
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from trimesh import Trimesh
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from helpers.geometry_helper import GeometryHelper
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from helpers.configuration_helper import ConfigurationHelper
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from city_model_structure.attributes.surface import Surface
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class Polyhedron:
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"""
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Polyhedron class
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"""
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def __init__(self, surfaces):
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self._surfaces = list(surfaces)
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self._polygons = [s.polygon for s in surfaces]
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self._polyhedron = None
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self._volume = None
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self._faces = None
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self._vertices = None
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self._mesh = None
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self._centroid = None
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self._max_z = None
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self._max_y = None
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self._max_x = None
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self._min_z = None
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self._min_y = None
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self._min_x = None
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self._geometry = GeometryHelper()
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def _position_of(self, point, face):
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vertices = self.vertices
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for i in range(len(vertices)):
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# ensure not duplicated vertex
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if i not in face and GeometryHelper.distance_between_points(vertices[i], point) == 0:
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return i
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return -1
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@property
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def vertices(self) -> np.ndarray:
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"""
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Polyhedron vertices
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:return: np.ndarray(int)
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"""
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if self._vertices is None:
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vertices, self._vertices = [], []
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_ = [vertices.extend(s.points) for s in self._surfaces]
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for vertex_1 in vertices:
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found = False
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for vertex_2 in self._vertices:
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found = False
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if GeometryHelper.distance_between_points(vertex_1, vertex_2) == 0:
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found = True
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break
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if not found:
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self._vertices.append(vertex_1)
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self._vertices = np.asarray(self._vertices)
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return self._vertices
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@staticmethod
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def _point(coordinates):
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return coordinates[0], coordinates[1], coordinates[2]
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@staticmethod
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def _get_regions(point_index, points_list):
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if point_index == 0:
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# first point in the polygon so the triangle is the points n-1, n, 0
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triangle_left = ' '.join(str(e) for e in [*points_list[len(points_list) - 6:], *points_list[0:3]])
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# remove point n
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rest_points_left = ' '.join(str(e) for e in [*points_list[:len(points_list) - 3]])
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elif point_index == 3:
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# second point in the polygon so the triangle is the points n, 0, 1
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triangle_left = ' '.join(str(e) for e in [*points_list[len(points_list) - 3:], *points_list[0:6]])
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# remove point 0
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rest_points_left = ' '.join(str(e) for e in [*points_list[3:]])
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else:
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# normal point index-2¸index-1, index
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triangle_left = ' '.join(str(e) for e in [*points_list[point_index - 6:point_index + 3]])
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# remove middle point (index - 1)
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rest_points_left = ' '.join(str(e) for e in [*points_list[0:point_index - 3], *points_list[point_index:]])
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if point_index < len(points_list) - 6:
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# normal point index, index+1, index+2
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triangle_right = ' '.join(str(e) for e in [*points_list[point_index:point_index + 9]])
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rest_points_right = ' '.join(str(e) for e in [*points_list[0:point_index + 3], *points_list[point_index + 6:]])
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elif point_index == (len(points_list) - 6):
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# last two points in the polygon so the triangle is the points n-1, n, 0
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triangle_right = ' '.join(str(e) for e in [*points_list[point_index:], *points_list[0:3]])
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rest_points_right = ' '.join(str(e) for e in [*points_list[:len(points_list - 3)]])
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else:
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# last point in the polygon so the triangle is n, 0, 1
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triangle_right = ' '.join(str(e) for e in [*points_list[len(points_list) - 3:], *points_list[0:6]])
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rest_points_right = ' '.join(str(e) for e in [*points_list[3:]])
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return (Surface(triangle_left, remove_last=False), Surface(rest_points_left, remove_last=False)), \
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(Surface(triangle_right, remove_last=False), Surface(rest_points_right, remove_last=False))
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def _triangulate(self, surface):
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triangles = []
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complementary_surface = surface
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triangles_count = len(surface.points) - 2
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points_list = surface.points_list
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point_index = 0
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area = surface.area
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while len(triangles) < triangles_count:
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# get triangles and regions in both direction to find ears
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left_direction, right_direction = Polyhedron._get_regions(point_index, points_list)
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# todo: use enum to describe triangle or rest instead 0 1
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right_area = right_direction[0].area + right_direction[1].area
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left_area = left_direction[0].area + left_direction[1].area
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if self._geometry.almost_same_area(area, left_area) and self._geometry.almost_same_area(area, right_area):
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# Both seems to be an ear, choose the more precise
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if np.abs(left_area-area) < np.abs(right_area-area):
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area = left_direction[1].area
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point_index = 0
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triangles.append(left_direction[0])
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points_list = left_direction[1].points_list
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complementary_surface = left_direction[1]
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else:
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area = right_direction[1].area
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point_index = 0
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triangles.append(right_direction[0])
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points_list = right_direction[1].points_list
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complementary_surface = right_direction[1]
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elif self._geometry.almost_same_area(area, left_area):
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area = left_direction[1].area
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point_index = 0
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triangles.append(left_direction[0])
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points_list = left_direction[1].points_list
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complementary_surface = left_direction[1]
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elif self._geometry.almost_same_area(area, right_area):
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area = right_direction[1].area
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point_index = 0
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triangles.append(right_direction[0])
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points_list = right_direction[1].points_list
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complementary_surface = right_direction[1]
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else:
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point_index = point_index + 3
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if point_index >= len(points_list):
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return triangles
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if len(points_list) == 9:
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# the rest point's are already a triangle
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triangles.append(complementary_surface)
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return triangles
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@property
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def faces(self) -> [[int]]:
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"""
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Polyhedron faces
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:return: [[int]]
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"""
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if self._faces is None:
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self._faces = []
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for surface in self._surfaces:
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face = []
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points = surface.points
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if len(points) != 3:
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sub_surfaces = self._triangulate(surface)
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for sub_surface in sub_surfaces:
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face = []
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points = sub_surface.points
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for point in points:
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face.append(self._position_of(point, face))
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self._faces.append(face)
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else:
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for point in points:
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face.append(self._position_of(point, face))
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self._faces.append(face)
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return self._faces
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@property
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def _polyhedron_mesh(self):
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if self._mesh is None:
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self._mesh = Trimesh(vertices=self.vertices, faces=self.faces)
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return self._mesh
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@property
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def volume(self):
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"""
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Polyhedron volume in cubic meters
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:return: float
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"""
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if self._volume is None:
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if not self._polyhedron_mesh.is_volume:
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self._volume = np.inf
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else:
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self._volume = self._polyhedron_mesh.volume
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return self._volume
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@property
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def max_z(self):
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"""
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Polyhedron maximal z value
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:return: float
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"""
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if self._max_z is None:
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self._max_z = ConfigurationHelper().min_coordinate
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for surface in self._surfaces:
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for point in surface.points:
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if self._max_z < point[2]:
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self._max_z = point[2]
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return self._max_z
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@property
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def max_y(self):
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"""
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Polyhedron maximal y value
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:return: float
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"""
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if self._max_y is None:
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self._max_y = ConfigurationHelper().min_coordinate
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for surface in self._surfaces:
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for point in surface.points:
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if self._max_y < point[1]:
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self._max_y = point[1]
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return self._max_y
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@property
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def max_x(self):
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"""
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Polyhedron maximal x value
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:return: float
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"""
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if self._max_x is None:
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self._max_x = ConfigurationHelper().min_coordinate
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for surface in self._surfaces:
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for point in surface.points:
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self._max_x = max(self._max_x, point[0])
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return self._max_x
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@property
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def min_z(self):
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"""
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Polyhedron minimal z value
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:return: float
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"""
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if self._min_z is None:
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self._min_z = self.max_z
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for surface in self._surfaces:
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for point in surface.points:
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if self._min_z > point[2]:
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self._min_z = point[2]
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return self._min_z
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@property
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def min_y(self):
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"""
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Polyhedron minimal y value
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:return: float
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"""
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if self._min_y is None:
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self._min_y = self.max_y
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for surface in self._surfaces:
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for point in surface.points:
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if self._min_y > point[1]:
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self._min_y = point[1]
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return self._min_y
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@property
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def min_x(self):
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"""
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Polyhedron minimal x value
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:return: float
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"""
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if self._min_x is None:
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self._min_x = self.max_x
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for surface in self._surfaces:
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for point in surface.points:
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if self._min_x > point[0]:
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self._min_x = point[0]
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return self._min_x
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@property
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def center(self):
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"""
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Polyhedron centroid
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:return: [x,y,z]
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"""
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x = (self.max_x + self.min_x) / 2
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y = (self.max_y + self.min_y) / 2
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z = (self.max_z + self.min_z) / 2
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return [x, y, z]
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def stl_export(self, full_path):
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"""
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Export the polyhedron to stl given file
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:param full_path: str
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:return: None
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"""
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self._polyhedron_mesh.export(full_path, 'stl_ascii')
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def obj_export(self, full_path):
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"""
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Export the polyhedron to obj given file
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:param full_path: str
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:return: None
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"""
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self._polyhedron_mesh.export(full_path, 'obj')
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def show(self):
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self._polyhedron_mesh.show()
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