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open3d_vis_utils.py
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open3d_vis_utils.py
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"""
Open3d visualization tool box
Written by Jihan YANG
All rights preserved from 2021 - present.
"""
import open3d
import torch
import matplotlib
import numpy as np
box_colormap = [
[1, 1, 1],
[0, 1, 0],
[0, 1, 1],
[1, 1, 0],
]
def get_coor_colors(obj_labels):
"""
Args:
obj_labels: 1 is ground, labels > 1 indicates different instance cluster
Returns:
rgb: [N, 3]. color for each point.
"""
colors = matplotlib.colors.XKCD_COLORS.values()
max_color_num = obj_labels.max()
color_list = list(colors)[:max_color_num+1]
colors_rgba = [matplotlib.colors.to_rgba_array(color) for color in color_list]
label_rgba = np.array(colors_rgba)[obj_labels]
label_rgba = label_rgba.squeeze()[:, :3]
return label_rgba
def draw_scenes(points, gt_boxes=None, ref_boxes=None, ref_labels=None, ref_scores=None, point_colors=None, draw_origin=True):
if isinstance(points, torch.Tensor):
points = points.cpu().numpy()
if isinstance(gt_boxes, torch.Tensor):
gt_boxes = gt_boxes.cpu().numpy()
if isinstance(ref_boxes, torch.Tensor):
ref_boxes = ref_boxes.cpu().numpy()
vis = open3d.visualization.Visualizer()
vis.create_window()
vis.get_render_option().point_size = 1.0
vis.get_render_option().background_color = np.zeros(3)
# draw origin
if draw_origin:
axis_pcd = open3d.geometry.TriangleMesh.create_coordinate_frame(size=1.0, origin=[0, 0, 0])
vis.add_geometry(axis_pcd)
pts = open3d.geometry.PointCloud()
pts.points = open3d.utility.Vector3dVector(points[:, :3])
vis.add_geometry(pts)
if point_colors is None:
pts.colors = open3d.utility.Vector3dVector(np.ones((points.shape[0], 3)))
else:
pts.colors = open3d.utility.Vector3dVector(point_colors)
if gt_boxes is not None:
vis = draw_box(vis, gt_boxes, (0, 0, 1))
if ref_boxes is not None:
vis = draw_box(vis, ref_boxes, (0, 1, 0), ref_labels, ref_scores)
vis.run()
vis.destroy_window()
def translate_boxes_to_open3d_instance(gt_boxes):
"""
4-------- 6
/| /|
5 -------- 3 .
| | | |
. 7 -------- 1
|/ |/
2 -------- 0
"""
center = gt_boxes[0:3]
lwh = gt_boxes[3:6]
axis_angles = np.array([0, 0, gt_boxes[6] + 1e-10])
rot = open3d.geometry.get_rotation_matrix_from_axis_angle(axis_angles)
box3d = open3d.geometry.OrientedBoundingBox(center, rot, lwh)
line_set = open3d.geometry.LineSet.create_from_oriented_bounding_box(box3d)
# import ipdb; ipdb.set_trace(context=20)
lines = np.asarray(line_set.lines)
lines = np.concatenate([lines, np.array([[1, 4], [7, 6]])], axis=0)
line_set.lines = open3d.utility.Vector2iVector(lines)
return line_set, box3d
def draw_box(vis, gt_boxes, color=(0, 1, 0), ref_labels=None, score=None):
for i in range(gt_boxes.shape[0]):
line_set, box3d = translate_boxes_to_open3d_instance(gt_boxes[i])
if ref_labels is None:
line_set.paint_uniform_color(color)
else:
line_set.paint_uniform_color(box_colormap[ref_labels[i]])
vis.add_geometry(line_set)
# if score is not None:
# corners = box3d.get_box_points()
# vis.add_3d_label(corners[5], '%.2f' % score[i])
return vis