Exemplo n.º 1
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    # OPTIONAL: play it safe and go to `pose_0_b` first, THEN `pose_0`. This is
    # usually a good idea.
    #if True:
    #    robot.move_to_pose(pose0+'_b', velocity_factor=VEL)

    robot.move_to_pose(pose0, velocity_factor=VEL)


def get_arm_straight():
    """Move robot so its arm extends outwards.

    I used this to test if we can reset the zero joints, according to Fetch
    support instructions.
    """
    robot.torso.set_height(0.20)
    zeros = [0.0, 0.0, 0.0, 0.0, 0.0, 0.0, 0.0]
    zeros_list = [(x, y) for (x, y) in zip(robot.arm_joints.names(), zeros)]
    robot.arm.move_to_joint_goal(zeros_list, velocity_factor=0.3)


if __name__ == "__main__":
    robot = Robot_Skeleton()
    #robot.body_start_pose(start_height=0.20, end_height=0.20, velocity_factor=VEL)
    #robot.head_start_pose(pan=0.0, tilt=45.0*DEG_TO_RAD)

    #basic_camera_grippers()
    #moving_to_poses()
    get_arm_straight()

    rospy.spin()
Exemplo n.º 2
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    print("move_to_pose1_b pose0")
    rospy.sleep(1)
    rospy.loginfo("Just moved to pose: {}_b".format(pose1))
    robot.move_to_pose(pose1, velocity_factor=VEL)
    print("move_to_pose1 pose0")
    rospy.sleep(1)
    # Grip object
    robot.close_gripper(width=0.06)
    rospy.sleep(1)

    # Move back up to the original pose
    robot.move_to_pose(pose0, velocity_factor=VEL)


if __name__ == "__main__":
    robot = Robot_Skeleton()
    # set torso height high to start to hopefully avoid collisions with base
    robot.body_start_pose(start_height=0.25,
                          end_height=0.25,
                          velocity_factor=VEL)
    robot.head_start_pose(pan=0.0, tilt=0.0)
    rospy.loginfo("Finished robot body and head start poses.")
    robot.close_gripper(width=0.04)
    robot.open_gripper()
    grab_item()
    pose_group = moveit_commander.MoveGroupCommander("arm")
    position = pose_group.get_current_pose("wrist_roll_link").pose.position
    print(position)
    print("done, just spinning now ...")
    rospy.spin()
Exemplo n.º 3
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"""
Test different movement heuristics for moving the Fetch if it can't reach
something from its existing position.
"""
from fetch_core.skeleton import Robot_Skeleton
import cv2, os, sys, time, rospy
import numpy as np

DEG_TO_RAD = np.pi / 180
RAD_TO_DEG = 180 / np.pi

# Adjust to change robot's speed.
VEL = 1.0


def move_from_camera_pixels():
    """Move to this pose as specified by user.
    """
    pass


if __name__ == "__main__":
    robot = Robot_Skeleton()
    robot.body_start_pose()
    robot.head_start_pose()
    move_from_camera_pixels()
    print("done, just spinning now ...")
    rospy.spin()
                 orientation_constraint=None, 
                 plan_only=False,
                 replan=True, 
                 replan_attempts=20, 
                 tolerance=0.01, 
                 velocity_factor=0.4):
    error = robot.move_to_pose(pose_name=ps, 654
                     execution_timeout=execution_timeout,
                     group_name=group_name,
                     num_planning_attempts=num_planning_attempts,
                     orientation_constraint=orientation_constraint,
                     plan_only=plan_only, 
                     replan=replan,
                     replan_attempts=replan_attempts,
                     tolerance=tolerance,
                     velocity_factor=velocity_factor)
    print(error)


if __name__ == "__main__":
    robot = Robot_Skeleton()
    robot.body_start_pose(start_height=0.18, end_height=0.18, velocity_factor=0.4)
    rospy.loginfo("Finished robot starting config.")
    robot.close_gripper(width=0.04)
    robot.open_gripper()
    robot.arm.move_to_joint_goal()

    #map_coordinates = [0.64364554, 0.40790289, 0.26959194]
    #pose0 = robot.gripper.create_grasp_pose(320, 400, 0.7, 45, use_world_frame=True, world_coordinates=map_coordinates)
    #can_plan(pose0)
""" Use for basic testing of the Fetch."""
from fetch_core.skeleton import Robot_Skeleton
import cv2, os, sys, time, rospy
import numpy as np
DEG_TO_RAD = np.pi / 180
RAD_TO_DEG = 180 / np.pi

# Adjust to change robot's speed.
VEL = 0.5


def save_camera_images():
    # Get some camera images and save them.
    c_img, d_img = robot.get_img_data()

    cv2.imwrite("rgb_img.png", c_img)
    cv2.imwrite("depth_img.png", d_img)
    print("Saved images...check them out!")


if __name__ == "__main__":
    robot = Robot_Skeleton()
    robot.body_start_pose(start_height=0.20,
                          end_height=0.20,
                          velocity_factor=VEL)
    robot.head_start_pose(pan=0.0, tilt=45.0 * DEG_TO_RAD)

    save_camera_images()

    rospy.spin()
Exemplo n.º 6
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if __name__ == "__main__":
    num_rollouts = len([x for x in os.listdir(OUTDIR) if 'rollout_' in x])
    os.makedirs(os.path.join(OUTDIR, 'rollout_{}'.format(num_rollouts)))
    out_path = os.path.join(OUTDIR,
                            'rollout_{}/rollout.p'.format(num_rollouts))
    print("\n\n\n\n\n\n\n\n\n\nGet things set up to save at: {}".format(
        out_path))
    style, perc, side = set_up_bed()
    rollout = []

    # Set to stuff from `prep_fetch.py`, while we adjust the bed. (This is
    # specific to our setup, so different code bases will likely have to adjust.
    # See our data collection protocol for more details.)
    robot = Robot_Skeleton()
    robot.body_start_pose(start_height=0.00,
                          end_height=0.00,
                          velocity_factor=VEL)
    robot.head_start_pose(pan=0.0 * DEG_TO_RAD, tilt=45.0 * DEG_TO_RAD)

    # Get RGB and depth images, then do a bunch of debug prints.  This one is a
    # placeholder as we may not have finished with the initial sheet setup.
    # ACTIONABLE: get the initial sheet set up, then press any key (except ESC).
    c_img, _ = robot.get_img_data()
    cv2.imwrite("tmp/cimg_{}.png".format(len(os.listdir('tmp/'))), c_img)
    call_wait_key(
        cv2.imshow(
            "(A placeholder to stop code, finish sheet and press a key)",
            c_img))
Exemplo n.º 7
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    print("move_to_pose1_b pose0")
    rospy.sleep(1)
    rospy.loginfo("Just moved to pose: {}_b".format(pose1))
    robot.move_to_pose(pose1, velocity_factor=VEL)
    print("move_to_pose1 pose0")
    rospy.sleep(1)
    # Grip object
    robot.close_gripper(width=0.06)
    rospy.sleep(1)

    # Move back up to the original pose
    robot.move_to_pose(pose0, velocity_factor=VEL)


if __name__ == "__main__":
    robot = Robot_Skeleton()
    # set torso height high to start to hopefully avoid collisions with base
    # robot.body_start_pose(start_height=0.25, end_height=0.25, velocity_factor=VEL)
    # robot.head_start_pose(pan=0.0, tilt=0.0)
    # rospy.loginfo("Finished robot body and head start poses.")
    # robot.close_gripper(width=0.1)  #close0.0---open0.1
    # robot.open_gripper()
    # grab_item()
    # pose_group = moveit_commander.MoveGroupCommander("arm")
    # position = pose_group.get_current_pose("wrist_roll_link").pose.position
    # print(position)
    # print("done, just spinning now ...")

    x, y, z = (0.5, 0.0, 0.5)
    # x, y, z = (1.0, 0.0, 0.8)
    rot_x, rot_y, rot_z = (0.0, 90.0, 0.0)
Exemplo n.º 8
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    # Move to poses, adjust height as needed.
    robot.move_to_pose(pose0, velocity_factor=VEL)
    rospy.loginfo("Just moved to pose: {}".format(pose0))
    robot.torso.set_height(0.15)
    robot.move_to_pose(pose1 + '_b', velocity_factor=VEL)
    rospy.loginfo("Just moved to pose: {}_b".format(pose1))
    robot.move_to_pose(pose1, velocity_factor=VEL)

    # Grip object
    robot.close_gripper(width=0.06)
    rospy.sleep(1)

    # Move back up to the original pose
    robot.move_to_pose(pose0, velocity_factor=VEL)


if __name__ == "__main__":
    robot = Robot_Skeleton()
    # set torso height high to start to hopefully avoid collisions with base
    robot.head_start_pose(pan=0.0, tilt=0.0)
    robot.body_start_pose()
    rospy.loginfo("Finished robot body and head start poses.")
    #robot.close_gripper(width=0.04)
    robot.open_gripper()

    grab_item()

    rospy.loginfo("done, just spinning now ...")
    rospy.spin()
"""Use to test the camera to base frame mapping."""
from fetch_core.skeleton import Robot_Skeleton
import cv2, os, sys, time, rospy
import numpy as np
DEG_TO_RAD = np.pi / 180
RAD_TO_DEG = 180 / np.pi

# Adjust to change robot's speed.
VEL = 1.0


def move_from_camera_pixels():
    """Move to this pose as specified by user.
    """
    pass


if __name__ == "__main__":
    robot = Robot_Skeleton()
    #robot.body_start_pose()
    robot.head_start_pose(tilt=45 * DEG_TO_RAD)

    #move_from_camera_pixels()

    print("done, just spinning now ...")
    rospy.spin()
Exemplo n.º 10
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""" Use for basic testing of the Fetch."""
from fetch_core.skeleton import Robot_Skeleton
import cv2, os, sys, time, rospy
import numpy as np
DEG_TO_RAD = np.pi / 180
RAD_TO_DEG = 180 / np.pi

# Adjust to change robot's speed.
VEL = 0.5

if __name__ == "__main__":
    robot = Robot_Skeleton()

    robot.body_start_pose(start_height=0.20, end_height=0, velocity_factor=VEL)
    rospy.loginfo("Finished moving robot to start pose.")
    # default: robot.body_start_pose()
    # robot.head_start_pose(pan=0.0, tilt=45.0*DEG_TO_RAD)

    rospy.spin()  # yields activity to other threads