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	import networkx as nx
	import trimesh
	import matplotlib.pyplot as plt
	import numpy as np
	import pyvista as pv


	class ObjNode(object):
	def __init__(self, id=None, label=None, mesh=None, position=None, size=None, children=[], room_id = None,dataset='scannet'):
	self.id = id
	self.label = label
	self.obj_mesh = mesh
	self.size = size
	self.position = position
	self.children = children
	self.room_id = room_id

	self.align_matrix, self.position, self.z_min, self.z_max, self.bottom_rect, self.top_rect = self.get_object_information(dataset)

	def __str__(self):
	return "[{}:{},{},{}]".format(self.id, self.label, self.position, self.angle)

	def get_object_information(self, dataset):
	position = self.position # - bias
	axis_align_matrix = None
	x_min = position[0] - self.size[0] / 2
	x_max = position[0] + self.size[0] / 2
	y_min = position[1] - self.size[1] / 2
	y_max = position[1] + self.size[1] / 2
	z_min = position[2] - self.size[2] / 2
	z_max = position[2] + self.size[2] / 2
	top_vertics = np.array([[x_min, y_min, z_min], [x_max, y_min, z_min],
	[x_max, y_max, z_min], [x_min, y_max, z_min]])
	bottom_vertics = np.array([[x_min, y_min, z_max], [x_max, y_min, z_max], [x_max, y_max, z_max],
	[x_min, y_max, z_max]])

	return axis_align_matrix, position, z_min, z_max, bottom_vertics, top_vertics

	def display_obb_box(self, scene_visible = True):

	axis_align_matrix = self.align_matrix

	obj_mesh = trimesh.load(self.obj_mesh)
	scene_ply = pv.read(self.scan_ply)

	# rotate to axis align
	obj_mesh.apply_transform(axis_align_matrix)

	if self.label == 'floor':

	scene_mesh = trimesh.load(self.scan_mesh)
	scene_mesh.apply_transform(axis_align_matrix)

	# draw aabb
	tgt_points = np.array(scene_mesh.bounding_box.as_outline().vertices)
	tgt_edges = np.array(scene_mesh.bounding_box.as_outline().vertex_nodes)
	tgt_points_new = []
	for edge in tgt_edges:
	tgt_points_new.append(tgt_points[edge[0]])
	tgt_points_new.append(tgt_points[edge[1]])

	# show results
	plotter = pv.Plotter(off_screen=False)
	light = pv.Light(light_type='headlight', intensity=0.2)
	plotter.add_light(light)

	plotter.add_mesh(scene_ply.transform(axis_align_matrix), rgb=True)
	plotter.add_lines(np.array(tgt_points_new), color='red', width=3)

	else:
	# draw bbox
	tgt_points = np.array(obj_mesh.bounding_box_oriented.as_outline().vertices)
	tgt_edges = np.array(obj_mesh.bounding_box_oriented.as_outline().vertex_nodes)
	tgt_points_new = []
	for edge in tgt_edges:
	tgt_points_new.append(tgt_points[edge[0]])
	tgt_points_new.append(tgt_points[edge[1]])

	# draw aabb
	aa_tgt_points = np.array(obj_mesh.bounding_box.as_outline().vertices)
	aa_tgt_edges = np.array(obj_mesh.bounding_box.as_outline().vertex_nodes)
	aa_tgt_points_new = []
	for edge in aa_tgt_edges:
	aa_tgt_points_new.append(aa_tgt_points[edge[0]])
	aa_tgt_points_new.append(aa_tgt_points[edge[1]])

	# show results
	plotter = pv.Plotter(off_screen=False)
	light = pv.Light(light_type='headlight', intensity=0.2)
	plotter.add_light(light)

	plotter.add_mesh(scene_ply.transform(axis_align_matrix), rgb=True)
	plotter.add_lines(np.array(tgt_points_new), color='red', width=3)
	plotter.add_lines(np.array(aa_tgt_points_new), color='yellow', width=3)

	plotter.camera.zoom(1.2)
	plotter.show()


	if __name__ == '__main__':
	obj_sample = ObjNode(id=1, label='', size='',
	mesh='../../DataAnnotation/data/scannet_objs/scene0000_00/45/mesh.obj')
	G = nx.DiGraph()
	G.add_node(obj_sample.id, desc = 'here1')
	G.add_node(obj_sample.id+1, desc = 'here2')
	G.add_node(obj_sample.id +3, desc = 'here3')
	G.add_edge(1, 2, name ='support')
	G.add_edge(2, 1, name='support2')
	pos = nx.spring_layout(G)
	nx.draw(G,pos)
	node_labels = nx.get_node_attributes(G, 'desc')
	nx.draw_networkx_labels(G, pos, labels=node_labels)
	edge_labels = nx.get_edge_attributes(G, 'name')
	nx.draw_networkx_edge_labels(G, pos, edge_labels=edge_labels)

	plt.show()