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test_se3.py
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test_se3.py
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#!/usr/bin/env python
from __future__ import print_function
import numpy as np
from pybullet_tools.utils import connect, disconnect, wait_for_user, create_box, dump_body, \
get_link_pose, euler_from_quat, RED, set_camera_pose, create_flying_body, create_shape, get_cylinder_geometry, \
BLUE, get_movable_joints, get_links, SE3, set_joint_positions, \
plan_joint_motion, add_line, GREEN, intrinsic_euler_from_quat
SIZE = 1.
CUSTOM_LIMITS = {
'x': (-SIZE, SIZE),
'y': (-SIZE, SIZE),
'z': (-SIZE, SIZE),
}
def main(group=SE3):
connect(use_gui=True)
set_camera_pose(camera_point=SIZE*np.array([1., -1., 1.]))
# TODO: can also create all links and fix some joints
# TODO: SE(3) motion planner (like my SE(3) one) where some dimensions are fixed
obstacle = create_box(w=SIZE, l=SIZE, h=SIZE, color=RED)
#robot = create_cylinder(radius=0.025, height=0.1, color=BLUE)
obstacles = [obstacle]
collision_id, visual_id = create_shape(get_cylinder_geometry(radius=0.025, height=0.1), color=BLUE)
robot = create_flying_body(group, collision_id, visual_id)
body_link = get_links(robot)[-1]
joints = get_movable_joints(robot)
joint_from_group = dict(zip(group, joints))
print(joint_from_group)
#print(get_aabb(robot, body_link))
dump_body(robot, fixed=False)
custom_limits = {joint_from_group[j]: l for j, l in CUSTOM_LIMITS.items()}
# sample_fn = get_sample_fn(robot, joints, custom_limits=custom_limits)
# for i in range(10):
# conf = sample_fn()
# set_joint_positions(robot, joints, conf)
# wait_for_user('Iteration: {}'.format(i))
# return
initial_point = SIZE*np.array([-1., -1., 0])
#initial_point = -1.*np.ones(3)
final_point = -initial_point
initial_euler = np.zeros(3)
add_line(initial_point, final_point, color=GREEN)
initial_conf = np.concatenate([initial_point, initial_euler])
final_conf = np.concatenate([final_point, initial_euler])
set_joint_positions(robot, joints, initial_conf)
#print(initial_point, get_link_pose(robot, body_link))
#set_pose(robot, Pose(point=-1.*np.ones(3)))
# TODO: sample orientation uniformly at random
# http://planning.cs.uiuc.edu/node198.html
#from pybullet_tools.transformations import random_quaternion
path = plan_joint_motion(robot, joints, final_conf, obstacles=obstacles,
self_collisions=False, custom_limits=custom_limits)
if path is None:
disconnect()
return
for i, conf in enumerate(path):
set_joint_positions(robot, joints, conf)
point, quat = get_link_pose(robot, body_link)
#euler = euler_from_quat(quat)
euler = intrinsic_euler_from_quat(quat)
print(conf)
print(point, euler)
wait_for_user('Step: {}/{}'.format(i, len(path)))
wait_for_user('Finish?')
disconnect()
if __name__ == '__main__':
main()