project_main/action.py

import threading
import time
import zmq
import queue
import toml
import numpy as np
from loguru import logger
from simple_pid import PID
from utils import PidWrap

bycmd = None
move = None
axis = None
cmd = None

action_run_flag = None

cfg = toml.load('/home/evan/Workplace/project_main/cfg_action.toml')

def import_obj(_run_flag,_bycmd):
    global bycmd
    global move
    global axis
    global cmd
    global action_run_flag

    bycmd = _bycmd
    action_run_flag = _run_flag
    move = move_cls()
    axis = axis_cls()
    cmd = cmd_cls()

class lane_cls:
    def __init__(self, _speed, _time, _pid_argv = {"kp" : 1.2, "ki" : 0, "kd" : 0}) -> None:
        self.context = zmq.Context()
        self.socket = self.context.socket(zmq.REQ)
        self.socket.connect("tcp://localhost:6666")
        self.speed = _speed
        self.time = _time
        # 每 20ms 控制一次，故次数乘以 50
        self.count = self.time * 50
        logger.info(f"count = {self.count}")
        self.busy = False
        self. pid = PidWrap(_pid_argv["kp"], _pid_argv["ki"], _pid_argv["kd"], output_limits=50)
        pass
    def loop(self):
        while self.count >= 0:
            self.count -= 1

            self.socket.send_string("")
            resp = self.socket.recv_pyobj()
            # 检查该值是否有效
            ck_val = resp.get('data')
            if isinstance(ck_val, np.ndarray):  
                x = ck_val[0]
                y = ck_val[1]
            else:
                continue
            err = x - 160

            pid_out = self.pid.get(err)
            bycmd.send_speed_omega(pid_out)

            # logger.debug(f"[任务中巡线模式]#  error:{err} out:{pid_out}")
            time.sleep(0.012) # 时间补偿，保证控制周期 (虽然还是挺不准的)

        for _ in range(3):
            bycmd.send_speed_x(0)
            bycmd.send_speed_omega(0)
        self.busy = False
        logger.info("[任务中巡线模式] #结束")
        return

    def start(self):
        logger.info(f"[任务中巡线模式] #开启，速度：{self.speed} 时间：{self.time}")
        bycmd.send_speed_x(self.speed)
        self.busy = True
        thread = threading.Thread(target=self.loop)
        thread.start()
        pass
    def inquire(self):
        # logger.debug(f"[任务中巡线模式]# 查询 当前 busy 状态 {self.busy}")
        return self.busy

class move_cls:
    # def x(self, _speed):
    #     bycmd.send_speed_x(_speed)
    #     pass
    # def y(self, _speed):
    #     bycmd.send_speed_y(_speed)
    #     pass
    # def z(self, _speed):
    #     bycmd.send_speed_omega(_speed)
    #     pass
    def lane(self, _speed, _time):
        lane_obj = lane_cls(_speed, _time)
        lane_obj.start()
        # 此处为阻塞实现，非阻塞调用可直接从 lane_cls 类构造对象，然后使用查询方法
        # time.sleep(0.5) # 等待子线程启动
        while lane_obj.inquire() is True:
            pass

# TODO 新运动指令类，指令的发送和完成查询功能，发送时开启新线程


class cmd_cls():
    # FIXME 延时计算时没有关联轴速度
    def __init__(self) -> None:
        # 根据设备上电复位后实际位置设置
        self.__axis_x_pos = 160
        self.__axis_z_pos = 100
        # self.__axis_claw_pos = 0
        # self.__axis_claw_arm_pos = 0
        # self.__axis_storage_pos = 0
        pass
    def z(self, _speed, _dis, _time_via = -1):
        # 设置绝对位置
        self.__axis_z_pos += _dis
        # 如果未指定延时时间，则按照相对位移计算延时时间
        if _time_via == -1:
            time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]
        else:
            time_via = _time_via
        logger.info(f"z[{self.__axis_z_pos}] speed:{_speed:.2f}, dis:{_dis:.2f}, time_via:{time_via:.2f}")
        while bycmd.send_position_axis_z(_speed, self.__axis_z_pos) == -1 and action_run_flag.isSet():
            pass  
        time.sleep(time_via)
    def z2(self, _speed, _pos, _time_via = -1):
        # 计算绝对位置
        _dis = self.__axis_z_pos - _pos
        self.__axis_z_pos = _pos
        # 如果未指定延时时间，则按照相对位移计算延时时间
        if _time_via == -1:
            time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]
        else:
            time_via = _time_via
        logger.info(f"z[{self.__axis_z_pos}] speed:{_speed:.2f}, pos:{_pos:.2f}, time_via:{time_via:.2f}")
        while bycmd.send_position_axis_z(_speed, self.__axis_z_pos) == -1 and action_run_flag.isSet():
            pass  
        time.sleep(time_via)
    def x(self, _speed, _dis, _time_via = -1):
        # 设置绝对位置
        self.__axis_x_pos += _dis
        # 如果未指定延时时间，则按照相对位移计算延时时间
        if _time_via == -1:
            time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]
        else:
            time_via = _time_via
        logger.info(f"x[{self.__axis_x_pos}] speed:{_speed:.2f}, dis:{_dis:.2f}, time_via:{time_via:.2f}")
        while bycmd.send_position_axis_x(_speed, self.__axis_x_pos) == -1 and action_run_flag.isSet():
            pass  
        time.sleep(time_via)
    def x2(self, _speed, _pos, _time_via = -1):
        # 计算绝对位置
        _dis = self.__axis_x_pos - _pos
        self.__axis_x_pos = _pos
        # 如果未指定延时时间，则按照相对位移计算延时时间
        if _time_via == -1:
            time_via = abs(_dis) * cfg["axis"]["axis_x_time_via_alpha"]
        else:
            time_via = _time_via
        logger.info(f"x[{self.__axis_x_pos}] speed:{_speed:.2f}, pos:{_pos:.2f}, time_via:{time_via:.2f}")
        while bycmd.send_position_axis_x(_speed, self.__axis_x_pos) == -1 and action_run_flag.isSet():
            pass  
        time.sleep(time_via)
    def camera(self, angle):
        while bycmd.send_angle_camera(angle) == -1 and action_run_flag.isSet():
            pass
    def claw(self, angle):
        while bycmd.send_angle_claw(angle) == -1 and action_run_flag.isSet():
            pass
        time.sleep(0.5)
    def claw_arm(self, angle):
        while bycmd.send_angle_claw_arm(angle) == -1 and action_run_flag.isSet():
            pass
        time.sleep(1)
    def scoop(self, angle):
        while bycmd.send_angle_scoop(angle) == -1 and action_run_flag.isSet():
            pass
        time.sleep(0.5)
    def storage(self, angle):
        while bycmd.send_angle_storage(angle) == -1 and action_run_flag.isSet():
            pass
        time.sleep(0.5)
    def zhuan(self, angle):
        while bycmd.send_angle_zhuan(angle) == -1 and action_run_flag.isSet():
            pass
        time.sleep(0.5)
    def wait(self, _time):
        time.sleep(_time)

# TODO 增加任务队列中非阻塞控制
class axis_cls():
    def __init__(self) -> None:
        self.axis_queue = queue.Queue()
        self.busy = False
        pass
    def z(self, _distance, _time_via = -1):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.z(20, _distance, _time_via))
        pass
    def z2(self, _position, _time_via = -1):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.z2(20, _position, _time_via))
        pass
    def x(self, _distance, _time_via = -1):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.x(1, _distance, _time_via))
        pass
    def x2(self, _position, _time_via = -1):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.x2(1, _position, _time_via))
        pass
    def camera(self, _angle):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.camera(_angle))
        pass
    def claw(self, _angle):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.claw(_angle))
        pass
    def claw_arm(self, _angle):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.claw_arm(_angle))
        pass
    def scoop(self, _angle):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.scoop(_angle))
        pass
    def storage(self, _angle):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.storage(_angle))
        pass
    def wait(self, _time):
        while self.busy is True:
            pass
        self.axis_queue.put(lambda: cmd.wait(_time))
    def pop(self):
        self.busy = True
        while self.axis_queue.qsize() > 0:
            logger.info(f"axis cmd {self.axis_queue.qsize()}")
            self.axis_queue.get()()
            self.axis_queue.task_done()
            time.sleep(0.005)
        self.busy = False
        pass
    def exec(self, _block:bool = True):
        while self.busy is True:
            pass
        if _block is True:
            self.pop()
        else:
            thread = threading.Thread(target=self.pop)
            thread.start()
        pass
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`import threading`
			`import time`
			`import zmq`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`import queue`
			`import toml`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`import numpy as np`
			`from loguru import logger`
			`from simple_pid import PID`
			`from utils import PidWrap`

			`bycmd = None`
			`move = None`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`axis = None`
			`cmd = None`

暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`action_run_flag = None`

版本暂存 2024-07-05 18:29:22 +08:00			`cfg = toml.load('/home/evan/Workplace/project_main/cfg_action.toml')`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`def import_obj(_run_flag,_bycmd):`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`global bycmd`
			`global move`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`global axis`
			`global cmd`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`global action_run_flag`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00
			`bycmd = _bycmd`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`action_run_flag = _run_flag`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`move = move_cls()`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`axis = axis_cls()`
			`cmd = cmd_cls()`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00
			`class lane_cls:`
			`def __init__(self, _speed, _time, _pid_argv = {"kp" : 1.2, "ki" : 0, "kd" : 0}) -> None:`
			`self.context = zmq.Context()`
			`self.socket = self.context.socket(zmq.REQ)`
			`self.socket.connect("tcp://localhost:6666")`
			`self.speed = _speed`
			`self.time = _time`
			`# 每 20ms 控制一次，故次数乘以 50`
			`self.count = self.time * 50`
			`logger.info(f"count = {self.count}")`
			`self.busy = False`
			`self. pid = PidWrap(_pid_argv["kp"], _pid_argv["ki"], _pid_argv["kd"], output_limits=50)`
			`pass`
			`def loop(self):`
			`while self.count >= 0:`
			`self.count -= 1`

			`self.socket.send_string("")`
			`resp = self.socket.recv_pyobj()`
			`# 检查该值是否有效`
			`ck_val = resp.get('data')`
			`if isinstance(ck_val, np.ndarray):`
			`x = ck_val[0]`
			`y = ck_val[1]`
			`else:`
			`continue`
			`err = x - 160`

			`pid_out = self.pid.get(err)`
			`bycmd.send_speed_omega(pid_out)`

			`# logger.debug(f"[任务中巡线模式]# error:{err} out:{pid_out}")`
			`time.sleep(0.012) # 时间补偿，保证控制周期 (虽然还是挺不准的)`

			`for _ in range(3):`
			`bycmd.send_speed_x(0)`
			`bycmd.send_speed_omega(0)`
			`self.busy = False`
			`logger.info("[任务中巡线模式] #结束")`
			`return`

			`def start(self):`
			`logger.info(f"[任务中巡线模式] #开启，速度：{self.speed} 时间：{self.time}")`
			`bycmd.send_speed_x(self.speed)`
			`self.busy = True`
			`thread = threading.Thread(target=self.loop)`
			`thread.start()`
			`pass`
			`def inquire(self):`
			`# logger.debug(f"[任务中巡线模式]# 查询当前 busy 状态 {self.busy}")`
			`return self.busy`

			`class move_cls:`
			`# def x(self, _speed):`
			`# bycmd.send_speed_x(_speed)`
			`# pass`
			`# def y(self, _speed):`
			`# bycmd.send_speed_y(_speed)`
			`# pass`
			`# def z(self, _speed):`
			`# bycmd.send_speed_omega(_speed)`
			`# pass`
			`def lane(self, _speed, _time):`
			`lane_obj = lane_cls(_speed, _time)`
			`lane_obj.start()`
			`# 此处为阻塞实现，非阻塞调用可直接从 lane_cls 类构造对象，然后使用查询方法`
			`# time.sleep(0.5) # 等待子线程启动`
			`while lane_obj.inquire() is True:`
			`pass`

			`# TODO 新运动指令类，指令的发送和完成查询功能，发送时开启新线程`


feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`class cmd_cls():`
			`# FIXME 延时计算时没有关联轴速度`
			`def __init__(self) -> None:`
			`# 根据设备上电复位后实际位置设置`
			`self.__axis_x_pos = 160`
			`self.__axis_z_pos = 100`
			`# self.__axis_claw_pos = 0`
			`# self.__axis_claw_arm_pos = 0`
			`# self.__axis_storage_pos = 0`
			`pass`
			`def z(self, _speed, _dis, _time_via = -1):`
			`# 设置绝对位置`
			`self.__axis_z_pos += _dis`
			`# 如果未指定延时时间，则按照相对位移计算延时时间`
			`if _time_via == -1:`
			`time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]`
			`else:`
			`time_via = _time_via`
			`logger.info(f"z[{self.__axis_z_pos}] speed:{_speed:.2f}, dis:{_dis:.2f}, time_via:{time_via:.2f}")`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_position_axis_z(_speed, self.__axis_z_pos) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(time_via)`
			`def z2(self, _speed, _pos, _time_via = -1):`
			`# 计算绝对位置`
			`_dis = self.__axis_z_pos - _pos`
			`self.__axis_z_pos = _pos`
			`# 如果未指定延时时间，则按照相对位移计算延时时间`
			`if _time_via == -1:`
			`time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]`
			`else:`
			`time_via = _time_via`
			`logger.info(f"z[{self.__axis_z_pos}] speed:{_speed:.2f}, pos:{_pos:.2f}, time_via:{time_via:.2f}")`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_position_axis_z(_speed, self.__axis_z_pos) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(time_via)`
			`def x(self, _speed, _dis, _time_via = -1):`
			`# 设置绝对位置`
			`self.__axis_x_pos += _dis`
			`# 如果未指定延时时间，则按照相对位移计算延时时间`
			`if _time_via == -1:`
			`time_via = abs(_dis) * cfg["axis"]["axis_z_time_via_alpha"]`
			`else:`
			`time_via = _time_via`
			`logger.info(f"x[{self.__axis_x_pos}] speed:{_speed:.2f}, dis:{_dis:.2f}, time_via:{time_via:.2f}")`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_position_axis_x(_speed, self.__axis_x_pos) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(time_via)`
			`def x2(self, _speed, _pos, _time_via = -1):`
			`# 计算绝对位置`
			`_dis = self.__axis_x_pos - _pos`
			`self.__axis_x_pos = _pos`
			`# 如果未指定延时时间，则按照相对位移计算延时时间`
			`if _time_via == -1:`
			`time_via = abs(_dis) * cfg["axis"]["axis_x_time_via_alpha"]`
			`else:`
			`time_via = _time_via`
			`logger.info(f"x[{self.__axis_x_pos}] speed:{_speed:.2f}, pos:{_pos:.2f}, time_via:{time_via:.2f}")`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_position_axis_x(_speed, self.__axis_x_pos) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(time_via)`
			`def camera(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_camera(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`def claw(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_claw(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(0.5)`
			`def claw_arm(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_claw_arm(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(1)`
			`def scoop(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_scoop(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(0.5)`
			`def storage(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_storage(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(0.5)`
			`def zhuan(self, angle):`
暂存 fix: 修复task多次开启问题 feat: 新增 891 参数（医院停早，红球靠外） pref: 弃用 action 类 2024-08-17 01:40:07 +08:00			`while bycmd.send_angle_zhuan(angle) == -1 and action_run_flag.isSet():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
			`time.sleep(0.5)`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def wait(self, _time):`
			`time.sleep(_time)`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`# TODO 增加任务队列中非阻塞控制`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`class axis_cls():`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`def __init__(self) -> None:`
			`self.axis_queue = queue.Queue()`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`self.busy = False`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`pass`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def z(self, _distance, _time_via = -1):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`while self.busy is True:`
			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`self.axis_queue.put(lambda: cmd.z(20, _distance, _time_via))`
			`pass`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def z2(self, _position, _time_via = -1):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`while self.busy is True:`
			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`self.axis_queue.put(lambda: cmd.z2(20, _position, _time_via))`
			`pass`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def x(self, _distance, _time_via = -1):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`while self.busy is True:`
			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`self.axis_queue.put(lambda: cmd.x(1, _distance, _time_via))`
			`pass`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def x2(self, _position, _time_via = -1):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`while self.busy is True:`
			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`self.axis_queue.put(lambda: cmd.x2(1, _position, _time_via))`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`pass`
feat: 增加动作类方法 2024-06-17 17:19:18 +08:00			`def camera(self, _angle):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.camera(_angle))`
			`pass`
			`def claw(self, _angle):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.claw(_angle))`
			`pass`
			`def claw_arm(self, _angle):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.claw_arm(_angle))`
			`pass`
			`def scoop(self, _angle):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.scoop(_angle))`
			`pass`
			`def storage(self, _angle):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.storage(_angle))`
			`pass`
			`def wait(self, _time):`
			`while self.busy is True:`
			`pass`
			`self.axis_queue.put(lambda: cmd.wait(_time))`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`def pop(self):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`self.busy = True`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`while self.axis_queue.qsize() > 0:`
			`logger.info(f"axis cmd {self.axis_queue.qsize()}")`
			`self.axis_queue.get()()`
			`self.axis_queue.task_done()`
			`time.sleep(0.005)`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`self.busy = False`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`def exec(self, _block:bool = True):`
fix: 修复动作队列线程安全问题 2024-06-16 17:52:24 +08:00			`while self.busy is True:`
			`pass`
feat: 增加动作队列 2024-06-16 17:28:00 +08:00			`if _block is True:`
			`self.pop()`
			`else:`
			`thread = threading.Thread(target=self.pop)`
			`thread.start()`
feat: 增加任务中巡线指定距离指令 2024-06-14 15:11:17 +08:00			`pass`