mi-task/task_3/task_3.py

import time
import sys
import os
import toml
import copy
import math
import lcm

# 添加父目录到路径，以便能够导入utils
sys.path.append(os.path.dirname(os.path.dirname(os.path.abspath(__file__))))
# 添加当前目录到路径，确保可以找到local文件
sys.path.append(os.path.dirname(os.path.abspath(__file__)))

from utils.log_helper import LogHelper, get_logger, section, info, debug, warning, error, success, timing
from base_move.turn_degree import turn_degree, turn_degree_v2
from base_move.go_straight import go_straight
from file_send_lcmt import file_send_lcmt

# 创建本模块特定的日志记录器
logger = get_logger("任务3")

observe = True

robot_cmd = {
    'mode':0, 'gait_id':0, 'contact':0, 'life_count':0,
    'vel_des':[0.0, 0.0, 0.0],
    'rpy_des':[0.0, 0.0, 0.0],
    'pos_des':[0.0, 0.0, 0.0],
    'acc_des':[0.0, 0.0, 0.0, 0.0, 0.0, 0.0],
    'ctrl_point':[0.0, 0.0, 0.0],
    'foot_pose':[0.0, 0.0, 0.0, 0.0, 0.0, 0.0],
    'step_height':[0.0, 0.0],
    'value':0,  'duration':0
}

def run_task_3(ctrl, msg):
    section('任务3：步态切换', "启动")
    info('开始执行任务3...', "启动")

    turn_degree_v2(ctrl, msg, 90, absolute=True)

    usergait_msg = file_send_lcmt()
    lcm_usergait = lcm.LCM("udpm://239.255.76.67:7671?ttl=255")
    
    try:
        steps = toml.load("./task_3/Gait_Params_up.toml")
        full_steps = {'step':[robot_cmd]}
        k =0
        for i in steps['step']:
            cmd = copy.deepcopy(robot_cmd)
            cmd['duration'] = i['duration']
            if i['type'] == 'usergait':                
                cmd['mode'] = 11 # LOCOMOTION
                cmd['gait_id'] = 110 # USERGAIT
                cmd['vel_des'] = i['body_vel_des']
                cmd['rpy_des'] = i['body_pos_des'][0:3]
                cmd['pos_des'] = i['body_pos_des'][3:6]
                cmd['foot_pose'][0:2] = i['landing_pos_des'][0:2]
                cmd['foot_pose'][2:4] = i['landing_pos_des'][3:5]
                cmd['foot_pose'][4:6] = i['landing_pos_des'][6:8]
                cmd['ctrl_point'][0:2] = i['landing_pos_des'][9:11]
                cmd['step_height'][0] = math.ceil(i['step_height'][0] * 1e3) + math.ceil(i['step_height'][1] * 1e3) * 1e3
                cmd['step_height'][1] = math.ceil(i['step_height'][2] * 1e3) + math.ceil(i['step_height'][3] * 1e3) * 1e3
                cmd['acc_des'] = i['weight']
                cmd['value'] = i['use_mpc_traj']
                cmd['contact'] = math.floor(i['landing_gain'] * 1e1)
                cmd['ctrl_point'][2] =  i['mu']
            if k == 0:
                full_steps['step'] = [cmd]
            else:
                full_steps['step'].append(cmd)
            k=k+1
        f = open("./task_3/Gait_Params_up_full.toml", 'w')
        f.write("# Gait Params\n")
        f.writelines(toml.dumps(full_steps))
        f.close()

        # pre
        file_obj_gait_def = open("./task_3/Gait_Def_up.toml",'r')
        file_obj_gait_params = open("./task_3/Gait_Params_up_full.toml",'r')
        usergait_msg.data = file_obj_gait_def.read()
        lcm_usergait.publish("user_gait_file",usergait_msg.encode())
        time.sleep(0.5)
        usergait_msg.data = file_obj_gait_params.read()
        lcm_usergait.publish("user_gait_file",usergait_msg.encode())
        time.sleep(0.1)
        file_obj_gait_def.close()
        file_obj_gait_params.close()

        file_obj_gait_params = open("./task_3/Gait_Params_up_full.toml",'r')
        usergait_msg.data = file_obj_gait_params.read()
        lcm_usergait.publish("user_gait_file", usergait_msg.encode())
        time.sleep(0.5)
        file_obj_gait_params.close()

        msg.mode = 62
        msg.value = 0
        msg.contact = 15
        msg.gait_id = 110
        msg.duration = 1000
        msg.life_count += 1
        
        # 参数设置
        stable_count = 0  # 用于计数z轴稳定的次数
        stable_threshold = 10  # 连续15次检测z轴不再增加则认为已经停止
        z_speed_threshold = 0.01  # z轴速度阈值，小于这个值认为已经停止爬升
        climb_speed_threshold = 0.05  # 检测到开始爬坡的速度阈值
        max_iterations = 600  # 最大循环次数，作为安全保障
        min_iterations = 200  # 最小循环次数，作为安全保障
        start_height = ctrl.odo_msg.xyz[2]  # 记录起始高度
        
        # 阶段控制
        climbing_detected = False  # 是否检测到正在爬坡
        
        info(f"开始监测里程计Z轴速度，初始高度: {start_height}", "监测")
        
        for i in range(max_iterations):
            # 发送控制命令维持心跳
            ctrl.Send_cmd(msg)
            
            # 每10次迭代打印一次当前信息
            if i % 10 == 0:
                # 获取当前Z轴位置和速度
                current_vz = ctrl.odo_msg.vxyz[2]  # z轴速度
                info(f"当前Z轴速度={current_vz:.3f}", "监测")
            
            # 获取z轴速度
            vz = ctrl.odo_msg.vxyz[2]
            
            # 检测是否开始爬坡阶段 - 使用z轴速度判断
            if not climbing_detected and vz > climb_speed_threshold:
                climbing_detected = True
                info(f"检测到开始爬坡，Z轴速度: {vz:.3f}, 当前高度: {ctrl.odo_msg.xyz[2]:.3f}", "监测")
            
            # 只有在检测到爬坡后，才开始监控Z轴是否停止增加
            if i > min_iterations and climbing_detected:
                # 如果Z轴速度接近于0或者为负，表示已经停止爬升或开始下降
                if abs(vz) < z_speed_threshold or vz < 0:
                    stable_count += 1
                    if stable_count >= stable_threshold:
                        current_height = ctrl.odo_msg.xyz[2]
                        info(f"Z轴速度趋近于0，停止循环。当前速度: {vz:.3f}, 当前高度: {current_height:.3f}", "监测")
                        break
                else:
                    # 如果Z轴仍有明显上升速度，重置稳定计数
                    stable_count = 0
            
            time.sleep(0.2)
    except KeyboardInterrupt:
        msg.mode = 7 #PureDamper before KeyboardInterrupt:
        msg.gait_id = 0
        msg.duration = 0
        msg.life_count += 1
        ctrl.Send_cmd(msg)
        pass

    section('任务3-2：直线行走', "开始")
    msg.mode = 11  # Locomotion模式
    msg.gait_id = 26  # 自变频步态
    msg.duration = 0  # wait next cmd
    msg.step_height = [0.06, 0.06]  # 抬腿高度
    msg.vel_des = [0, 0.2, 0]  # [前进速度, 侧向速度, 角速度]
    msg.life_count += 1
    ctrl.Send_cmd(msg)
    time.sleep(0.3)

    return

    section('任务3-3：down', "完成")
    try:
        steps = toml.load("./task_3/Gait_Params_up.toml")
        full_steps = {'step':[robot_cmd]}
        k = 0
        for i in steps['step']:
            cmd = copy.deepcopy(robot_cmd)
            cmd['duration'] = i['duration']
            if i['type'] == 'usergait':                
                cmd['mode'] = 11 # LOCOMOTION
                cmd['gait_id'] = 110 # USERGAIT
                cmd['vel_des'] = i['body_vel_des']
                cmd['rpy_des'] = i['body_pos_des'][0:3]
                cmd['pos_des'] = i['body_pos_des'][3:6]
                cmd['foot_pose'][0:2] = i['landing_pos_des'][0:2]
                cmd['foot_pose'][2:4] = i['landing_pos_des'][3:5]
                cmd['foot_pose'][4:6] = i['landing_pos_des'][6:8]
                cmd['ctrl_point'][0:2] = i['landing_pos_des'][9:11]
                cmd['step_height'][0] = math.ceil(i['step_height'][0] * 1e3) + math.ceil(i['step_height'][1] * 1e3) * 1e3
                cmd['step_height'][1] = math.ceil(i['step_height'][2] * 1e3) + math.ceil(i['step_height'][3] * 1e3) * 1e3
                cmd['acc_des'] = i['weight']
                cmd['value'] = i['use_mpc_traj']
                cmd['contact'] = math.floor(i['landing_gain'] * 1e1)
                cmd['ctrl_point'][2] =  i['mu']
            if k == 0:
                full_steps['step'] = [cmd]
            else:
                full_steps['step'].append(cmd)
            k=k+1
        f = open("./task_3/Gait_Params_up_full.toml", 'w')
        f.write("# Gait Params\n")
        f.writelines(toml.dumps(full_steps))
        f.close()

        # pre
        file_obj_gait_def = open("./task_3/Gait_Def_up.toml",'r')
        file_obj_gait_params = open("./task_3/Gait_Params_up_full.toml",'r')
        usergait_msg.data = file_obj_gait_def.read()
        lcm_usergait.publish("user_gait_file",usergait_msg.encode())
        time.sleep(0.5)
        usergait_msg.data = file_obj_gait_params.read()
        lcm_usergait.publish("user_gait_file",usergait_msg.encode())
        time.sleep(0.1)
        file_obj_gait_def.close()
        file_obj_gait_params.close()

        file_obj_gait_params = open("./task_3/Gait_Params_up_full.toml",'r')
        usergait_msg.data = file_obj_gait_params.read()
        lcm_usergait.publish("user_gait_file", usergait_msg.encode())
        time.sleep(0.5)
        file_obj_gait_params.close()

        msg.mode = 62
        msg.value = 0
        msg.contact = 15
        msg.gait_id = 110
        msg.duration = 1000
        msg.life_count += 1
        
        # 参数设置
        stable_count = 0  # 用于计数z轴稳定的次数
        stable_threshold = 8  # 连续10次检测z轴速度接近零则认为已经到达平地
        z_speed_threshold = 0.01  # z轴速度阈值，小于这个值认为已经停止下降
        descent_speed_threshold = -0.05  # 检测到开始下坡的速度阈值（负值表示下降）
        max_iterations = 600  # 最大循环次数，作为安全保障
        min_iterations = 100  # 最小循环次数，确保有足够的时间开始动作
        start_height = ctrl.odo_msg.xyz[2]  # 记录起始高度
        
        # 阶段控制
        descending_detected = False  # 是否检测到正在下坡
        flat_ground_detected = False  # 是否检测到已到达平地
        
        info(f"开始监测下坡过程，初始高度: {start_height}", "监测")
        
        for i in range(max_iterations):
            # 发送控制命令维持心跳
            ctrl.Send_cmd(msg)
            
            # 获取z轴速度和当前高度
            vz = ctrl.odo_msg.vxyz[2]
            current_height = ctrl.odo_msg.xyz[2]
            
            # 每10次迭代打印一次当前信息
            if observe and i % 10 == 0:
                info(f"当前Z轴速度={vz:.3f}, 当前高度={current_height:.3f}", "监测")
            
            # 检测是否开始下坡阶段 - 使用z轴速度判断（负值表示下降）
            if not descending_detected and vz < descent_speed_threshold:
                descending_detected = True
                info(f"检测到开始下坡，Z轴速度: {vz:.3f}, 当前高度: {current_height:.3f}", "监测")
            
            # 只有在检测到下坡后，才开始监控是否到达平地
            if i > min_iterations and descending_detected:
                # 如果Z轴速度接近于0，表示已经停止下降（到达平地）
                if abs(vz) < z_speed_threshold:
                    stable_count += 1
                    if stable_count >= stable_threshold:
                        info(f"检测到已到达平地，Z轴速度趋近于0，停止循环。当前速度: {vz:.3f}, 当前高度: {current_height:.3f}, 下降了: {start_height - current_height:.3f}米", "监测")
                        flat_ground_detected = True
                        break
                else:
                    # 如果Z轴仍有明显下降速度，重置稳定计数
                    stable_count = 0
            
            time.sleep(0.2)
        
        if not flat_ground_detected:
            info(f"达到最大循环次数，未能明确检测到到达平地。当前高度: {ctrl.odo_msg.xyz[2]:.3f}", "警告")
    except KeyboardInterrupt:
        msg.mode = 7 #PureDamper before KeyboardInterrupt:
        msg.gait_id = 0
        msg.duration = 0
        msg.life_count += 1
        ctrl.Send_cmd(msg)
        pass