示例#1
0
def begin(c, ser_ee):
    # Home
    msg = ic.safe_ur_move(c, Pose=dict(iw.home_joints), CMD=2)
    ic.serial_send(ser_ee, "H", 100)

    # Move towards hammer using waypoints
    msg = ic.safe_ur_move(c, Pose=dict(hammer_waypoint_joints_1), CMD=2)
    msg = ic.safe_ur_move(c, Pose=dict(hammer_waypoint_joints_2), CMD=2)
    time.sleep(1)
    raw = raw_input("continue?")
    msg = ic.safe_ur_move(c,
                          Pose=dict(hammer_waypoint_joints_3),
                          CMD=2,
                          Speed=0.1)

    # Close hammer servo
    ic.serial_send(ser_ee, "H", 10)
    time.sleep(2)
    raw = raw_input("continue?")

    msg = ic.safe_ur_move(c, Pose=dict(nail_1), CMD=2, Speed=0.2)
    updown(c)

    msg = ic.safe_ur_move(c, Pose=dict(nail_2), CMD=2, Speed=0.2)
    updown(c)

    msg = ic.safe_ur_move(c, Pose=dict(nail_3), CMD=2, Speed=0.2)
    updown(c)

    msg = ic.safe_ur_move(c, Pose=dict(nail_4), CMD=2, Speed=0.2)
    updown(c)

    msg = ic.safe_ur_move(c, Pose=dict(nail_5), CMD=2, Speed=0.2)
    updown(c)

    msg = ic.safe_ur_move(c, Pose=dict(nail_6), CMD=2, Speed=0.2)
    updown(c)

    # Release hammer
    ic.serial_send(ser_ee, "H", 100)

    # GO HOme
    msg = ic.safe_move(c,
                       ser_ee,
                       Pose=dict(iw.home_joints),
                       Grip=demand_Grip,
                       CMD=2)

    ic.socket_send(c, sCMD=200)

    msg = ic.safe_move(c, ser_ee, Pose=dict(iw.home_joints), CMD=2)

    print ".....................Done......................"
示例#2
0
def main():
    c, ser_ee = initialize()
    # loop
    print c.recv(1024)
    inp = raw_input("Continue?")
    msg = ic.safe_move(c, ser_ee, Pose=dict(iw.home_joints), CMD=2)

    cali_img = cv2.imread("cali_img.jpg")
    circles_sorted, crop_points = ivt.run_calibration(cali_img, adjust=False)
    cali_circles_init = circles_sorted - circles_sorted[0][0]
    cali_circles = []
    for circ in cali_circles_init[0]:
        cali_circles.append([circ[0], circ[1]])

    print "CALI_CIRCLES", cali_circles

    p1, inverse = ivt.pix3world_cal(cali_circles[0], cali_circles[2],
                                    cali_circles[1])

    CAMERA = 1
    ivt.check_camera()
    cam_check = raw_input("Change Camera?: ")
    if cam_check == "yes":
        print "Current camera is " + str(CAMERA)
        CAMERA = raw_input("Which Camera to use?: ")
        CAMERA = int(CAMERA)

    while True:
        task = raw_input("task: ")
        if task == "wp":
            msg = ic.safe_ur_move(c, Pose=dict(i2.pick_k), CMD=2)
            #current_Pose = ic.get_ur_position(c,1)
            #demand_Pose = {"x":current_Pose[0], "y":current_Pose[1], "z":current_Pose[2], "rx":i1.saucer_waypoint2["rx"], "ry":i1.saucer_waypoint2["ry"], "rz":i1.saucer_waypoint2["rz"]}
            #msg = ic.safe_ur_move(c,Pose=demand_Pose,CMD=4)
        if task == "1":
            print "Begin challenge 1..."
            i1.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "2":
            print "Begin challenge 2..."
            i2.begin(c, ser_ee)
        if task == "3":
            print "Begin challenge 3..."
            i3.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "4":
            print "Begin challenge 4..."
            i4.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "5":
            print "Begin challenge 5..."
            i5.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "6":
            print "Begin challenge 6..."
            i6.begin(c, ser_ee)
        if task == "7":
            print "Begin challenge 7..."
            i7.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "8":
            print "Begin challenge 8..."
            i8.begin(c, ser_ee)
        if task == "9":
            print "Begin challenge 9..."
            i9.begin(c, ser_ee, p1, inverse, CAMERA, crop_points)
        if task == "10":
            print "Begin challenge 10..."
            i10.begin(c, ser_ee)
        if task == "s":
            print "Begin challenge s.."
            ic.serial_send(ser_ee, "H", 100)
            time.sleep(1)
            ic.serial_send(ser_ee, "H", 20)
        if task == "pose":
            current_Pose, current_Grip = ic.get_position(c, ser_ee, CMD=1)
            print "current pose: ", current_Pose
            print "current grip: ", current_Grip
        if task == "joints":
            current_Joints, current_Grip = ic.get_position(c, ser_ee, CMD=3)
            print "current joints: ", current_Joints
            print "current grip: ", current_Grip
        if task == "grab":
            demand_Grip = dict(iw.ee_home)
            demand_Grip["act"] = int(raw_input("act: "))
            demand_Grip["servo"] = int(raw_input("servo: "))
            demand_Grip["tilt"] = int(raw_input("tilt: "))
            msg = ic.safe_move(c, ser_ee, Grip=demand_Grip, CMD=0)

        if task == "calibrate":
            while True:
                ready = raw_input("Ready?: ")
                if ready == "yes":
                    cali_img = ivt.capture_pic(CAMERA, ROTATION)
                    circles_sorted, crop_points = ivt.run_calibration(cali_img)
                    cali_circles_init = circles_sorted - circles_sorted[0][0]
                    cali_circles = []
                    for circ in cali_circles_init[0]:
                        cali_circles.append([circ[0], circ[1]])

                    print cali_circles

                    p1, inverse = ivt.pix3world_cal(cali_circles[0],
                                                    cali_circles[2],
                                                    cali_circles[1])
                    cv2.imwrite("cali_img.jpg", cali_img)
                    break
示例#3
0
def begin(c, ser_ee, p1, inverse, CAMERA, crop_points):
    #vision stuff
    task_img_4 = ivt.capture_pic(CAMERA, 3)
    cv2.imwrite(os.path.join(PATH_TO_TASK_IMAGES, 'task_img_4.jpg'),
                task_img_4)

    crop_task_img_4 = ivt.crop_out(task_img_4, crop_points)
    CAL_PARAM = {'thresh': [75, 100], 'radius': [30, 45]}
    m_circle, m_cimg = ivt.find_circles(copy.copy(crop_task_img_4),
                                        3,
                                        param=CAL_PARAM,
                                        blur=1,
                                        show=False)
    plt.imshow(m_cimg)
    plt.show()

    mx = []
    my = []
    for mug in range(3):
        m_pix = [m_circle[0][mug][0], m_circle[0][mug][1]]
        mx_, my_ = ivt.pix3world(p1, inverse, m_pix)
        mx.append(mx_[0, 0])
        my.append(my_[0, 0])

    print "MX: ", mx
    print "MY: ", my

    #motion stuff: pick mug
    msg = ic.safe_move(c,
                       ser_ee,
                       Pose=dict(iw.home_joints),
                       Grip=dict(iw.ee_home),
                       CMD=2)
    # Set tool to iros_1
    ic.socket_send(c, sCMD=201)

    # Open grabber
    ic.serial_send(ser_ee, "H", 100)

    # Go to before jug
    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_1), CMD=2)
    time.sleep(0.5)

    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_2), CMD=2)

    # Glose grabber
    ic.serial_send(ser_ee, "H", 15)

    test = raw_input("wait")

    # Lift up
    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_3), CMD=2)

    current_Joints = ic.get_ur_position(c, 3)
    for i in range(0, 3):
        t1, t2, t3, t4 = get_angles(mx[i], my[i])

        print t1, t2, t3, t4
        ipt = raw_input("continue?")
        demand_Joints = {
            "x": t1,
            "y": t2,
            "z": t3,
            "rx": t4,
            "ry": current_Joints[4],
            "rz": current_Joints[5]
        }
        msg = ic.safe_ur_move(c, Pose=demand_Joints, CMD=2)

        # pour
        demand_Joints["rx"] = t4 + pour_list[i]
        msg = ic.safe_ur_move(c, Pose=demand_Joints, Speed=0.1, CMD=2)

    # return jug
    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_3), CMD=2)
    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_2), CMD=2)

    # Open grabber
    ic.serial_send(ser_ee, "H", 100)

    # move away
    msg = ic.safe_ur_move(c, Pose=dict(jug_waypoint_joints_1), CMD=2)

    # Set tool to iros_0
    ic.socket_send(c, sCMD=200)

    # home
    msg = ic.safe_move(c, ser_ee, Pose=dict(iw.home_joints), CMD=2)
    '''# Go to location of the cup
    current_Pose = ic.get_ur_position(c,1)
    demand_Pose = {"x":current_Pose[0],"y":current_Pose[1],"z":current_Pose[2],"rx":current_Pose[3],"ry":current_Pose[4],"rz":current_Pose[5]}
    demand_Pose["x"] = mx[0] + pour_offset
    demand_Pose["y"] = my[0]
    msg = ic.safe_ur_move(c,Pose=dict(demand_Pose),CMD=4)

    # Pour
    current_Joints = ic.get_ur_position(c,3)
    demand_Joints = {"x":current_Joints[0],"y":current_Joints[1],"z":current_Joints[2],"rx":current_Joints[3],"ry":current_Joints[4],"rz":current_Joints[5]}
    demand_Joints["rx"] = demand_Joints["rx"] + pour_angle_1
    msg = ic.safe_ur_move(c,Pose=dict(demand_Joints),CMD=2)

    time.sleep(1)

    # Stop pour_angle_1
    demand_Joints["rx"] = demand_Joints["rx"] - pour_angle_1
    msg = ic.safe_ur_move(c,Pose=dict(demand_Joints),CMD=2)
    '''
    '''
    current_Pose = ic.get_ur_position(c,1)
    demand_Pose = {"x":current_Pose[0], "y":current_Pose[1]+50, "z":current_Pose[2]-50, "rx":current_Pose[3], "ry":current_Pose[4], "rz":current_Pose[5]}
    demand_Grip = dict(iw.ee_home)
    demand_Grip["servo"]=30
    msg = ic.safe_move(c,ser_ee,Pose=demand_Pose,Grip=demand_Grip,CMD=4)

    demand_Pose["z"]=current_Pose[2]+50
    msg = ic.safe_ur_move(c,Pose=demand_Pose,CMD=4)

    for i in range(0,3):
        demand_Pose["x"]=mx[i]+pour_offset
        demand_Pose["y"]=my[i]
        msg = ic.safe_ur_move(c,Pose=demand_Pose,CMD=4)

        time.sleep(2)

        full_jug = measure_av_force(c)
        print "average force: ",full_jug

        current_Joints = ic.get_ur_position(c,3)
        demand_Joints = {"x":current_Joints[0], "y":current_Joints[1], "z":current_Joints[2], "rx":current_Joints[3], "ry":current_Joints[4], "rz":current_Joints[5]}

        j=0
        while fz < full_jug-2 and j<10:
            demand_Joints["rz"]=current_Joints[5]+10*j
            msg = ic.safe_ur_move(c,Pose=demand_Joints,CMD=2,Speed=0.2)

            time.sleep(2)

            fz = measure_av_force(c)
            print "average force: ",fz

        demand_Joints["rz"]=current_Joints[5]
        msg = ic.safe_ur_move(c,Pose=demand_Joints,CMD=2)

    demand_Pose = {"x":current_Pose[0], "y":current_Pose[1]+50, "z":current_Pose[2]+50, "rx":current_Pose[3], "ry":current_Pose[4], "rz":current_Pose[5]}
    msg = ic.safe_ur_move(c,Pose=demand_Pose,CMD=4)

    demand_Pose["z"]=current_Pose[2]-50
    demand_Grip["servo"]=120
    msg = ic.safe_move(c,ser_ee,Pose=demand_Pose,Grip=demand_Grip,CMD=4)

    demand_Pose["y"]=current_Pose[1]
    msg = ic.safe_ur_move(c,Pose=demand_Pose,CMD=4)

    msg = ic.safe_ur_move(c,Pose=dict(jug_waypoint_joints),CMD=2)

    ic.socket_send(c,sCMD=200)
    msg = ic.safe_ur_move(c,Pose=dict(iw.home_joints),CMD=2)
    '''
    print ".....................Done......................"