#!/usr/bin/env python3 # -*- coding: utf-8 -*- """[summary] This file obtains the joint angle of the manipulator in ROS, and then sends it directly to the real manipulator using `pymycobot` API. This file is [slider_control.launch] related script. Passable parameters: port: serial prot string. Defaults is '/dev/ttyAMA1' baud: serial prot baudrate. Defaults is 115200. """ import math import time import rospy from sensor_msgs.msg import JointState from pymycobot.mercury import Mercury # left arm port l = None # right arm port r = None def callback(data): # rospy.loginfo(rospy.get_caller_id() + "%s", data.position) data_list = [] for index, value in enumerate(data.position): radians_to_angles = round(math.degrees(value), 2) data_list.append(radians_to_angles) print('data_list:', data_list) left_arm = data_list[:7] right_arm = data_list[7:-3] middle_arm = data_list[-3:] print('left_arm:', left_arm) print('right_arm:', right_arm) print('middle_arm:', middle_arm) l.send_angles(left_arm, 25) time.sleep(0.02) r.send_angles(right_arm, 25) time.sleep(0.02) r.send_angle(11, middle_arm[0], 25) time.sleep(0.02) r.send_angle(12, middle_arm[1], 25) time.sleep(0.02) r.send_angle(13, middle_arm[2], 25) time.sleep(0.02) def listener(): global l, r rospy.init_node("control_slider", anonymous=True) rospy.Subscriber("joint_states", JointState, callback) port1 = rospy.get_param("~port1", "/dev/ttyS0") port2 = rospy.get_param("~port2", "/dev/ttyTHS1") baud = rospy.get_param("~baud", 115200) print(port1, baud) print(port2, baud) l = Mercury(port1, baud) r = Mercury(port2, baud) time.sleep(0.05) l.set_free_mode(1) r.set_free_mode(1) time.sleep(0.05) # spin() simply keeps python from exiting until this node is stopped # spin()只是阻止python退出,直到该节点停止 print("spin ...") rospy.spin() if __name__ == "__main__": listener()