mi-task/main.py

'''
This demo show the communication interface of MR813 motion control board based on Lcm.
Dependency: 
- robot_control_cmd_lcmt.py
- robot_control_response_lcmt.py
'''
import lcm
import sys
import os
import time
from threading import Thread, Lock
import sys

import rclpy

from utils.robot_control_cmd_lcmt import robot_control_cmd_lcmt
from utils.robot_control_response_lcmt import robot_control_response_lcmt
from utils.localization_lcmt import localization_lcmt
from utils.image_raw import ImageProcessor
from utils.marker_client import MarkerRunner

from task_1.task_1 import run_task_1
from task_5.task_5 import run_task_5

def main():
    rclpy.init()  # 新增：在主程序中统一初始化 ROS 2 上下文
    Ctrl = Robot_Ctrl()
    Ctrl.run()
    msg = robot_control_cmd_lcmt()

    try:
        print("Recovery stand")
        msg.mode = 12  # Recovery stand
        msg.gait_id = 0
        msg.life_count += 1
        Ctrl.Send_cmd(msg)
        Ctrl.Wait_finish(12, 0)
        
        # time.sleep(100) # TEST 

        run_task_1(Ctrl, msg)

        # run_task_5(Ctrl, msg)

        # time.sleep(100)

    except KeyboardInterrupt:
        print("\n程序被用户中断")
    except Exception as e:
        print(f"发生错误: {e}")
    finally:
        print("正在清理资源...")
        Ctrl.quit()
        rclpy.shutdown()  # 新增：在主程序中统一销毁 ROS 2 上下文
        print("程序已退出")
        sys.exit()


class Robot_Ctrl(object):
    def __init__(self):
        self.rec_thread = Thread(target=self.rec_responce)
        self.send_thread = Thread(target=self.send_publish)
        self.odo_thread = Thread(target=self.rec_responce_o)
        self.lc_r = lcm.LCM("udpm://239.255.76.67:7670?ttl=255")
        self.lc_s = lcm.LCM("udpm://239.255.76.67:7671?ttl=255")
        self.lc_o = lcm.LCM("udpm://239.255.76.67:7667?ttl=255")
        self.cmd_msg = robot_control_cmd_lcmt()
        self.rec_msg = robot_control_response_lcmt()
        self.odo_msg = localization_lcmt()
        self.image_processor = ImageProcessor()
        # DEBUG
        self.marker_runner = MarkerRunner()
        self.send_lock = Lock()
        self.delay_cnt = 0
        self.mode_ok = 0
        self.gait_ok = 0
        self.runing = 1
        # 新增: 校准相关变量
        self.is_calibrated = False  # 是否已完成校准
        self.calibration_offset = [0, 0, 0]  # 校准偏移量
        # 初始化 MarkerRunner

    def run(self):
        self.lc_r.subscribe("robot_control_response", self.msg_handler)
        self.lc_o.subscribe("global_to_robot", self.msg_handler_o)
        self.send_thread.start()
        self.rec_thread.start()
        self.odo_thread.start()
        self.image_processor.run()
        self.marker_runner.run()

    def msg_handler(self, channel, data):
        self.rec_msg = robot_control_response_lcmt().decode(data)
        if self.rec_msg.order_process_bar >= 95:
            self.mode_ok = self.rec_msg.mode
        else:
            self.mode_ok = 0

    def msg_handler_o(self, channel, data):
        self.odo_msg = localization_lcmt().decode(data)
        # 如果尚未校准，记录第一帧数据作为校准基准
        if not self.is_calibrated:
            self.calibration_offset = self.odo_msg.xyz
            self.is_calibrated = True
            print(f"校准完成，基准值: {self.calibration_offset}")
        # 将接收到的 odo 数据减去校准基准值
        self.odo_msg.xyz = [
            self.odo_msg.xyz[0] - self.calibration_offset[0],
            self.odo_msg.xyz[1] - self.calibration_offset[1],
            self.odo_msg.xyz[2] - self.calibration_offset[2]
        ]
        # if self.odo_msg.timestamp % 100 == 0:
        #     print(self.odo_msg.xyz)

    def rec_responce(self):
        while self.runing:
            self.lc_r.handle()
            time.sleep(0.002)

    def rec_responce_o(self):
        while self.runing:
            self.lc_o.handle()
            time.sleep(0.002)

    def Wait_finish(self, mode, gait_id):
        count = 0
        while self.runing and count < 2000:  # 10s
            if self.mode_ok == mode and self.gait_ok == gait_id:
                return True
            else:
                time.sleep(0.005)
                count += 1
        print("Wait_finish timeout.")
        return False

    def send_publish(self):
        while self.runing:
            self.send_lock.acquire()
            if self.delay_cnt > 20:  # Heartbeat signal 10HZ
                self.lc_s.publish("robot_control_cmd", self.cmd_msg.encode())
                self.delay_cnt = 0
            self.delay_cnt += 1
            self.send_lock.release()
            time.sleep(0.005)

    def Send_cmd(self, msg):
        self.send_lock.acquire()
        self.delay_cnt = 50
        self.cmd_msg = msg
        self.send_lock.release()

    def place_marker(self, x, y, z, color, observe=False):
        """调用 MarkerRunner 放置标志物"""
        if self.marker_runner is None or self.marker_runner.marker_client is None:
            print("MarkerRunner 未初始化，无法放置标志物")
            return None
        try:
            response = self.marker_runner.send_request(x, y, z, color, observe=observe)
            print(f"放置标志物结果: {response.success}, 消息: {response.message}")
            return response
        except Exception as e:
            print(f"放置标志物时发生异常: {e}")
            return None

    def quit(self):
        self.runing = 0
        self.rec_thread.join()
        self.send_thread.join()
        self.image_processor.destroy()
        # 销毁 MarkerRunner
        if hasattr(self, 'marker_runner') and self.marker_runner is not None:
            try:
                self.marker_runner.destroy()
            except Exception as e:
                print(f"MarkerRunner 销毁失败: {e}")

# Main function
if __name__ == '__main__':
    main()
:tada: 2025-05-11 15:44:54 +00:00			`'''`
			`This demo show the communication interface of MR813 motion control board based on Lcm.`
			`Dependency:`
			`- robot_control_cmd_lcmt.py`
			`- robot_control_response_lcmt.py`
			`'''`
			`import lcm`
			`import sys`
			`import os`
			`import time`
			`from threading import Thread, Lock`
			`import sys`

refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`import rclpy`

重构代码，删除不再使用的LCM类型定义文件，更新导入路径，添加图像处理功能到主程序和任务1中，并在适当位置调用图像处理器的销毁方法。 2025-05-12 00:05:54 +08:00			`from utils.robot_control_cmd_lcmt import robot_control_cmd_lcmt`
			`from utils.robot_control_response_lcmt import robot_control_response_lcmt`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`from utils.localization_lcmt import localization_lcmt`
重构代码，删除不再使用的LCM类型定义文件，更新导入路径，添加图像处理功能到主程序和任务1中，并在适当位置调用图像处理器的销毁方法。 2025-05-12 00:05:54 +08:00			`from utils.image_raw import ImageProcessor`
✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`from utils.marker_client import MarkerRunner`
:tada: 2025-05-11 15:44:54 +00:00
			`from task_1.task_1 import run_task_1`
feat(task_1): implement new robot movements and behaviors - Add new functions for turning, going straight, and circling - Implement standing up and lying down movements - Update task_1 to use new movement functions - Decode QR code information from image processor - Refactor main.py to run task_5 instead of task_1 2025-05-12 08:06:08 +00:00			`from task_5.task_5 import run_task_5`
:tada: 2025-05-11 15:44:54 +00:00
			`def main():`
refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`rclpy.init() # 新增：在主程序中统一初始化 ROS 2 上下文`
:tada: 2025-05-11 15:44:54 +00:00			`Ctrl = Robot_Ctrl()`
			`Ctrl.run()`
			`msg = robot_control_cmd_lcmt()`

			`try:`
			`print("Recovery stand")`
			`msg.mode = 12 # Recovery stand`
			`msg.gait_id = 0`
			`msg.life_count += 1`
			`Ctrl.Send_cmd(msg)`
			`Ctrl.Wait_finish(12, 0)`
task-1 #1 2025-05-14 11:25:44 +00:00
			`# time.sleep(100) # TEST`
:tada: 2025-05-11 15:44:54 +00:00
重构主程序，移除图像处理器实例化，简化任务1函数参数，删除无用的测试文件，优化代码结构。 2025-05-14 19:35:29 +08:00			`run_task_1(Ctrl, msg)`
:tada: 2025-05-11 15:44:54 +00:00
task-1 #1 2025-05-14 11:25:44 +00:00			`# run_task_5(Ctrl, msg)`
feat(task_1): implement new robot movements and behaviors - Add new functions for turning, going straight, and circling - Implement standing up and lying down movements - Update task_1 to use new movement functions - Decode QR code information from image processor - Refactor main.py to run task_5 instead of task_1 2025-05-12 08:06:08 +00:00
			`# time.sleep(100)`
:tada: 2025-05-11 15:44:54 +00:00
			`except KeyboardInterrupt:`
优化主程序异常处理，添加资源清理逻辑；在图像处理器中引入多线程支持，改进图像订阅的运行机制。 2025-05-12 01:04:51 +08:00			`print("\n程序被用户中断")`
			`except Exception as e:`
			`print(f"发生错误: {e}")`
			`finally:`
			`print("正在清理资源...")`
			`Ctrl.quit()`
refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`rclpy.shutdown() # 新增：在主程序中统一销毁 ROS 2 上下文`
优化主程序异常处理，添加资源清理逻辑；在图像处理器中引入多线程支持，改进图像订阅的运行机制。 2025-05-12 01:04:51 +08:00			`print("程序已退出")`
			`sys.exit()`
:tada: 2025-05-11 15:44:54 +00:00

			`class Robot_Ctrl(object):`
			`def __init__(self):`
			`self.rec_thread = Thread(target=self.rec_responce)`
			`self.send_thread = Thread(target=self.send_publish)`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`self.odo_thread = Thread(target=self.rec_responce_o)`
:tada: 2025-05-11 15:44:54 +00:00			`self.lc_r = lcm.LCM("udpm://239.255.76.67:7670?ttl=255")`
			`self.lc_s = lcm.LCM("udpm://239.255.76.67:7671?ttl=255")`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`self.lc_o = lcm.LCM("udpm://239.255.76.67:7667?ttl=255")`
:tada: 2025-05-11 15:44:54 +00:00			`self.cmd_msg = robot_control_cmd_lcmt()`
			`self.rec_msg = robot_control_response_lcmt()`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`self.odo_msg = localization_lcmt()`
重构主程序，移除图像处理器实例化，简化任务1函数参数，删除无用的测试文件，优化代码结构。 2025-05-14 19:35:29 +08:00			`self.image_processor = ImageProcessor()`
✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`# DEBUG`
			`self.marker_runner = MarkerRunner()`
:tada: 2025-05-11 15:44:54 +00:00			`self.send_lock = Lock()`
			`self.delay_cnt = 0`
			`self.mode_ok = 0`
			`self.gait_ok = 0`
			`self.runing = 1`
refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`# 新增: 校准相关变量`
			`self.is_calibrated = False # 是否已完成校准`
			`self.calibration_offset = [0, 0, 0] # 校准偏移量`
✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`# 初始化 MarkerRunner`
:tada: 2025-05-11 15:44:54 +00:00
			`def run(self):`
			`self.lc_r.subscribe("robot_control_response", self.msg_handler)`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`self.lc_o.subscribe("global_to_robot", self.msg_handler_o)`
:tada: 2025-05-11 15:44:54 +00:00			`self.send_thread.start()`
			`self.rec_thread.start()`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`self.odo_thread.start()`
重构主程序，移除图像处理器实例化，简化任务1函数参数，删除无用的测试文件，优化代码结构。 2025-05-14 19:35:29 +08:00			`self.image_processor.run()`
✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`self.marker_runner.run()`
:tada: 2025-05-11 15:44:54 +00:00
			`def msg_handler(self, channel, data):`
			`self.rec_msg = robot_control_response_lcmt().decode(data)`
			`if self.rec_msg.order_process_bar >= 95:`
			`self.mode_ok = self.rec_msg.mode`
			`else:`
			`self.mode_ok = 0`

feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00			`def msg_handler_o(self, channel, data):`
			`self.odo_msg = localization_lcmt().decode(data)`
refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`# 如果尚未校准，记录第一帧数据作为校准基准`
			`if not self.is_calibrated:`
			`self.calibration_offset = self.odo_msg.xyz`
			`self.is_calibrated = True`
			`print(f"校准完成，基准值: {self.calibration_offset}")`
			`# 将接收到的 odo 数据减去校准基准值`
			`self.odo_msg.xyz = [`
			`self.odo_msg.xyz[0] - self.calibration_offset[0],`
			`self.odo_msg.xyz[1] - self.calibration_offset[1],`
			`self.odo_msg.xyz[2] - self.calibration_offset[2]`
			`]`
task-1 #3 2025-05-14 14:50:50 +00:00			`# if self.odo_msg.timestamp % 100 == 0:`
refactor(base_move): 优化移动控制逻辑和校准流程 - 修改 move_to_hori_line 函数中的超时设置和停止命令发送方式 - 在主程序中初始化和销毁 ROS 2 上下文 - 增加校准相关变量和逻辑，提高定位精度 - 优化 ImageProcessor 和 MarkerRunner 类的实现 2025-05-15 08:09:59 +00:00			`# print(self.odo_msg.xyz)`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00
:tada: 2025-05-11 15:44:54 +00:00			`def rec_responce(self):`
			`while self.runing:`
			`self.lc_r.handle()`
			`time.sleep(0.002)`
feat(robot): add odometry functionality and update control logic - Add odometry thread and message handler for localization data - Update main control loop to incorporate odometry information - Remove task 5 execution from main function - Refactor task 5 implementation to be more modular 2025-05-13 10:12:57 +00:00
			`def rec_responce_o(self):`
			`while self.runing:`
			`self.lc_o.handle()`
			`time.sleep(0.002)`
:tada: 2025-05-11 15:44:54 +00:00
			`def Wait_finish(self, mode, gait_id):`
			`count = 0`
			`while self.runing and count < 2000: # 10s`
			`if self.mode_ok == mode and self.gait_ok == gait_id:`
			`return True`
			`else:`
			`time.sleep(0.005)`
			`count += 1`
			`print("Wait_finish timeout.")`
			`return False`

			`def send_publish(self):`
			`while self.runing:`
			`self.send_lock.acquire()`
			`if self.delay_cnt > 20: # Heartbeat signal 10HZ`
			`self.lc_s.publish("robot_control_cmd", self.cmd_msg.encode())`
			`self.delay_cnt = 0`
			`self.delay_cnt += 1`
			`self.send_lock.release()`
			`time.sleep(0.005)`

			`def Send_cmd(self, msg):`
			`self.send_lock.acquire()`
			`self.delay_cnt = 50`
			`self.cmd_msg = msg`
			`self.send_lock.release()`

✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`def place_marker(self, x, y, z, color, observe=False):`
			`"""调用 MarkerRunner 放置标志物"""`
			`if self.marker_runner is None or self.marker_runner.marker_client is None:`
			`print("MarkerRunner 未初始化，无法放置标志物")`
			`return None`
			`try:`
			`response = self.marker_runner.send_request(x, y, z, color, observe=observe)`
			`print(f"放置标志物结果: {response.success}, 消息: {response.message}")`
			`return response`
			`except Exception as e:`
			`print(f"放置标志物时发生异常: {e}")`
			`return None`

:tada: 2025-05-11 15:44:54 +00:00			`def quit(self):`
			`self.runing = 0`
			`self.rec_thread.join()`
			`self.send_thread.join()`
重构主程序，移除图像处理器实例化，简化任务1函数参数，删除无用的测试文件，优化代码结构。 2025-05-14 19:35:29 +08:00			`self.image_processor.destroy()`
✨ 增加 MarkerRunner 支持，优化标记放置功能 - 在 Robot_Ctrl 类中初始化 MarkerRunner，并在运行时调用其方法 - 在移动到横向线的函数中添加标记放置功能，分别在起点和终点放置绿色和红色标记 - 增强错误处理，确保 MarkerRunner 正确销毁 2025-05-15 11:19:24 +08:00			`# 销毁 MarkerRunner`
			`if hasattr(self, 'marker_runner') and self.marker_runner is not None:`
			`try:`
			`self.marker_runner.destroy()`
			`except Exception as e:`
			`print(f"MarkerRunner 销毁失败: {e}")`

:tada: 2025-05-11 15:44:54 +00:00			`# Main function`
			`if __name__ == '__main__':`
			`main()`